diff options
163 files changed, 16404 insertions, 1542 deletions
diff --git a/CHICKEN.html.markdown b/CHICKEN.html.markdown index bb2f91f0..3f7cc2db 100644 --- a/CHICKEN.html.markdown +++ b/CHICKEN.html.markdown @@ -81,7 +81,7 @@ supports R5RS and R7RS (work in progress) standards and many extensions. (string-append "pine" "apple") ;; => "pineapple" (string-ref "tapioca" 3) ;; => #\i;; character 'i' is at index 3 (string->list "CHICKEN") ;; => (#\C #\H #\I #\C #\K #\E #\N) -(string->intersperse '("1" "2") ":") ;; => "1:2" +(string-intersperse '("1" "2") ":") ;; => "1:2" (string-split "1:2:3" ":") ;; => ("1" "2" "3") diff --git a/CONTRIBUTING.markdown b/CONTRIBUTING.markdown index 5fa1d03d..455c3256 100644 --- a/CONTRIBUTING.markdown +++ b/CONTRIBUTING.markdown @@ -71,3 +71,10 @@ contributors: lang: ep-ep --- ``` + +### Should I add myself as a Contributor? + +If you want to add yourself to contributors, keep in mind that contributors get +equal billing, and the first contributor usually wrote the whole article. Please +use your judgement when deciding if your contribution constitutes a substantial +addition or not. diff --git a/ISSUE_TEMPLATE.md b/ISSUE_TEMPLATE.md index 022dedab..96278da9 100644 --- a/ISSUE_TEMPLATE.md +++ b/ISSUE_TEMPLATE.md @@ -1,3 +1,12 @@ +## Is this a major issue that you cannot fix? + +**Being a community driven documents of languages and tools,"YOUR" contributions +are also important. +If the issue you're reporting is trivial to report to maintainers why not contribute +to fix it. In that way, you will have contributed to an awesome open-source project. +The changes can be typo fix, fixing of data in examples or grammar fix. If you found it, +why not do it and take full credit for it?** + Make sure the issue title is prepended with '[language/lang-code]' if the language is already on the site. If it's a request for a new language, use: '[Request] [language/lang-code]' diff --git a/asymptotic-notation.html.markdown b/asymptotic-notation.html.markdown index 6a6df968..a1dfe9e1 100644 --- a/asymptotic-notation.html.markdown +++ b/asymptotic-notation.html.markdown @@ -155,7 +155,7 @@ Small-o, commonly written as **o**, is an Asymptotic Notation to denote the upper bound (that is not asymptotically tight) on the growth rate of runtime of an algorithm. -`f(n)` is o(g(n)), if for some real constants c (c > 0) and n<sub>0</sub> (n<sub>0</sub> > 0), `f(n)` is < `c g(n)` +`f(n)` is o(g(n)), if for all real constants c (c > 0) and n<sub>0</sub> (n<sub>0</sub> > 0), `f(n)` is < `c g(n)` for every input size n (n > n<sub>0</sub>). The definitions of O-notation and o-notation are similar. The main difference @@ -168,7 +168,7 @@ Small-omega, commonly written as **ω**, is an Asymptotic Notation to denote the lower bound (that is not asymptotically tight) on the growth rate of runtime of an algorithm. -`f(n)` is ω(g(n)), if for some real constants c (c > 0) and n<sub>0</sub> (n<sub>0</sub> > 0), `f(n)` is > `c g(n)` +`f(n)` is ω(g(n)), if for all real constants c (c > 0) and n<sub>0</sub> (n<sub>0</sub> > 0), `f(n)` is > `c g(n)` for every input size n (n > n<sub>0</sub>). The definitions of Ω-notation and ω-notation are similar. The main difference diff --git a/awk.html.markdown b/awk.html.markdown index e3ea6318..de26c0a1 100644 --- a/awk.html.markdown +++ b/awk.html.markdown @@ -161,7 +161,7 @@ function arithmetic_functions(a, b, c, d) { # Most AWK implementations have some standard trig functions localvar = sin(a) localvar = cos(a) - localvar = atan2(a, b) # arc tangent of b / a + localvar = atan2(b, a) # arc tangent of b / a # And logarithmic stuff localvar = exp(a) diff --git a/bash.html.markdown b/bash.html.markdown index 0c097c27..cb805da7 100644 --- a/bash.html.markdown +++ b/bash.html.markdown @@ -25,7 +25,7 @@ Nearly all examples below can be a part of a shell script or executed directly i [Read more here.](http://www.gnu.org/software/bash/manual/bashref.html) ```bash -#!/bin/bash +#!/usr/bin/env bash # First line of the script is shebang which tells the system how to execute # the script: http://en.wikipedia.org/wiki/Shebang_(Unix) # As you already figured, comments start with #. Shebang is also a comment. @@ -74,7 +74,7 @@ echo ${Variable/Some/A} # => A string # Substring from a variable Length=7 -echo ${Variable:0:Length} # => Some st +echo ${Variable:0:$Length} # => Some st # This will return only the first 7 characters of the value # Default value for variable @@ -83,6 +83,25 @@ echo ${Foo:-"DefaultValueIfFooIsMissingOrEmpty"} # This works for null (Foo=) and empty string (Foo=""); zero (Foo=0) returns 0. # Note that it only returns default value and doesn't change variable value. +# Declare an array with 6 elements +array0=(one two three four five six) +# Print first element +echo $array0 # => "one" +# Print first element +echo ${array0[0]} # => "one" +# Print all elements +echo ${array0[@]} # => "one two three four five six" +# Print number of elements +echo ${#array0[@]} # => "6" +# Print number of characters in third element +echo ${#array0[2]} # => "5" +# Print 2 elements starting from forth +echo ${array0[@]:3:2} # => "four five" +# Print all elements. Each of them on new line. +for i in "${array0[@]}"; do + echo "$i" +done + # Brace Expansion { } # Used to generate arbitrary strings echo {1..10} # => 1 2 3 4 5 6 7 8 9 10 @@ -155,6 +174,13 @@ then echo "This will run if $Name is Daniya OR Zach." fi +# Redefine command 'ping' as alias to send only 5 packets +alias ping='ping -c 5' +# Escape alias and use command with this name instead +\ping 192.168.1.1 +# Print all aliases +alias -p + # Expressions are denoted with the following format: echo $(( 10 + 5 )) # => 15 diff --git a/bf.html.markdown b/bf.html.markdown index 69058a20..1e415a4d 100644 --- a/bf.html.markdown +++ b/bf.html.markdown @@ -1,6 +1,6 @@ --- -language: "Brainfuck" -filename: brainfuck.bf +language: bf +filename: bf.bf contributors: - ["Prajit Ramachandran", "http://prajitr.github.io/"] - ["Mathias Bynens", "http://mathiasbynens.be/"] diff --git a/c.html.markdown b/c.html.markdown index 87a047be..684d330a 100644 --- a/c.html.markdown +++ b/c.html.markdown @@ -8,6 +8,7 @@ contributors: - ["Marco Scannadinari", "https://marcoms.github.io"] - ["Zachary Ferguson", "https://github.io/zfergus2"] - ["himanshu", "https://github.com/himanshu81494"] + - ["Joshua Li", "https://github.com/JoshuaRLi"] --- Ah, C. Still **the** language of modern high-performance computing. @@ -19,11 +20,12 @@ memory management and C will take you as far as you need to go. > **About compiler flags** > > By default, gcc and clang are pretty quiet about compilation warnings and -> errors, which can be very useful information. Using some -> stricter compiler flags is recommended. Here is an example you can -> tweak to your liking: +> errors, which can be very useful information. Explicitly using stricter +> compiler flags is recommended. Here are some recommended defaults: > -> `-Wall -Wextra -Werror -O0 -ansi -pedantic -std=c11` +> `-Wall -Wextra -Werror -O2 -std=c99 -pedantic` +> +> For information on what these flags do as well as other flags, consult the man page for your C compiler (e.g. `man 1 gcc`) or just search online. ```c // Single-line comments start with // - only available in C99 and later. @@ -99,7 +101,7 @@ int main (int argc, char** argv) char y_char = 'y'; // Char literals are quoted with '' // longs are often 4 to 8 bytes; long longs are guaranteed to be at least - // 64 bits + // 8 bytes long x_long = 0; long long x_long_long = 0; diff --git a/chapel.html.markdown b/chapel.html.markdown index e9c4019a..354cd832 100644 --- a/chapel.html.markdown +++ b/chapel.html.markdown @@ -2,11 +2,11 @@ language: chapel filename: learnchapel.chpl contributors: - - ["Ian J. Bertolacci", "http://www.cs.colostate.edu/~ibertola/"] - - ["Ben Harshbarger", "http://github.com/benharsh/"] + - ["Ian J. Bertolacci", "https://www.cs.arizona.edu/~ianbertolacci/"] + - ["Ben Harshbarger", "https://github.com/benharsh/"] --- -You can read all about Chapel at [Cray's official Chapel website](http://chapel.cray.com). +You can read all about Chapel at [Cray's official Chapel website](https://chapel-lang.org). In short, Chapel is an open-source, high-productivity, parallel-programming language in development at Cray Inc., and is designed to run on multi-core PCs as well as multi-kilocore supercomputers. @@ -100,7 +100,7 @@ writeln(varCmdLineArg, ", ", constCmdLineArg, ", ", paramCmdLineArg); // be made to alias a variable other than the variable it is initialized with. // Here, refToActual refers to actual. var actual = 10; -ref refToActual = actual; +ref refToActual = actual; writeln(actual, " == ", refToActual); // prints the same value actual = -123; // modify actual (which refToActual refers to) writeln(actual, " == ", refToActual); // prints the same value @@ -444,7 +444,7 @@ arrayFromLoop = [value in arrayFromLoop] value + 1; // Procedures -// Chapel procedures have similar syntax functions in other languages. +// Chapel procedures have similar syntax functions in other languages. proc fibonacci(n : int) : int { if n <= 1 then return n; return fibonacci(n-1) + fibonacci(n-2); @@ -893,7 +893,6 @@ foo(); // We can declare a main procedure, but all the code above main still gets // executed. proc main() { - writeln("PARALLELISM START"); // A begin statement will spin the body of that statement off // into one new task. @@ -1124,16 +1123,16 @@ This tutorial is for people who want to learn the ropes of chapel without having to hear about what fiber mixture the ropes are, or how they were braided, or how the braid configurations differ between one another. It won't teach you how to develop amazingly performant code, and it's not exhaustive. -Refer to the [language specification](http://chapel.cray.com/language.html) and -the [module documentation](http://chapel.cray.com/docs/latest/) for more +Refer to the [language specification](https://chapel-lang.org/docs/latest/language/spec.html) and +the [module documentation](https://chapel-lang.org/docs/latest/) for more details. -Occasionally check back here and on the [Chapel site](http://chapel.cray.com) +Occasionally check back here and on the [Chapel site](https://chapel-lang.org) to see if more topics have been added or more tutorials created. ### What this tutorial is lacking: - * Exposition of the [standard modules](http://chapel.cray.com/docs/latest/modules/modules.html) + * Exposition of the [standard modules](https://chapel-lang.org/docs/latest/modules/standard.html) * Multiple Locales (distributed memory system) * Records * Parallel iterators @@ -1141,11 +1140,13 @@ to see if more topics have been added or more tutorials created. Your input, questions, and discoveries are important to the developers! ----------------------------------------------------------------------- -The Chapel language is still in-development (version 1.16.0), so there are +The Chapel language is still in active development, so there are occasional hiccups with performance and language features. The more information you give the Chapel development team about issues you encounter or features you -would like to see, the better the language becomes. Feel free to email the team -and other developers through the [sourceforge email lists](https://sourceforge.net/p/chapel/mailman). +would like to see, the better the language becomes. +There are several ways to interact with the developers: ++ [Gitter chat](https://gitter.im/chapel-lang/chapel) ++ [sourceforge email lists](https://sourceforge.net/p/chapel/mailman) If you're really interested in the development of the compiler or contributing to the project, [check out the master GitHub repository](https://github.com/chapel-lang/chapel). @@ -1154,12 +1155,14 @@ It is under the [Apache 2.0 License](http://www.apache.org/licenses/LICENSE-2.0) Installing the Compiler ----------------------- +[The Official Chapel documentation details how to download and compile the Chapel compiler.](https://chapel-lang.org/docs/usingchapel/QUICKSTART.html) + Chapel can be built and installed on your average 'nix machine (and cygwin). [Download the latest release version](https://github.com/chapel-lang/chapel/releases/) and it's as easy as - 1. `tar -xvf chapel-1.16.0.tar.gz` - 2. `cd chapel-1.16.0` + 1. `tar -xvf chapel-<VERSION>.tar.gz` + 2. `cd chapel-<VERSION>` 3. `source util/setchplenv.bash # or .sh or .csh or .fish` 4. `make` 5. `make check # optional` diff --git a/citron.html.markdown b/citron.html.markdown new file mode 100644 index 00000000..bd3c398c --- /dev/null +++ b/citron.html.markdown @@ -0,0 +1,212 @@ +--- +language: citron +filename: learncitron.ctr +contributors: + - ["AnotherTest", ""] +lang: en-us +--- +```ruby +# Comments start with a '#' +# All comments encompass a single line + +########################################### +## 1. Primitive Data types and Operators +########################################### + +# You have numbers +3. # 3 + +# Numbers are all doubles in interpreted mode + +# Mathematical operator precedence is not respected. +# binary 'operators' are evaluated in ltr order +1 + 1. # 2 +8 - 4. # 4 +10 + 2 * 3. # 36 + +# Division is always floating division +35 / 2 # 17.5. + +# Integer division is non-trivial, you may use floor +(35 / 2) floor # 17. + +# Booleans are primitives +True. +False. + +# Boolean messages +True not. # False +False not. # True +1 = 1. # True +1 !=: 1. # False +1 < 10. # True + +# Here, `not` is a unary message to the object `Boolean` +# Messages are comparable to instance method calls +# And they have three different forms: +# 1. Unary messages: Length > 1, and they take no arguments: + False not. +# 2. Binary Messages: Length = 1, and they take a single argument: + False & True. +# 3. Keyword messages: must have at least one ':', they take as many arguments +# as they have `:` s + False either: 1 or: 2. # 2 + +# Strings +'This is a string'. +'There are no character types exposed to the user'. +# "You cannot use double quotes for strings" <- Error + +# Strins can be summed +'Hello, ' + 'World!'. # 'Hello, World!' + +# Strings allow access to their characters +'This is a beautiful string' at: 0. # 'T' + +########################################### +## intermission: Basic Assignment +########################################### + +# You may assign values to the current scope: +var name is value. # assignes `value` into `name` + +# You may also assign values into the current object's namespace +my name is value. # assigns `value` into the current object's `name` property + +# Please note that these names are checked at compile (read parse if in interpreted mode) time +# but you may treat them as dynamic assignments anyway + +########################################### +## 2. Lists(Arrays?) and Tuples +########################################### + +# Arrays are allowed to have multiple types +Array new < 1 ; 2 ; 'string' ; Nil. # Array new < 1 ; 2 ; 'string' ; Nil + +# Tuples act like arrays, but are immutable. +# Any shenanigans degrade them to arrays, however +[1, 2, 'string']. # [1, 2, 'string'] + +# They can interoperate with arrays +[1, 'string'] + (Array new < 'wat'). # Array new < 1 ; 'string' ; 'wat' + +# Indexing into them +[1, 2, 3] at: 1. # 2 + +# Some array operations +var arr is Array new < 1 ; 2 ; 3. + +arr head. # 1 +arr tail. # Array new < 2 ; 3. +arr init. # Array new < 1 ; 2. +arr last. # 3 +arr push: 4. # Array new < 1 ; 2 ; 3 ; 4. +arr pop. # 4 +arr pop: 1. # 2, `arr` is rebound to Array new < 1 ; 3. + +# List comprehensions +[x * 2 + y,, arr, arr + [4, 5],, x > 1]. # Array ← 7 ; 9 ; 10 ; 11 +# fresh variable names are bound as they are encountered, +# so `x` is bound to the values in `arr` +# and `y` is bound to the values in `arr + [4, 5]` +# +# The general format is: [expr,, bindings*,, predicates*] + + +#################################### +## 3. Functions +#################################### + +# A simple function that takes two variables +var add is {:a:b ^a + b.}. + +# this function will resolve all its names except the formal arguments +# in the context it is called in. + +# Using the function +add applyTo: 3 and: 5. # 8 +add applyAll: [3, 5]. # 8 + +# Also a (customizable -- more on this later) pseudo-operator allows for a shorthand +# of function calls +# By default it is REF[args] + +add[3, 5]. # 8 + +# To customize this behaviour, you may simply use a compiler pragma: +#:callShorthand () + +# And then you may use the specified operator. +# Note that the allowed 'operator' can only be made of any of these: []{}() +# And you may mix-and-match (why would anyone do that?) + +add(3, 5). # 8 + +# You may also use functions as operators in the following way: + +3 `add` 5. # 8 +# This call binds as such: add[(3), 5] +# because the default fixity is left, and the default precedance is 1 + +# You may change the precedence/fixity of this operator with a pragma +#:declare infixr 1 add + +3 `add` 5. # 8 +# now this binds as such: add[3, (5)]. + +# There is another form of functions too +# So far, the functions were resolved in a dynamic fashion +# But a lexically scoped block is also possible +var sillyAdd is {\:x:y add[x,y].}. + +# In these blocks, you are not allowed to declare new variables +# Except with the use of Object::'letEqual:in:` +# And the last expression is implicitly returned. + +# You may also use a shorthand for lambda expressions +var mul is \:x:y x * y. + +# These capture the named bindings that are not present in their +# formal parameters, and retain them. (by ref) + +########################################### +## 5. Control Flow +########################################### + +# inline conditional-expressions +var citron is 1 = 1 either: 'awesome' or: 'awful'. # citron is 'awesome' + +# multiple lines is fine too +var citron is 1 = 1 + either: 'awesome' + or: 'awful'. + +# looping +10 times: {:x + Pen writeln: x. +}. # 10. -- side effect: 10 lines in stdout, with numbers 0 through 9 in them + +# Citron properly supports tail-call recursion in lexically scoped blocks +# So use those to your heart's desire + +# mapping most data structures is as simple as `fmap:` +[1, 2, 3, 4] fmap: \:x x + 1. # [2, 3, 4, 5] + +# You can use `foldl:accumulator:` to fold a list/tuple +[1, 2, 3, 4] foldl: (\:acc:x acc * 2 + x) accumulator: 4. # 90 + +# That expression is the same as +(2 * (2 * (2 * (2 * 4 + 1) + 2) + 3) + 4) + +################################### +## 6. IO +################################### + +# IO is quite simple +# With `Pen` being used for console output +# and Program::'input' and Program::'waitForInput' being used for console input + +Pen writeln: 'Hello, ocean!' # prints 'Hello, ocean!\n' to the terminal + +Pen writeln: Program waitForInput. # reads a line and prints it back +``` diff --git a/common-lisp.html.markdown b/common-lisp.html.markdown index 9a23bc26..76e7735b 100644 --- a/common-lisp.html.markdown +++ b/common-lisp.html.markdown @@ -4,82 +4,91 @@ language: "Common Lisp" filename: commonlisp.lisp contributors: - ["Paul Nathan", "https://github.com/pnathan"] + - ["Rommel Martinez", "https://ebzzry.io"] --- -ANSI Common Lisp is a general purpose, multi-paradigm programming -language suited for a wide variety of industry applications. It is -frequently referred to as a programmable programming language. +Common Lisp is a general-purpose, multi-paradigm programming language suited for a wide variety of +industry applications. It is frequently referred to as a programmable programming language. -The classic starting point is [Practical Common Lisp and freely available.](http://www.gigamonkeys.com/book/) +The classic starting point is [Practical Common Lisp](http://www.gigamonkeys.com/book/). Another +popular and recent book is [Land of Lisp](http://landoflisp.com/). A new book about best practices, +[Common Lisp Recipes](http://weitz.de/cl-recipes/), was recently published. -Another popular and recent book is -[Land of Lisp](http://landoflisp.com/). +```lisp -```common_lisp - -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;;;----------------------------------------------------------------------------- ;;; 0. Syntax -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;;;----------------------------------------------------------------------------- -;;; General form. +;;; General form -;; Lisp has two fundamental pieces of syntax: the ATOM and the -;; S-expression. Typically, grouped S-expressions are called `forms`. +;;; CL has two fundamental pieces of syntax: ATOM and S-EXPRESSION. +;;; Typically, grouped S-expressions are called `forms`. -10 ; an atom; it evaluates to itself +10 ; an atom; it evaluates to itself +:thing ; another atom; evaluating to the symbol :thing +t ; another atom, denoting true +(+ 1 2 3 4) ; an s-expression +'(4 :foo t) ; another s-expression -:THING ;Another atom; evaluating to the symbol :thing. -t ; another atom, denoting true. +;;; Comments -(+ 1 2 3 4) ; an s-expression +;;; Single-line comments start with a semicolon; use four for file-level +;;; comments, three for section descriptions, two inside definitions, and one +;;; for single lines. For example, -'(4 :foo t) ;another one +;;;; life.lisp +;;; Foo bar baz, because quu quux. Optimized for maximum krakaboom and umph. +;;; Needed by the function LINULUKO. -;;; Comments +(defun meaning (life) + "Return the computed meaning of LIFE" + (let ((meh "abc")) + ;; Invoke krakaboom + (loop :for x :across meh + :collect x))) ; store values into x, then return it -;; Single line comments start with a semicolon; use two for normal -;; comments, three for section comments, and four for file-level -;; comments. +;;; Block comments, on the other hand, allow for free-form comments. They are +;;; delimited with #| and |# -#| Block comments - can span multiple lines and... +#| This is a block comment which + can span multiple lines and #| they can be nested! |# |# -;;; Environment. -;; A variety of implementations exist; most are -;; standard-conformant. CLISP is a good starting one. +;;; Environment -;; Libraries are managed through Quicklisp.org's Quicklisp system. +;;; A variety of implementations exist; most are standards-conformant. SBCL +;;; is a good starting point. Third party libraries can be easily installed with +;;; Quicklisp -;; Common Lisp is usually developed with a text editor and a REPL -;; (Read Evaluate Print Loop) running at the same time. The REPL -;; allows for interactive exploration of the program as it is "live" -;; in the system. +;;; CL is usually developed with a text editor and a Real Eval Print +;;; Loop (REPL) running at the same time. The REPL allows for interactive +;;; exploration of the program while it is running "live". -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; -;;; 1. Primitive Datatypes and Operators -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;;;----------------------------------------------------------------------------- +;;; 1. Primitive datatypes and operators +;;;----------------------------------------------------------------------------- ;;; Symbols 'foo ; => FOO Notice that the symbol is upper-cased automatically. -;; Intern manually creates a symbol from a string. +;;; INTERN manually creates a symbol from a string. -(intern "AAAA") ; => AAAA - -(intern "aaa") ; => |aaa| +(intern "AAAA") ; => AAAA +(intern "aaa") ; => |aaa| ;;; Numbers + 9999999999999999999999 ; integers #b111 ; binary => 7 #o111 ; octal => 73 @@ -89,313 +98,362 @@ t ; another atom, denoting true. 1/2 ; ratios #C(1 2) ; complex numbers +;;; Function application are written as (f x y z ...) where f is a function and +;;; x, y, z, ... are the arguments. + +(+ 1 2) ; => 3 + +;;; If you want to create literal data, use QUOTE to prevent it from being +;;; evaluated + +(quote (+ 1 2)) ; => (+ 1 2) +(quote a) ; => A + +;;; The shorthand for QUOTE is ' + +'(+ 1 2) ; => (+ 1 2) +'a ; => A + +;;; Basic arithmetic operations + +(+ 1 1) ; => 2 +(- 8 1) ; => 7 +(* 10 2) ; => 20 +(expt 2 3) ; => 8 +(mod 5 2) ; => 1 +(/ 35 5) ; => 7 +(/ 1 3) ; => 1/3 +(+ #C(1 2) #C(6 -4)) ; => #C(7 -2) + +;;; Booleans + +t ; true; any non-NIL value is true +nil ; false; also, the empty list: () +(not nil) ; => T +(and 0 t) ; => T +(or 0 nil) ; => 0 + +;;; Characters + +#\A ; => #\A +#\λ ; => #\GREEK_SMALL_LETTER_LAMDA +#\u03BB ; => #\GREEK_SMALL_LETTER_LAMDA + +;;; Strings are fixed-length arrays of characters -;; Function application is written (f x y z ...) -;; where f is a function and x, y, z, ... are operands -;; If you want to create a literal list of data, use ' to stop it from -;; being evaluated - literally, "quote" the data. -'(+ 1 2) ; => (+ 1 2) -;; You can also call a function manually: -(funcall #'+ 1 2 3) ; => 6 -;; Some arithmetic operations -(+ 1 1) ; => 2 -(- 8 1) ; => 7 -(* 10 2) ; => 20 -(expt 2 3) ; => 8 -(mod 5 2) ; => 1 -(/ 35 5) ; => 7 -(/ 1 3) ; => 1/3 -(+ #C(1 2) #C(6 -4)) ; => #C(7 -2) - - ;;; Booleans -t ; for true (any not-nil value is true) -nil ; for false - and the empty list -(not nil) ; => t -(and 0 t) ; => t -(or 0 nil) ; => 0 - - ;;; Characters -#\A ; => #\A -#\λ ; => #\GREEK_SMALL_LETTER_LAMDA -#\u03BB ; => #\GREEK_SMALL_LETTER_LAMDA - -;;; Strings are fixed-length arrays of characters. "Hello, world!" "Benjamin \"Bugsy\" Siegel" ; backslash is an escaping character -;; Strings can be concatenated too! -(concatenate 'string "Hello " "world!") ; => "Hello world!" +;;; Strings can be concatenated + +(concatenate 'string "Hello, " "world!") ; => "Hello, world!" + +;;; A string can be treated like a sequence of characters -;; A string can be treated like a sequence of characters (elt "Apple" 0) ; => #\A -;; format can be used to format strings: -(format nil "~a can be ~a" "strings" "formatted") +;;; FORMAT is used to create formatted output, which ranges from simple string +;;; interpolation to loops and conditionals. The first argument to FORMAT +;;; determines where will the formatted string go. If it is NIL, FORMAT +;;; simply returns the formatted string as a value; if it is T, FORMAT outputs +;;; to the standard output, usually the screen, then it returns NIL. + +(format nil "~A, ~A!" "Hello" "world") ; => "Hello, world!" +(format t "~A, ~A!" "Hello" "world") ; => NIL -;; Printing is pretty easy; ~% is the format specifier for newline. -(format t "Common Lisp is groovy. Dude.~%") +;;;----------------------------------------------------------------------------- +;;; 2. Variables +;;;----------------------------------------------------------------------------- -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; -;; 2. Variables -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; -;; You can create a global (dynamically scoped) using defparameter -;; a variable name can use any character except: ()",'`;#|\ +;;; You can create a global (dynamically scoped) variable using DEFVAR and +;;; DEFPARAMETER. The variable name can use any character except: ()",'`;#|\ -;; Dynamically scoped variables should have earmuffs in their name! +;;; The difference between DEFVAR and DEFPARAMETER is that re-evaluating a +;;; DEFVAR expression doesn't change the value of the variable. DEFPARAMETER, +;;; on the other hand, does. + +;;; By convention, dynamically scoped variables have earmuffs in their name. (defparameter *some-var* 5) *some-var* ; => 5 -;; You can also use unicode characters. +;;; You can also use unicode characters. (defparameter *AΛB* nil) +;;; Accessing a previously unbound variable is an undefined behavior, but +;;; possible. Don't do it. + +;;; You can create local bindings with LET. In the following snippet, `me` is +;;; bound to "dance with you" only within the (let ...). LET always returns +;;; the value of the last `form` in the LET form. -;; Accessing a previously unbound variable is an -;; undefined behavior (but possible). Don't do it. +(let ((me "dance with you")) me) ; => "dance with you" -;; Local binding: `me` is bound to "dance with you" only within the -;; (let ...). Let always returns the value of the last `form` in the -;; let form. +;;;-----------------------------------------------------------------------------; +;;; 3. Structs and collections +;;;-----------------------------------------------------------------------------; -(let ((me "dance with you")) - me) -;; => "dance with you" -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; -;; 3. Structs and Collections -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;;; Structs -;; Structs (defstruct dog name breed age) (defparameter *rover* (make-dog :name "rover" :breed "collie" :age 5)) -*rover* ; => #S(DOG :NAME "rover" :BREED "collie" :AGE 5) - -(dog-p *rover*) ; => true #| -p signifies "predicate". It's used to - check if *rover* is an instance of dog. |# +*rover* ; => #S(DOG :NAME "rover" :BREED "collie" :AGE 5) +(dog-p *rover*) ; => T (dog-name *rover*) ; => "rover" -;; Dog-p, make-dog, and dog-name are all created by defstruct! +;;; DOG-P, MAKE-DOG, and DOG-NAME are all automatically created by DEFSTRUCT + ;;; Pairs -;; `cons' constructs pairs, `car' and `cdr' extract the first -;; and second elements -(cons 'SUBJECT 'VERB) ; => '(SUBJECT . VERB) -(car (cons 'SUBJECT 'VERB)) ; => SUBJECT -(cdr (cons 'SUBJECT 'VERB)) ; => VERB + +;;; CONS constructs pairs. CAR and CDR return the head and tail of a CONS-pair. + +(cons 'SUBJECT 'VERB) ; => '(SUBJECT . VERB) +(car (cons 'SUBJECT 'VERB)) ; => SUBJECT +(cdr (cons 'SUBJECT 'VERB)) ; => VERB + ;;; Lists -;; Lists are linked-list data structures, made of `cons' pairs and end -;; with a `nil' (or '()) to mark the end of the list -(cons 1 (cons 2 (cons 3 nil))) ; => '(1 2 3) -;; `list' is a convenience variadic constructor for lists -(list 1 2 3) ; => '(1 2 3) -;; and a quote can also be used for a literal list value -'(1 2 3) ; => '(1 2 3) +;;; Lists are linked-list data structures, made of CONS pairs and end with a +;;; NIL (or '()) to mark the end of the list + +(cons 1 (cons 2 (cons 3 nil))) ; => '(1 2 3) + +;;; LIST is a convenience variadic constructor for lists + +(list 1 2 3) ; => '(1 2 3) -;; Can still use `cons' to add an item to the beginning of a list -(cons 4 '(1 2 3)) ; => '(4 1 2 3) +;;; When the first argument to CONS is an atom and the second argument is a +;;; list, CONS returns a new CONS-pair with the first argument as the first +;;; item and the second argument as the rest of the CONS-pair -;; Use `append' to - surprisingly - append lists together -(append '(1 2) '(3 4)) ; => '(1 2 3 4) +(cons 4 '(1 2 3)) ; => '(4 1 2 3) -;; Or use concatenate - +;;; Use APPEND to join lists -(concatenate 'list '(1 2) '(3 4)) +(append '(1 2) '(3 4)) ; => '(1 2 3 4) + +;;; Or CONCATENATE + +(concatenate 'list '(1 2) '(3 4)) ; => '(1 2 3 4) + +;;; Lists are a very central type, so there is a wide variety of functionality for +;;; them, a few examples: -;; Lists are a very central type, so there is a wide variety of functionality for -;; them, a few examples: (mapcar #'1+ '(1 2 3)) ; => '(2 3 4) (mapcar #'+ '(1 2 3) '(10 20 30)) ; => '(11 22 33) (remove-if-not #'evenp '(1 2 3 4)) ; => '(2 4) -(every #'evenp '(1 2 3 4)) ; => nil +(every #'evenp '(1 2 3 4)) ; => NIL (some #'oddp '(1 2 3 4)) ; => T (butlast '(subject verb object)) ; => (SUBJECT VERB) ;;; Vectors -;; Vector's literals are fixed-length arrays -#(1 2 3) ; => #(1 2 3) - -;; Use concatenate to add vectors together -(concatenate 'vector #(1 2 3) #(4 5 6)) ; => #(1 2 3 4 5 6) +;;; Vector's literals are fixed-length arrays -;;; Arrays +#(1 2 3) ; => #(1 2 3) -;; Both vectors and strings are special-cases of arrays. +;;; Use CONCATENATE to add vectors together -;; 2D arrays +(concatenate 'vector #(1 2 3) #(4 5 6)) ; => #(1 2 3 4 5 6) -(make-array (list 2 2)) -;; (make-array '(2 2)) works as well. +;;; Arrays -; => #2A((0 0) (0 0)) +;;; Both vectors and strings are special-cases of arrays. -(make-array (list 2 2 2)) +;;; 2D arrays -; => #3A(((0 0) (0 0)) ((0 0) (0 0))) +(make-array (list 2 2)) ; => #2A((0 0) (0 0)) +(make-array '(2 2)) ; => #2A((0 0) (0 0)) +(make-array (list 2 2 2)) ; => #3A(((0 0) (0 0)) ((0 0) (0 0))) -;; Caution- the default initial values are -;; implementation-defined. Here's how to define them: +;;; Caution: the default initial values of MAKE-ARRAY are implementation-defined. +;;; To explicitly specify them: -(make-array '(2) :initial-element 'unset) +(make-array '(2) :initial-element 'unset) ; => #(UNSET UNSET) -; => #(UNSET UNSET) +;;; To access the element at 1, 1, 1: -;; And, to access the element at 1,1,1 - -(aref (make-array (list 2 2 2)) 1 1 1) +(aref (make-array (list 2 2 2)) 1 1 1) ; => 0 -; => 0 ;;; Adjustable vectors -;; Adjustable vectors have the same printed representation -;; as fixed-length vector's literals. +;;; Adjustable vectors have the same printed representation as +;;; fixed-length vector's literals. (defparameter *adjvec* (make-array '(3) :initial-contents '(1 2 3) - :adjustable t :fill-pointer t)) - + :adjustable t :fill-pointer t)) *adjvec* ; => #(1 2 3) -;; Adding new element: -(vector-push-extend 4 *adjvec*) ; => 3 - -*adjvec* ; => #(1 2 3 4) +;;; Adding new elements +(vector-push-extend 4 *adjvec*) ; => 3 +*adjvec* ; => #(1 2 3 4) -;;; Naively, sets are just lists: +;;; Sets, naively, are just lists: -(set-difference '(1 2 3 4) '(4 5 6 7)) ; => (3 2 1) -(intersection '(1 2 3 4) '(4 5 6 7)) ; => 4 -(union '(1 2 3 4) '(4 5 6 7)) ; => (3 2 1 4 5 6 7) -(adjoin 4 '(1 2 3 4)) ; => (1 2 3 4) +(set-difference '(1 2 3 4) '(4 5 6 7)) ; => (3 2 1) +(intersection '(1 2 3 4) '(4 5 6 7)) ; => 4 +(union '(1 2 3 4) '(4 5 6 7)) ; => (3 2 1 4 5 6 7) +(adjoin 4 '(1 2 3 4)) ; => (1 2 3 4) -;; But you'll want to use a better data structure than a linked list -;; for performant work! +;;; However, you'll need a better data structure than linked lists when working +;;; with larger data sets ;;; Dictionaries are implemented as hash tables. -;; Create a hash table +;;; Create a hash table + (defparameter *m* (make-hash-table)) -;; set a value +;;; Set value + (setf (gethash 'a *m*) 1) -;; Retrieve a value -(gethash 'a *m*) ; => 1, t +;;; Retrieve value + +(gethash 'a *m*) ; => 1, T + +;;; CL expressions have the ability to return multiple values. + +(values 1 2) ; => 1, 2 + +;;; which can be bound with MULTIPLE-VALUE-BIND + +(multiple-value-bind (x y) + (values 1 2) + (list y x)) + +; => '(2 1) -;; Detail - Common Lisp has multiple return values possible. gethash -;; returns t in the second value if anything was found, and nil if -;; not. +;;; GETHASH is an example of a function that returns multiple values. The first +;;; value it return is the value of the key in the hash table; if the key is +;;; not found it returns NIL. -;; Retrieving a non-present value returns nil - (gethash 'd *m*) ;=> nil, nil +;;; The second value determines if that key is indeed present in the hash +;;; table. If a key is not found in the table it returns NIL. This behavior +;;; allows us to check if the value of a key is actually NIL. + +;;; Retrieving a non-present value returns nil + +(gethash 'd *m*) ;=> NIL, NIL + +;;; You can provide a default value for missing keys -;; You can provide a default value for missing keys (gethash 'd *m* :not-found) ; => :NOT-FOUND -;; Let's handle the multiple return values here in code. +;;; Let's handle the multiple return values here in code. -(multiple-value-bind - (a b) +(multiple-value-bind (a b) (gethash 'd *m*) (list a b)) ; => (NIL NIL) -(multiple-value-bind - (a b) +(multiple-value-bind (a b) (gethash 'a *m*) (list a b)) ; => (1 T) -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; -;; 3. Functions -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; -;; Use `lambda' to create anonymous functions. -;; A function always returns the value of its last expression. -;; The exact printable representation of a function will vary... +;;;----------------------------------------------------------------------------- +;;; 3. Functions +;;;----------------------------------------------------------------------------- + +;;; Use LAMBDA to create anonymous functions. Functions always returns the +;;; value of the last expression. The exact printable representation of a +;;; function varies between implementations. (lambda () "Hello World") ; => #<FUNCTION (LAMBDA ()) {1004E7818B}> -;; Use funcall to call lambda functions -(funcall (lambda () "Hello World")) ; => "Hello World" +;;; Use FUNCALL to call anonymous functions + +(funcall (lambda () "Hello World")) ; => "Hello World" +(funcall #'+ 1 2 3) ; => 6 -;; Or Apply +;;; A call to FUNCALL is also implied when the lambda expression is the CAR of +;;; an unquoted list + +((lambda () "Hello World")) ; => "Hello World" +((lambda (val) val) "Hello World") ; => "Hello World" + +;;; FUNCALL is used when the arguments are known beforehand. Otherwise, use APPLY + +(apply #'+ '(1 2 3)) ; => 6 (apply (lambda () "Hello World") nil) ; => "Hello World" -;; De-anonymize the function -(defun hello-world () - "Hello World") +;;; To name a function, use DEFUN + +(defun hello-world () "Hello World") (hello-world) ; => "Hello World" -;; The () in the above is the list of arguments for the function -(defun hello (name) - (format nil "Hello, ~a" name)) +;;; The () in the definition above is the list of arguments +(defun hello (name) (format nil "Hello, ~A" name)) (hello "Steve") ; => "Hello, Steve" -;; Functions can have optional arguments; they default to nil +;;; Functions can have optional arguments; they default to NIL (defun hello (name &optional from) - (if from - (format t "Hello, ~a, from ~a" name from) - (format t "Hello, ~a" name))) - - (hello "Jim" "Alpacas") ;; => Hello, Jim, from Alpacas + (if from + (format t "Hello, ~A, from ~A" name from) + (format t "Hello, ~A" name))) -;; And the defaults can be set... -(defun hello (name &optional (from "The world")) - (format t "Hello, ~a, from ~a" name from)) +(hello "Jim" "Alpacas") ; => Hello, Jim, from Alpacas -(hello "Steve") -; => Hello, Steve, from The world +;;; The default values can also be specified -(hello "Steve" "the alpacas") -; => Hello, Steve, from the alpacas +(defun hello (name &optional (from "The world")) + (format nil "Hello, ~A, from ~A" name from)) +(hello "Steve") ; => Hello, Steve, from The world +(hello "Steve" "the alpacas") ; => Hello, Steve, from the alpacas -;; And of course, keywords are allowed as well... usually more -;; flexible than &optional. +;;; Functions also have keyword arguments to allow non-positional arguments (defun generalized-greeter (name &key (from "the world") (honorific "Mx")) - (format t "Hello, ~a ~a, from ~a" honorific name from)) + (format t "Hello, ~A ~A, from ~A" honorific name from)) -(generalized-greeter "Jim") ; => Hello, Mx Jim, from the world +(generalized-greeter "Jim") +; => Hello, Mx Jim, from the world (generalized-greeter "Jim" :from "the alpacas you met last summer" :honorific "Mr") ; => Hello, Mr Jim, from the alpacas you met last summer -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; -;; 4. Equality -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; -;; Common Lisp has a sophisticated equality system. A couple are covered here. +;;;----------------------------------------------------------------------------- +;;; 4. Equality +;;;----------------------------------------------------------------------------- + +;;; CL has a sophisticated equality system. Some are covered here. -;; for numbers use `=' -(= 3 3.0) ; => t -(= 2 1) ; => nil +;;; For numbers, use `=' +(= 3 3.0) ; => T +(= 2 1) ; => NIL -;; for object identity (approximately) use `eql` -(eql 3 3) ; => t -(eql 3 3.0) ; => nil -(eql (list 3) (list 3)) ; => nil +;;; For object identity (approximately) use EQL +(eql 3 3) ; => T +(eql 3 3.0) ; => NIL +(eql (list 3) (list 3)) ; => NIL -;; for lists, strings, and bit-vectors use `equal' -(equal (list 'a 'b) (list 'a 'b)) ; => t -(equal (list 'a 'b) (list 'b 'a)) ; => nil +;;; for lists, strings, and bit-vectors use EQUAL +(equal (list 'a 'b) (list 'a 'b)) ; => T +(equal (list 'a 'b) (list 'b 'a)) ; => NIL -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; -;; 5. Control Flow -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; + +;;;----------------------------------------------------------------------------- +;;; 5. Control Flow +;;;----------------------------------------------------------------------------- ;;; Conditionals @@ -404,71 +462,75 @@ nil ; for false - and the empty list "this is false") ; else expression ; => "this is true" -;; In conditionals, all non-nil values are treated as true +;;; In conditionals, all non-NIL values are treated as true + (member 'Groucho '(Harpo Groucho Zeppo)) ; => '(GROUCHO ZEPPO) (if (member 'Groucho '(Harpo Groucho Zeppo)) 'yep 'nope) ; => 'YEP -;; `cond' chains a series of tests to select a result +;;; COND chains a series of tests to select a result (cond ((> 2 2) (error "wrong!")) ((< 2 2) (error "wrong again!")) (t 'ok)) ; => 'OK -;; Typecase switches on the type of the value +;;; TYPECASE switches on the type of the value (typecase 1 (string :string) (integer :int)) - ; => :int -;;; Iteration -;; Of course recursion is supported: +;;; Looping -(defun walker (n) - (if (zerop n) - :walked - (walker (- n 1)))) +;;; Recursion -(walker 5) ; => :walked +(defun fact (n) + (if (< n 2) + 1 + (* n (fact(- n 1))))) -;; Most of the time, we use DOLIST or LOOP +(fact 5) ; => 120 +;;; Iteration -(dolist (i '(1 2 3 4)) - (format t "~a" i)) +(defun fact (n) + (loop :for result = 1 :then (* result i) + :for i :from 2 :to n + :finally (return result))) -; => 1234 +(fact 5) ; => 120 -(loop for i from 0 below 10 - collect i) +(loop :for x :across "abc" :collect x) +; => (#\a #\b #\c #\d) -; => (0 1 2 3 4 5 6 7 8 9) +(dolist (i '(1 2 3 4)) + (format t "~A" i)) +; => 1234 -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; -;; 6. Mutation -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;;;----------------------------------------------------------------------------- +;;; 6. Mutation +;;;----------------------------------------------------------------------------- -;; Use `setf' to assign a new value to an existing variable. This was -;; demonstrated earlier in the hash table example. +;;; Use SETF to assign a new value to an existing variable. This was +;;; demonstrated earlier in the hash table example. (let ((variable 10)) (setf variable 2)) - ; => 2 +; => 2 +;;; Good Lisp style is to minimize the use of destructive functions and to avoid +;;; mutation when reasonable. -;; Good Lisp style is to minimize destructive functions and to avoid -;; mutation when reasonable. -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; -;; 7. Classes and Objects -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;;;----------------------------------------------------------------------------- +;;; 7. Classes and objects +;;;----------------------------------------------------------------------------- -;; No more Animal classes, let's have Human-Powered Mechanical -;; Conveyances. +;;; No more animal classes. Let's have Human-Powered Mechanical +;;; Conveyances. (defclass human-powered-conveyance () ((velocity @@ -479,14 +541,16 @@ nil ; for false - and the empty list :initarg :average-efficiency)) (:documentation "A human powered conveyance")) -;; defclass, followed by name, followed by the superclass list, -;; followed by slot list, followed by optional qualities such as -;; :documentation. +;;; The arguments to DEFCLASS, in order are: +;;; 1. class name +;;; 2. superclass list +;;; 3. slot list +;;; 4. optional specifiers -;; When no superclass list is set, the empty list defaults to the -;; standard-object class. This *can* be changed, but not until you -;; know what you're doing. Look up the Art of the Metaobject Protocol -;; for more information. +;;; When no superclass list is set, the empty list defaults to the +;;; standard-object class. This *can* be changed, but not until you +;;; know what you're doing. Look up the Art of the Metaobject Protocol +;;; for more information. (defclass bicycle (human-powered-conveyance) ((wheel-size @@ -500,7 +564,7 @@ nil ; for false - and the empty list (defclass recumbent (bicycle) ((chain-type :accessor chain-type - :initarg :chain-type))) + :initarg :chain-type))) (defclass unicycle (human-powered-conveyance) nil) @@ -509,8 +573,7 @@ nil ; for false - and the empty list :accessor number-of-rowers :initarg :number-of-rowers))) - -;; Calling DESCRIBE on the human-powered-conveyance class in the REPL gives: +;;; Calling DESCRIBE on the HUMAN-POWERED-CONVEYANCE class in the REPL gives: (describe 'human-powered-conveyance) @@ -532,47 +595,42 @@ nil ; for false - and the empty list ; Readers: AVERAGE-EFFICIENCY ; Writers: (SETF AVERAGE-EFFICIENCY) -;; Note the reflective behavior available to you! Common Lisp is -;; designed to be an interactive system +;;; Note the reflective behavior available. CL was designed to be an +;;; interactive system -;; To define a method, let's find out what our circumference of the -;; bike wheel turns out to be using the equation: C = d * pi +;;; To define a method, let's find out what our circumference of the +;;; bike wheel turns out to be using the equation: C = d * pi (defmethod circumference ((object bicycle)) (* pi (wheel-size object))) -;; pi is defined in Lisp already for us! +;;; PI is defined as a built-in in CL -;; Let's suppose we find out that the efficiency value of the number -;; of rowers in a canoe is roughly logarithmic. This should probably be set -;; in the constructor/initializer. +;;; Let's suppose we find out that the efficiency value of the number +;;; of rowers in a canoe is roughly logarithmic. This should probably be set +;;; in the constructor/initializer. -;; Here's how to initialize your instance after Common Lisp gets done -;; constructing it: +;;; To initialize your instance after CL gets done constructing it: (defmethod initialize-instance :after ((object canoe) &rest args) (setf (average-efficiency object) (log (1+ (number-of-rowers object))))) -;; Then to construct an instance and check the average efficiency... +;;; Then to construct an instance and check the average efficiency... (average-efficiency (make-instance 'canoe :number-of-rowers 15)) ; => 2.7725887 +;;;----------------------------------------------------------------------------- +;;; 8. Macros +;;;----------------------------------------------------------------------------- - -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; -;; 8. Macros -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; - -;; Macros let you extend the syntax of the language - -;; Common Lisp doesn't come with a WHILE loop- let's add one. -;; If we obey our assembler instincts, we wind up with: +;;; Macros let you extend the syntax of the language. CL doesn't come +;;; with a WHILE loop, however, it's trivial to write one. If we obey our +;;; assembler instincts, we wind up with: (defmacro while (condition &body body) "While `condition` is true, `body` is executed. - `condition` is tested prior to each execution of `body`" (let ((block-name (gensym)) (done (gensym))) `(tagbody @@ -584,47 +642,47 @@ nil ; for false - and the empty list (go ,block-name) ,done))) -;; Let's look at the high-level version of this: - +;;; Let's look at the high-level version of this: (defmacro while (condition &body body) "While `condition` is true, `body` is executed. - `condition` is tested prior to each execution of `body`" `(loop while ,condition do (progn ,@body))) -;; However, with a modern compiler, this is not required; the LOOP -;; form compiles equally well and is easier to read. +;;; However, with a modern compiler, this is not required; the LOOP form +;;; compiles equally well and is easier to read. -;; Note that ``` is used, as well as `,` and `@`. ``` is a quote-type operator -;; known as quasiquote; it allows the use of `,` . `,` allows "unquoting" -;; variables. @ interpolates lists. +;;; Note that ``` is used, as well as `,` and `@`. ``` is a quote-type operator +;;; known as quasiquote; it allows the use of `,` . `,` allows "unquoting" +;;; variables. @ interpolates lists. -;; Gensym creates a unique symbol guaranteed to not exist elsewhere in -;; the system. This is because macros are expanded at compile time and -;; variables declared in the macro can collide with variables used in -;; regular code. +;;; GENSYM creates a unique symbol guaranteed to not exist elsewhere in +;;; the system. This is because macros are expanded at compile time and +;;; variables declared in the macro can collide with variables used in +;;; regular code. -;; See Practical Common Lisp for more information on macros. +;;; See Practical Common Lisp and On Lisp for more information on macros. ``` -## Further Reading +## Further reading + +- [Practical Common Lisp](http://www.gigamonkeys.com/book/) +- [Common Lisp: A Gentle Introduction to Symbolic Computation](https://www.cs.cmu.edu/~dst/LispBook/book.pdf) -* [Keep moving on to the Practical Common Lisp book.](http://www.gigamonkeys.com/book/) -* [A Gentle Introduction to...](https://www.cs.cmu.edu/~dst/LispBook/book.pdf) +## Extra information -## Extra Info +- [CLiki](http://www.cliki.net/) +- [common-lisp.net](https://common-lisp.net/) +- [Awesome Common Lisp](https://github.com/CodyReichert/awesome-cl) +- [Lisp Lang](http://lisp-lang.org/) -* [CLiki](http://www.cliki.net/) -* [common-lisp.net](https://common-lisp.net/) -* [Awesome Common Lisp](https://github.com/CodyReichert/awesome-cl) -## Credits. +## Credits Lots of thanks to the Scheme people for rolling up a great starting point which could be easily moved to Common Lisp. diff --git a/crystal.html.markdown b/crystal.html.markdown index 15cbc0b1..8210b443 100644 --- a/crystal.html.markdown +++ b/crystal.html.markdown @@ -301,7 +301,6 @@ end (1..3).each do |index| puts "Index: #{index}" end -# Index: 0 # Index: 1 # Index: 2 # Index: 3 @@ -422,7 +421,7 @@ class Human @name end - # The above functionality can be encapsulated using the attr_accessor method as follows + # The above functionality can be encapsulated using the propery method as follows property :name # Getter/setter methods can also be created individually like this diff --git a/cs-cz/elm.html.markdown b/cs-cz/elm.html.markdown index f19f9e8b..42ec89e5 100644 --- a/cs-cz/elm.html.markdown +++ b/cs-cz/elm.html.markdown @@ -75,8 +75,8 @@ List.head [] -- Nothing -- K získání hodnot z dvojice použijte funkce first a second. -- (Toto je pouze zkratka. Brzy si ukážeme, jak na to "správně".) -fst ("elm", 42) -- "elm" -snd ("elm", 42) -- 42 +Tuple.first ("elm", 42) -- "elm" +Tuple.second ("elm", 42) -- 42 -- Prázná n-tice, neboli "unit", se občas používá jako zástupný symbol. -- Je to jediná hodnota svého typu, který se také nazývá "Unit". diff --git a/cs-cz/markdown.html.markdown b/cs-cz/markdown.html.markdown index 568e4343..35becf94 100644 --- a/cs-cz/markdown.html.markdown +++ b/cs-cz/markdown.html.markdown @@ -13,7 +13,7 @@ Markdown byl vytvořen Johnem Gruberem v roce 2004. Je zamýšlen jako lehce či a psatelná syntaxe, která je jednoduše převeditelná do HTML (a dnes i do mnoha dalších formátů) -```markdown +```md <!-- Markdown je nadstavba nad HTML, takže jakýkoliv kód HTML je validní Markdown, to znamená, že můžeme používat HTML elementy, třeba jako komentář, a nebudou ovlivněny parserem Markdownu. Avšak, pokud vytvoříte HTML element v diff --git a/csharp.html.markdown b/csharp.html.markdown index 963f38f4..f27adf18 100644 --- a/csharp.html.markdown +++ b/csharp.html.markdown @@ -132,6 +132,12 @@ namespace Learning.CSharp DateTime fooDate = DateTime.Now; Console.WriteLine(fooDate.ToString("hh:mm, dd MMM yyyy")); + // Verbatim String + // You can use the @ symbol before a string literal to escape all characters in the string + string path = "C:\\Users\\User\\Desktop"; + string verbatimPath = @"C:\Users\User\Desktop"; + Console.WriteLine(path == verbatimPath); // => true + // You can split a string over two lines with the @ symbol. To escape " use "" string bazString = @"Here's some stuff on a new line! ""Wow!"", the masses cried"; @@ -634,6 +640,54 @@ on a new line! ""Wow!"", the masses cried"; } } + + // DELEGATES AND EVENTS + public class DelegateTest + { + public static int count = 0; + public static int Increment() + { + // increment count then return it + return ++count; + } + + // A delegate is a reference to a method + // To reference the Increment method, + // first declare a delegate with the same signature + // ie. takes no arguments and returns an int + public delegate int IncrementDelegate(); + + // An event can also be used to trigger delegates + // Create an event with the delegate type + public static event IncrementDelegate MyEvent; + + static void Main(string[] args) + { + // Refer to the Increment method by instantiating the delegate + // and passing the method itself in as an argument + IncrementDelegate inc = new IncrementDelegate(Increment); + Console.WriteLine(inc()); // => 1 + + // Delegates can be composed with the + operator + IncrementDelegate composedInc = inc; + composedInc += inc; + composedInc += inc; + + // composedInc will run Increment 3 times + Console.WriteLine(composedInc()); // => 4 + + + // Subscribe to the event with the delegate + MyEvent += new IncrementDelegate(Increment); + MyEvent += new IncrementDelegate(Increment); + + // Trigger the event + // ie. run all delegates subscribed to this event + Console.WriteLine(MyEvent()); // => 6 + } + } + + // Class Declaration Syntax: // <public/private/protected/internal> class <class name>{ // //data fields, constructors, functions all inside. @@ -949,6 +1003,7 @@ on a new line! ""Wow!"", the masses cried"; // String interpolation by prefixing the string with $ // and wrapping the expression you want to interpolate with { braces } + // You can also combine both interpolated and verbatim strings with $@ public class Rectangle { public int Length { get; set; } @@ -961,6 +1016,9 @@ on a new line! ""Wow!"", the masses cried"; { Rectangle rect = new Rectangle { Length = 5, Width = 3 }; Console.WriteLine($"The length is {rect.Length} and the width is {rect.Width}"); + + string username = "User"; + Console.WriteLine($@"C:\Users\{username}\Desktop"); } } @@ -1096,25 +1154,144 @@ namespace Learning.More.CSharp } } +//New C# 7 Feature +//Install Microsoft.Net.Compilers Latest from Nuget +//Install System.ValueTuple Latest from Nuget using System; namespace Csharp7 { - //New C# 7 Feature - //Install Microsoft.Net.Compilers Latest from Nuget - //Install System.ValueTuple Latest from Nuget - class Program - { - static void Main(string[] args) - { - //Type 1 Declaration - (string FirstName, string LastName) names1 = ("Peter", "Parker"); - Console.WriteLine(names1.FirstName); - - //Type 2 Declaration - var names2 = (First:"Peter", Last:"Parker"); - Console.WriteLine(names2.Last); - } - } + // TUPLES, DECONSTRUCTION AND DISCARDS + class TuplesTest + { + public (string, string) GetName() + { + // Fields in tuples are by default named Item1, Item2... + var names1 = ("Peter", "Parker"); + Console.WriteLine(names1.Item2); // => Parker + + // Fields can instead be explicitly named + // Type 1 Declaration + (string FirstName, string LastName) names2 = ("Peter", "Parker"); + + // Type 2 Declaration + var names3 = (First:"Peter", Last:"Parker"); + + Console.WriteLine(names2.FirstName); // => Peter + Console.WriteLine(names3.Last); // => Parker + + return names3; + } + + public string GetLastName() { + var fullName = GetName(); + + // Tuples can be deconstructed + (string firstName, string lastName) = fullName; + + // Fields in a deconstructed tuple can be discarded by using _ + var (_, last) = fullName; + return last; + } + + // Any type can be deconstructed in the same way by + // specifying a Deconstruct method + public int randomNumber = 4; + public int anotherRandomNumber = 10; + + public void Deconstruct(out int randomNumber, out int anotherRandomNumber) + { + randomNumber = this.randomNumber; + anotherRandomNumber = this.anotherRandomNumber; + } + + static void Main(string[] args) + { + var tt = new TuplesTest(); + (int num1, int num2) = tt; + Console.WriteLine($"num1: {num1}, num2: {num2}"); // => num1: 4, num2: 10 + + Console.WriteLine(tt.GetLastName()); + } + } + + // PATTERN MATCHING + class PatternMatchingTest + { + public static (string, int)? CreateLogMessage(object data) + { + switch(data) + { + // Additional filtering using when + case System.Net.Http.HttpRequestException h when h.Message.Contains("404"): + return (h.Message, 404); + case System.Net.Http.HttpRequestException h when h.Message.Contains("400"): + return (h.Message, 400); + case Exception e: + return (e.Message, 500); + case string s: + return (s, s.Contains("Error") ? 500 : 200); + case null: + return null; + default: + return (data.ToString(), 500); + } + } + } + + // REFERENCE LOCALS + // Allow you to return a reference to an object instead of just its value + class RefLocalsTest + { + // note ref in return + public static ref string FindItem(string[] arr, string el) + { + for(int i=0; i<arr.Length; i++) + { + if(arr[i] == el) { + // return the reference + return ref arr[i]; + } + } + throw new Exception("Item not found"); + } + + public static void SomeMethod() + { + string[] arr = {"this", "is", "an", "array"}; + + // note refs everywhere + ref string item = ref FindItem(arr, "array"); + item = "apple"; + Console.WriteLine(arr[3]); // => apple + } + } + + // LOCAL FUNCTIONS + class LocalFunctionTest + { + private static int _id = 0; + public int id; + public LocalFunctionTest() + { + id = generateId(); + + // This local function can only be accessed in this scope + int generateId() + { + return _id++; + } + } + + public static void AnotherMethod() + { + var lf1 = new LocalFunctionTest(); + var lf2 = new LocalFunctionTest(); + Console.WriteLine($"{lf1.id}, {lf2.id}"); // => 0, 1 + + int id = generateId(); + // error CS0103: The name 'generateId' does not exist in the current context + } + } } ``` diff --git a/cypher.html.markdown b/cypher.html.markdown index b7be544a..acd44733 100644 --- a/cypher.html.markdown +++ b/cypher.html.markdown @@ -16,19 +16,19 @@ Nodes **Represents a record in a graph.** -```()``` +`()` It's an empty *node*, to indicate that there is a *node*, but it's not relevant for the query. -```(n)``` +`(n)` It's a *node* referred by the variable **n**, reusable in the query. It begins with lowercase and uses camelCase. -```(p:Person)``` +`(p:Person)` You can add a *label* to your node, here **Person**. It's like a type / a class / a category. It begins with uppercase and uses camelCase. -```(p:Person:Manager)``` +`(p:Person:Manager)` A node can have many *labels*. -```(p:Person {name : 'Théo Gauchoux', age : 22})``` +`(p:Person {name : 'Théo Gauchoux', age : 22})` A node can have some *properties*, here **name** and **age**. It begins with lowercase and uses camelCase. The types allowed in properties : @@ -40,7 +40,7 @@ The types allowed in properties : *Warning : there isn't datetime property in Cypher ! You can use String with a specific pattern or a Numeric from a specific date.* -```p.name``` +`p.name` You can access to a property with the dot style. @@ -49,16 +49,16 @@ Relationships (or Edges) **Connects two nodes** -```[:KNOWS]``` +`[:KNOWS]` It's a *relationship* with the *label* **KNOWS**. It's a *label* as the node's label. It begins with uppercase and use UPPER_SNAKE_CASE. -```[k:KNOWS]``` +`[k:KNOWS]` The same *relationship*, referred by the variable **k**, reusable in the query, but it's not necessary. -```[k:KNOWS {since:2017}]``` +`[k:KNOWS {since:2017}]` The same *relationship*, with *properties* (like *node*), here **since**. -```[k:KNOWS*..4]``` +`[k:KNOWS*..4]` It's a structural information to use in a *path* (seen later). Here, **\*..4** says "Match the pattern, with the relationship **k** which be repeated between 1 and 4 times. @@ -67,16 +67,16 @@ Paths **The way to mix nodes and relationships.** -```(a:Person)-[:KNOWS]-(b:Person)``` +`(a:Person)-[:KNOWS]-(b:Person)` A path describing that **a** and **b** know each other. -```(a:Person)-[:MANAGES]->(b:Person)``` +`(a:Person)-[:MANAGES]->(b:Person)` A path can be directed. This path describes that **a** is the manager of **b**. -```(a:Person)-[:KNOWS]-(b:Person)-[:KNOWS]-(c:Person)``` +`(a:Person)-[:KNOWS]-(b:Person)-[:KNOWS]-(c:Person)` You can chain multiple relationships. This path describes the friend of a friend. -```(a:Person)-[:MANAGES]->(b:Person)-[:MANAGES]->(c:Person)``` +`(a:Person)-[:MANAGES]->(b:Person)-[:MANAGES]->(c:Person)` A chain can also be directed. This path describes that **a** is the boss of **b** and the big boss of **c**. Patterns often used (from Neo4j doc) : @@ -230,13 +230,13 @@ DELETE n, r Other useful clauses --- -```PROFILE``` +`PROFILE` Before a query, show the execution plan of it. -```COUNT(e)``` +`COUNT(e)` Count entities (nodes or relationships) matching **e**. -```LIMIT x``` +`LIMIT x` Limit the result to the x first results. diff --git a/dart.html.markdown b/dart.html.markdown index 5027dc3e..76857306 100644 --- a/dart.html.markdown +++ b/dart.html.markdown @@ -500,8 +500,8 @@ main() { Dart has a comprehensive web-site. It covers API reference, tutorials, articles and more, including a useful Try Dart online. -http://www.dartlang.org/ -http://try.dartlang.org/ +[https://www.dartlang.org](https://www.dartlang.org) +[https://try.dartlang.org](https://try.dartlang.org) diff --git a/de-de/LOLCODE-de.html.markdown b/de-de/LOLCODE-de.html.markdown new file mode 100644 index 00000000..57eb0ff8 --- /dev/null +++ b/de-de/LOLCODE-de.html.markdown @@ -0,0 +1,188 @@ +--- +language: LOLCODE +filename: learnLOLCODE-de.lol +contributors: + - ["abactel", "https://github.com/abactel"] +translators: + - ["Henrik Jürges", "http://github.com/santifa"] +lang: de-de +--- + +LOLCODE ist eine esoterische Programmiersprache die die Sprache der [lolcats](https://upload.wikimedia.org/wikipedia/commons/a/ab/Lolcat_in_folder.jpg?1493656347257) nachahmt. + +``` +BTW Das ist ein Kommentar +BTW Das Programm muss mit `HAI <language version>` beginnen und mit `KTHXBYE` enden. + +HAI 1.3 +CAN HAS STDIO? BTW Standard Header importieren + +OBTW + ========================================================================== + ============================== Grundlegendes ============================= + ========================================================================== +TLDR + +BTW Texte anzeigen: +VISIBLE "HELLO WORLD" + +BTW Variablen deklarieren: +I HAS A MESSAGE ITZ "CATZ ARE GOOD" +VISIBLE MESSAGE + +OBTW + Variablen sind dynamisch typisiert und der Typ muss nicht explizit + angegeben werden. Die möglichen Typen sind: +TLDR + +I HAS A STRING ITZ "DOGZ ARE GOOOD" BTW Typ ist YARN +I HAS A INTEGER ITZ 42 BTW Typ ist NUMBR +I HAS A FLOAT ITZ 3.1415 BTW Typ ist NUMBAR +I HAS A BOOLEAN ITZ WIN BTW Typ ist TROOF +I HAS A UNTYPED BTW Typ ist NOOB + +BTW Eingaben von Nutzern: +I HAS A AGE +GIMMEH AGE +BTW Die Variable wird als YARN gespeichert und kann in eine +BTW NUMBR konvertiert werden: +AGE IS NOW A NUMBR + +OBTW + ========================================================================== + ================================== MATHE ================================= + ========================================================================== +TLDR + +BTW LOLCODE benutzt polnische Notation für Mathe. + +BTW grundlegende mathematische Notationen: + +SUM OF 21 AN 33 BTW 21 + 33 +DIFF OF 90 AN 10 BTW 90 - 10 +PRODUKT OF 12 AN 13 BTW 12 * 13 +QUOSHUNT OF 32 AN 43 BTW 32 / 43 +MOD OF 43 AN 64 BTW 43 modulo 64 +BIGGR OF 23 AN 53 BTW max(23, 53) +SMALLR OF 53 AN 45 BTW min(53, 45) + +BTW binäre Notation: + +BOTH OF WIN AN WIN BTW und: WIN if x=WIN, y=WIN +EITHER OF FAIL AN WIN BTW oder: FAIL if x=FAIL, y=FAIL +WON OF WIN AN FAIL BTW exklusives oder: FAIL if x=y +NOT FAIL BTW unäre Negation: WIN if x=FAIL +ALL OF WIN AN WIN MKAY BTW beliebige Stelligkeit bei AND +ANY OF WIN AN FAIL MKAY BTW beliebige Stelligkeit bei OR + +BTW Vergleiche: + +BOTH SAEM "CAT" AN "DOG" BTW WIN wenn x == y +DIFFRINT 732 AN 184 BTW WIN wenn x != y +BOTH SAEM 12 AN BIGGR OF 12 AN 4 BTW x >= y +BOTH SAEM 43 AN SMALLR OF 43 AN 56 BTW x <= y +DIFFRINT 64 AN SMALLR OF 64 AN 2 BTW x > y +DIFFRINT 75 AN BIGGR OF 75 AN 643 BTW x < y + +OBTW + ========================================================================== + ============================= Flusskontrolle ============================= + ========================================================================== +TLDR + +BTW If/then Statement: +I HAS A ANIMAL +GIMMEH ANIMAL +BOTH SAEM ANIMAL AN "CAT", O RLY? + YA RLY + VISIBLE "YOU HAV A CAT" + MEBBE BOTH SAEM ANIMAL AN "MAUS" + VISIBLE "NOM NOM NOM. I EATED IT." + NO WAI + VISIBLE "AHHH IS A WOOF WOOF" +OIC + +BTW Case Statement: +I HAS A COLOR +GIMMEH COLOR +COLOR, WTF? + OMG "R" + VISIBLE "RED FISH" + GTFO + OMG "Y" + VISIBLE "YELLOW FISH" + BTW Weil hier kein `GTFO` ist wird auch das nächste Statement überprüft + OMG "G" + OMG "B" + VISIBLE "FISH HAS A FLAVOR" + GTFO + OMGWTF + VISIBLE "FISH IS TRANSPARENT OHNO WAT" +OIC + +BTW For Schleife: +I HAS A TEMPERATURE +GIMMEH TEMPERATURE +TEMPERATURE IS NOW A NUMBR +IM IN YR LOOP UPPIN YR ITERATOR TIL BOTH SAEM ITERATOR AN TEMPERATURE + VISIBLE ITERATOR +IM OUTTA YR LOOP + +BTW While Schleife: +IM IN YR LOOP NERFIN YR ITERATOR WILE DIFFRINT ITERATOR AN -10 + VISIBLE ITERATOR +IM OUTTA YR LOOP + +OBTW + ========================================================================= + ================================ Strings ================================ + ========================================================================= +TLDR + +BTW Zeilenumbrüche: +VISIBLE "FIRST LINE :) SECOND LINE" + +BTW Tabulatoren: +VISIBLE ":>SPACES ARE SUPERIOR" + +BTW Bell (macht beep): +VISIBLE "NXT CUSTOMER PLS :o" + +BTW Anführungszeichen in Strings: +VISIBLE "HE SAID :"I LIKE CAKE:"" + +BTW Doppelpunkte in Strings : +VISIBLE "WHERE I LIVE:: CYBERSPACE" + +OBTW + ========================================================================= + =============================== Funktionen ============================== + ========================================================================= +TLDR + +BTW Definieren einer neuen Funktion: +HOW IZ I SELECTMOVE YR MOVE BTW `MOVE` ist ein Argument + BOTH SAEM MOVE AN "ROCK", O RLY? + YA RLY + VISIBLE "YOU HAV A ROCK" + NO WAI + VISIBLE "OH NO IS A SNIP-SNIP" + OIC + GTFO BTW Gibt NOOB zurück +IF U SAY SO + +BTW Eine Funktion deklarieren und einen Wert zurückgeben: +HOW IZ I IZYELLOW + FOUND YR "YELLOW" +IF U SAY SO + +BTW Eine Funktion aufrufen: +I IZ IZYELLOW MKAY + +KTHXBYE +``` + +## Weiterführende Informationen: + +- [LCI compiler](https://github.com/justinmeza/lci) +- [Official spec](https://github.com/justinmeza/lolcode-spec/blob/master/v1.2/lolcode-spec-v1.2.md) diff --git a/de-de/dynamic-programming-de.html.markdown b/de-de/dynamic-programming-de.html.markdown new file mode 100644 index 00000000..801d2514 --- /dev/null +++ b/de-de/dynamic-programming-de.html.markdown @@ -0,0 +1,77 @@ +--- +category: Algorithms & Data Structures +name: Dynamic Programming +contributors: + - ["Akashdeep Goel", "http://github.com/akashdeepgoel"] +translators: + - ["Henrik Jürges", "http://github.com/santifa"] +lang: de-de +--- + +# Dynamische Programmierung + +## Einführung +Dynamische Programmierung ist eine leistungsfähige Technik, die zur Lösung +einer bestimmten Klasse von Problemen verwendet wird. +Die Idee ist sehr einfach, wenn Sie ein Problem mit der gegebenen Eingabe +gelöst haben, dann speichern Sie das Ergebnis für die spätere Referenz, um zu +vermeiden, das gleiche Problem noch einmal zu lösen. + +Denken Sie immer daran! +"Diejenigen, die sich nicht an die Vergangenheit erinnern können, +sind dazu verdammt, sie zu wiederholen." + +## Wege zur Lösung solcher Probleme + +1. *Top-Down*: Lösen Sie das gegebene Problem, indem Sie es aufteilen. +Wenn Sie sehen, dass das Problem bereits gelöst ist, geben Sie einfach die +gespeicherte Antwort zurück. Wenn es nicht gelöst wurde, lösen Sie es und +speichern Sie die Antwort. Dieser Ansatz ist leicht zu verfolgen und sehr +intuitiv. Er wird als Memoization bezeichnet. + +2. *Bottom-Up*: Analysieren Sie das Problem und beobachten Sie, in welcher +Reihenfolge die Teilprobleme gelöst werden können. Beginnen Sie mit der +Lösung vom trivialen Teilproblem bis zum gegebenen Problem. Dabei wird +sichergestellt, dass die Teilprobleme vor der Problemlösung gelöst werden. +Dies wird als Dynamische Programmierung bezeichnet. + +## Ein Beispiel für Dynamische Programmierung + +Das Problem mit der längsten ansteigenden Subsequenz besteht darin, +die längste ansteigende Subsequenz einer gegebenen Sequenz zu finden. +Gegeben die Sequenz `S= {a1, a2, a3, a3, a4,..............., an-1, an }`, +müssen wir die größte Teilmenge finden, so daß für alle `j` und `i`, `j<i` +in der Teilmenge `aj<ai` gilt. +Zuerst müssen wir bei jedem Index i den Wert der längsten Subsequenzen (LSi) +finden, wobei das letzte Element der Sequenz ai ist. Dann wäre die größte LSi +die längste Subsequenz in der gegebenen Sequenz. Am Anfang wird der LSi mit +eins belegt, da ai ein Element der Sequenz (Letztes Element) ist. +Dann ist für alle `j` mit `j<i` und `aj<ai`, so dass wir den größten LSj finden +und zum LSi hinzufügen. Der Algorithmus hat eine Laufzeit von *O(n2)*. + +Pseudocode zur Bestimmung der Länge der am längsten ansteigenden Subsequenz: +Die Komplexität des Algorithmus könnte durch eine bessere Datenstruktur anstelle +von Arrays reduziert werden. Das Speichern von Vorgänger-Array's und Variablen +wie `largest_sequences_so_far` und dessen Index würde eine Menge Zeit sparen. + +Ein ähnliches Konzept könnte auch bei der Suche nach dem längsten Weg +in gerichteten azyklischen Graphen angewandt werden. +```python +for i=0 to n-1 + LS[i]=1 + for j=0 to i-1 + if (a[i] > a[j] and LS[i]<LS[j]) + LS[i] = LS[j]+1 +for i=0 to n-1 + if (largest < LS[i]) +``` + +### Einige bekannte DP Probleme + +- Floyd Warshall Algorithm - [Tutorial and C Program source code](http://www.thelearningpoint.net/computer-science/algorithms-all-to-all-shortest-paths-in-graphs---floyd-warshall-algorithm-with-c-program-source-code) +- Integer Knapsack Problem - [Tutorial and C Program source code](http://www.thelearningpoint.net/computer-science/algorithms-dynamic-programming---the-integer-knapsack-problem) +- Longest Common Subsequence - [Tutorial and C Program source code](http://www.thelearningpoint.net/computer-science/algorithms-dynamic-programming---longest-common-subsequence) + +## Online Ressourcen + +* [codechef](https://www.codechef.com/wiki/tutorial-dynamic-programming) diff --git a/de-de/edn-de.html.markdown b/de-de/edn-de.html.markdown new file mode 100644 index 00000000..2434d1bd --- /dev/null +++ b/de-de/edn-de.html.markdown @@ -0,0 +1,112 @@ +--- +language: edn +filename: learnedn-de.edn +contributors: + - ["Jason Yeo", "https://github.com/jsyeo"] + - ["Jonathan D Johnston", "https://github.com/jdjohnston"] +translators: + - ["Dennis Keller", "https://github.com/denniskeller"] +lang: de-de +--- + +Extensible Data Notation (EDN) ist ein Format für serialisierte Daten. + +EDN ist ein Subset der von Clojure verwendeten Syntax. Das Lesen von Daten, die durch EDN definiert werden, ist +sicherer als das, was durch die vollständige Clojure-Syntax definiert wird, insbesondere von nicht +vertrauenswürdigen Quellen. EDN ist beschränkt auf Daten, kein Code. Es ist ähnlich in seinen Zielen zu JSON. +Obwohl es mehr in Clojure verwendet wird, gibt es verschiedene Implementationen von EDN in vielen +verschiedenen anderen Sprachen. + +Der Hauptvorteil von EDN im Gegensatz zu JSON und YAML ist, dass es erweiterbar ist. +Wir werden später sehen wie es erweitert werden kann. + +```clojure +; Kommentare starten mit einem Semikolon. +; Alles nach dem Semikolon wird ignoriert. + +;;;;;;;;;;;;;;;;;;; +;;; Basistypen ;;; +;;;;;;;;;;;;;;;;;;; + +nil ; auch bekannt in anderen Sprachen als null + +; Booleans +true +false + +; Strings werden in Gänsefüßchen eingeschlossen. +"hungarian breakfast" +"farmer's cheesy omelette" + +; Charaktere werden einem Backslash vorangestellt +\g \r \a \c \e + +; Schlüsselwörter beginnen mit einem Doppelpunkt. Sie verhalten sich wie Enums. +; Ähnlich, wie Symbole in Ruby. +:eggs +:cheese +:olives + +; Symbole werden verwendet um Identifier zu repräsentieren. Sie beginnen mit einem #. +; Du kannst einen Namespace für Symbole nutzen, wenn du / verwendest. Egal was / vorangestellt wird +; ist der Namespace dieses Namens. +#spoon +#kitchen/spoon ; nicht das selbe, wie #spoon +#kitchen/fork +#github/fork ; damit kannst du nicht essen + +; Integers und Floats +42 +3.14159 + +; Listen sind Sequenzen von Werten +(:bun :beef-patty 9 "yum!") + +; Vektoren erlauben zufälligen Zugriff +[:gelato 1 2 -2] + +; Maps sind assoziative Datenstrukturen, die einen Schlüssel mit einem Wert verbinden. +{:eggs 2 + :lemon-juice 3.5 + :butter 1} + +; Du bist nicht beschränkt ausschließlich Schlüsselwörter als Schlüssel zu verwenden. +{[1 2 3 4] "tell the people what she wore", + [5 6 7 8] "the more you see the more you hate"} + +; Du kannst Kommas für eine bessere Lesbarkeit verwenden. Sie werden wie Leerraum behandelt. +; Sets sind Sammlungen, die eindeutige Elemente enthalten. +#{:a :b 88 "huat"} + +;;;;;;;;;;;;;;;;;;;;;;;;; +;;; markierte Elemente ;;; +;;;;;;;;;;;;;;;;;;;;;;;;; + +; EDN kann erweitert werden, indem Elemente mit # Symbolen makiert werden. + +#MyYelpClone/MenuItem {:name "eggs-benedict" :rating 10} + +; Lass mich das mit einem Clojure Beispiel erklären. +; Angenommen ich möchte dieses Stück EDM in einen MenuItem record umwandeln. +(defrecord MenuItem [name rating]) + +; Um EDN in clojure Werte umzuwandeln, muss ich den eingebauten EDN Leser +; edn/read-string verwenden + +(edn/read-string "{:eggs 2 :butter 1 :flour 5}") +; -> {:eggs 2 :butter 1 :flour 5} + +; Definiere die Leserfunktion, um markierte Elemente zu transformieren +; und übergebe eine Map, die Tags den Lesefunktionen als edn / read-string zuweisen + +(edn/read-string {:readers {'MyYelpClone/MenuItem map->menu-item}} + "#MyYelpClone/MenuItem {:name \"eggs-benedict\" :rating 10}") +; -> #user.MenuItem{:name "eggs-benedict", :rating 10} + +``` + +# Referenzen + +- [EDN spec](https://github.com/edn-format/edn) +- [Implementationen](https://github.com/edn-format/edn/wiki/Implementations) +- [makierte Elemente](http://www.compoundtheory.com/clojure-edn-walkthrough/) diff --git a/de-de/go-de.html.markdown b/de-de/go-de.html.markdown index 817cb4ae..9409e181 100644 --- a/de-de/go-de.html.markdown +++ b/de-de/go-de.html.markdown @@ -94,7 +94,7 @@ Zeilenumbrüche beinhalten.` // Selber Zeichenketten-Typ // Arrays haben bei Kompile-Zeit festgelegte Größen var a4 [4]int // Ein Array mit 4 ints, alle mit Initialwert 0 - a3 := [...]int{3, 1, 5} // Ein Array mit 4 ints, Initialwerte wie angezeigt + a3 := [...]int{3, 1, 5} // Ein Array mit 3 ints, Initialwerte wie angezeigt // "slices" haben eine dynamische Größe. Arrays und Slices haben beide ihre // Vorzüge, aber slices werden viel häufiger verwendet diff --git a/de-de/html-de.html.markdown b/de-de/html-de.html.markdown index 2ee18129..0bf58f9c 100644 --- a/de-de/html-de.html.markdown +++ b/de-de/html-de.html.markdown @@ -9,7 +9,7 @@ lang: de-de --- HTML steht für HyperText Markup Language (Hypertext-Auszeichnungssprache). -Sie ist eine Sprache, um Seiten für das World Wide Web zu schreiben.. +Sie ist eine Sprache, um Seiten für das World Wide Web zu schreiben. Es ist eine Auszeichnugssprache, die es uns ermöglicht Webseiten mithilfe des Codes zu schreiben, der kennzeichnet wie Text und Daten angezeigt werden sollen. Eigentlich sind HTML Dateien nur einfache Textdateien. Was sind das für Auszeichnungen? Es ist eine Methode, um die Daten der Website zu organisieren mithilfe von Start- und Endtags. Diese Auszeichnung dient dazu dem Text Bedeutung zu geben, welchen sie umschließt. @@ -111,7 +111,7 @@ Dieser Artikel ist bedacht darauf, nur HTML Syntax und nützliche Tipps zu geben ## Verwendung -HTML Dateien enden mit `.html`. +HTML Dateien enden mit `.html` oder mit `.htm`. Der Mime Typ ist meist `text/html`. ## Um mehr zu lernen diff --git a/de-de/make-de.html.markdown b/de-de/make-de.html.markdown index 22c14a69..bc5c7bcb 100644 --- a/de-de/make-de.html.markdown +++ b/de-de/make-de.html.markdown @@ -2,6 +2,7 @@ language: make
contributors:
- ["Robert Steed", "https://github.com/robochat"]
+ - ["Stephan Fuhrmann", "https://github.com/sfuhrm"]
translators:
- ["Martin Schimandl", "https://github.com/Git-Jiro"]
filename: Makefile-de
@@ -58,7 +59,7 @@ file2.txt file3.txt: file0.txt file1.txt touch file3.txt
# Make wird sich beschweren wenn es mehrere Rezepte für die gleiche Regel gibt.
-# Leere Rezepte zählen nicht und können dazu verwendet werden weitere
+# Leere Rezepte zählen nicht und können dazu verwendet werden weitere
# Voraussetzungen hinzuzufügen.
#-----------------------------------------------------------------------
@@ -182,9 +183,9 @@ echo: name2 = Sara # Wahr innerhalb der passenden Regel und auch innerhalb # Ein paar Variablen die von Make automatisch definiert werden.
echo_inbuilt:
echo $(CC)
- echo ${CXX)}
+ echo ${CXX}
echo $(FC)
- echo ${CFLAGS)}
+ echo ${CFLAGS}
echo $(CPPFLAGS)
echo ${CXXFLAGS}
echo $(LDFLAGS)
diff --git a/de-de/markdown-de.html.markdown b/de-de/markdown-de.html.markdown index 2c838660..cccf5e68 100644 --- a/de-de/markdown-de.html.markdown +++ b/de-de/markdown-de.html.markdown @@ -14,7 +14,7 @@ Syntax, in der sich Dokumente leicht schreiben *und* lesen lassen. Außerdem sollte Markdown sich leicht nach HTML (und in andere Formate) konvertieren lassen. -```markdown +```md <!-- Markdown ist eine Obermenge von HTML - jede valide HTML-Datei ist also automatisch valides Markdown - was heisst dass wir jedes HTML-Element (also auch Kommentare) in Markdown benutzen können, ohne dass der Parser sie verändert. @@ -253,4 +253,4 @@ Ganz schön hässlich | vielleicht doch lieber | wieder aufhören Mehr Informationen gibt es in [John Gruber's offiziellem Blog-Post](http://daringfireball.net/projects/markdown/syntax) und bei Adam Pritchards [grandiosem Cheatsheet](https://github.com/adam-p/markdown-here/wiki/Markdown-Cheatsheet). -Infos zu GitHub Flavored Markdown [gibt es hier](https://help.github.com/articles/github-flavored-markdown).
\ No newline at end of file +Infos zu GitHub Flavored Markdown [gibt es hier](https://help.github.com/articles/github-flavored-markdown). diff --git a/de-de/nix-de.html.markdown b/de-de/nix-de.html.markdown new file mode 100644 index 00000000..79b60d20 --- /dev/null +++ b/de-de/nix-de.html.markdown @@ -0,0 +1,358 @@ +--- +language: nix +filename: learnnix-de.nix +contributors: + - ["Chris Martin", "http://chris-martin.org/"] +translators: + - ["Dennis Keller", "https://github.com/denniskeller"] +lang: de-de +--- + +Nix ist eine simple funktionale Programmiersprache, die für den +[Nix package manager](https://nixos.org/nix/) und +[NixOS](https://nixos.org/) entwickelt wurde. + +Du kannst Nix Ausdrücke evaluieren mithilfe von +[nix-instantiate](https://nixos.org/nix/manual/#sec-nix-instantiate) +oder [`nix-repl`](https://github.com/edolstra/nix-repl). + +``` +with builtins; [ + + # Kommentare + #========================================= + + # Inline Kommentare sehen so aus. + + /* Multizeilen Kommentare + sehen so aus. */ + + + # Booleans + #========================================= + + (true && false) # Und + #=> false + + (true || false) # Oder + #=> true + + (if 3 < 4 then "a" else "b") # Bedingungen + #=> "a" + + + # Integers + #========================================= + + # Integers sind die einzigen numerischen Typen. + + 1 0 42 (-3) # Einige integers + + (4 + 6 + 12 - 2) # Addition + #=> 20 + + (7 / 2) # Division + #=> 3 + + + # Strings + #========================================= + + "String Literale sind in Anführungszeichen." + + " + String Literale können mehrere + Zeilen umspannen. + " + + '' + Dies wird als Literal mit eingerückten String bezeichnet. + Es entfernt intelligent führende Leerzeichen. + '' + + '' + a + b + '' + #=> "a\n b" + + ("ab" + "cd") # String Konkatenation + #=> "abcd" + + # Mit Antiquotation kannst du Werte in Strings einbetten. + ("Dein Homeverzeichnis ist ${getEnv "HOME"}") + #=> "Dein Homeverzeichnis ist /home/alice" + + + # Paths + #========================================= + + # Nix besitzt einen primitiven Datentyp für Pfade + /tmp/tutorials/learn.nix + + # Ein relativer Pfad wird beim Parsing zu einem absoluten Pfad aufgelöst, + # relativ zu der Datei in der es auftritt. + tutorials/learn.nix + #=> /the-base-path/tutorials/learn.nix + + # Ein Pfad muss mindestens einen Schrägstrich enthalten. Ein Pfad für eine + # Datei im selben Verzeichnis benötigt ein ./ Präfix. + ./learn.nix + #=> /the-base-path/learn.nix + + # Der / Operator muss von Leerraum umgeben sein wenn du dividieren möchtest. + 7/2 # Das ist ein Pfadliteral + (7 / 2) # Das ist ein Integerliteral + + + # Importe + #========================================= + + # Eine nix Datei besitzt einen einzelnen top-level Ausdruck mit keinen freien Variablen. + # Ein Import-Ausdruck wird zum Wert der Datei, die importiert wird, ausgewertet. + (import /tmp/foo.nix) + + # Importe können ebenso mit Strings spezifiziert werden. + (import "/tmp/foo.nix") + + # Import Pfade müssen absolut sein. Pfadliterale + # sind automatisch aufgelöst, das ist ein Ordnung. + (import ./foo.nix) + + # Jedoch passiert dies nicht mit Strings. + (import "./foo.nix") + #=> error: string ‘foo.nix’ doesn't represent an absolute path + + + # Let + #========================================= + + # `let` Blöcke erlauben es uns Werte zu Variablen zu binden. + (let x = "a"; in + x + x + x) + #=> "aaa" + + # Bindungen können auf sich gegenseitig verweisen. Die Reihenfolge spielt + # keine Rolle. + (let y = x + "b"; + x = "a"; in + y + "c") + #=> "abc" + + # Innere Bindungen überschatten Äußere. + (let a = 1; in + let a = 2; in + a) + #=> 2 + + + # Funktionen + #========================================= + + (n: n + 1) # Funktion, die 1 addiert + + ((n: n + 1) 5) # Dieselbe Funktion angewendet auf 5. + #=> 6 + + # Es gibt keine spezielle Syntax für benannte Funktionen, aber sie + # können mit `let` Blöcken, wie jeder andere Wert auch, gebunden werden. + (let succ = (n: n + 1); in succ 5) + #=> 6 + + # Eine Funktion hat genau ein Argument. + # Mehrere Argumente können erreicht werden mithilfe von Currying. + ((x: y: x + "-" + y) "a" "b") + #=> "a-b" + + # Benannte Funktionsargumente gibt es auch. Diese werden wir einführen, nachdem wir uns Sets + # angeschaut haben. + + # Listen + #========================================= + + # Listen werden durch eckige Klammern gekennzeichnet. + + (length [1 2 3 "x"]) + #=> 4 + + ([1 2 3] ++ [4 5]) + #=> [1 2 3 4 5] + + (concatLists [[1 2] [3 4] [5]]) + #=> [1 2 3 4 5] + + (head [1 2 3]) + #=> 1 + (tail [1 2 3]) + #=> [2 3] + + (elemAt ["a" "b" "c" "d"] 2) + #=> "c" + + (elem 2 [1 2 3]) + #=> true + (elem 5 [1 2 3]) + #=> false + + (filter (n: n < 3) [1 2 3 4]) + #=> [ 1 2 ] + + + # Sets + #========================================= + + # Ein "Set" ist eine ungeordnete Zuordnung mit Stringschlüsseln. + { foo = [1 2]; bar = "x"; } + + # Der . Operator nimmt einen Wert aus dem Set. + { a = 1; b = 2; }.a + #=> 1 + + # Der ? Operator testet, ob der Schlüssel in dem Set vorhanden ist. + ({ a = 1; b = 2; } ? a) + #=> true + ({ a = 1; b = 2; } ? c) + #=> false + + # Der // Operator mergt zwei Sets. + ({ a = 1; } // { b = 2; }) + #=> { a = 1; b = 2; } + + # Werte auf der rechten Seite überschreiben die Werte auf der linken Seite. + ({ a = 1; b = 2; } // { a = 3; c = 4; }) + #=> { a = 3; b = 2; c = 4; } + + # Das Schlüsselwort rec bezeichenet ein "rekursives Set", in dem sich Attribute + # aufeinander beziehen können. + (let a = 1; in { a = 2; b = a; }.b) + #=> 1 + (let a = 1; in rec { a = 2; b = a; }.b) + #=> 2 + + # Verschachtelte Sets können stückweise definiert werden. + { + a.b = 1; + a.c.d = 2; + a.c.e = 3; + }.a.c + #=> { d = 2; e = 3; } + + # Die Nachkommen eines Attributs können in diesem Feld nicht zugeordnet werden, wenn + # das Attribut selbst nicht zugewiesen wurde. + { + a = { b = 1; }; + a.c = 2; + } + #=> error: attribute ‘a’ already defined + + + # With + #========================================= + + # Der Körper eines Sets Blocks wird mit der Zuordnung eines Satzes an die Variablen gebunden. + (with { a = 1; b = 2; }; + a + b) + # => 3 + + # Innere Bindungen überschatten äußere Bindungen. + (with { a = 1; b = 2; }; + (with { a = 5; }; + a + b)) + #=> 7 + + # Die erste Linie diese Tutorials startet mit "with builtins;", + # weil builtins ein Set mit allen eingebauten + # Funktionen (length, head, tail, filter, etc.) umfasst. + # Das erspart uns beispielsweise "builtins.length" zu schreiben, + # anstatt nur "length". + + + # Set patterns + #========================================= + + # Sets sind nützlich, wenn du mehrere Werte einer Funktion + # übergeben musst. + (args: args.x + "-" + args.y) { x = "a"; y = "b"; } + #=> "a-b" + + # Dies kann mit Hilfe von Set patterns deutlicher geschrieben werden. + ({x, y}: x + "-" + y) { x = "a"; y = "b"; } + #=> "a-b" + + # Standardmäßig schlägt das Muster bei Sets mit zusätzlichen Schlüsseln fehl. + ({x, y}: x + "-" + y) { x = "a"; y = "b"; z = "c"; } + #=> error: anonymous function called with unexpected argument ‘z’ + + # Durch Hinzufügen von ", ..." können zusätzliche Schlüssel ignoriert werden. + ({x, y, ...}: x + "-" + y) { x = "a"; y = "b"; z = "c"; } + #=> "a-b" + + + # Errors + #========================================= + + # `throw` bewirkt, dass die Auswertung mit einer Fehlermeldung abgebrochen wird. + (2 + (throw "foo")) + #=> error: foo + + # `tryEval` fängt geworfene Fehler. + (tryEval 42) + #=> { success = true; value = 42; } + (tryEval (2 + (throw "foo"))) + #=> { success = false; value = false; } + + # `abort` ist ähnlich wie throw, aber es ist fatal. Es kann nicht gefangen werden. + (tryEval (abort "foo")) + #=> error: evaluation aborted with the following error message: ‘foo’ + + # `assert` evaluiert zu dem gegebenen Wert, wenn die Bedingung wahr ist, sonst + # löst es eine abfangbare Exception aus. + (assert 1 < 2; 42) + #=> 42 + (assert 1 > 2; 42) + #=> error: assertion failed at (string):1:1 + (tryEval (assert 1 > 2; 42)) + #=> { success = false; value = false; } + + + # Impurity + #========================================= + + # Da die Wiederholbarkeit von Builds für den Nix Packetmanager entscheidend ist, + # werden in der Nix Sprache reine funktionale Elemente betont. Es gibt aber ein paar + # unreine Elemente. + # Du kannst auf Umgebungsvariablen verweisen. + (getEnv "HOME") + #=> "/home/alice" + + # Die trace Funktion wird zum Debugging verwendet. Sie gibt das erste Argument zu stderr aus + # und evaluiert das zweite Argument. + (trace 1 2) + #=> trace: 1 + #=> 2 + + # Du kannst Dateien in den Nix Store schreiben. Obwohl unrein, kannst du dir relativ sicher sein, + # dass es sicher ist, da der Dateiname aus dem Hash des Inhalts abgeleitet wird. + # Du kannst Dateien von überall lesen. In diesem Beispiel schreiben wir Dateien in den Store + # und lesen wieder davon. + (let filename = toFile "foo.txt" "hello!"; in + [filename (builtins.readFile filename)]) + #=> [ "/nix/store/ayh05aay2anx135prqp0cy34h891247x-foo.txt" "hello!" ] + + # Außerdem können wir Dateien in den Nix Store herunterladen. + (fetchurl "https://example.com/package-1.2.3.tgz") + #=> "/nix/store/2drvlh8r57f19s9il42zg89rdr33m2rm-package-1.2.3.tgz" + +] +``` + +### Weitere Ressourcen + +* [Nix Manual - Nix expression language] + (https://nixos.org/nix/manual/#ch-expression-language) + +* [James Fisher - Nix by example - Part 1: The Nix expression language] + (https://medium.com/@MrJamesFisher/nix-by-example-a0063a1a4c55) + +* [Susan Potter - Nix Cookbook - Nix By Example] + (http://funops.co/nix-cookbook/nix-by-example/) diff --git a/de-de/pyqt-de.html.markdown b/de-de/pyqt-de.html.markdown new file mode 100644 index 00000000..93ee20d4 --- /dev/null +++ b/de-de/pyqt-de.html.markdown @@ -0,0 +1,89 @@ +--- +category: tool +tool: PyQT +filename: learnpyqt-de.py +contributors: + - ["Nathan Hughes", "https://github.com/sirsharpest"] +translators: + - ["Dennis Keller", "https://github.com/denniskeller"] +lang: de-de +--- + +**Qt** ist eine weit bekanntes Framework mit den man plattformunabhängige Programme schreiben kann, +die auf verschiedenen Sotfware und Hardware Plattformen laufen mit kleinen oder keinen Änderungen im Code. +Dabei besitzen sie trozdem die Power und Geschwindigkeit von nativen Anwendungen. +**Qt** wurde ursprünglich in *C++** geschrieben. + +Das ist eine Adaption von dem C++ Intro für QT von [Aleksey Kholovchuk](https://github.com/vortexxx192), +manche der Codebeispiele sollte in der selben Funktionalität resultieren. +Diese Version wurde in pyqt erstellt. + +```python +import sys +from PyQt4 import QtGui + +def window(): + # Erschafft ein Anwendungsobjekt. + app = QtGui.QApplication(sys.argv) + # Erschafft ein Widget, auf dem unser Label platziert wird. + w = QtGui.QWidget() + # Fügt ein Label zu dem Widget hinzu. + b = QtGui.QLabel(w) + # Setzt einen Text für das Label. + b.setText("Hello World!") + # Setzt die Größe und die Platzierungsinfomationen. + w.setGeometry(100, 100, 200, 50) + b.move(50, 20) + # Setzt unserem Fenster einen schönen Titel. + w.setWindowTitle("PyQt") + # Lässt alles anzeigen. + w.show() + # Führe alles aus, nachdem wir alles aufgebaut haben. + sys.exit(app.exec_()) + +if __name__ == '__main__': + window() + +``` + +Damit wir weitere fortgeschrittene Funktionen in **pyqt** verwenden können, +müssen wir anfangen zusätzliche Elemente zu bauen. +Hier zeigen wir wie man eine Dialog Popup Box einführt. +Diese ist nützlich, um den Benutzer eine Entscheidung zu bestätigen oder um Informationen anzuzeigen. + +```Python +import sys +from PyQt4.QtGui import * +from PyQt4.QtCore import * + + +def window(): + app = QApplication(sys.argv) + w = QWidget() + # Erschafft einen Knopf und fügt das Widget w hinzu + b = QPushButton(w) + b.setText("drücke mich") + b.move(50, 50) + # Wenn b gedrückt wird, wird diese Funktion aufgerufen. + # Bemerke das Fehlen von () bei dem Funktionsaufruf. + b.clicked.connect(showdialog) + w.setWindowTitle("PyQt Dialog") + w.show() + sys.exit(app.exec_()) + +# Diese Funktion soll ein Dialogfenster mit einem Knopf erschaffen. +# Der Knopf wartet bis er geklickt wird und beendet das Programm +def showdialog(): + d = QDialog() + b1 = QPushButton("ok", d) + b1.move(50, 50) + d.setWindowTitle("Dialog") + # Diese Modalität sagt dem Popup, dass es den Parent blocken soll, solange es aktiv ist. + d.setWindowModality(Qt.ApplicationModal) + # Beim klicken möchte ich, dass der gesamte Prozess beendet wird. + b1.clicked.connect(sys.exit) + d.exec_() + +if __name__ == '__main__': + window() +``` diff --git a/de-de/python3-de.html.markdown b/de-de/python3-de.html.markdown index 33897225..b313727c 100644 --- a/de-de/python3-de.html.markdown +++ b/de-de/python3-de.html.markdown @@ -152,7 +152,7 @@ print("Ich bin Python. Schön, dich kennenzulernen!") some_var = 5 # kleinschreibung_mit_unterstrichen entspricht der Norm some_var #=> 5 -# Das Ansprechen einer noch nicht deklarierte Variable löst eine Exception aus. +# Das Ansprechen einer noch nicht deklarierten Variable löst eine Exception aus. # Unter "Kontrollstruktur" kann noch mehr über # Ausnahmebehandlung erfahren werden. some_unknown_var # Löst einen NameError aus @@ -225,7 +225,7 @@ a, b, c = (1, 2, 3) # a ist jetzt 1, b ist jetzt 2 und c ist jetzt 3 # Tupel werden standardmäßig erstellt, wenn wir uns die Klammern sparen d, e, f = 4, 5, 6 # Es ist kinderleicht zwei Werte zu tauschen -e, d = d, e # d is now 5 and e is now 4 +e, d = d, e # d ist nun 5 und e ist nun 4 # Dictionarys (Wörterbucher) speichern Schlüssel-Werte-Paare @@ -379,8 +379,8 @@ with open("meineDatei.txt") as f: print(line) # Python bietet ein fundamentales Konzept der Iteration. -# Das Objekt, auf das die Interation, also die Wiederholung einer Methode angewandt wird heißt auf Englisch "iterable". -# Die range Method gibt ein solches Objekt aus. +# Das Objekt, auf das die Iteration, also die Wiederholung einer Methode angewandt wird heißt auf Englisch "iterable". +# Die range Methode gibt ein solches Objekt aus. filled_dict = {"one": 1, "two": 2, "three": 3} our_iterable = filled_dict.keys() @@ -396,8 +396,8 @@ our_iterable[1] # TypeError # Ein iterable ist ein Objekt, das weiß wie es einen Iteratoren erschafft. our_iterator = iter(our_iterable) -# Unser Iterator ist ein Objekt, das sich merkt, welchen Status es geraden hat während wir durch es gehen. -# Das jeweeils nächste Objekt bekommen wir mit "next()" +# Unser Iterator ist ein Objekt, das sich merkt, welchen Status es gerade hat während wir durch es gehen. +# Das jeweils nächste Objekt bekommen wir mit "next()" next(our_iterator) #=> "one" # Es hält den vorherigen Status @@ -442,7 +442,7 @@ def keyword_args(**kwargs): # Rufen wir es mal auf, um zu sehen, was passiert keyword_args(big="foot", loch="ness") #=> {"big": "foot", "loch": "ness"} -# Wir können beides gleichzeitig machem, wenn wir wollen +# Wir können beides gleichzeitig machen, wenn wir wollen def all_the_args(*args, **kwargs): print(args) print(kwargs) diff --git a/de-de/qt-de.html.markdown b/de-de/qt-de.html.markdown new file mode 100644 index 00000000..480030fe --- /dev/null +++ b/de-de/qt-de.html.markdown @@ -0,0 +1,175 @@ +--- +category: tool +tool: Qt Framework +language: c++ +filename: learnqt-de.cpp +contributors: + - ["Aleksey Kholovchuk", "https://github.com/vortexxx192"] +translators: + - ["Dennis Keller", "https://github.com/denniskeller"] +lang: de-de +--- + +**Qt** ist ein weithin bekanntes Framework zum Entwickeln von cross-platform Software, +die auf verschiedenen Hard- und Softwareplatformen mit wenig oder keinen Veränderungen im Code läuft. +Dabei besitzt man die Power und Geschiwindigkeit von nativen Anwendungen. +Obwohl **Qt** ursprünglich in *C++* geschrieben wurde, +gibt es verschiedene Ports für andere Sprachen: *[PyQt](https://learnxinyminutes.com/docs/pyqt/)*, *QtRuby*, *PHP-Qt*, etc. + +**Qt** eignet sich hervorragend zum Erstellen von Anwendungen mit grafischer Benutzeroberfläche (GUI). +Dieses Tutorial zeigt, wie man das in *C++* macht. + +```c++ +/* + * Lass uns klassisch starten + */ + +// Alle Header vom Qt Framework starten mit dem Großbuchstaben 'Q'. +#include <QApplication> +#include <QLineEdit> + +int main(int argc, char *argv[]) { + // Erstellt ein Objekt um applikationsweit die Resourcen zu managen. + QApplication app(argc, argv); + + // Erstellt ein Line edit Widget und zeigt es auf dem Bildschirm + QLineEdit lineEdit("Hello world!"); + lineEdit.show(); + + // Startet die Event Loop der Anwendung. + return app.exec(); +} +``` + +Die GUI bezogene Teile von **Qt** bestehen aus *Widgets* und den *Verbindungen* +dazwischen. + +[Lies mehr über Widgets](http://doc.qt.io/qt-5/qtwidgets-index.html) + +```c++ +/* + * Lass uns Label und einen Button machen. + * Ein Label soll auftauchen, wenn der Button gedrückt wird. + * + * Der Qt Code spricht für sich selbst. + */ + +#include <QApplication> +#include <QDialog> +#include <QVBoxLayout> +#include <QPushButton> +#include <QLabel> + +int main(int argc, char *argv[]) { + QApplication app(argc, argv); + + QDialog dialogWindow; + dialogWindow.show(); + + // Füge ein vertikales Layout hinzu + QVBoxLayout layout; + dialogWindow.setLayout(&layout); + + QLabel textLabel("Danke für das Knopf drücken"); + layout.addWidget(&textLabel); + textLabel.hide(); + + QPushButton button("Drück mich"); + layout.addWidget(&button); + + // Zeigt verstecktes Label, wenn der Button gedrückt wird. + QObject::connect(&button, &QPushButton::pressed, + &textLabel, &QLabel::show); + + return app.exec(); +} +``` + +Beachte den *QObject::connect* Teil. Diese Methode wird verwendet, +um *Signale* eines Objekts mit den *Slots* eines Objektes zu verbinden. + +**Signale** werden ausgegeben, wenn bestimmte Dinge mit Objekten passieren. +Beispielsweise wird das *pressed* Signal ausgegeben, +wenn der Benutzer auf das QPushButton Objekt drückt. + +**Slots** sind Aktionen, die als Reaktion auf empfangene Signale ausgeführt werden können. + +[Lies mehr über Slots und Signale](http://doc.qt.io/qt-5/signalsandslots.html) + + +Als Nächstes lernen wir, dass wir nicht nur Standard Widgets verwenden können, +sondern auch ihr Verhalten mithilfe von Vererbung verändern können. +Lass uns einen Button erschaffen, der zählt, wie häufig er gedrückt wird. +Dafür definieren wir unsere eigene Klasse *CounterLabel*. +Diese muss wegen der speziellen Qt Architektur in einer seperaten Datei deklariert werden. + +```c++ +// counterlabel.hpp + +#ifndef COUNTERLABEL +#define COUNTERLABEL + +#include <QLabel> + +class CounterLabel : public QLabel { + Q_OBJECT // Qt definiertes Makro, welches in jedem modifizierten Widget vorhanden sein muss. + +public: + CounterLabel() : counter(0) { + setText("Zähler wurde noch nicht erhöht."); // Methode von QLabel + } + +public slots: + // Aktion, die ausgeführt wird, wenn der Button gedrückt wird. + void increaseCounter() { + setText(QString("Zähler Wert: %1").arg(QString::number(++counter))); + } + +private: + int counter; +}; + +#endif // Zähllabel +``` + +```c++ +// main.cpp +// Fast das Gleiche, wie das vorherige Beispiel + +#include <QApplication> +#include <QDialog> +#include <QVBoxLayout> +#include <QPushButton> +#include <QString> +#include "counterlabel.hpp" + +int main(int argc, char *argv[]) { + QApplication app(argc, argv); + + QDialog dialogWindow; + dialogWindow.show(); + + QVBoxLayout layout; + dialogWindow.setLayout(&layout); + + CounterLabel counterLabel; + layout.addWidget(&counterLabel); + + QPushButton button("Drück mich nochmal."); + layout.addWidget(&button); + QObject::connect(&button, &QPushButton::pressed, + &counterLabel, &CounterLabel::increaseCounter); + + return app.exec(); +} +``` + +Das wars! Natürlich ist das Qt Framework erheblich größer, als der der Teil der in diesem Tutorial behandelt wurde. +Das heißt, es gibt viel zu lesen und zu üben. + +## Further reading + +- [Qt 4.8 tutorials](http://doc.qt.io/qt-4.8/tutorials.html) +- [Qt 5 tutorials](http://doc.qt.io/qt-5/qtexamplesandtutorials.html) + +Viel Erfolg und viel Spaß! diff --git a/dynamic-programming.html.markdown b/dynamic-programming.html.markdown index 7df367e7..4db8e92e 100644 --- a/dynamic-programming.html.markdown +++ b/dynamic-programming.html.markdown @@ -26,7 +26,7 @@ The Longest Increasing Subsequence problem is to find the longest increasing sub First of all we have to find the value of the longest subsequences(LSi) at every index i with last element of sequence being ai. Then largest LSi would be the longest subsequence in the given sequence. To begin LSi is assigned to be one since ai is element of the sequence(Last element). Then for all `j` such that `j<i` and `aj<ai`, we find Largest LSj and add it to LSi. Then algorithm take *O(n2)* time. Pseudo-code for finding the length of the longest increasing subsequence: -This algorithms complexity could be reduced by using better data structure rather than array. Storing predecessor array and variable like largest_sequences_so_far and its index would save a lot time. +This algorithms complexity could be reduced by using better data structure rather than array. Storing predecessor array and variable like `largest_sequences_so_far` and its index would save a lot time. Similar concept could be applied in finding longest path in Directed acyclic graph. diff --git a/edn.html.markdown b/edn.html.markdown index 04346eb8..f47853f0 100644 --- a/edn.html.markdown +++ b/edn.html.markdown @@ -44,13 +44,13 @@ false :cheese :olives -; Symbols are used to represent identifiers. They start with #. +; Symbols are used to represent identifiers. ; You can namespace symbols by using /. Whatever precedes / is -; the namespace of the name. -#spoon -#kitchen/spoon ; not the same as #spoon -#kitchen/fork -#github/fork ; you can't eat with this +; the namespace of the symbol. +spoon +kitchen/spoon ; not the same as spoon +kitchen/fork +github/fork ; you can't eat with this ; Integers and floats 42 @@ -84,22 +84,26 @@ false #MyYelpClone/MenuItem {:name "eggs-benedict" :rating 10} -; Let me explain this with a clojure example. Suppose I want to transform that +; Let me explain this with a Clojure example. Suppose I want to transform that ; piece of EDN into a MenuItem record. (defrecord MenuItem [name rating]) -; To transform EDN to clojure values, I will need to use the built in EDN -; reader, edn/read-string +; defrecord defined, among other things, map->MenuItem which will take a map +; of field names (as keywords) to values and generate a user.MenuItem record -(edn/read-string "{:eggs 2 :butter 1 :flour 5}") +; To transform EDN to Clojure values, I will need to use the built-in EDN +; reader, clojure.edn/read-string + +(clojure.edn/read-string "{:eggs 2 :butter 1 :flour 5}") ; -> {:eggs 2 :butter 1 :flour 5} -; To transform tagged elements, define the reader function and pass a map -; that maps tags to reader functions to edn/read-string like so +; To transform tagged elements, pass to clojure.edn/read-string an option map +; with a :readers map that maps tag symbols to data-reader functions, like so -(edn/read-string {:readers {'MyYelpClone/MenuItem map->menu-item}} - "#MyYelpClone/MenuItem {:name \"eggs-benedict\" :rating 10}") +(clojure.edn/read-string + {:readers {'MyYelpClone/MenuItem map->MenuItem}} + "#MyYelpClone/MenuItem {:name \"eggs-benedict\" :rating 10}") ; -> #user.MenuItem{:name "eggs-benedict", :rating 10} ``` diff --git a/elm.html.markdown b/elm.html.markdown index 23ae9eeb..ad80adc9 100644 --- a/elm.html.markdown +++ b/elm.html.markdown @@ -72,8 +72,8 @@ List.head [] -- Nothing -- Access the elements of a pair with the first and second functions. -- (This is a shortcut; we'll come to the "real way" in a bit.) -fst ("elm", 42) -- "elm" -snd ("elm", 42) -- 42 +Tuple.first ("elm", 42) -- "elm" +Tuple.second ("elm", 42) -- 42 -- The empty tuple, or "unit", is sometimes used as a placeholder. -- It is the only value of its type, also called "Unit". diff --git a/es-es/awk-es.html.markdown b/es-es/awk-es.html.markdown index 307ba817..0516ea92 100644 --- a/es-es/awk-es.html.markdown +++ b/es-es/awk-es.html.markdown @@ -166,7 +166,7 @@ function arithmetic_functions(a, b, c, localvar) { # trigonométricas estándar localvar = sin(a) localvar = cos(a) - localvar = atan2(a, b) # arcotangente de b / a + localvar = atan2(b, a) # arcotangente de b / a # Y cosas logarítmicas localvar = exp(a) diff --git a/es-es/bf-es.html.markdown b/es-es/bf-es.html.markdown index 90c6202f..df1ae2e7 100644 --- a/es-es/bf-es.html.markdown +++ b/es-es/bf-es.html.markdown @@ -1,6 +1,6 @@ --- -language: Brainfuck -filename: brainfuck-es.bf +language: bf +filename: bf-es.bf contributors: - ["Prajit Ramachandran", "http://prajitr.github.io/"] - ["Mathias Bynens", "http://mathiasbynens.be/"] diff --git a/es-es/csharp-es.html.markdown b/es-es/csharp-es.html.markdown index 5d730497..72a0f90c 100644 --- a/es-es/csharp-es.html.markdown +++ b/es-es/csharp-es.html.markdown @@ -5,7 +5,7 @@ contributors: - ["Irfan Charania", "https://github.com/irfancharania"] - ["Max Yankov", "https://github.com/golergka"] translators: - - ["Olfran Jiménez", "https://twitter.com/neslux"] + - ["Olfran Jiménez", "https://twitter.com/neslux"] lang: es-es --- diff --git a/es-es/learnsmallbasic-es.html.markdown b/es-es/learnsmallbasic-es.html.markdown index 21208792..ff320afb 100644 --- a/es-es/learnsmallbasic-es.html.markdown +++ b/es-es/learnsmallbasic-es.html.markdown @@ -18,7 +18,7 @@ SmallBASIC fue desarrollado originalmente por Nicholas Christopoulos a finales d Versiones de SmallBASIC se han hecho para una serie dispositivos de mano antiguos, incluyendo Franklin eBookman y el Nokia 770. También se han publicado varias versiones de escritorio basadas en una variedad de kits de herramientas GUI, algunas de las cuales han desaparecido. Las plataformas actualmente soportadas son Linux y Windows basadas en SDL2 y Android basadas en NDK. También está disponible una versión de línea de comandos de escritorio, aunque no suele publicarse en formato binario. Alrededor de 2008 una gran corporación lanzó un entorno de programación BASIC con un nombre de similar. SmallBASIC no está relacionado con este otro proyecto. -```SmallBASIC +``` REM Esto es un comentario ' y esto tambien es un comentario diff --git a/es-es/markdown-es.html.markdown b/es-es/markdown-es.html.markdown index 0505b4cb..e23a94ea 100644 --- a/es-es/markdown-es.html.markdown +++ b/es-es/markdown-es.html.markdown @@ -14,7 +14,7 @@ fácilmente a HTML (y, actualmente, otros formatos también). ¡Denme toda la retroalimentación que quieran! / ¡Sientanse en la libertad de hacer forks o pull requests! -```markdown +```md <!-- Markdown está basado en HTML, así que cualquier archivo HTML es Markdown válido, eso significa que podemos usar elementos HTML en Markdown como, por ejemplo, el comentario y no serán afectados por un parseador Markdown. Aún diff --git a/es-es/objective-c-es.html.markdown b/es-es/objective-c-es.html.markdown index bdbce524..26cd14d9 100644 --- a/es-es/objective-c-es.html.markdown +++ b/es-es/objective-c-es.html.markdown @@ -13,7 +13,7 @@ Objective C es el lenguaje de programación principal utilizado por Apple para l Es un lenguaje de programación para propósito general que le agrega al lenguaje de programación C una mensajería estilo "Smalltalk". -```objective_c +```objectivec // Los comentarios de una sola línea inician con // /* diff --git a/es-es/perl6-es.html.markdown b/es-es/perl6-es.html.markdown new file mode 100644 index 00000000..bf3ae65e --- /dev/null +++ b/es-es/perl6-es.html.markdown @@ -0,0 +1,1935 @@ +--- +name: perl6 +category: language +language: perl6 +filename: perl6-es.p6 +contributors: + - ["vendethiel", "http://github.com/vendethiel"] + - ["Samantha McVey", "https://cry.nu"] +translators: + - ["Luis F. Uceta", "https://github.com/uzluisf"] +lang: es-es +--- + +Perl 6 es un lenguaje de programación altamente capaz y con características +abundantes para hacerlo el lenguage ideal por los próximos 100 años. + +El compilador primario de Perl 6 se llama [Rakudo](http://rakudo.org), el cual +se ejecuta en JVM y en [MoarVM](http://moarvm.com). + +Meta-nota: dos signos de números (##) son usados para indicar párrafos, +mientras que un solo signo de número (#) indica notas. + +`#=>` representa la salida de un comando. + +```perl6 +# Un comentario de una sola línea comienza con un signo de número + +#`( + Comentarios multilíneas usan #` y signos de encerradura tales + como (), [], {}, 「」, etc. +) +``` + +## Variables + +```perl6 +## En Perl 6, se declara una variable lexical usando `my` +my $variable; +## Perl 6 tiene 3 tipos básicos de variables: escalares, arrays, y hashes. +``` + +### Escalares + +```perl6 +# Un escalar representa un solo valor. Variables escalares comienzan +# con un `$` + +my $str = 'Cadena'; +# Las comillas inglesas ("") permiten la intepolación (lo cual veremos +# luego): +my $str2 = "Cadena"; + +## Los nombres de variables pueden contener pero no terminar con comillas +## simples y guiones. Sin embargo, pueden contener +## (y terminar con) guiones bajos (_): +my $nombre'de-variable_ = 5; # Esto funciona! + +my $booleano = True; # `True` y `False` son valores booleanos en Perl 6. +my $inverso = !$booleano; # Puedes invertir un booleano con el operador prefijo `!` +my $bool-forzado = so $str; # Y puedes usar el operador prefijo `so` que + # convierte su operador en un Bool +``` + +### Arrays y Listas + +```perl6 +## Un array representa varios valores. Variables arrays comienzan con `@`. +## Las listas son similares pero son un tipo inmutable. + +my @array = 'a', 'b', 'c'; +# equivalente a: +my @letras = <a b c>; # array de palabras, delimitado por espacios. + # Similar al qw de perl5, o el %w de Ruby. +my @array = 1, 2, 3; + +say @array[2]; # Los índices de un array empiezan por el 0 -- Este es + # el tercer elemento. + +say "Interpola todos los elementos de un array usando [] : @array[]"; +#=> Interpola todos los elementos de un array usando [] : 1 2 3 + +@array[0] = -1; # Asigna un nuevo valor a un índice del array +@array[0, 1] = 5, 6; # Asigna varios valores + +my @llaves = 0, 2; +@array[@llaves] = @letras; # Asignación usando un array que contiene valores + # índices +say @array; #=> a 6 b +``` + +### Hashes, o Pairs (pares) de llaves-valores. + +```perl6 +## Un hash contiene parejas de llaves y valores. +## Puedes construir un objeto Pair usando la sintaxis `LLave => Valor`. +## Tablas de hashes son bien rápidas para búsqueda, y son almacenadas +## sin ningún orden. +## Ten en cuenta que las llaves son "aplanadas" en contexto de hash, y +## cualquier llave duplicada es deduplicada. +my %hash = 1 => 2, + 3 => 4; +my %hash = foo => "bar", # las llaves reciben sus comillas + # automáticamente. + "some other" => "value", # las comas colgantes estań bien. + ; + +## Aunque los hashes son almacenados internamente de forma diferente a los +## arrays, Perl 6 te permite crear un hash usando un array +## con un número par de elementos fácilmente. +my %hash = <llave1 valor1 llave2 valor2>; + +my %hash = llave1 => 'valor1', llave2 => 'valor2'; # ¡el mismo resultado! + +## También puedes usar la sintaxis "pareja con dos puntos": +## (especialmente útil para parámetros nombrados que verás más adelante) +my %hash = :w(1), # equivalente a `w => 1` + # esto es útil para el atajo `True`: + :truey, # equivalente a `:truey(True)`, o `truey => True` + # y para el `False`: + :!falsey, # equivalente a `:falsey(False)`, o `falsey => False` + ; + +say %hash{'llave1'}; # Puedes usar {} para obtener el valor de una llave +say %hash<llave2>; # Si es una cadena de texto, puedes actualmente usar <> + # (`{llave1}` no funciona, debido a que Perl 6 no tiene + # palabras desnudas (barewords en inglés)) +``` + +## Subrutinas + +```perl6 +## Subrutinas, o funciones como otros lenguajes las llaman, son +## creadas con la palabra clave `sub`. +sub di-hola { say "¡Hola, mundo!" } + +## Puedes proveer argumentos (tipados). Si especificado, +## el tipo será chequeado al tiempo de compilación si es posible. +## De lo contrario, al tiempo de ejecución. +sub di-hola-a(Str $nombre) { + say "¡Hola, $nombre!"; +} + +## Una subrutina devuelve el último valor evaluado del bloque. +sub devolver-valor { + 5; +} +say devolver-valor; # imprime 5 +sub devolver-vacio { +} +say devolver-vacio; # imprime Nil + +## Algunas estructuras de control producen un valor. Por ejemplo if: +sub devuelva-si { + if True { + "Truthy"; + } +} +say devuelva-si; # imprime Truthy + +## Otras no, como un bucle for: +sub return-for { + for 1, 2, 3 { } +} +say return-for; # imprime Nil + +## Una subrutina puede tener argumentos opcionales: +sub con-opcional($arg?) { # el signo "?" marca el argumento opcional + say "Podría returnar `(Any)` (valor de Perl parecido al 'null') si no me pasan + un argumento, o returnaré mi argumento"; + $arg; +} +con-opcional; # devuelve Any +con-opcional(); # devuelve Any +con-opcional(1); # devuelve 1 + +## También puedes proveer un argumento por defecto para +## cuando los argumentos no son proveídos: +sub hola-a($nombre = "Mundo") { + say "¡Hola, $nombre!"; +} +hola-a; #=> ¡Hola, Mundo! +hola-a(); #=> ¡Hola, Mundo! +hola-a('Tú'); #=> ¡Hola, Tú! + +## De igual manera, al usar la sintaxis parecida a la de los hashes +## (¡Hurra, sintaxis unificada!), puedes pasar argumentos *nombrados* +## a una subrutina. Ellos son opcionales, y por defecto son del tipo "Any". +sub con-nombre($arg-normal, :$nombrado) { + say $arg-normal + $nombrado; +} +con-nombre(1, nombrado => 6); #=> 7 +## Sin embargo, debes tener algo en cuenta aquí: +## Si pones comillas alrededor de tu llave, Perl 6 no será capaz de verla +## al tiempo de compilación, y entonces tendrás un solo objeto Pair como +## un argumento posicional, lo que significa que el siguiente ejemplo +## falla: +con-nombre(1, 'nombrado' => 6); + +con-nombre(2, :nombrado(5)); #=> 7 + +## Para hacer un argumento nombrado mandatorio, puedes utilizar el +## inverso de `?`, `!`: +sub con-nombre-mandatorio(:$str!) { + say "$str!"; +} +con-nombre-mandatorio(str => "Mi texto"); #=> Mi texto! +con-nombre-mandatorio; # error al tiempo de ejecución: + # "Required named parameter not passed" + # ("Parámetro nombrado requerido no proveído") +con-nombre-mandatorio(3);# error al tiempo de ejecución: + # "Too many positional parameters passed" + # ("Demasiados argumentos posicionales proveídos") + +## Si una subrutina toma un argumento booleano nombrado ... +sub toma-un-bool($nombre, :$bool) { + say "$nombre toma $bool"; +} +## ... puedes usar la misma sintaxis de hash de un "booleano corto": +takes-a-bool('config', :bool); # config toma True +takes-a-bool('config', :!bool); # config toma False + +## También puedes proveer tus argumentos nombrados con valores por defecto: +sub nombrado-definido(:$def = 5) { + say $def; +} +nombrado-definido; #=> 5 +nombrado-definido(def => 15); #=> 15 + +## Dado que puedes omitir los paréntesis para invocar una función sin +## argumentos, necesitas usar "&" en el nombre para almacenar la función +## `di-hola` en una variable. +my &s = &di-hola; +my &otra-s = sub { say "¡Función anónima!" } + +## Una subrutina puede tener un parámetro "slurpy", o "no importa cuantos", +## indicando que la función puede recibir cualquier número de parámetros. +sub muchos($principal, *@resto) { #`*@` (slurpy) consumirá lo restante +## Nota: Puedes tener parámetros *antes que* un parámetro "slurpy" (como +## aquí) pero no *después* de uno. + say @resto.join(' / ') ~ "!"; +} +say muchos('Feliz', 'Cumpleaño', 'Cumpleaño'); #=> Feliz / Cumpleaño! + # Nota que el asterisco (*) no + # consumió el parámetro frontal. + +## Puedes invocar un función con un array usando el +## operador "aplanador de lista de argumento" `|` +## (actualmente no es el único rol de este operador pero es uno de ellos) +sub concat3($a, $b, $c) { + say "$a, $b, $c"; +} +concat3(|@array); #=> a, b, c + # `@array` fue "aplanado" como parte de la lista de argumento +``` + +## Contenedores + +```perl6 +## En Perl 6, valores son actualmente almacenados en "contenedores". +## El operador de asignación le pregunta al contenedor en su izquierda +## almacenar el valor a su derecha. Cuando se pasan alrededor, contenedores +## son marcados como inmutables. Esto significa que, en una función, tu +## tendrás un error si tratas de mutar uno de tus argumentos. +## Si realmente necesitas hacerlo, puedes preguntar por un contenedor +## mutable usando `is rw`: +sub mutar($n is rw) { + $n++; + say "¡\$n es ahora $n!"; +} + +my $m = 42; +mutar $m; # ¡$n es ahora 43! + +## Esto funciona porque estamos pasando el contenedor $m para mutarlo. Si +## intentamos pasar un número en vez de pasar una variable, no funcionará +## dado que no contenedor ha sido pasado y números enteros son inmutables +## por naturaleza: + +mutar 42; # Parámetro '$n' esperaba un contenedor mutable, + # pero recibió un valor Int + +## Si en cambio quieres una copia, debes usar `is copy`. + +## Por si misma, una subrutina devuelve un contenedor, lo que significa +## que puede ser marcada con rw: +my $x = 42; +sub x-almacena() is rw { $x } +x-almacena() = 52; # En este caso, los paréntesis son mandatorios + # (porque de otra forma, Perl 6 piensa que la función + # `x-almacena` es un identificador). +say $x; #=> 52 +``` + +## Estructuras de control +### Condicionales + +```perl6 +## - `if` +## Antes de hablar acerca de `if`, necesitamos saber cuales valores son +## "Truthy" (representa True (verdadero)), y cuales son "Falsey" +## (o "Falsy") -- representa False (falso). Solo estos valores son +## Falsey: 0, (), {}, "", Nil, un tipo (como `Str` o`Int`) y +## por supuesto False. Todos los valores son Truthy. +if True { + say "¡Es verdadero!"; +} + +unless False { + say "¡No es falso!"; +} + +## Como puedes observar, no necesitas paréntesis alrededor de condiciones. +## Sin embargo, necesitas las llaves `{}` alrededor del cuerpo de un bloque: +# if (true) say; # !Esto no funciona! + +## También puedes usar sus versiones sufijos seguidas por la palabra clave: +say "Un poco verdadero" if True; + +## - La condicional ternaria, "?? !!" (como `x ? y : z` en otros lenguajes) +## devuelve $valor-si-verdadera si la condición es verdadera y +## $valor-si-falsa si es falsa. +## my $resultado = $valor condición ?? $valor-si-verdadera !! $valor-si-falsa; + +my $edad = 30; +say $edad > 18 ?? "Eres un adulto" !! "Eres menor de 18"; +``` + +### given/when, ó switch + +```perl6 +## - `given`-`when` se parece al `switch` de otros lenguajes, pero es más +## poderoso gracias a la coincidencia inteligente ("smart matching" en inglés) +## y la "variable tópica" $_ de Perl. +## +## Esta variable ($_) contiene los argumentos por defecto de un bloque, +## la iteración actual de un loop (a menos que sea explícitamente +## nombrado), etc. +## +## `given` simplemente pone su argumento en `$_` (como un bloque lo haría), +## y `when` lo compara usando el operador de "coincidencia inteligente" (`~~`). +## +## Dado que otras construcciones de Perl 6 usan esta variable (por ejemplo, +## el bucle `for`, bloques, etc), esto se significa que el poderoso `when` no +## solo se aplica con un `given`, sino que se puede usar en cualquier +## lugar donde exista una variable `$_`. + +given "foo bar" { + say $_; #=> foo bar + when /foo/ { # No te preocupies acerca de la coincidencia inteligente – + # solo ten presente que `when` la usa. + # Esto es equivalente a `if $_ ~~ /foo/`. + say "¡Yay!"; + } + when $_.chars > 50 { # coincidencia inteligente con cualquier cosa True es True, + # i.e. (`$a ~~ True`) + # por lo tanto puedes también poner condiciones "normales". + # Este `when` es equivalente a este `if`: + # if $_ ~~ ($_.chars > 50) {...} + # que significa: + # if $_.chars > 50 {...} + say "¡Una cadena de texto bien larga!"; + } + default { # lo mismo que `when *` (usando la Whatever Star) + say "Algo más"; + } +} +``` + +### Construcciones de bucle + +```perl6 +## - `loop` es un bucle infinito si no le pasas sus argumentos, +## pero también puede ser un bucle for al estilo de C: +loop { + say "¡Este es un bucle infinito!"; + last; # last interrumpe el bucle, como la palabra clave `break` + # en otros lenguajes. +} + +loop (my $i = 0; $i < 5; $i++) { + next if $i == 3; # `next` salta a la siguiente iteración, al igual + # que `continue` en otros lenguajes. Ten en cuenta que + # también puedes usar la condicionales postfix (sufijas) + # bucles, etc. + say "¡Este es un bucle al estilo de C!"; +} + +## - `for` - Hace iteraciones en un array +for @array -> $variable { + say "¡He conseguido una $variable!"; +} + +## Como vimos con `given`, la variable de una "iteración actual" por defecto +## es `$_`. Esto significa que puedes usar `when` en un bucle `for` como +## normalmente lo harías con `given`. +for @array { + say "he conseguido a $_"; + + .say; # Esto es también permitido. + # Una invocación con punto (dot call) sin "tópico" (recibidor) es + # enviada a `$_` por defecto. + $_.say; # lo mismo de arriba, lo cual es equivalente. +} + +for @array { + # Puedes... + next if $_ == 3; # Saltar a la siguiente iteración (`continue` en + # lenguages parecido a C) + redo if $_ == 4; # Re-hacer la iteración, manteniendo la + # misma variable tópica (`$_`) + last if $_ == 5; # Salir fuera del bucle (como `break` + # en lenguages parecido a C) +} + +## La sintaxis de "bloque puntiagudo" no es específica al bucle for. +## Es solo una manera de expresar un bloque en Perl 6. +if computación-larga() -> $resultado { + say "El resultado es $resultado"; +} +``` + +## Operadores + +```perl6 +## Dados que los lenguajes de la familia Perl son lenguages basados +## mayormente en operadores, los operadores de Perl 6 son actualmente +## subrutinas un poco cómicas en las categorías sintácticas. Por ejemplo, +## infix:<+> (adición) o prefix:<!> (bool not). + +## Las categorías son: +## - "prefix" (prefijo): anterior a (como `!` en `!True`). +## - "postfix" (sufijo): posterior a (como `++` en `$a++`). +## - "infix" (infijo): en medio de (como `*` en `4 * 3`). +## - "circumfix" (circunfijo): alrededor de (como `[`-`]` en `[1, 2]`). +## - "post-circumfix" (pos-circunfijo): alrededor de un término, +## posterior a otro término. +## (como `{`-`}` en `%hash{'key'}`) + +## La lista de asociatividad y precedencia se explica más abajo. + +## ¡Bueno, ya estás listo(a)! + +## * Chequeando igualdad + +## - `==` se usa en comparaciones numéricas. +3 == 4; # Falso +3 != 4; # Verdadero + +## - `eq` se usa en comparaciones de cadenas de texto. +'a' eq 'b'; +'a' ne 'b'; # no igual +'a' !eq 'b'; # lo mismo que lo anterior + +## - `eqv` es equivalencia canónica (or "igualdad profunda") +(1, 2) eqv (1, 3); + +## - Operador de coincidencia inteligente (smart matching): `~~` +## Asocia (aliasing en inglés) el lado izquierda a la variable $_ +## y después evalúa el lado derecho. +## Aquí algunas comparaciones semánticas comunes: + +## Igualdad de cadena de texto o numérica + +'Foo' ~~ 'Foo'; # True si las cadenas de texto son iguales. +12.5 ~~ 12.50; # True si los números son iguales. + +## Regex - Para la comparación de una expresión regular en contra +## del lado izquierdo. Devuelve un objeto (Match), el cual evalúa +## como True si el regex coincide con el patrón. + +my $obj = 'abc' ~~ /a/; +say $obj; # 「a」 +say $obj.WHAT; # (Match) + +## Hashes +'llave' ~~ %hash; # True si la llave existe en el hash + +## Tipo - Chequea si el lado izquierdo "tiene un tipo" (puede chequear +## superclases y roles) + +1 ~~ Int; # True (1 es un número entero) + +## Coincidencia inteligente contra un booleano siempre devuelve ese +## booleano (y lanzará una advertencia). + +1 ~~ True; # True +False ~~ True; # True + +## La sintaxis general es $arg ~~ &función-returnando-bool; +## Para una lista completa de combinaciones, usa esta tabla: +## http://perlcabal.org/syn/S03.html#Smart_matching + +## También, por supuesto, tienes `<`, `<=`, `>`, `>=`. +## Sus equivalentes para cadenas de texto están disponibles: +## `lt`, `le`, `gt`, `ge`. +3 > 4; + +## * Constructores de rango +3 .. 7; # 3 a 7, ambos incluidos +## `^` en cualquier lado excluye a ese lado: +3 ^..^ 7; # 3 a 7, no incluidos (básicamente `4 .. 6`) +## Esto también funciona como un atajo para `0..^N`: +^10; # significa 0..^10 + +## Esto también nos permite demostrar que Perl 6 tiene arrays +## ociosos/infinitos, usando la Whatever Star: +my @array = 1..*; # 1 al Infinito! `1..Inf` es lo mismo. +say @array[^10]; # puedes pasar arrays como subíndices y devolverá + # un array de resultados. Esto imprimirá + # "1 2 3 4 5 6 7 8 9 10" (y no se quedaré sin memoria!) +## Nota: Al leer una lista infinita, Perl 6 "cosificará" los elementos que +## necesita y los mantendrá en la memoria. Ellos no serán calculados más de +## una vez. Tampoco calculará más elementos de los que necesita. + +## Un índice de array también puede ser una clausura ("closure" en inglés). +## Será llamada con la longitud como el argumento +say join(' ', @array[15..*]); #=> 15 16 17 18 19 +## lo que es equivalente a: +say join(' ', @array[-> $n { 15..$n }]); +## Nota: Si tratas de hacer cualquiera de esos con un array infinito, +## provocará un array infinito (tu programa nunca terminará) + +## Puedes usar eso en los lugares que esperaría, como durante la asignación +## a un array +my @números = ^20; + +## Aquí los números son incrementados por "6"; más acerca del +## operador `...` adelante. +my @seq = 3, 9 ... * > 95; # 3 9 15 21 27 [...] 81 87 93 99; +@números[5..*] = 3, 9 ... *; # aunque la secuencia es infinita, + # solo los 15 números necesarios será calculados. +say @números; #=> 0 1 2 3 4 3 9 15 21 [...] 81 87 + # (solamente 20 valores) + +## * And &&, Or || +3 && 4; # 4, el cual es Truthy. Invoca `.Bool` en `4` y obtiene `True`. +0 || False; # False. Invoca `.Bool` en `0` + +## * Versiones circuito corto de lo de arriba +## && Devuelve el primer argumento que evalúa a False, o el último. + +my ( $a, $b, $c ) = 1, 0, 2; +$a && $b && $c; # Devuelve 0, el primer valor que es False + +## || Devuelve el primer argumento que evalúa a True. +$b || $a; # 1 + +## Y porque tu lo querrás, también tienes operadores de asignación +## compuestos: +$a *= 2; # multiplica y asigna. Equivalente a $a = $a * 2; +$b %%= 5; # divisible por y asignación. Equivalente $b = $b %% 5; +@array .= sort; # invoca el método `sort` y asigna el resultado devuelto. +``` + +## ¡Más sobre subrutinas! + +```perl6 +## Como dijimos anteriormente, Perl 6 tiene subrutinas realmente poderosas. +## Veremos unos conceptos claves que la hacen mejores que en cualquier otro +## lenguaje :-). +``` + +### !Desempacado! + +```perl6 +## Es la abilidad de extraer arrays y llaves (También conocido como +## "destructuring"). También funcionará en `my` y en las listas de parámetros. +my ($f, $g) = 1, 2; +say $f; #=> 1 +my ($, $, $h) = 1, 2, 3; # mantiene los anónimos no interesante +say $h; #=> 3 + +my ($cabeza, *@cola) = 1, 2, 3; # Sí, es lo mismo que con subrutinas "slurpy" +my (*@small) = 1; + +sub desempacar_array(@array [$fst, $snd]) { + say "Mi primero es $fst, mi segundo es $snd! De todo en todo, soy un @array[]."; + # (^ recuerda que `[]` interpola el array) +} +desempacar_array(@cola); #=> My first is 2, my second is 3 ! All in all, I'm 2 3 + + +## Si no está usando el array, puedes también mantenerlo anónimo, como un +## escalar: +sub primero-de-array(@ [$fst]) { $fst } +primero-de-array(@small); #=> 1 +primero-de-array(@tail); # Lanza un error "Demasiados argumentos posicionales + # proveídos" + # (lo que significa que el array es muy grande). + +## También puedes usar un slurp ... +sub slurp-en-array(@ [$fst, *@rest]) { # Podrías mantener `*@rest` anónimos + say $fst + @rest.elems; # `.elems` returna la longitud de una lista. + # Aquí, `@rest` es `(3,)`, since `$fst` holds the `2`. +} +slurp-en-array(@tail); #=> 3 + +## Hasta podrías hacer un extracción usando una slurpy (pero no sería útil ;-).) +sub fst(*@ [$fst]) { # o simplemente: `sub fst($fst) { ... }` + say $fst; +} +fst(1); #=> 1 +fst(1, 2); # errores con "Too many positional parameters passed" + +## También puedes desestructurar hashes (y clases, las cuales +## veremos adelante). La sintaxis es básicamente +## `%nombre-del-hash (:llave($variable-para-almacenar))`. +## El hash puede permanecer anónimos si solo necesitas los valores extraídos. +sub llave-de(% (:azul($val1), :red($val2))) { + say "Valores: $val1, $val2."; +} +## Después invócala con un hash: (necesitas mantener las llaves +## de los parejas de llave y valor para ser un hash) +llave-de({azul => 'blue', rojo => "red"}); +#llave-de(%hash); # lo mismo (para un `%hash` equivalente) + +## La última expresión de una subrutina es devuelta inmediatamente +## (aunque puedes usar la palabra clave `return`): +sub siguiente-indice($n) { + $n + 1; +} +my $nuevo-n= siguiente-indice(3); # $nuevo-n es ahora 4 + +## Este es cierto para todo, excepto para las construcciones de bucles +## (debido a razones de rendimiento): Hay una razón de construir una lista +## si la vamos a desechar todos los resultados. +## Si todavías quieres construir una, puedes usar la sentencia prefijo `do`: +## (o el prefijo `gather`, el cual veremos luego) +sub lista-de($n) { + do for ^$n { # nota el uso del operador de rango `^` (`0..^N`) + $_ # iteración de bucle actual + } +} +my @list3 = lista-de(3); #=> (0, 1, 2) +``` + +### lambdas + +```perl6 +## Puedes crear una lambda con `-> {}` ("bloque puntiagudo") o `{}` ("bloque") +my &lambda = -> $argumento { "El argumento pasado a esta lambda es $argumento" } +## `-> {}` y `{}` son casi la misma cosa, excepto que la primerra puede +## tomar argumentos, y la segunda puede ser malinterpretada como un hash +## por el parseador. + +## Podemos, por ejemplo, agregar 3 a cada valor de un array usando map: +my @arraymas3 = map({ $_ + 3 }, @array); # $_ es el argumento implícito + +## Una subrutina (`sub {}`) tiene semánticas diferentes a un +## bloque (`{}` or `-> {}`): Un bloque no tiene "contexto funcional" +## (aunque puede tener argumentos), lo que significa que si quieres devolver +## algo desde un bloque, vas a returnar desde la función parental. Compara: +sub is-in(@array, $elem) { + # esto `devolverá` desde la subrutina `is-in` + # Una vez que la condición evalúa a True, el bucle terminará + map({ return True if $_ == $elem }, @array); +} +sub truthy-array(@array) { + # esto producirá un array de `True` Y `False`: + # (también puedes decir `anon sub` para "subrutina anónima") + map(sub ($i) { if $i { return True } else { return False } }, @array); + # ^ el `return` solo devuelve desde la `sub` +} + +## También puedes usar la "whatever star" para crear una función anónima +## (terminará con el último operador en la expresión actual) +my @arraymas3 = map(*+3, @array); # `*+3` es lo mismo que `{ $_ + 3 }` +my @arraymas3 = map(*+*+3, @array); # lo mismo que `-> $a, $b { $a + $b + 3 }` + # también `sub ($a, $b) { $a + $b + 3 }` +say (*/2)(4); #=> 2 + # Inmediatamente ejecuta la función que Whatever creó. +say ((*+3)/5)(5); #=> 1.6 + # ¡funciona hasta con los paréntesis! + +## Pero si necesitas más que un argumento (`$_`) en un bloque +## (sin depender en `-> {}`), también puedes usar la sintaxis implícita +## de argumento, `$` : +map({ $^a + $^b + 3 }, @array); # equivalente a lo siguiente: +map(sub ($a, $b) { $a + $b + 3 }, @array); # (aquí con `sub`) + +## Nota : Esos son ordernados lexicográficamente. +# `{ $^b / $^a }` es como `-> $a, $b { $b / $a }` +``` + +### Acerca de tipos... + +```perl6 +## Perl 6 es gradualmente tipado. Esto quiere decir que tu especifica el +## tipo de tus variables/argumentos/devoluciones (return), o puedes omitirlos +## y serán "Any" por defecto. +## Obviamente tienes acceso a algunas tipos básicos, como Int y Str. +## Las construcciones para declarar tipos son "class", "role", lo cual +## verás más adelante. + +## Por ahora, examinemos "subset" (subconjunto). +## Un "subset" es un "sub-tipo" con chequeos adicionales. +## Por ejemplo: "un número entero bien grande es un Int que es mayor que 500" +## Puedes especificar el tipo del que creas el subconjunto (por defecto, Any), +## y añadir chequeos adicionales con la palabra clave "where" (donde): +subset EnteroGrande of Int where * > 500; +``` + +### Despacho Múltiple (Multiple Dispatch) + +```perl6 +## Perl 6 puede decidir que variante de una subrutina invocar basado en el +## tipo de los argumento, o precondiciones arbitrarias, como con un tipo o +## un `where`: + +## con tipos +multi sub dilo(Int $n) { # nota la palabra clave `multi` aquí + say "Número: $n"; +} +multi dilo(Str $s) { # un multi es una subrutina por defecto + say "Cadena de texto: $s"; +} +dilo("azul"); # prints "Cadena de texto: azul" +dilo(True); # falla al *tiempo de compilación* con + # "calling 'dilo' will never work with arguments of types ..." + # (invocar 'dilo' nunca funcionará con argumentos de tipos ...") +## con precondición arbitraria (¿recuerdas los subconjuntos?): +multi es-grande(Int $n where * > 50) { "¡Sí!" } # usando una clausura +multi es-grande(Int $ where 10..50) { "Tal vez." } # Usando coincidencia inteligente + # (podrías usar un regexp, etc) +multi es-grande(Int $) { "No" } + +subset Par of Int where * %% 2; + +multi inpar-o-par(Par) { "Par" } # El caso principal usando el tipo. + # No nombramos los argumentos, +multi inpar-o-par($) { "Inpar" } # "else" + +## ¡Podrías despachar basado en la presencia de argumentos posicionales! +multi sin_ti-o-contigo(:$with!) { # Necesitas hacerlo mandatorio + # para despachar en contra del argumento. + say "¡Puedo vivir! Actualmente, no puedo."; +} +multi sin_ti-o-contigo { + say "Definitivamente no puedo vivir."; +} +## Esto es muy útil para muchos propósitos, como subrutinas `MAIN` (de las +## cuales hablaremos luego), y hasta el mismo lenguaje la está usando +## en muchos lugares. +## +## - `is`, por ejemplo, es actualmente un `multi sub` llamado +## `trait_mod:<is>`. +## - `is rw`, es simplemente un despacho a una función con esta signatura: +## sub trait_mod:<is>(Routine $r, :$rw!) {} +## +## (¡lo pusimos en un comentario dado que ejecutando esto sería una terrible +## idea!) +``` + +## Ámbito (Scoping) + +```perl6 +## En Perl 6, a diferencia de otros lenguajes de scripting, (tales como +## (Python, Ruby, PHP), debes declarar tus variables antes de usarlas. El +## declarador `my`, del cual aprendiste anteriormente, usa "ámbito léxical". +## Hay otros declaradores (`our`, `state`, ..., ) los cuales veremos luego. +## Esto se llama "ámbito léxico", donde en los bloques internos, +## puedes acceder variables de los bloques externos. +my $archivo-en-ámbito = 'Foo'; +sub externo { + my $ámbito-externo = 'Bar'; + sub interno { + say "$archivo-en-ámbito $ámbito-externo"; + } + &interno; # devuelve la función +} +outer()(); #=> 'Foo Bar' + +## Como puedes ver, `$archivo-en-ámbito` y `$ámbito-externo` +## fueron capturados. Pero si intentaramos usar `$bar` fuera de `foo`, +## la variable estaría indefinida (y obtendrías un error al tiempo de +## compilación). +``` + +## Twigils + +```perl6 +## Hay muchos `twigils` especiales (sigilos compuestos) en Perl 6. +## Los twigils definen el ámbito de las variables. +## Los twigils * y ? funcionan con variables regulares: +## * Variable dinámica +## ? Variable al tiempo de compilación +## Los twigils ! y . son usados con los objetos de Perl 6: +## ! Atributo (miembro de la clase) +## . Método (no una variable realmente) + +## El twigil `*`: Ámbito dinámico +## Estas variables usan el twigil `*` para marcar variables con ámbito +## dinámico. Variables con ámbito dinámico son buscadas a través del +## invocador, no a través del ámbito externo. + +my $*ambito_din_1 = 1; +my $*ambito_din_2 = 10; + +sub di_ambito { + say "$*ambito_din_1 $*ambito_din_2"; +} + +sub invoca_a_di_ambito { + my $*ambito_din_1 = 25; # Define a $*ambito_din_1 solo en esta subrutina. + $*ambito_din_2 = 100; # Cambiará el valor de la variable en ámbito. + di_ambito(); #=> 25 100 $*ambito_din_1 y 2 serán buscadas en la invocación. + # Se usa el valor de $*ambito_din_1 desde el ámbito léxico de esta + # subrutina aunque los bloques no están anidados (están anidados por + # invocación). +} +di_ambito(); #=> 1 10 +invoca_a_di_ambito(); #=> 25 100 + # Se usa a $*ambito_din_1 como fue definida en invoca_a_di_ambito + # aunque la estamos invocando desde afuera. +di_ambito(); #=> 1 100 Cambiamos el valor de $*ambito_din_2 en invoca_a_di_ambito + # por lo tanto su valor a cambiado. +``` + +## Modelo de Objeto + +```perl6 +## Para invocar a un método en un objeto, agrega un punto seguido por el +## nombre del objeto: +## => $object.method +## Las classes son declaradas usando la palabra clave `class`. Los atributos +## son declarados con la palabra clave `has`, y los métodos con `method`. +## Cada atributo que es privado usa el twigil `!`. Por ejemplo: `$!attr`. +## Atributos públicos inmutables usan el twigil `.` (los puedes hacer +## mutables con `is rw`). +## La manera más fácil de recordar el twigil `$.` is comparándolo +## con como los métodos son llamados. + +## El modelo de objeto de Perl 6 ("SixModel") es muy flexible, y te permite +## agregar métodos dinámicamente, cambiar la semántica, etc ... +## (no hablaremos de todo esto aquí. Por lo tanto, refiérete a: +## https://docs.perl6.org/language/objects.html). + +class Clase-Atrib { + has $.atrib; # `$.atrib` es inmutable. + # Desde dentro de la clase, usa `$!atrib` para modificarlo. + has $.otro-atrib is rw; # Puedes marcar un atributo como público con `rw`. + has Int $!atrib-privado = 10; + + method devolver-valor { + $.atrib + $!atrib-privado; + } + + method asignar-valor($param) { # Métodos pueden tomar parámetros. + $!attrib = $param; # Esto funciona porque `$!` es siempre mutable. + # $.attrib = $param; # Incorrecto: No puedes usar la versión inmutable `$.`. + + $.otro-atrib = 5; # Esto funciona porque `$.otro-atrib` es `rw`. + } + + method !metodo-privado { + say "Este método es privado para la clase !"; + } +}; + +## Crear una nueva instancia de Clase-Atrib con $.atrib asignado con 5: +## Nota: No puedes asignarle un valor a atrib-privado desde aquí (más de +## esto adelante). +my $class-obj = Clase-Atrib.new(atrib => 5); +say $class-obj.devolver-valor; #=> 5 +# $class-obj.atrib = 5; # Esto falla porque `has $.atrib` es inmutable +$class-obj.otro-atrib = 10; # En cambio, esto funciona porque el atributo + # público es mutable (`rw`). +``` + +### Herencia de Objeto + +```perl6 +## Perl 6 también tiene herencia (junto a herencia múltiple) +## Mientras los métodos declarados con `method` son heredados, aquellos +## declarados con `submethod` no lo son. +## Submétodos son útiles para la construcción y destrucción de tareas, +## tales como BUILD, o métodos que deben ser anulados por subtipos. +## Aprenderemos acerca de BUILD más adelante. + +class Padre { + has $.edad; + has $.nombre; + # Este submétodo no será heredado por la clase Niño. + submethod color-favorito { + say "Mi color favorito es Azul"; + } + # Este método será heredado + method hablar { say "Hola, mi nombre es $!nombre" } +} +# Herencia usa la palabra clave `is` +class Niño is Padre { + method hablar { say "Goo goo ga ga" } + # Este método opaca el método `hablar` de Padre. + # Este niño no ha aprendido a hablar todavía. +} +my Padre $Richard .= new(edad => 40, nombre => 'Richard'); +$Richard.color-favorito; #=> "Mi color favorito es Azul" +$Richard.hablar; #=> "Hola, mi nombre es Richard" +## $Richard es capaz de acceder el submétodo; él sabe como decir su nombre. + +my Niño $Madison .= new(edad => 1, nombre => 'Madison'); +$Madison.hablar; # imprime "Goo goo ga ga" dado que el método fue cambiado + # en la clase Niño. +# $Madison.color-favorito # no funciona porque no es heredado + +## Cuando se usa `my T $var` (donde `T` es el nombre de la clase), `$var` +## inicia con `T` en si misma, por lo tanto puedes invocar `new` en `$var`. +## (`.=` es sólo la invocación por punto y el operador de asignación: +## `$a .= b` es lo mismo que `$a = $a.b`) +## Por ejemplo, la instancia $Richard pudo también haber sido declarada así: +## my $Richard = Padre.new(edad => 40, nombre => 'Richard'); + +## También observa que `BUILD` (el método invocado dentro de `new`) +## asignará propiedades de la clase padre, por lo que puedes pasar +## `val => 5`. +``` + +### Roles, o Mixins + +```perl6 +## Roles son suportados también (comúnmente llamados Mixins en otros +## lenguajes) +role PrintableVal { + has $!counter = 0; + method print { + say $.val; + } +} + +## Se "importa" un mixin (un "role") con "does": +class Item does PrintableVal { + has $.val; + + ## Cuando se utiliza `does`, un `rol` se mezcla en al clase literalmente: + ## los métodos y atributos se ponen juntos, lo que significa que una clase + ## puede acceder los métodos y atributos privados de su rol (pero no lo inverso!): + method access { + say $!counter++; + } + + ## Sin embargo, esto: + ## method print {} + ## es SÓLO válido cuando `print` no es una `multi` con el mismo dispacho. + ## (esto significa que una clase padre puede opacar una `multi print() {}` + ## de su clase hijo/a, pero es un error sin un rol lo hace) + + ## NOTA: Puedes usar un rol como una clase (con `is ROLE`). En este caso, + ## métodos serán opacados, dado que el compilador considerará `ROLE` + ## como una clase. +} +``` + +## Excepciones + +```perl6 +## Excepciones están construidas al tope de las clases, en el paquete +## `X` (como `X::IO`). +## En Perl 6, excepciones son lanzadas automáticamente. +open 'foo'; #=> Failed to open file foo: no such file or directory +## También imprimirá la línea donde el error fue lanzado y otra información +## concerniente al error. + +## Puedes lanzar una excepción usando `die`: +die 'Error!'; #=> Error! + +## O más explícitamente: +die X::AdHoc.new(payload => 'Error!'); + +## En Perl 6, `orelse` es similar al operador `or`, excepto que solamente +## coincide con variables indefinidas, en cambio de cualquier cosa +## que evalúa a falso. +## Valores indefinidos incluyen: `Nil`, `Mu` y `Failure`, también como +## `Int`, `Str` y otros tipos que no han sido inicializados a ningún valor +## todavía. +## Puedes chequear si algo está definido o no usando el método defined: +my $no-inicializada; +say $no-inicializada.defined; #=> False +## Al usar `orelse`, se desarmará la excepción y creará un alias de dicho +## fallo en $_ +## Esto evitará que sea automáticamente manejado e imprima una marejada de +## mensajes de errores en la pantalla. +## Podemos usar el método de excepción en $_ para acceder la excepción: +open 'foo' orelse say "Algo pasó {.exception}"; + +## Esto también funciona: +open 'foo' orelse say "Algo pasó $_"; #=> Algo pasó + #=> Failed to open file foo: no such file or directory +## Ambos ejemplos anteriores funcionan pero en caso de que consigamos un +## objeto desde el lado izquierdo que no es un fallo, probablemente +## obtendremos una advertencia. Más abajo vemos como usar `try` y `CATCH` +## para ser más expecíficos con las excepciones que capturamos. +``` + +### Usando `try` y `CATCH` + +```perl6 +## Al usar `try` y `CATCH`, puedes contener y manejar excepciones sin +## interrumpir el resto del programa. `try` asignará la última excepción +## a la variable especial `$!`. +## Nota: Esto no tiene ninguna relación con las variables $!. + +try open 'foo'; +say "Bueno, lo intenté! $!" if defined $!; #=> Bueno, lo intenté! Failed to open file + #foo: no such file or directory +## Ahora, ¿qué debemos hacer si queremos más control sobre la excepción? +## A diferencia de otros lenguajes, en Perl 6 se pone el bloque `CATCH` +## *dentro* del bloque a intentar (`try`). Similarmente como $_ fue asignada +## cuando 'disarmamos' la excepción con `orelse`, también usamos $_ en el +## bloque CATCH. +## Nota: ($! es solo asignada *después* del bloque `try`) +## Por defecto, un bloque `try` tiene un bloque `CATCH` que captura +## cualquier excepción (`CATCH { default {} }`). + +try { my $a = (0 %% 0); CATCH { say "Algo pasó: $_" } } + #=> Algo pasó: Attempt to divide by zero using infix:<%%> + +## Puedes redefinir lo anterior usando `when` y (`default`) +## para manejar las excepciones que desees: +try { + open 'foo'; + CATCH { # En el bloque `CATCH`, la excepción es asignada a $_ + when X::AdHoc { say "Error: $_" } + #=>Error: Failed to open file /dir/foo: no such file or directory + + ## Cualquier otra excepción será levantada de nuevo, dado que no + ## tenemos un `default`. + ## Básicamente, si un `when` + ## Basically, if a `when` matches (or there's a `default`) marks the + ## exception as + ## "handled" so that it doesn't get re-thrown from the `CATCH`. + ## You still can re-throw the exception (see below) by hand. + } +} + +## En Perl 6, excepciones poseen ciertas sutilezas. Algunas +## subrutinas en Perl 6 devuelven un `Failure`, el cual es un tipo de +## "excepción no levantada". Ellas no son levantadas hasta que tu intentas +## mirar a sus contenidos, a menos que invoques `.Bool`/`.defined` sobre +## ellas - entonces, son manejadas. +## (el método `.handled` es `rw`, por lo que puedes marcarlo como `False` +## por ti mismo) +## Puedes levantar un `Failure` usando `fail`. Nota que si el pragma +## `use fatal` estás siendo utilizado, `fail` levantará una excepión (como +## `die`). +fail "foo"; # No estamos intentando acceder el valor, por lo tanto no problema. +try { + fail "foo"; + CATCH { + default { say "Levantó un error porque intentamos acceder el valor del fallo!" } + } +} + +## También hay otro tipo de excepción: Excepciones de control. +## Esas son excepciones "buenas", las cuales suceden cuando cambias el flujo +## de tu programa, usando operadores como `return`, `next` or `last`. +## Puedes capturarlas con `CONTROL` (no lista un 100% en Rakudo todavía). +``` + +## Paquetes + +```perl6 +## Paquetes son una manera de reusar código. Paquetes son como +## "espacio de nombres" (namespaces en inglés), y cualquier elemento del +## modelo seis (`module`, `role`, `class`, `grammar`, `subset` y `enum`) +## son paquetes por ellos mismos. (Los paquetes son como el mínimo común +## denominador) +## Los paquetes son importantes - especialmente dado que Perl es bien +## reconocido por CPAN, the Comprehensive Perl Archive Nertwork. + +## Puedes usar un módulo (traer sus declaraciones al ámbito) con `use` +use JSON::Tiny; # si intalaste Rakudo* o Panda, tendrás este módulo +say from-json('[1]').perl; #=> [1] + +## A diferencia de Perl 5, no deberías declarar paquetes usando +## la palabra clave `package`. En vez, usa `class Nombre::Paquete::Aquí;` +## para declarar una clase, o si solamente quieres exportar +## variables/subrutinas, puedes usar `module`. + +module Hello::World { # forma de llaves + # Si `Hello` no existe todavía, solamente será una cola ("stub"), + # que puede ser redeclarada más tarde. + # ... declaraciones aquí ... +} +unit module Parse::Text; # forma de ámbito de archivo + +grammar Parse::Text::Grammar { # Una gramática (grammar en inglés) es un paquete, + # en el cual puedes usar `use` +} # Aprenderás más acerca de gramáticas en la sección de regex + +## Como se dijo anteriormente, cualquier parte del modelo seis es también un +## paquete. Dado que `JSON::Tiny` usa su propia clase `JSON::Tiny::Actions`, +## tu puedes usarla de la manera siguiente: +my $acciones = JSON::Tiny::Actions.new; + +## Veremos como exportar variables y subrutinas en la siguiente parte: +``` + +## Declaradores + +```perl6 +## En Perl 6, tu obtienes diferentes comportamientos basado en como declaras +## una variable. +## Ya has visto `my` y `has`, ahora exploraremos el resto. + +## * las declaraciones `our` ocurren al tiempo `INIT` (ve "Phasers" más abajo) +## Es como `my`, pero también crea una variable paquete. +## (Todas las cosas relacionadas con paquetes (`class`, `role`, etc) son +## `our` por defecto) +module Var::Incrementar { + our $nuestra-var = 1; # Nota: No puedes colocar una restricción de tipo + my $mi-var = 22; # como Int (por ejemplo) en una variable `our`. + our sub Inc { + + our sub disponible { # Si tratas de hacer subrutinas internas `our`... + # Mejor que sepas lo que haces (No lo haga!). + say "No hagas eso. En serio. Estás jugando con fuego y te quemarás."; + } + + my sub no-disponible { # `my sub` es por defecto + say "No puedes acceder aquí desde fuera. Soy 'my'!"; + } + say ++$nuestra-var; # Incrementa la variable paquete y muestra su valor + } + +} +say $Var::Incrementar::nuestra-var; #=> 1 Esto funciona +say $Var::Incrementar::mi-var; #=> (Any) Esto no funcionará. + +Var::Incrementar::Inc; #=> 2 +Var::Incrementar::Inc; #=> 3 # Nota como el valor de $nuestra-var fue + # retenido +Var::Incrementar::no-disponible; #=> Could not find symbol '&no-disponible' + +## * `constant` (ocurre al tiempo `BEGIN`) +## Puedes usar la palabra clave `constant` para declarar una +## variable/símbolo al tiempo de compilación: +constant Pi = 3.14; +constant $var = 1; + +## Y por si te estás preguntando, sí, también puede contener listas infinitas. +constant porque-no = 5, 15 ... *; +say porque-no[^5]; #=> 5 15 25 35 45 + +## * `state` (ocurre al tiempo de ejecución, pero una sola vez) +## Variables "states" son solo inicializadas una vez. +## (ellas existen en otros lenguaje como `static` en C) +sub aleatorio-fijo { + state $valor = rand; + say $valor; +} +aleatorio-fijo for ^10; # imprimirá el mismo número 10 veces + +## Nota, sin embargo, que ellas existen separadamente en diferentes contextos. +## Si declaras una función con un `state` dentro de un bucle, recreará la +## variable por cada iteración del bucle. Observa: +for ^5 -> $a { + sub foo { + state $valor = rand; # Esto imprimirá un valor diferente + # por cada valor de `$a` + } + for ^5 -> $b { + say foo; # Esto imprimirá el mismo valor 5 veces, pero sólo 5. + # La siguiente iteración ejecutará `rand` nuevamente. + } +} +``` + +## Phasers + +```perl6 +## Un phaser en Perl 6 es un bloque que ocurre a determinados puntos de tiempo +## en tu programa. Se les llama phaser porque marca un cambio en la fase de +## de tu programa. Por ejemplo, cuando el programa es compilado, un bucle +## for se ejecuta, dejas un bloque, o una excepción se levanta. +## (¡`CATCH` es actualmente un phaser!) +## Algunos de ellos pueden ser utilizados por sus valores devueltos, otros +## no pueden (aquellos que tiene un "[*]" al inicio de su texto de +## explicación). +## ¡Tomemos una mirada! + +## * Phasers al tiempo de compilación +BEGIN { say "[*] Se ejecuta al tiempo de compilación, " ~ + "tan pronto como sea posible, una sola vez" } +CHECK { say "[*] Se ejecuta al tiempo de compilación, " ~ + "tan tarde como sea posible, una sola vez" } + +## * Phasers al tiempo de ejecución +INIT { say "[*] Se ejecuta al tiempo de ejecución, " ~ + "tan pronto como sea posible, una sola vez" } +END { say "Se ejecuta al tiempo de ejecución, " ~ + "tan tarde como sea posible, una sola vez" } + +## * Phasers de bloques +ENTER { say "[*] Se ejecuta cada vez que entra en un bloque, " ~ + "se repite en bloques de bucle" } +LEAVE { say "Se ejecuta cada vez que abandona un bloque, incluyendo " ~ + "cuando una excepción ocurre. Se repite en bloques de bucle"} + +PRE { + say "Impone una precondición a cada entrada de un bloque, " ~ + "antes que ENTER (especialmente útil para bucles)"; + say "Si este bloque no returna un valor truthy, " ~ + "una excepción del tipo X::Phaser::PrePost será levantada."; +} + +## Ejemplos: +for 0..2 { + PRE { $_ > 1 } # Esto fallará con un "Precondition failed" +} + +POST { + say "Impone una postcondAsserts a poscondición a la salida de un bloque, " ~ + "después de LEAVE (especialmente útil para bucles)"; + say "Si este bloque no returna un valor truthy, " ~ + "una excepción del tipo X::Phaser::PrePost será levantada, como con PRE."; +} +for 0..2 { + POST { $_ < 2 } # Esto fallará con un "Postcondition failed" +} + +## * Phasers de bloques/excepciones +sub { + KEEP { say "Se ejecuta cuando sales de un bloque exitosamente + (sin lanzar un excepción)" } + UNDO { say "Se ejecuta cuando sale de bloque sin éxito + (al lanzar una excepción)" } +} + +## * Phasers de bucle +for ^5 { + FIRST { say "[*] La primera vez que un bucle se ejecuta, antes que ENTER" } + NEXT { say "Al tiempo de la continuación del bucle, antes que LEAVE" } + LAST { say "Al tiempo de la terminación del bucle, después de LEAVE" } +} + +## * Phasers de rol/clase +COMPOSE { "Cuando un rol es compuesto en una clase. /!\ NO IMPLEMENTADO TODAVÍA" } + +## Ellos permite pequeños trucos o código brillante...: +say "Este código tomó " ~ (time - CHECK time) ~ "s para compilar"; + +## ... o brillante organización: +sub do-db-stuff { + $db.start-transaction; # comienza una transacción nueva + KEEP $db.commit; # commit (procede con) la transacción si todo estuvo bien + UNDO $db.rollback; # o retrocede si todo falló +} +``` + +## Prefijos de sentencias + +```perl6 +## Los prefijos de sentencias actúan como los phasers: Ellos afectan el +## comportamiento del siguiente código. +## Debido a que son ejecutados en línea con el código ejecutable, ellos +## se escriben en letras minúsculas. (`try` and `start` están teoréticamente +## en esa lista, pero serán explicados en otra parte) +## Nota: Ningunos de estos (excepto `start`) necesitan las llaves `{` y `}`. + +## - `do` (el cual ya viste) - ejecuta un bloque o una sentencia como un +## término. +## Normalmente no puedes usar una sentencia como un valor (o término): +## +## my $valor = if True { 1 } # `if` es una sentencia - error del parseador +## +## Esto funciona: +my $a = do if True { 5 } # con `do`, `if` ahora se comporta como un término. + +## - `once` - se asegura que una porción de código se ejecute una sola vez. +for ^5 { once say 1 }; #=> 1 + # solo imprime ... una sola vez. +## Al igual que `state`, ellos son clonados por ámbito +for ^5 { sub { once say 1 }() } #=> 1 1 1 1 1 + # Imprime una sola vez por ámbito léxico + +## - `gather` - Hilo de co-rutina +## `gather` te permite tomar (`take`) varios valores en un array, +## al igual que `do`. Encima de esto, te permite tomar cualquier expresión. +say gather for ^5 { + take $_ * 3 - 1; + take $_ * 3 + 1; +} #=> -1 1 2 4 5 7 8 10 11 13 +say join ',', gather if False { + take 1; + take 2; + take 3; +} # no imprime nada. + +## - `eager` - Evalúa una sentencia ávidamente (forza contexto ávido) +## No intentes esto en casa: +## +## eager 1..*; # esto probablemente se colgará por un momento +## # (y podría fallar...). +## +## Pero considera lo siguiente: +constant tres-veces = gather for ^3 { say take $_ }; # No imprime nada + +## frente a esto: +constant tres-veces = eager gather for ^3 { say take $_ }; #=> 0 1 2 +``` + +## Iterables + +```perl6 +## En Perl 6, los iterables son objetos que pueden ser iterados similar +## a la construcción `for`. +## `flat`, aplana iterables: +say (1, 10, (20, 10) ); #=> (1 10 (20 10)) Nota como la agrupación se mantiene +say (1, 10, (20, 10) ).flat; #=> (1 10 20 10) Ahora el iterable es plano + +## - `lazy` - Aplaza la evaluación actual hasta que el valor sea requirido +## (forza contexto perezoso) +my @lazy-array = (1..100).lazy; +say @lazy-array.is-lazy; #=> True # Chequea por "pereza" con el método `is-lazy`. +say @lazy-array; #=> [...] No se ha iterado sobre la lista +for @lazy-array { .print }; # Esto funciona y hará tanto trabajo como sea necesario. + +[//]: # ( TODO explica que gather/take y map son todos perezosos) +## - `sink` - Un `eager` que desecha los resultados (forza el contexto sink) +constant nilthingie = sink for ^3 { .say } #=> 0 1 2 +say nilthingie.perl; #=> Nil + +## - `quietly` - Un bloque `quietly` reprime las advertencias: +quietly { warn 'Esto es una advertencia!' }; #=> No salida + +## - `contend` - Intenta efectos secundarios debajo de STM +## ¡No implementado todavía! +``` + +## ¡Más operadores! + +```perl6 +## ¡Todo el mundo ama los operadores! Tengamos más de ellos. + +## La lista de precedencia puede ser encontrada aquí: +## https://docs.perl6.org/language/operators#Operator_Precedence +## Pero primero, necesitamos un poco de explicación acerca +## de la asociatividad: + +## * Operadores binarios: +$a ! $b ! $c; # con asociatividad izquierda `!`, esto es `($a ! $b) ! $c` +$a ! $b ! $c; # con asociatividad derecha `!`, esto es `$a ! ($b ! $c)` +$a ! $b ! $c; # sin asociatividad `!`, esto es ilegal +$a ! $b ! $c; # con una cadena de asociatividad `!`, esto es `($a ! $b) and ($b ! $c)` +$a ! $b ! $c; # con asociatividad de lista `!`, esto es `infix:<>` + +## * Operadores unarios: +!$a! # con asociatividad izquierda `!`, esto es `(!$a)!` +!$a! # con asociatividad derecha `!`, esto es `!($a!)` +!$a! # sin asociatividad `!`, esto es ilegal +``` + +### ¡Crea tus propios operadores! + +```perl6 +## Okay, has leído todo esto y me imagino que debería mostrarte +## algo interesante. +## Te mostraré un pequeño secreto (o algo no tan secreto): +## En Perl 6, todos los operadores son actualmente solo subrutinas. + +## Puedes declarar un operador como declaras una subrutina: +sub prefix:<ganar>($ganador) { # se refiere a las categorías de los operadores + # (exacto, es el "operador de palabras" `<>`) + say "¡$ganador ganó!"; +} +ganar "El Rey"; #=> ¡El Rey Ganó! + # (prefijo se pone delante) + +## todavías puedes invocar la subrutina con su "nombre completo": +say prefix:<!>(True); #=> False + +sub postfix:<!>(Int $n) { + [*] 2..$n; # usando el meta-operador reduce ... Ve más abajo! +} +say 5!; #=> 120 + # Operadores sufijos (postfix) van *directamente* después del témino. + # No espacios en blanco. Puedes usar paréntesis para disambiguar, + # i.e. `(5!)!` + + +sub infix:<veces>(Int $n, Block $r) { # infijo va en el medio + for ^$n { + $r(); # Necesitas los paréntesis explícitos para invocar la función + # almacenada en la variable `$r`. De lo contrario, te estaría + # refiriendo a la variable (no a la función), como con `&r`. + } +} +3 veces -> { say "hola" }; #=> hola + #=> hola + #=> hola + # Se te recomienda que ponga espacios + # alrededor de la invocación de operador infijo. + +## Para los circunfijos y pos-circunfijos +sub circumfix:<[ ]>(Int $n) { + $n ** $n +} +say [5]; #=> 3125 + # un circunfijo va alrededor. De nuevo, no espacios en blanco. + +sub postcircumfix:<{ }>(Str $s, Int $idx) { + ## un pos-circunfijo es + ## "después de un término y alrededor de algo" + $s.substr($idx, 1); +} +say "abc"{1}; #=> b + # depués del término `"abc"`, y alrededor del índice (1) + +## Esto es de gran valor -- porque todo en Perl 6 usa esto. +## Por ejemplo, para eliminar una llave de un hash, tu usas el adverbio +## `:delete` (un simple argumento con nombre debajo): +%h{$llave}:delete; +## es equivalente a: +postcircumfix:<{ }>(%h, $llave, :delete); # (puedes invocar + # operadores de esta forma) +## ¡*Todos* usan los mismos bloques básicos! +## Categorías sintácticas (prefix, infix, ...), argumentos nombrados +## (adverbios), ... - usados para construir el lenguaje - están al alcance +## de tus manos y disponibles para ti. +## (obviamente, no se te recomienda que hagas un operador de *cualquier +## cosa* -- Un gran poder conlleva una gran responsabilidad.) +``` + +### Meta-operadores! + +```perl6 +## ¡Prepárate! Prepárate porque nos estamos metiendo bien hondo +## en el agujero del conejo, y probablemente no querrás regresar a +## otros lenguajes después de leer esto. +## (Me imagino que ya no quieres a este punto). +## Meta-operadores, como su nombre lo sugiere, son operadores *compuestos*. +## Básicamente, ellos son operadores que se aplican a otros operadores. + +## * El meta-operador reduce (reducir) +## Es un meta-operador prefijo que toman una función binaria y +## una o varias listas. Sino se pasa ningún argumento, +## returna un "valor por defecto" para este operador +## (un valor sin significado) o `Any` si no hay ningún valor. +## +## De lo contrario, remueve un elemento de la(s) lista(s) uno a uno, y +## aplica la función binaria al último resultado (o al primer elemento de +## la lista y el elemento que ha sido removido). +## +## Para sumar una lista, podrías usar el meta-operador "reduce" con `+`, +## i.e.: +say [+] 1, 2, 3; #=> 6 +## es equivalente a `(1+2)+3` + +say [*] 1..5; #=> 120 +## es equivalente a `((((1*2)*3)*4)*5)`. + +## Puedes reducir con cualquier operador, no solo con operadores matemáticos. +## Por ejemplo, podrías reducir con `//` para conseguir +## el primer elemento definido de una lista: +say [//] Nil, Any, False, 1, 5; #=> False + # (Falsey, pero definido) + +## Ejemplos con valores por defecto: +say [*] (); #=> 1 +say [+] (); #=> 0 + # valores sin significado, dado que N*1=N y N+0=N. +say [//]; #=> (Any) + # No hay valor por defecto para `//`. +## También puedes invocarlo con una función de tu creación usando +## los dobles corchetes: +sub add($a, $b) { $a + $b } +say [[&add]] 1, 2, 3; #=> 6 + +## * El meta-operador zip +## Este es un meta-operador infijo que también puede ser usado como un +## operador "normal". Toma una función binaria opcional (por defecto, solo +## crear un par), y remueve un valor de cada array e invoca su función +## binaria hasta que no tenga más elementos disponibles. Al final, returna +## un array con todos estos nuevos elementos. +(1, 2) Z (3, 4); # ((1, 3), (2, 4)), dado que por defecto, la función + # crea un array. +1..3 Z+ 4..6; # (5, 7, 9), usando la función personalizada infix:<+> + +## Dado que `Z` tiene asociatividad de lista (ve la lista más arriba), +## puedes usarlo en más de una lista +(True, False) Z|| (False, False) Z|| (False, False); # (True, False) + +## Y pasa que también puedes usarlo con el meta-operador reduce: +[Z||] (True, False), (False, False), (False, False); # (True, False) + + +## Y para terminar la lista de operadores: + +## * El operador secuencia +## El operador secuencia es uno de la más poderosas características de +## Perl 6: Está compuesto, en la izquierda, de la lista que quieres que +## Perl 6 use para deducir (y podría incluir una clausura), y en la derecha, +## un valor o el predicado que dice cuando parar (o Whatever para una +## lista infinita perezosa). +my @list = 1, 2, 3 ... 10; # deducción básica +#my @list = 1, 3, 6 ... 10; # esto muere porque Perl 6 no puede deducir el final +my @list = 1, 2, 3 ...^ 10; # como con rangos, puedes excluir el último elemento + # (la iteración cuando el predicado iguala). +my @list = 1, 3, 9 ... * > 30; # puedes usar un predicado + # (con la Whatever Star, aquí). +my @list = 1, 3, 9 ... { $_ > 30 }; # (equivalente a lo de arriba) + +my @fib = 1, 1, *+* ... *; # lista infinita perezosa de la serie fibonacci, + # computada usando una clausura! +my @fib = 1, 1, -> $a, $b { $a + $b } ... *; # (equivalene a lo de arriba) +my @fib = 1, 1, { $^a + $^b } ... *; #(... también equivalene a lo de arriba) +## $a and $b siempre tomarán el valor anterior, queriendo decir que +## ellos comenzarán con $a = 1 y $b = 1 (valores que hemos asignado +## de antemano). Por lo tanto, $a = 1 y $b = 2 (resultado del anterior $a+$b), +## etc. + +say @fib[^10]; #=> 1 1 2 3 5 8 13 21 34 55 + # (usandi un rango como el índice) +## Nota: Los elementos de un rango, una vez cosificados, no son re-calculados. +## Esta es la razón por la cual `@primes[^100]` tomará más tiempo la primera +## vez que se imprime. Después de esto, será hará en un instante. +``` + +## Expresiones Regulares + +```perl6 +## Estoy seguro que has estado esperando por esta parte. Bien, ahora que +## sabes algo acerca de Perl 6, podemos comenzar. Primeramente, tendrás +## que olvidarte acerca de "PCRE regexps" (perl-compatible regexps) +## (expresiones regulares compatible de perl). +## +## IMPORTANTE: No salte esto porque ya sabes acerca de PCRE. Son totalmente +## distintos. Algunas cosas son las mismas (como `?`, `+`, y `*`) pero +## algunas veces la semántica cambia (`|`). Asegúrate de leer esto +## cuidadosamente porque podrías trospezarte sino lo haces. +## +## Perl 6 tiene muchas características relacionadas con RegExps. Después de +## todo, Rakudo se parsea a si mismo. Primero vamos a estudiar la sintaxis +## por si misma, después hablaremos acerca de gramáticas (parecido a PEG), +## las diferencias entre los declaradores `token`, `regex`, y `rule` y +## mucho más. +## Nota aparte: Todavía tienes acceso a los regexes PCRE usando el +## mofificador `:P5` (Sin embargo, no lo discutiremos en este tutorial). +## +## En esencia, Perl 6 implementa PEG ("Parsing Expression Grammars") +## ("Parseado de Expresiones de Gramáticas") nativamente. El orden jerárquico +## para los parseos ambiguos es determinado por un examen multi-nivel de +## desempate: +## - La coincidencia de token más larga. `foo\s+` le gana a `foo` +## (por 2 o más posiciones) +## - El prefijo literal más largo. `food\w*` le gana a `foo\w*` (por 1) +## - Declaración desde la gramática más derivada a la menos derivada +## (las gramáticas son actualmente clases) +## - La declaración más temprana gana +say so 'a' ~~ /a/; #=> True +say so 'a' ~~ / a /; #=> True # ¡Más legible con los espacios! + +## Nota al lector (del traductor): +## Como pudiste haber notado, he decidido traducir "match" y sus diferentes +## formas verbales como "coincidir" y sus diferentes formas. Cuando digo que +## un regex (o regexp) coincide con cierto texto, me refiero a que el regex +## describe cierto patrón dentro del texto. Por ejemplo, el regex "cencia" +## coincide con el texto "reminiscencia", lo que significa que dentro del +## texto aparece ese patrón de caracteres (una `c`, seguida de una `e`, +## (seguida de una `n`, etc.) + +## En todos nuestros ejemplos, vamos a usar el operador de +## "coincidencia inteligente" contra una expresión regular ("regexp" or +## "regex" de aquí en adelante). Estamos convirtiendo el resultado usando `so`, +## pero en efecto, está devolviendo un objeto Match. Ellos saben como responder +## a la indexación de lista, indexación de hash, y devolver la cadena de +## texto coincidente. +## Los resultados de la coincidencia están disponible como `$/` (en +## ámbito implícito lexical). También puedes usar las variables de captura +## las cuales comienzan con 0: +## `$0`, `$1', `$2`... +## +## Nota que `~~` no hace un chequeo de inicio/final (es decir, +## el regexp puede coincider con solo un carácter de la cadena de texto). +## Explicaremos luego como hacerlo. + +## En Perl 6, puedes tener un carácter alfanumérico como un literal, +## todo lo demás debe escaparse usando una barra invertida o comillas. +say so 'a|b' ~~ / a '|' b /; # `True`. No sería lo mismo si no se escapara `|` +say so 'a|b' ~~ / a \| b /; # `True`. Otra forma de escaparlo + +## El espacio en blanco actualmente no se significa nada en un regexp, +## a menos que uses el adverbio `:s` (`:sigspace`, espacio significante). +say so 'a b c' ~~ / a b c /; #=> `False`. Espacio no significa nada aquí. +say so 'a b c' ~~ /:s a b c /; #=> `True`. Agregamos el modificador `:s` aquí. +## Si usamos solo un espacio entre cadenas de texto en un regexp, Perl 6 +## nos advertirá: +say so 'a b c' ~~ / a b c /; #=> 'False' # Espacio no significa nada aquí. +## Por favor usa comillas o el modificador :s (:sigspace) para suprimir +## esta advertencia, omitir el espacio, o cambiar el espaciamiento. Para +## arreglar esto y hacer los espacios menos ambiguos, usa por lo menos +## dos espacios entre las cadenas de texto o usa el adverbio `:s`. + +## Como vimos anteriormente, podemos incorporar `:s` dentro de los +## delimitadores de barras. También podemos ponerlos fuera de ellos si +## especificamos `m` for `match` (coincidencia): +say so 'a b c' ~~ m:s/a b c/; #=> `True` +## Al usar `m` para especificar 'match', podemos también otros delimitadore: +say so 'abc' ~~ m{a b c}; #=> `True` +say so 'abc' ~~ m[a b c]; #=> `True` + +## Usa el adverbio :i para especificar que no debería haber distinción entre +## minúsculas y mayúsculas: +say so 'ABC' ~~ m:i{a b c}; #=> `True` + +## Sin embargo, es importante para como los modificadores son aplicados +## (lo cual verás más abajo)... + +## Cuantificando - `?`, `+`, `*` y `**`. +## - `?` - 0 o 1 +so 'ac' ~~ / a b c /; # `False` +so 'ac' ~~ / a b? c /; # `True`, la "b" coincidió (apareció) 0 veces. +so 'abc' ~~ / a b? c /; # `True`, la "b" coincidió 1 vez. + +## ... Como debes saber, espacio en blancos son importante porque +## determinan en que parte del regexp es el objetivo del modificador: +so 'def' ~~ / a b c? /; # `False`. Solamente la `c` es opcional +so 'def' ~~ / a b? c /; # `False`. Espacio en blanco no es significante +so 'def' ~~ / 'abc'? /; # `True`. El grupo "abc"completo es opcional. + +## Aquí (y más abajo) el cuantificador aplica solamente a la `b` + +## - `+` - 1 o más +so 'ac' ~~ / a b+ c /; # `False`; `+` quiere por lo menos una coincidencia +so 'abc' ~~ / a b+ c /; # `True`; una es suficiente +so 'abbbbc' ~~ / a b+ c /; # `True`, coincidió con 4 "b"s + +## - `*` - 0 o más +so 'ac' ~~ / a b* c /; # `True`, todos son opcionales. +so 'abc' ~~ / a b* c /; # `True` +so 'abbbbc' ~~ / a b* c /; # `True` +so 'aec' ~~ / a b* c /; # `False`. "b"(s) son opcionales, no reemplazables. + +## - `**` - Cuantificador (sin límites) +## Si entrecierras los ojos lo suficiente, pueder ser que entiendas +## por qué la exponenciación es usada para la cantidad. +so 'abc' ~~ / a b**1 c /; # `True` (exactamente una vez) +so 'abc' ~~ / a b**1..3 c /; # `True` (entre una y tres veces) +so 'abbbc' ~~ / a b**1..3 c /; # `True` +so 'abbbbbbc' ~~ / a b**1..3 c /; # `False` (demasiado) +so 'abbbbbbc' ~~ / a b**3..* c /; # `True` (rangos infinitos no son un problema) + +## - `<[]>` - Clases de carácteres +## Las clases de carácteres son equivalentes a las clases `[]` de PCRE, +## pero usan una sintaxis de Perl 6: +say 'fooa' ~~ / f <[ o a ]>+ /; #=> 'fooa' + +## Puedes usar rangos: +say 'aeiou' ~~ / a <[ e..w ]> /; #=> 'ae' + +## Al igual que regexes normales, si quieres usar un carácter especial, +## escápalo (el último está escapando un espacio) +say 'he-he !' ~~ / 'he-' <[ a..z \! \ ]> + /; #=> 'he-he !' + +## Obtendrás una advertencia si pones nombres duplicados +## (lo cual tiene el efecto de capturar la frase escrita) +'he he' ~~ / <[ h e ' ' ]> /; # Advierte "Repeated characters found in characters + # class" + +## También puedes negarlos... (equivalenta a `[^]` en PCRE) +so 'foo' ~~ / <-[ f o ]> + /; # False + +## ... y componerlos: +so 'foo' ~~ / <[ a..z ] - [ f o ]> + /; # False (cualquier letra excepto f y o) +so 'foo' ~~ / <-[ a..z ] + [ f o ]> + /; # True (no letra excepto f and o) +so 'foo!' ~~ / <-[ a..z ] + [ f o ]> + /; # True (el signo + no reemplaza la + # parte de la izquierda) +``` + +### Grupos y Capturas + +```perl6 +## Grupo: Puedes agrupar partes de tu regexp con `[]`. +## Estos grupos *no son* capturados (como con `(?:)` en PCRE). +so 'abc' ~~ / a [ b ] c /; # `True`. El agrupamiento no hace casi nada +so 'foo012012bar' ~~ / foo [ '01' <[0..9]> ] + bar /; +## La línea anterior returna `True`. +## Coincidimos (o encotramos el patrón) "012" una o más de una vez ( +## (el signo `+` fue aplicado al grupo). +## Pero esto no va demasiado lejos, porque no podemos actualmente obtener +## devuelta el patrón que coincidió. + +## Captura: Podemos actualmente *capturar* los resultados del regexp, +## usando paréntesis. +so 'fooABCABCbar' ~~ / foo ( 'A' <[A..Z]> 'C' ) + bar /; # `True`. (usando `so` + # aquí, `$/` más abajo) + +## Ok. Comenzando con las explicaciones de grupos. Como dijimos, +### nuestra objeto `Match` está disponible en la variable `$/`: +say $/; # Imprimirá algo extraño (explicaremos luego) o + # "Nil" si nada coincidió + +## Como dijimos anteriormente, un objeto Match tiene indexación de array: +say $/[0]; #=> 「ABC」 「ABC」 + # Estos corchetes extranos son los objetos `Match`. + # Aquí, tenemos un array de ellos. +say $0; # Lo mismo que lo anterior. + +## Nuestra captura es `$0` porque es la primera y única captura en el +## regexp. Podrías estarte preguntando porque un array y la respuesta es +## simple: Algunas capturas (indezadas usando `$0`, `$/[0]` o una nombrada) +## será un array si y solo si puedes tener más de un elemento. +## (Así que, con `*`, `+` y `**` (cualquiera los operandos), pero no con `?`). +## Usemos algunos ejemplos para ver como funciona: + +## Nota: Pusimos A B C entre comillas para demostrar que el espacio en blanco +## entre ellos no es significante. Si queremos que el espacio en blanco +## *sea* significante, podemos utilizar el modificador `:sigspace`. +so 'fooABCbar' ~~ / foo ( "A" "B" "C" )? bar /; # `True` +say $/[0]; #=> 「ABC」 +say $0.WHAT; #=> (Match) + # Puede haber más de uno, por lo tanto es solo un solo objeto match. +so 'foobar' ~~ / foo ( "A" "B" "C" )? bar /; #=> True +say $0.WHAT; #=> (Any) + # Esta captura no coincidió, por lo tanto está vacía +so 'foobar' ~~ / foo ( "A" "B" "C" ) ** 0..1 bar /; # `True` +say $0.WHAT; #=> (Array) + # Un cuantificador específico siempre capturará un Array, + # puede ser un rango o un valor específico (hasta 1). + +## Las capturas son indezadas por anidación. Esto quiere decir que un grupo +## dentro de un grup estará anidado dentro de su grupo padre: `$/[0][0]`, +## para este código: +'hello-~-world' ~~ / ( 'hello' ( <[ \- \~ ]> + ) ) 'world' /; +say $/[0].Str; #=> hello~ +say $/[0][0].Str; #=> ~ + +## Esto se origina de un hecho bien simple: `$/` no contiene cadenas de +## texto, números enteros o arrays sino que solo contiene objetos Match. +## Estos objetos contienen los métodos `.list`, `.hash` y `.Str`. (Pero +## también puedes usar `match<llave>` para accesar un hash y `match[indice]` +## para accesar un array. +say $/[0].list.perl; #=> (Match.new(...),).list + # Podemos ver que es una lista de objetos Match. + # Estos contienen un montón de información: dónde la + # coincidencia comenzó o terminó, el "ast" + # (chequea las acciones más abajo), etc. + # Verás capturas nombradas más abajo con las gramáticas. + +## Alternativas - el `or` de regexes +## Advertencia: Es diferente a los regexes de PCRE. +so 'abc' ~~ / a [ b | y ] c /; # `True`. o "b" o "y". +so 'ayc' ~~ / a [ b | y ] c /; # `True`. Obviamente suficiente... + +## La diferencia entre este `|` y el otro al que estás acustombrado es LTM. +## LTM significa "Longest Token Matching", traducido libremente como +## "Coincidencia de Token Más Larga". Esto significa que el motor ("engine") +## siempre intentará coindidir tanto como sea posible en la cadena de texto. +## Básicamente, intentará el patrón más largo que concuerde con el regexp. +'foo' ~~ / fo | foo /; # `foo` porque es más largo. +## Para decidir cual parte es la "más larga", primero separa el regex en +## dos partes: +## El "prefijo declarativo" (la parte que puede ser analizada estáticamente) +## y las partes procedimentales. +## Los prefijos declarativos incluyen alternaciones (`|`), conjunciones (`&`), +## invocaciones de sub-reglas (no han sido introducidos todavía), clases de +## caracteres y cuantificadores. +## Las partes procidimentales incluyen todo lo demás: referencias a elementos +## anteriores, aserciones de código, y otras cosas que tradicionalmente no pueden +## ser representadas por regexes normales. +## +## Entonces, todas las alternativas se intentan al mismo tiempo, y la +## más larga gana. +## Ejemplos: +## DECLARATIVO | PROCEDIMENTAL +/ 'foo' \d+ [ <subrule1> || <subrule2> ] /; +## DECLARATIVO (grupos anidados no son un problema) +/ \s* [ \w & b ] [ c | d ] /; +## Sin embargo, las clausuras y la recursión (de regexes nombrados) +## son procedimentales. +## ... Hay más reglas complicadas, como la especifidad (los literales ganan +## son las clases de caracteres) ++ +## Nota: la primera coincidencia `or` todavía existen, pero ahora se +## deletrea `||` +'foo' ~~ / fo || foo /; # `fo` ahora. +``` + +## Extra: la subrutina MAIN + +```perl6 +## La subrutina `MAIN` se invoca cuando tu ejecuta un archivo de Perl 6 +## directamente. Es realmente poderosa porque Perl 6 actualmente parsea +## los argumentos y los pasas a la subrutina. También maneja argumentos +## nombrados (`--foo`) y hasta autogenerará un `--help`. +sub MAIN($nombre) { say "¡Hola, $nombre!" } +## Esto produce: +## $ perl6 cli.pl +## Uso: +## t.pl <nombre> + +## Y dado que una subrutina regular en Perl 6, puedes tener múltiples +## despachos: +## (usando un "Bool" por un argumento nombrado para que podamos hacer +## `--replace` a cambio de `--replace=1`) +subset File of Str where *.IO.d; # convierte a un objeto IO para chequear si + # un archivo existe + +multi MAIN('add', $key, $value, Bool :$replace) { ... } +multi MAIN('remove', $key) { ... } +multi MAIN('import', File, Str :$as) { ... } # omitiendo parámetros nombrados +## Esto produce: +## $ perl6 cli.pl +## Uso: +## t.pl [--replace] add <key> <value> +## t.pl remove <key> +## t.pl [--as=<Str>] import (File) +## Como puedes ver, esto es *realmente* poderoso. +## Fue tan lejos como para mostrar las constantes en líneas. +## (el tipo solo se muestra cuando el argumento `$`/ es nombrado) +``` + +## APÉNDICE A: +### Lista de cosas + +```perl6 +## Consideramos que por ahora ya sabes lo básico de Perl 6. +## Esta sección es solo para listar algunas operaciones comunes +## las cuales no están en la "parte principal" del tutorial. + +## Operadores + +## * Comparación para ordenar +## Ellos returnan un valor de los enum `Order`: `Less`, `Same` y `More` +## (los cuales representan los números -1, 0 o +1). +1 <=> 4; # comparación de orden para caracteres numéricos +'a' leg 'b'; # comparación de orden para cadenas de texto +$obj eqv $obj2; # comparación de orden usando la semántica eqv + +## * Ordenación genérica +3 before 4; # True +'b' after 'a'; # True + +## * Operador (por defecto) de circuito corto +## Al igual que `or` y `||`, pero devuelve el primer valor *defined* +## (definido): +say Any // Nil // 0 // 5; #=> 0 + +## * Circuito corto exclusivo or (XOR) +## Devuelve `True` si uno (y solo uno) de sus argumentos es verdadero: +say True ^^ False; #=> True + +## * Flip Flop +## Los operadores flip flop (`ff` y `fff`, equivalente a `..`/`...` en P5) +## son operadores que toman dos predicados para evalualarlos: +## Ellos son `False` hasta que su lado izquierdo devuelve `True`, entonces +## son `True` hasta que su lado derecho devuelve `True`. +## Como los rangos, tu puedes excluir la iteración cuando se convierte en +## `True`/`False` usando `^` en cualquier lado. +## Comencemos con un ejemplo: +for <well met young hero we shall meet later> { + # por defecto, `ff`/`fff` hace coincidencia inteligente (`~~`) contra `$_`: + if 'met' ^ff 'meet' { # no entrará el bucle if por "met" + # (se explica más abajo). + .say + } + + if rand == 0 ff rand == 1 { # compara variables más que `$_` + say "Esto ... probablemente nunca se ejecutará ..."; + } +} +## Esto imprimirá "young hero we shall meet" (exluyendo "met"): +## el flip-flop comenzará devolviendo `True` cuando primero encuentra "met" +## (pero no returnará `False` por "met" dabido al `^` al frente de `ff`), +## hasta que ve "meet", lo cual es cuando comenzará devolviendo `False`. + +## La diferencia entre `ff` (al estilo de awk) y `fff` (al estilo de sed) +## es que `ff` probará su lado derecho cuando su lado izquierdo cambia +## a `True`, y puede returnar a `False` inmediamente (*excepto* que será +## `True` por la iteración con la cual coincidió). Por lo contrario, +## `fff` esperará por la próxima iteración para intentar su lado +## derecho, una vez que su lado izquierdo ha cambiado: +.say if 'B' ff 'B' for <A B C B A>; #=> B B + # porque el lado derecho se puso a prueba + # directamente (y returnó `True`). + # Las "B"s se imprimen dadó que coincidió + # en ese momento (returnó a `False` + # inmediatamente). +.say if 'B' fff 'B' for <A B C B A>; #=> B C B + # El lado derecho no se puso a prueba + # hasta que `$_` se convirtió en "C" + # (y por lo tanto no coincidió + # inmediamente). + +## Un flip-flop puede cambiar estado cuantas veces se necesite: +for <test start print it stop not printing start print again stop not anymore> { + .say if $_ eq 'start' ^ff^ $_ eq 'stop'; # excluye a "start" y "stop", + #=> "print it print again" +} + +## También podrías usar una Whatever Star, lo cual es equivalente +## a `True` para el lado izquierdo o `False` para el lado derecho: +for (1, 3, 60, 3, 40, 60) { # Nota: los paréntesis son superfluos aquí + # (algunas veces se les llaman "paréntesis superticiosos") + .say if $_ > 50 ff *; # Una vez el flip-flop alcanza un número mayor que 50, + # no returnará jamás a `False` + #=> 60 3 40 60 +} + +## También puedes usar esta propiedad para crear un `If` +## que no pasará la primera vez: +for <a b c> { + .say if * ^ff *; # el flip-flop es `True` y nunca returna a `False`, + # pero el `^` lo hace *que no se ejecute* en la + # primera iteración + #=> b c +} + +## - `===` es la identidad de valor y usa `.WHICH` +## en los objetos para compararlos. +## - `=:=` es la identidad de contenedor y usa `VAR()` +## en los objetos para compararlos. + +``` +Si quieres ir más allá de lo que se muestra aquí, puedes: + + - Leer la [documentación de Perl 6](https://docs.perl6.org/). Esto es un recurso + grandioso acerca de Perl 6. Si estás buscando por algo en particular, usa la + barra de búsquedas. Esto te dará un menú de todas las páginas concernientes + a tu término de búsqueda (¡Es mucho mejor que usar Google para encontrar + documentos acerca de Perl 6!) + - Leer el [Perl 6 Advent Calendar](http://perl6advent.wordpress.com/). Este es + un gran recurso de fragmentos de código de Perl 6 y explicaciones. Si la documentación + no describe algo lo suficientemente bien, puedes encontrar información más detallada + aquí. Esta información puede ser un poquito más antigua pero hay muchos ejemplos y + explicaciones. Las publicaciones fueron suspendidas al final del 2015 cuando + el lenguaje fue declarado estable y Perl 6.c fue lanzado. + - Unirte a `#perl6` en `irc.freenode.net`. Las personas aquí son siempre serviciales. + - Chequear la [fuente de las funciones y clases de Perl 6 + ](https://github.com/rakudo/rakudo/tree/nom/src/core). Rakudo está principalmente + escrito en Perl 6 (con mucho de NQP, "Not Quite Perl" ("No Perl Todavía"), un + subconjunto de Perl 6 que es más fácil de implementar y optimizar). + - Leer [documentos acerca del diseño del lenguaje](http://design.perl6.org). + Estos explican P6 desde la perspectiva de un implementador, lo cual es bastante + interesante. diff --git a/es-es/visualbasic-es.html.markdown b/es-es/visualbasic-es.html.markdown index c7f581c0..ca00626b 100644 --- a/es-es/visualbasic-es.html.markdown +++ b/es-es/visualbasic-es.html.markdown @@ -10,7 +10,7 @@ filename: learnvisualbasic-es.vb lang: es-es --- -```vb +``` Module Module1 Sub Main() diff --git a/fi-fi/markdown-fi.html.markdown b/fi-fi/markdown-fi.html.markdown index c5ee52b0..defc7100 100644 --- a/fi-fi/markdown-fi.html.markdown +++ b/fi-fi/markdown-fi.html.markdown @@ -10,7 +10,7 @@ lang: fi-fi John Gruber loi Markdownin vuona 2004. Sen tarkoitus on olla helposti luettava ja kirjoitettava syntaksi joka muuntuu helposti HTML:ksi (ja nyt myös moneksi muuksi formaatiksi). -```markdown +```md <!-- Jokainen HTML-tiedosto on pätevää Markdownia. Tämä tarkoittaa että voimme käyttää HTML-elementtejä Markdownissa, kuten kommentteja, ilman että markdown -jäsennin vaikuttaa niihin. Tästä johtuen et voi kuitenkaan käyttää markdownia diff --git a/forth.html.markdown b/forth.html.markdown index 09f3beb0..ff094017 100644 --- a/forth.html.markdown +++ b/forth.html.markdown @@ -59,7 +59,7 @@ Forth, but most of what is written here should work elsewhere. \ ---------------------- More Advanced Stack Manipulation ---------------------- -1 2 3 4 tuck \ duplicate the top item into the second slot: 1 2 4 3 4 ok +1 2 3 4 tuck \ duplicate the top item below the second slot: 1 2 4 3 4 ok 1 2 3 4 over \ duplicate the second item to the top: 1 2 3 4 3 ok 1 2 3 4 2 roll \ *move* the item at that position to the top: 1 3 4 2 ok 1 2 3 4 2 pick \ *duplicate* the item at that position to the top: 1 2 3 4 2 ok diff --git a/fr-fr/crystal-fr.html.markdown b/fr-fr/crystal-fr.html.markdown index 2c4e3dad..2bb17fc5 100644 --- a/fr-fr/crystal-fr.html.markdown +++ b/fr-fr/crystal-fr.html.markdown @@ -305,7 +305,6 @@ end (1..3).each do |index| puts "Index: #{index}" end -# Index: 0 # Index: 1 # Index: 2 # Index: 3 diff --git a/fr-fr/d.html.markdown b/fr-fr/d-fr.html.markdown index 8d98f9dc..8d98f9dc 100644 --- a/fr-fr/d.html.markdown +++ b/fr-fr/d-fr.html.markdown diff --git a/fr-fr/haskell.html.markdown b/fr-fr/haskell-fr.html.markdown index a34dc098..a34dc098 100644 --- a/fr-fr/haskell.html.markdown +++ b/fr-fr/haskell-fr.html.markdown diff --git a/fr-fr/java-fr.html.markdown b/fr-fr/java-fr.html.markdown index d0f91611..d6c68343 100644 --- a/fr-fr/java-fr.html.markdown +++ b/fr-fr/java-fr.html.markdown @@ -11,7 +11,7 @@ contributors: - ["Michael Dähnert", "https://github.com/JaXt0r"] - ["Rob Rose", "https://github.com/RobRoseKnows"] - ["Sean Nam", "https://github.com/seannam"] -filename: JavaFr.java +filename: java-fr.java translators: - ['Mathieu Gemard', 'https://github.com/mgemard'] lang: fr-fr diff --git a/fr-fr/jquery-fr.html.markdown b/fr-fr/jquery-fr.html.markdown index 1842e02b..1a5baf71 100644 --- a/fr-fr/jquery-fr.html.markdown +++ b/fr-fr/jquery-fr.html.markdown @@ -13,6 +13,7 @@ jQuery est une bibliothèque JavaScript dont le but est de permettre de "faire p C'est pourquoi aujourd'hui, jQuery est utilisée par de nombreuses grandes entreprises et par des développeurs du monde entier. Étant donné que jQuery est une bibliothèque JavaScript, vous devriez d'abord [apprendre le JavaScript](https://learnxinyminutes.com/docs/fr-fr/javascript-fr/) + ```js @@ -138,5 +139,5 @@ $('p').each(function() { }); -`` +``` diff --git a/fr-fr/markdown.html.markdown b/fr-fr/markdown-fr.html.markdown index 2e4e8461..8518f35c 100644 --- a/fr-fr/markdown.html.markdown +++ b/fr-fr/markdown-fr.html.markdown @@ -14,7 +14,7 @@ Faites moi autant de retours que vous voulez! Sentez vous libre de "forker" et envoyer des pull request! -```markdown +```md <!-- Markdown est une sorte de cousin du HTML, si bien que tout document HTML est un document Markdown valide. Autrement dit, vous pouvez utiliser des balises HTML dans un fichier Markdown, comme la balise commentaire dans diff --git a/fr-fr/php.html.markdown b/fr-fr/php-fr.html.markdown index 823630bd..45a02d75 100644 --- a/fr-fr/php.html.markdown +++ b/fr-fr/php-fr.html.markdown @@ -6,10 +6,11 @@ contributors: - ["Trismegiste", "https://github.com/Trismegiste"] translators: - ["Pascal Boutin", "http://pboutin.net/"] + - ["Julien M'Poy", "https://github.com/groovytron"] lang: fr-fr --- -This document describes PHP 5+. +Ce document décrit PHP 5+. ```php // Le code PHP doit être placé à l'intérieur de balises '<?php' @@ -48,7 +49,7 @@ Hello World Again! // Un nom de variable valide commence par une lettre ou un souligné, // suivi de n'importe quelle lettre, nombre ou de soulignés. -// Les valeurs booléenes ne sont pas sensibles à la casse +// Les valeurs booléennes ne sont pas sensibles à la casse $boolean = true; // ou TRUE ou True $boolean = false; // ou FALSE ou False @@ -84,30 +85,30 @@ $number /= $float; // Divise et assigne le quotient à $number $sgl_quotes = '$String'; // => '$String' // Évitez les guillemets sauf pour inclure le contenu d'une autre variable -$dbl_quotes = "This is a $sgl_quotes."; // => 'This is a $String.' +$dbl_quotes = "Ceci est une $sgl_quotes."; // => 'Ceci est une $String.' // Les caractères spéciaux sont seulement échappés avec des guillemets -$escaped = "This contains a \t tab character."; -$unescaped = 'This just contains a slash and a t: \t'; +$escaped = "Ceci contient \t une tabulation."; +$unescaped = 'Ceci contient juste un slash et un t: \t'; // En cas de besoin, placez la variable dans des accolades -$money = "I have $${number} in the bank."; +$money = "J'ai $${number} sur mon compte en banque."; // Depuis PHP 5.3, Nowdoc peut être utilisé pour faire des chaînes // multi-lignes non-interprétées $nowdoc = <<<'END' -Multi line -string +String +mutli-lignes END; // Heredoc peut être utilisé pour faire des chaînes multi-lignes interprétées $heredoc = <<<END -Multi line $sgl_quotes +multi-lignes END; // La concaténation de chaînes se fait avec un . -echo 'This string ' . 'is concatenated'; +echo 'Cette string ' . 'est concatenée'; // => 'Cette string est concaténée' /******************************** @@ -122,7 +123,7 @@ echo 'This string ' . 'is concatenated'; define("FOO", "something"); // on peut accéder à une constante en utilisant directement son nom -echo 'This outputs '.FOO; +echo 'Ceci affiche ' . FOO; /******************************** @@ -149,6 +150,14 @@ $array[] = 'Four'; // Retrait d'un élément du tableau unset($array[3]); +// Depuis PHP 7, il est possible de déclarer des tableaux constants en +// utilisant 'define'. +define('ANIMAUX', [ + 'chien', + 'chat', + 'oiseau', +]); + /******************************** * Affichage */ @@ -159,11 +168,13 @@ echo('Hello World!'); print('Hello World!'); // Pareil à "écho" -// Pour écho, vous n'avez pas besoin des parenthèses +// 'echo' et 'print' sont des language constructs. +// Il n'ont pas besoin de parenthèses car ils sont traités comme +// des opérateurs unaires. echo 'Hello World!'; -print 'Hello World!'; // Pour print non plus +print 'Hello World!'; -$paragraph = 'paragraph'; +$paragraph = 'paragraphe'; echo 100; // Affichez un scalaire directement echo $paragraph; // ou des variables @@ -202,7 +213,8 @@ $b = '0'; $c = '1'; $d = '1'; -// assert affiche un avertissement dans son argument n'est pas vrai +// assert affiche un avertissement quand l'expression booléenne passée +// en argument n'est pas vraie. // Ces comparaisons vont toujours être vraies, même si leurs // types ne sont pas les mêmes. @@ -315,7 +327,7 @@ if ($x === '0') { switch ($x) { case '0': print 'Les switch font du transtypage implicite'; - break; // Il est important de déclaré un 'break', sinon les cas + break; // Il est important de déclarer un 'break', sinon les cas // 'two' et 'three' seront évalués case 'two': case 'three': @@ -390,9 +402,10 @@ function my_function () { echo my_function(); // => "Hello" -// Les noms de fonction débutent par le symbole $ -// Un nom de variable valide commence par une lettre ou un souligné, +// Un nom de fonction valide commence par une lettre ou un souligné, // suivi de n'importe quelle lettre, nombre ou de soulignés. +// Les noms des arguments d'une fonction doivent respecter le même format que +// celui des variables. function add ($x, $y = 1) { // $y est facultatif et sa valeur par défaut est 1 $result = $x + $y; @@ -519,7 +532,7 @@ class MyClass public static function myStaticMethod() { - print 'I am static'; + print 'Je suis static'; } } @@ -527,7 +540,7 @@ class MyClass echo MyClass::MY_CONST; // Outputs 'value'; echo MyClass::$staticVar; // Retourne 'static'; -MyClass::myStaticMethod(); // Retourne 'I am static'; +MyClass::myStaticMethod(); // Retourne 'Je suis static'; // On peut instancier une classe en utilisant le mot clé 'new' $my_class = new MyClass('An instance property'); @@ -584,7 +597,7 @@ echo $x->property; // Va utiliser la méthode __get() $x->property = 'Something'; // Va utiliser la méthode __set() // Les classes peuvent être abstraites (en utilisant le mot clé 'abstract'), ou -// elle peuvent implémenter une interface (en utilisant le mot clé 'implement'). +// elle peuvent implémenter une interface (en utilisant le mot clé 'implements'). // Une interface peut être déclarée avec le mot clé 'interface' @@ -637,6 +650,35 @@ class SomeOtherClass implements InterfaceOne, InterfaceTwo } } +// Il est possible de déclarer des classes internes anonymes depuis PHP 7 + +interface Logger { + public function log(string $msg); +} + +class Application { + private $logger; + + public function getLogger(): Logger { + return $this->logger; + } + + public function setLogger(Logger $logger) { + $this->logger = $logger; + } +} + +$app = new Application; + +$app->setLogger(new class implements Logger { + public function log(string $msg) { + echo $msg; + } +}); + +var_dump($app->getLogger()); // => 'object(class@anonymous)#2 (0) {}' + + /******************************** * Espaces de noms (namespaces) */ diff --git a/fr-fr/scala.html.markdown b/fr-fr/scala-fr.html.markdown index c6a61745..c6a61745 100644 --- a/fr-fr/scala.html.markdown +++ b/fr-fr/scala-fr.html.markdown diff --git a/fr-fr/vim.html.markdown b/fr-fr/vim-fr.html.markdown index b2f1d24d..b2f1d24d 100644 --- a/fr-fr/vim.html.markdown +++ b/fr-fr/vim-fr.html.markdown diff --git a/fsharp.html.markdown b/fsharp.html.markdown index bbf477ba..dd85552d 100644 --- a/fsharp.html.markdown +++ b/fsharp.html.markdown @@ -306,7 +306,7 @@ module DataTypeExamples = // ------------------------------------ // Union types (aka variants) have a set of choices - // Only case can be valid at a time. + // Only one case can be valid at a time. // ------------------------------------ // Use "type" with bar/pipe to define a union type diff --git a/git.html.markdown b/git.html.markdown index 088c109f..582f8863 100644 --- a/git.html.markdown +++ b/git.html.markdown @@ -292,6 +292,10 @@ contains the changes made and a message created by the user. # commit with a message $ git commit -m "Added multiplyNumbers() function to HelloWorld.c" +# signed commit with a message (user.signingkey must have been set +# with your GPG key e.g. git config --global user.signingkey 5173AAD5) +$ git commit -S -m "signed commit message" + # automatically stage modified or deleted files, except new files, and then commit $ git commit -a -m "Modified foo.php and removed bar.php" diff --git a/go.html.markdown b/go.html.markdown index e5263cf6..df677894 100644 --- a/go.html.markdown +++ b/go.html.markdown @@ -15,15 +15,15 @@ contributors: --- Go was created out of the need to get work done. It's not the latest trend -in computer science, but it is the newest fastest way to solve real-world +in programming language theory, but it is a way to solve real-world problems. -It has familiar concepts of imperative languages with static typing. +It draws concepts from imperative languages with static typing. It's fast to compile and fast to execute, it adds easy-to-understand -concurrency to leverage today's multi-core CPUs, and has features to -help with large-scale programming. +concurrency because multi-core CPUs are now common, and it's used successfully +in large codebases (~100 million loc at Google, Inc.). -Go comes with a great standard library and an enthusiastic community. +Go comes with a good standard library and a sizeable community. ```go // Single line comment @@ -48,7 +48,7 @@ import ( // executable program. Love it or hate it, Go uses brace brackets. func main() { // Println outputs a line to stdout. - // Qualify it with the package name, fmt. + // It comes from the package fmt. fmt.Println("Hello world!") // Call another function within this package. @@ -180,7 +180,7 @@ func learnFlowControl() { if true { fmt.Println("told ya") } - // Formatting is standardized by the command line command "go fmt." + // Formatting is standardized by the command line command "go fmt". if false { // Pout. } else { diff --git a/haxe.html.markdown b/haxe.html.markdown index e811031e..df2a1e78 100644 --- a/haxe.html.markdown +++ b/haxe.html.markdown @@ -770,8 +770,8 @@ class UsingExample { ``` We're still only scratching the surface here of what Haxe can do. For a formal -overiew of all Haxe features, checkout the [online -manual](http://haxe.org/manual), the [online api](http://api.haxe.org/), and +overview of all Haxe features, checkout the [online +manual](http://haxe.org/manual), the [online API](http://api.haxe.org/), and "haxelib", the [haxe library repo] (http://lib.haxe.org/). For more advanced topics, consider checking out: diff --git a/html.html.markdown b/html.html.markdown index 3c855b5c..04b9f501 100644 --- a/html.html.markdown +++ b/html.html.markdown @@ -1,6 +1,6 @@ --- language: html -filename: learnhtml.html +filename: learnhtml.txt contributors: - ["Christophe THOMAS", "https://github.com/WinChris"] translators: @@ -111,7 +111,7 @@ This article is concerned principally with HTML syntax and some useful tips. ## Usage -HTML is written in files ending with `.html`. +HTML is written in files ending with `.html` or `.htm`. The mime type is `text/html`. ## To Learn More diff --git a/hu-hu/python-hu.html.markdown b/hu-hu/python-hu.html.markdown new file mode 100644 index 00000000..9b55f8e2 --- /dev/null +++ b/hu-hu/python-hu.html.markdown @@ -0,0 +1,816 @@ +--- +language: python +contributors: + - ["Louie Dinh", "http://ldinh.ca"] + - ["Amin Bandali", "https://aminb.org"] + - ["Andre Polykanine", "https://github.com/Oire"] + - ["evuez", "http://github.com/evuez"] + - ["asyne", "https://github.com/justblah"] + - ["habi", "http://github.com/habi"] +translators: + - ["Tamás Diószegi", "https://github.com/ditam"] +filename: learnpython-hu.py +lang: hu-hu +--- + +A Python nyelvet Guido Van Rossum alkotta meg a 90-es évek elején. Manapság az +egyik legnépszerűbb programozási nyelv. Én a tiszta szintaxisa miatt szerettem +bele. Tulajdonképpen futtatható pszeudokód. + +Szívesen fogadok visszajelzéseket! Elérsz itt: [@louiedinh](http://twitter.com/louiedinh) +vagy pedig a louiedinh [kukac] [google email szolgáltatása] címen. + +Figyelem: ez a leírás a Python 2.7 verziójára vonatkozok, illetve +általánosságban a 2.x verziókra. A Python 2.7 azonban már csak 2020-ig lesz +támogatva, ezért kezdőknek ajánlott, hogy a Python 3-mal kezdjék az +ismerkedést. A Python 3.x verzióihoz a [Python 3 bemutató](http://learnxinyminutes.com/docs/python3/) +ajánlott. + +Lehetséges olyan Python kódot írni, ami egyszerre kompatibilis a 2.7 és a 3.x +verziókkal is, a Python [`__future__` imports](https://docs.python.org/2/library/__future__.html) használatával. +A `__future__` import használata esetén Python 3-ban írhatod a kódot, ami +Python 2 alatt is futni fog, így ismét a fenti Python 3 bemutató ajánlott. + +```python + +# Az egysoros kommentek kettőskereszttel kezdődnek + +""" Többsoros stringeket három darab " közé + fogva lehet írni, ezeket gyakran használják + több soros kommentként. +""" + +#################################################### +# 1. Egyszerű adattípusok és operátorok +#################################################### + +# Használhatsz számokat +3 # => 3 + +# Az alapműveletek meglepetésektől mentesek +1 + 1 # => 2 +8 - 1 # => 7 +10 * 2 # => 20 +35 / 5 # => 7 + +# Az osztás kicsit trükkös. Egész osztást végez, és a hányados alsó egész része +# lesz az eredmény +5 / 2 # => 2 + +# Az osztás kijavításához a (lebegőpontos) float típust kell használnunk +2.0 # Ez egy float +11.0 / 4.0 # => 2.75 áh... máris jobb + +# Az egész osztás a negatív számok esetén is az alsó egész részt eredményezi +5 // 3 # => 1 +5.0 // 3.0 # => 1.0 # floatok esetén is +-5 // 3 # => -2 +-5.0 // 3.0 # => -2.0 + +# Ha importáljuk a division modult (ld. 6. Modulok rész), +# akkor a '/' jellel pontos osztást tudunk végezni. +from __future__ import division + +11 / 4 # => 2.75 ...sima osztás +11 // 4 # => 2 ...egész osztás + +# Modulo művelet +7 % 3 # => 1 + +# Hatványozás (x az y. hatványra) +2 ** 4 # => 16 + +# A precedencia zárójelekkel befolyásolható +(1 + 3) * 2 # => 8 + +# Logikai operátorok +# Megjegyzés: az "and" és "or" csak kisbetűkkel helyes +True and False # => False +False or True # => True + +# A logikai operátorok egészeken is használhatóak +0 and 2 # => 0 +-5 or 0 # => -5 +0 == False # => True +2 == True # => False +1 == True # => True + +# Negálni a not kulcsszóval lehet +not True # => False +not False # => True + +# Egyenlőségvizsgálat == +1 == 1 # => True +2 == 1 # => False + +# Egyenlőtlenség != +1 != 1 # => False +2 != 1 # => True + +# További összehasonlítások +1 < 10 # => True +1 > 10 # => False +2 <= 2 # => True +2 >= 2 # => True + +# Az összehasonlítások láncolhatóak! +1 < 2 < 3 # => True +2 < 3 < 2 # => False + +# Stringeket " vagy ' jelek közt lehet megadni +"Ez egy string." +'Ez egy másik string.' + +# A stringek összeadhatóak! +"Hello " + "world!" # => "Hello world!" +# '+' jel nélkül is összeadhatóak +"Hello " "world!" # => "Hello world!" + +# ... illetve szorozhatóak +"Hello" * 3 # => "HelloHelloHello" + +# Kezelhető karakterek indexelhető listájaként +"This is a string"[0] # => 'T' + +# A string hosszát a len függvény adja meg +len("This is a string") # => 16 + +# String formázáshoz a % jel használható +# A Python 3.1-gyel a % már deprecated jelölésű, és később eltávolításra fog +# kerülni, de azért jó tudni, hogyan működik. +x = 'alma' +y = 'citrom' +z = "A kosárban levő elemek: %s és %s" % (x, y) + +# A string formázás újabb módja a format metódus használatával történik. +# Jelenleg ez a javasolt megoldás. +"{} egy {} szöveg".format("Ez", "helytartó") +"A {0} pedig {1}".format("string", "formázható") +# Ha nem akarsz számolgatni, nevesíthetőek a pozíciók. +"{name} kedvence a {food}".format(name="Bob", food="lasagna") + +# None egy objektum +None # => None + +# A None-nal való összehasonlításhoz ne használd a "==" jelet, +# használd az "is" kulcsszót helyette +"etc" is None # => False +None is None # => True + +# Az 'is' operátor objektum egyezést vizsgál. +# Primitív típusok esetén ez nem túl hasznos, +# objektumok esetén azonban annál inkább. + +# Bármilyen objektum használható logikai kontextusban. +# A következő értékek hamis-ra értékelődnek ki (ún. "falsey" értékek): +# - None +# - bármelyik szám típus 0 értéke (pl. 0, 0L, 0.0, 0j) +# - üres sorozatok (pl. '', (), []) +# - üres konténerek (pl., {}, set()) +# - egyes felhasználó által definiált osztályok példányai bizonyos szabályok szerint, +# ld: https://docs.python.org/2/reference/datamodel.html#object.__nonzero__ +# +# Minden egyéb érték "truthy" (a bool() függvénynek átadva igazra értékelődnek ki) +bool(0) # => False +bool("") # => False + + +#################################################### +# 2. Változók és kollekciók +#################################################### + +# Létezik egy print utasítás +print "I'm Python. Nice to meet you!" # => I'm Python. Nice to meet you! + +# Így lehet egyszerűen bemenetet kérni a konzolról: +input_string_var = raw_input( + "Enter some data: ") # Visszatér a megadott stringgel +input_var = input("Enter some data: ") # Kiértékeli a bemenetet python kódként +# Vigyázat: a fentiek miatt az input() metódust körültekintően kell használni +# Megjegyzés: Python 3-ban az input() már deprecated, és a raw_input() lett input()-ra átnevezve + +# A változókat nem szükséges a használat előtt deklarálni +some_var = 5 # Konvenció szerint a névben kisbetu_es_alulvonas +some_var # => 5 + +# Érték nélküli változóra hivatkozás hibát dob. +# Lásd a Control Flow szekciót a kivételkezelésről. +some_other_var # name error hibát dob + +# az if használható kifejezésként +# a C nyelv '?:' ternáris operátorával egyenértékűen +"yahoo!" if 3 > 2 else 2 # => "yahoo!" + +# A listákban sorozatok tárolhatóak +li = [] +# Már inicializáláskor megadhatóak elemek +other_li = [4, 5, 6] + +# A lista végére az append metódus rak új elemet +li.append(1) # li jelenleg [1] +li.append(2) # li jelenleg [1, 2] +li.append(4) # li jelenleg [1, 2, 4] +li.append(3) # li jelenleg [1, 2, 4, 3] +# A végéről a pop metódus távolít el elemet +li.pop() # => 3 és li jelenleg [1, 2, 4] +# Rakjuk vissza +li.append(3) # li jelenleg [1, 2, 4, 3], újra. + +# A lista elemeket tömb indexeléssel lehet hivatkozni +li[0] # => 1 +# A már inicializált értékekhez a = jellel lehet új értéket rendelni +li[0] = 42 +li[0] # => 42 +li[0] = 1 # csak visszaállítjuk az eredeti értékére +# Így is lehet az utolsó elemre hivatkozni +li[-1] # => 3 + +# A túlindexelés eredménye IndexError +li[4] # IndexError hibát dob + +# A lista részeit a slice szintaxissal lehet kimetszeni +# (Matekosoknak ez egy zárt/nyitott intervallum.) +li[1:3] # => [2, 4] +# A lista eleje kihagyható így +li[2:] # => [4, 3] +# Kihagyható a vége +li[:3] # => [1, 2, 4] +# Minden második elem kiválasztása +li[::2] # =>[1, 4] +# A lista egy másolata, fordított sorrendben +li[::-1] # => [3, 4, 2, 1] +# A fentiek kombinációival bonyolultabb slice parancsok is képezhetőek +# li[start:end:step] + +# Listaelemek a "del" paranccsal törölhetőek +del li[2] # li jelenleg [1, 2, 3] + +# A listák összeadhatóak +li + other_li # => [1, 2, 3, 4, 5, 6] +# Megjegyzés: az eredeti li és other_li értékei változatlanok + +# Összefőzhetőek (konkatenálhatóak) az "extend()" paranccsal +li.extend(other_li) # li jelenleg [1, 2, 3, 4, 5, 6] + +# Egy elem első előfordulásának eltávolítása +li.remove(2) # li jelenleg [1, 3, 4, 5, 6] +li.remove(2) # ValueError hibát dob, mivel a 2 nem szerepel már a listában + +# Elemek beszúrhatóak tetszőleges helyre +li.insert(1, 2) # li jelenleg [1, 2, 3, 4, 5, 6], ismét + +# Egy elem első előfordulási helye +li.index(2) # => 1 +li.index(7) # ValueError hibát dob, mivel a 7 nem szerepel a listában + +# Egy listában egy elem előfordulása az "in" szóval ellenőrizhető +1 in li # => True + +# A lista hossza a "len()" függvénnyel +len(li) # => 6 + +# Az N-esek ("tuple") hasonlítanak a listákhoz, de nem módosíthatóak +tup = (1, 2, 3) +tup[0] # => 1 +tup[0] = 3 # TypeError hibát dob + +# Az összes lista-műveletet ezeken is használható +len(tup) # => 3 +tup + (4, 5, 6) # => (1, 2, 3, 4, 5, 6) +tup[:2] # => (1, 2) +2 in tup # => True + +# Az N-esek (és listák) kicsomagolhatóak külön változókba +a, b, c = (1, 2, 3) # az a így 1, a b 2 és a c pedig 3 +d, e, f = 4, 5, 6 # a zárójel elhagyható +# Ha elhagyod a zárójeleket, alapértelmezés szerint tuple képződik +g = 4, 5, 6 # => (4, 5, 6) +# Nézd, milyen egyszerű két értéket megcserélni +e, d = d, e # d most már 5 és az e 4 + +# A Dictionary típusokban hozzárendelések (kulcs-érték párok) tárolhatók +empty_dict = {} +# Ez pedig rögtön értékekkel van inicializálva +filled_dict = {"one": 1, "two": 2, "three": 3} + +# Egy dictionary értékei [] jelek közt indexelhetőek +filled_dict["one"] # => 1 + +# A "keys()" metódus visszatér a kulcsok listájával +filled_dict.keys() # => ["three", "two", "one"] +# Megjegyzés: egy dictionary párjainak sorrendje nem garantált +# Lehet, hogy már a fenti példán is más sorrendben kaptad meg az elemeket. + +# Az értékek listája a "values()" metódussal kérhető le +filled_dict.values() # => [3, 2, 1] +# ld. a fenti megjegyzést az elemek sorrendjéről. + +# Az összes kulcs-érték pár megkapható N-esek listájaként az "items()" metódussal +filled_dict.items() # => [("one", 1), ("two", 2), ("three", 3)] + +# Az "in" kulcssszóval ellenőrizhető, hogy egy kulcs szerepel-e a dictionary-ben +"one" in filled_dict # => True +1 in filled_dict # => False + +# Nem létező kulcs hivatkozása KeyError hibát dob +filled_dict["four"] # KeyError + +# A "get()" metódus használatával elkerülhető a KeyError +filled_dict.get("one") # => 1 +filled_dict.get("four") # => None +# A metódusnak megadható egy alapértelmezett visszatérési érték is, hiányzó értékek esetén +filled_dict.get("one", 4) # => 1 +filled_dict.get("four", 4) # => 4 +# Megjegyzés: ettől még filled_dict.get("four") => None +# (vagyis a get nem állítja be az alapértelmezett értéket a dictionary-ben) + +# A kulcsokhoz értékek a listákhoz hasonló szintaxissal rendelhetőek: +filled_dict["four"] = 4 # ez után filled_dict["four"] => 4 + +# A "setdefault()" metódus csak akkor állít be egy értéket, ha az adott kulcshoz még nem volt más megadva +filled_dict.setdefault("five", 5) # filled_dict["five"] beállítva 5-re +filled_dict.setdefault("five", 6) # filled_dict["five"] még mindig 5 + +# Egy halmaz ("set") olyan, mint egy lista, de egy elemet csak egyszer tárolhat +empty_set = set() +# Inicializáljuk ezt a halmazt néhány elemmel +some_set = set([1, 2, 2, 3, 4]) # some_set jelenleg set([1, 2, 3, 4]) + +# A sorrend itt sem garantált, még ha néha rendezettnek is tűnhet +another_set = set([4, 3, 2, 2, 1]) # another_set jelenleg set([1, 2, 3, 4]) + +# Python 2.7 óta már {} jelek közt is lehet halmazt definiálni +filled_set = {1, 2, 2, 3, 4} # => {1, 2, 3, 4} + +# Új halmaz-elemek hozzáadása +filled_set.add(5) # filled_set is now {1, 2, 3, 4, 5} + +# Halmaz metszés a & operátorral +other_set = {3, 4, 5, 6} +filled_set & other_set # => {3, 4, 5} + +# Halmaz unió | operátorral +filled_set | other_set # => {1, 2, 3, 4, 5, 6} + +# Halmaz különbség - +{1, 2, 3, 4} - {2, 3, 5} # => {1, 4} + +# Szimmetrikus differencia ^ +{1, 2, 3, 4} ^ {2, 3, 5} # => {1, 4, 5} + +# Vizsgáljuk, hogy a bal oldali halmaz magában foglalja-e a jobb oldalit +{1, 2} >= {1, 2, 3} # => False + +# Vizsgáljuk, hogy a bal oldali halmaz részhalmaza-e a jobb oldalinak +{1, 2} <= {1, 2, 3} # => True + +# Halmazbeli elemek jelenléte az in kulcssszóval vizsgálható +2 in filled_set # => True +10 in filled_set # => False + + +#################################################### +# 3. Control Flow +#################################################### + +# Legyen egy változónk +some_var = 5 + +# Ez egy if elágazás. A behúzás mértéke (az indentáció) jelentéssel bír a nyelvben! +# Ez a kód ezt fogja kiírni: "some_var kisebb 10-nél" +if some_var > 10: + print "some_var nagyobb, mint 10." +elif some_var < 10: # Az elif kifejezés nem kötelező az if szerkezetben. + print "some_var kisebb 10-nél" +else: # Ez sem kötelező. + print "some_var kereken 10." + +""" +For ciklusokkal végigiterálhatunk listákon +a kimenet: + A(z) kutya emlős + A(z) macska emlős + A(z) egér emlős +""" +for animal in ["kutya", "macska", "egér"]: + # A {0} kifejezéssel formázzuk a stringet, ld. korábban. + print "A(z) {0} emlős".format(animal) + +""" +"range(number)" visszatér számok listájával 0-től number-ig +a kimenet: + 0 + 1 + 2 + 3 +""" +for i in range(4): + print i + +""" +"range(lower, upper)" visszatér a lower és upper közti számok listájával +a kimenet: + 4 + 5 + 6 + 7 +""" +for i in range(4, 8): + print i + +""" +A while ciklus a feltétel hamissá válásáig fut. +a kimenet: + 0 + 1 + 2 + 3 +""" +x = 0 +while x < 4: + print x + x += 1 # Rövidítés az x = x + 1 kifejezésre + +# A kivételek try/except blokkokkal kezelhetőek + +# Python 2.6-tól felfele: +try: + # A "raise" szóval lehet hibát dobni + raise IndexError("Ez egy index error") +except IndexError as e: + pass # A pass egy üres helytartó művelet. Itt hívnánk a hibakezelő kódunkat. +except (TypeError, NameError): + pass # Ha szükséges, egyszerre több hiba típus is kezelhető +else: # Az except blokk után opcionálisan megadható + print "Minden rendben!" # Csak akkor fut le, ha fentebb nem voltak hibák +finally: # Mindenképpen lefut + print "Itt felszabadíthatjuk az erőforrásokat például" + +# Az erőforrások felszabadításához try/finally helyett a with használható +with open("myfile.txt") as f: + for line in f: + print line + + +#################################################### +# 4. Függvények +#################################################### + +# A "def" szóval hozhatunk létre új függvényt +def add(x, y): + print "x is {0} and y is {1}".format(x, y) + return x + y # A return szóval tudunk értékeket visszaadni + + +# Így hívunk függvényt paraméterekkel +add(5, 6) # => a konzol kimenet "x is 5 and y is 6", a visszatérési érték 11 + +# Nevesített paraméterekkel (ún. "keyword arguments") is hívhatunk egy függvényt +add(y=6, x=5) # Ez esetben a sorrendjük nem számít + + +# Változó számú paramétert fogadó függvény így definiálható. +# A * használatával a paramétereket egy N-esként kapjuk meg. +def varargs(*args): + return args + + +varargs(1, 2, 3) # => (1, 2, 3) + + +# Változó számú nevesített paramétert fogadó függvény is megadható, +# a ** használatával a paramétereket egy dictionary-ként kapjuk meg +def keyword_args(**kwargs): + return kwargs + + +# Nézzük meg, mi történik +keyword_args(big="foot", loch="ness") # => {"big": "foot", "loch": "ness"} + + +# A két módszer egyszerre is használható +def all_the_args(*args, **kwargs): + print args + print kwargs + + +""" +all_the_args(1, 2, a=3, b=4) kimenete: + (1, 2) + {"a": 3, "b": 4} +""" + +# Függvények hívásakor a fenti args és kwargs módszerek inverze használható +# A * karakter kifejt egy listát külön paraméterekbe, a ** egy dictionary-t nevesített paraméterekbe. +args = (1, 2, 3, 4) +kwargs = {"a": 3, "b": 4} +all_the_args(*args) # egyenértékű: foo(1, 2, 3, 4) +all_the_args(**kwargs) # egyenértékű: foo(a=3, b=4) +all_the_args(*args, **kwargs) # egyenértékű: foo(1, 2, 3, 4, a=3, b=4) + + +# A fenti arg és kwarg paraméterek továbbadhatóak egyéb függvényeknek, +# a * illetve ** operátorokkal kifejtve +def pass_all_the_args(*args, **kwargs): + all_the_args(*args, **kwargs) + print varargs(*args) + print keyword_args(**kwargs) + + +# Függvény scope +x = 5 + + +def set_x(num): + # A lokális x változó nem ugyanaz, mint a globális x + x = num # => 43 + print x # => 43 + + +def set_global_x(num): + global x + print x # => 5 + x = num # a globális x-et 6-ra állítjuk + print x # => 6 + + +set_x(43) +set_global_x(6) + + +# A pythonban a függvény elsőrendű (ún. "first class") típus +def create_adder(x): + def adder(y): + return x + y + + return adder + + +add_10 = create_adder(10) +add_10(3) # => 13 + +# Névtelen függvények is definiálhatóak +(lambda x: x > 2)(3) # => True +(lambda x, y: x ** 2 + y ** 2)(2, 1) # => 5 + +# Léteznek beépített magasabb rendű függvények +map(add_10, [1, 2, 3]) # => [11, 12, 13] +map(max, [1, 2, 3], [4, 2, 1]) # => [4, 2, 3] + +filter(lambda x: x > 5, [3, 4, 5, 6, 7]) # => [6, 7] + +# A listaképző kifejezések ("list comprehensions") jól használhatóak a map és filter függvényekkel +[add_10(i) for i in [1, 2, 3]] # => [11, 12, 13] +[x for x in [3, 4, 5, 6, 7] if x > 5] # => [6, 7] + +# halmaz és dictionary képzők is léteznek +{x for x in 'abcddeef' if x in 'abc'} # => {'a', 'b', 'c'} +{x: x ** 2 for x in range(5)} # => {0: 0, 1: 1, 2: 4, 3: 9, 4: 16} + + +#################################################### +# 5. Osztályok +#################################################### + +# Az object osztály egy alosztályát képezzük +class Human(object): + # Osztály szintű mező: az osztály összes példányában azonos + species = "H. sapiens" + + # Ez a függvény meghívódik az osztály példányosításakor. + # Megjegyzés: a dupla aláhúzás a név előtt és után egy konvenció a python + # előre definiált, a nyelv által belsőleg használt, de a felhasználó által + # is látható objektumok és mezők neveire. + # Ne vezessünk be új, ilyen elnevezési sémát használó neveket! + def __init__(self, name): + # A paramétert értékül adjuk a példány name attribútumának + self.name = name + + # Inicializálunk egy mezőt + self.age = 0 + + # Példány metódus. Minden metódus első paramétere a "self", a példány maga + def say(self, msg): + return "{0}: {1}".format(self.name, msg) + + # Egy osztálymetódus az osztály összes példány közt meg van osztva. + # Hívásukkor az első paraméter mindig a hívó osztály. + @classmethod + def get_species(cls): + return cls.species + + # Egy statikus metódus osztály és példányreferencia nélkül hívódik + @staticmethod + def grunt(): + return "*grunt*" + + # Egy property jelölésű függvény olyan, mint egy getter. + # Használatával az age mező egy csak-olvasható attribútummá válik. + @property + def age(self): + return self._age + + # Így lehet settert megadni egy mezőhöz + @age.setter + def age(self, age): + self._age = age + + # Így lehet egy mező törlését engedélyezni + @age.deleter + def age(self): + del self._age + + +# Példányosítsuk az osztályt +i = Human(name="Ian") +print i.say("hi") # kimenet: "Ian: hi" + +j = Human("Joel") +print j.say("hello") # kimenet: "Joel: hello" + +# Hívjuk az osztály metódusunkat +i.get_species() # => "H. sapiens" + +# Változtassuk meg az osztály szintű attribútumot +Human.species = "H. neanderthalensis" +i.get_species() # => "H. neanderthalensis" +j.get_species() # => "H. neanderthalensis" + +# Hívjuk meg a statikus metódust +Human.grunt() # => "*grunt*" + +# Adjunk új értéket a mezőnek +i.age = 42 + +# Kérjük le a mező értékét +i.age # => 42 + +# Töröljük a mezőt +del i.age +i.age # => AttributeError hibát dob + +#################################################### +# 6. Modulok +#################################################### + +# Modulokat így lehet importálni +import math + +print math.sqrt(16) # => 4 + +# Lehetséges csak bizonyos függvényeket importálni egy modulból +from math import ceil, floor + +print ceil(3.7) # => 4.0 +print floor(3.7) # => 3.0 + +# Egy modul összes függvénye is importálható +# Vigyázat: ez nem ajánlott. +from math import * + +# A modulok nevei lerövidíthetőek +import math as m + +math.sqrt(16) == m.sqrt(16) # => True +# Meggyőződhetünk róla, hogy a függvények valóban azonosak +from math import sqrt + +math.sqrt == m.sqrt == sqrt # => True + +# A Python modulok egyszerű fájlok. +# Írhatsz sajátot és importálhatod is. +# A modul neve azonos a tartalmazó fájl nevével. + +# Így lehet megtekinteni, milyen mezőket és függvényeket definiál egy modul. +import math + +dir(math) + + +# Ha van egy math.py nevű Python scripted a jelenleg futó scripttel azonos +# mappában, a math.py fájl lesz betöltve a beépített Python modul helyett. +# A lokális mappa prioritást élvez a beépített könyvtárak felett. + + +#################################################### +# 7. Haladóknak +#################################################### + +# Generátorok +# Egy generátor értékeket "generál" amikor kérik, a helyett, hogy előre eltárolná őket. + +# A következő metódus (ez még NEM egy generátor) megduplázza a kapott iterable elemeit, +# és eltárolja őket. Nagy méretű iterable esetén ez nagyon sok helyet foglalhat! +def double_numbers(iterable): + double_arr = [] + for i in iterable: + double_arr.append(i + i) + return double_arr + + +# A következő kód futtatásakor az összes szám kétszeresét kiszámítanánk, és visszaadnánk +# ezt a nagy listát a ciklus vezérléséhez. +for value in double_numbers(range(1000000)): # `test_non_generator` + print value + if value > 5: + break + + +# Használjunk inkább egy generátort, ami "legenerálja" a soron következő elemet, +# amikor azt kérik tőle +def double_numbers_generator(iterable): + for i in iterable: + yield i + i + + +# A lenti kód mindig csak a soron következő számot generálja a logikai vizsgálat előtt. +# Így amikor az érték eléri a > 5 határt, megszakítjuk a ciklust, és a lista számainak +# nagy részénél megspóroltuk a duplázás műveletet (ez sokkal gyorsabb így!). +for value in double_numbers_generator(xrange(1000000)): # `test_generator` + print value + if value > 5: + break + +# Feltűnt, hogy a `test_non_generator` esetén `range`, a `test_generator` esetén +# pedig `xrange` volt a segédfüggvény neve? Ahogy `double_numbers_generator` a +# generátor változata a `double_numbers` függvénynek, úgy az `xrange` a `range` +# generátor megfelelője, csak akkor generálja le a következő számot, amikor kérjük +# - esetünkben a ciklus következő iterációjakor + +# A lista képzéshez hasonlóan generátor képzőket is használhatunk +# ("generator comprehensions"). +values = (-x for x in [1, 2, 3, 4, 5]) +for x in values: + print(x) # kimenet: -1 -2 -3 -4 -5 + +# Egy generátor összes generált elemét listaként is elkérhetjük: +values = (-x for x in [1, 2, 3, 4, 5]) +gen_to_list = list(values) +print(gen_to_list) # => [-1, -2, -3, -4, -5] + +# Dekorátorok +# A dekorátor egy magasabb rendű függvény, aminek bemenete és kimenete is egy függvény. +# A lenti egyszerű példában az add_apples dekorátor a dekorált get_fruits függvény +# kimenetébe beszúrja az 'Apple' elemet. +def add_apples(func): + def get_fruits(): + fruits = func() + fruits.append('Apple') + return fruits + return get_fruits + +@add_apples +def get_fruits(): + return ['Banana', 'Mango', 'Orange'] + +# A kimenet tartalmazza az 'Apple' elemet: +# Banana, Mango, Orange, Apple +print ', '.join(get_fruits()) + +# Ebben a példában a beg dekorátorral látjuk el a say függvényt. +# Beg meghívja say-t. Ha a say_please paraméter igaz, akkor +# megváltoztatja az eredmény mondatot. +from functools import wraps + + +def beg(target_function): + @wraps(target_function) + def wrapper(*args, **kwargs): + msg, say_please = target_function(*args, **kwargs) + if say_please: + return "{} {}".format(msg, "Please! I am poor :(") + return msg + + return wrapper + + +@beg +def say(say_please=False): + msg = "Can you buy me a beer?" + return msg, say_please + + +print say() # Can you buy me a beer? +print say(say_please=True) # Can you buy me a beer? Please! I am poor :( +``` + +## Még több érdekel? + +### Ingyenes online tartalmak + +* [Automate the Boring Stuff with Python](https://automatetheboringstuff.com) +* [Learn Python The Hard Way](http://learnpythonthehardway.org/book/) +* [Dive Into Python](http://www.diveintopython.net/) +* [The Official Docs](http://docs.python.org/2/) +* [Hitchhiker's Guide to Python](http://docs.python-guide.org/en/latest/) +* [Python Module of the Week](http://pymotw.com/2/) +* [A Crash Course in Python for Scientists](http://nbviewer.ipython.org/5920182) +* [First Steps With Python](https://realpython.com/learn/python-first-steps/) +* [LearnPython](http://www.learnpython.org/) +* [Fullstack Python](https://www.fullstackpython.com/) + +### Könyvek + +* [Programming Python](http://www.amazon.com/gp/product/0596158106/ref=as_li_qf_sp_asin_tl?ie=UTF8&camp=1789&creative=9325&creativeASIN=0596158106&linkCode=as2&tag=homebits04-20) +* [Dive Into Python](http://www.amazon.com/gp/product/1441413022/ref=as_li_tf_tl?ie=UTF8&camp=1789&creative=9325&creativeASIN=1441413022&linkCode=as2&tag=homebits04-20) +* [Python Essential Reference](http://www.amazon.com/gp/product/0672329786/ref=as_li_tf_tl?ie=UTF8&camp=1789&creative=9325&creativeASIN=0672329786&linkCode=as2&tag=homebits04-20) diff --git a/id-id/bf-id.html.markdown b/id-id/bf-id.html.markdown new file mode 100644 index 00000000..bf2f6a09 --- /dev/null +++ b/id-id/bf-id.html.markdown @@ -0,0 +1,86 @@ +--- +language: bf +filename: brainfuck-id.bf +contributors: + - ["Prajit Ramachandran", "http://prajitr.github.io/"] + - ["Mathias Bynens", "http://mathiasbynens.be/"] +translators: + - ["Muhammad Rifqi Fatchurrahman", "http://muhrifqii.github.io/"] +lang: id-id +--- + +Brainfuck (tidak dalam huruf kapital kecuali pada awal kalimat) adalah sebuah +bahasa pemrograman Turing-complete yang sangat minim yang hanya memiliki 8 perintah. + +Anda bisa mencoba brainfuck pada browser dengan menggunakan [brainfuck-visualizer](http://fatiherikli.github.io/brainfuck-visualizer/). + +```bf +Karakter apapun selain "><+-.,[]" (tanda kutip tidak termasuk) diabaikan. + +Brainfuck direpresentasikan dengan sebuah array yang memiliki 30,000 cell yang +diinisialisasi dengan nol dan pointer data yang menunjuk ke current cell. + +Terdapat delapan perintah: ++ : Menaikkan nilai pada current cell sebesar satu. +- : Menurunkan nilai pada current cell sebesar satu. +> : Menggeser pointer data ke cell selanjutnya (cell sebelah kanan). +< : Menggeser pointer data ke cell sebelumnya (cell sebelah kiri). +. : Mencetak nilai ASCII pada current cell (misal 65 = 'A'). +, : Membaca sebuah karakter masukan tunggal ke dalam current cell. +[ : Jika nilai pada current cell bernilai nol, lewati hingga mencapai ] yang sesuai. + Jika tidak, pindah ke instruksi berikutnya. +] : Jika nilai pada current cell bernilai nol, pindah ke instruksi berikutnya. + Jika tidak, mundur pada instruksi hingga mencapai [ yang sesuai. + +[ dan ] membentuk sebuah rekursi while. Tentu saja mereka harus seimbang. + +Mari kita lihat beberapa program brainfuck dasar. + +++++++ [ > ++++++++++ < - ] > +++++ . + +Program ini mencetak huruf 'A'. Mula-mula, cell #1 dinaikkan ke 6. +Cell #1 akan digunakan untuk rekursi. Lalu, masuk ke rekursi ([) dan pindah +ke cell #2. Cell #2 dinaikkan 10 kali, mundur ke cell #1, dan menurunkan +cell #1. Rekursi ini berlangsung 6 kali (melakukan 6 penurunan nilai untuk +cell #1 hingga mencapai 0, di titik mana dia melewati hingga mencapai ] dan +terus berlanjut). + +Pada titik ini, kita berada pada cell #1, yang memiliki nilai 0, sedangkan cell #2 +memiliki sebuah nilai 60. Kita berpindah ke cell #2, menaikkan nilai 5 kali, memunculkan +nilai 65, lalu cetak nilai pada cell #2. 65 adalah 'A' pada ASCII, jadi 'A' +dicetak ke terminal. + +, [ > + < - ] > . + +Program ini membaca sebuah karakter dari masukan user dan menyalin karakternya ke +cell #1. Setelah itu rekursi dimulai. Geser ke cell #2, menaikkan nilai pada cell #2, +mundur ke cell #1, dan menurunkan nilai pada cell #1. Hal ini berlanjut sampai cell #1 +bernilai 0, dan cell #2 menyimpan nilai lama dari cell #1. Karena kita berada di cell #1 +saat ujung rekursi, geser ke cell #2, lalu cetak nilai dalam bentuk ASCII. + +Perlu diingat bahwa spasi itu murni untuk memudahkan membaca. Anda bisa +menuliskannya dengan mudah seperti: + +,[>+<-]>. + +Coba dan cari tahu apa yang program ini lakukan: + +,>,< [ > [ >+ >+ << -] >> [- << + >>] <<< -] >> + +Program ini menerima dua buah angka sebagai input, lalu mengalikannya. + +Intinya adalah membaca dua masukan. Lalu mulai pada rekursi terluar yang +kondisinya pada cell #1. Lalu pindah ke cell #2, dan mulai rekursi terdalam +yang kondisinya ada pada cell #2, menaikkan nilai pada cell #3. Namun, +ada suatu masalah: Pada akhir dari rekursi terdalam, cell #2 bernilai nol. +Pada kasus tersebut, rekursi terdalam tidak dapat bekerja lagi mulai setelah ini. +Untuk menyelesaikan masalah tersebut, kita juga menaikkan cell #4, dan menyalin +ulang cell #4 ke cell #2. Maka cell #3 adalah hasilnya. +``` + +Dan itulah brainfuck. Tidak terlalu sulit kan? Hanya untuk iseng-iseng, anda +bisa menuliskan porgram brainfuck anda sendiri, atau anda bisa menuliskan interpreter +brainfuck pada bahasa lain. Interpreternya tidak begitu sulit untuk diimplementasikan, +tapi jika anda seorang masokis, cobalah menulis sebuah interpreter brainfuck... dalam +brainfuck. + diff --git a/id-id/markdown.html.markdown b/id-id/markdown.html.markdown index 06ad1092..1ff1963b 100644 --- a/id-id/markdown.html.markdown +++ b/id-id/markdown.html.markdown @@ -13,7 +13,7 @@ Markdown dibuat oleh John Gruber pada tahun 2004. Tujuannya untuk menjadi syntax Beri masukan sebanyak-banyaknya! / Jangan sungkan untuk melakukan fork dan pull request! -```markdown +```md <!-- Markdown adalah superset dari HTML, jadi setiap berkas HTML adalah markdown yang valid, ini berarti kita dapat menggunakan elemen HTML dalam markdown, seperti elemen komentar, dan ia tidak akan terpengaruh parser markdown. Namun, jika Anda membuat diff --git a/it-it/go-it.html.markdown b/it-it/go-it.html.markdown index e005f2dc..e49ccd79 100644 --- a/it-it/go-it.html.markdown +++ b/it-it/go-it.html.markdown @@ -26,14 +26,14 @@ Aggiunge la concorrenza in maniera diretta e semplice da capire, per far forza sulle CPU multi-core di oggigiorno. Presenta caratteristiche utili per la programmazione in larga scala. -Go comes with a great standard library and an enthusiastic community. +Go include un'ottima libreria standard e ha una community entusiasta. ```go // Commento su riga singola /* Commento su riga multipla */ -// In cima a ogni file è necessario specificare il package. +// In cima ad ogni file è necessario specificare il package. // Main è un package speciale che identifica un eseguibile anziché una libreria. package main @@ -65,19 +65,19 @@ func oltreIlCiaoMondo() { x = 3 // Assegnazione di una variabile. // E' possibile la dichiarazione "rapida" := per inferire il tipo, dichiarare e assegnare contemporaneamente. y := 4 - // Una funzione che ritorna due valori. - somma, prod := imparaMoltepliciValoriDiRitorno(x, y) + // Una funzione che restituisce due valori. + somma, prod := imparaMoltepliciValoriRestituiti(x, y) fmt.Println("somma:", somma, "prodotto:", prod) // Semplice output. imparaTipi() // < y minuti, devi imparare ancora! } /* <- commento su righe multiple -Le funzioni possono avere parametri e ritornare (molteplici!) valori. -Qua, x e y sono gli argomenti, mentre somma e prod sono i valori ritornati. +Le funzioni possono avere parametri e restituire (molteplici!) valori. +In questo esempio, x e y sono gli argomenti, mentre somma e prod sono i valori restituiti. Da notare il fatto che x e somma vengono dichiarati come interi. */ -func imparaMoltepliciValoriDiRitorno(x, y int) (somma, prod int) { - return x + y, x * y // Ritorna due valori. +func imparaMoltepliciValoriRestituiti(x, y int) (somma, prod int) { + return x + y, x * y // Restituisce due valori. } // Ecco alcuni tipi presenti in Go @@ -86,7 +86,7 @@ func imparaTipi() { str := "Impara il Go!" // Tipo stringa. s2 := `Una stringa letterale -puo' includere andata a capo.` // Sempre di tipo stringa. +può includere andata a capo.` // Sempre di tipo stringa. // Stringa letterale non ASCII. I sorgenti Go sono in UTF-8. g := 'Σ' // Il tipo runa, alias per int32, è costituito da un code point unicode. @@ -144,20 +144,20 @@ puo' includere andata a capo.` // Sempre di tipo stringa. imparaControlloDiFlusso() // Torniamo in carreggiata. } -// In Go è possibile associare dei nomi ai valori di ritorno di una funzione. -// Assegnare un nome al tipo di dato ritornato permette di fare return in vari +// In Go è possibile associare dei nomi ai valori restituiti da una funzione. +// Assegnare un nome al tipo di dato restituito permette di fare return in vari // punti all'interno del corpo della funzione, ma anche di usare return senza -// specificare in modo esplicito che cosa ritornare. -func imparaValoriDiRitornoConNome(x, y int) (z int) { +// specificare in modo esplicito che cosa restituire. +func imparaValoriRestituitiConNome(x, y int) (z int) { z = x * y return // z è implicito, perchè compare nella definizione di funzione. } // Go è dotato di garbage collection. Ha i puntatori, ma non l'aritmetica dei -// puntatori. Puoi fare errori coi puntatori a nil, ma non puoi direttamente -// incrementare un puntatore. +// puntatori. Puoi commettere errori a causa di puntatori nulli, ma non puoi +// incrementare un puntatore direttamente. func imparaLaMemoria() (p, q *int) { - // I valori di ritorno (con nome) p e q sono puntatori a int. + // I valori restituiti (con nome) p e q sono puntatori a int. p = new(int) // La funzione new si occupa di allocare memoria. // L'int allocato viene inizializzato a 0, dunque p non è più nil. s := make([]int, 20) // Alloca 20 int come un singolo blocco di memoria. @@ -207,14 +207,14 @@ func imparaControlloDiFlusso() { } // x == 42 qua. - // Il for è l'unica istruzione per ciclare in Go, ma ha varie forme. + // Il for è l'unica istruzione per i loop in Go, ma ha varie forme. for { // Ciclo infinito. break // Scherzavo. continue // Non si arriva qua. } - // Puoi usare range per ciclare su un vettore, slice, stringa, mappa o canale. - // range ritorna uno (per i canali) o due valori (vettore, slice, stringa, mappa). + // Puoi usare range per iterare lungo un vettore, slice, stringa, mappa o canale. + // range restituisce uno (per i canali) o due valori (vettore, slice, stringa, mappa). for chiave, valore := range map[string]int{"uno": 1, "due": 2, "tre": 3} { // per ogni coppia dentro la mappa, stampa chiave e valore fmt.Printf("chiave=%s, valore=%d\n", chiave, valore) @@ -236,7 +236,7 @@ func imparaControlloDiFlusso() { // Inoltre le funzioni letterali possono essere definite e chiamate // inline, col ruolo di parametri di funzione, a patto che: // a) la funzione letterale venga chiamata subito (), - // b) il valore ritornato è in accordo con il tipo dell'argomento. + // b) il valore restituito è in accordo con il tipo dell'argomento. fmt.Println("Somma e raddoppia due numeri: ", func(a, b int) int { return (a + b) * 2 @@ -247,7 +247,7 @@ func imparaControlloDiFlusso() { goto amore amore: - imparaFabbricaDiFunzioni() // Una funzione che ritorna un'altra funzione è divertente! + imparaFabbricaDiFunzioni() // Una funzione che restituisce un'altra funzione è divertente! imparaDefer() // Un tour veloce di una parola chiave importante. imparaInterfacce() // Arriva la roba buona! } @@ -271,7 +271,7 @@ func fabbricaDiFrasi(miaStringa string) func(prima, dopo string) string { func imparaDefer() (ok bool) { // Le istruzioni dette "deferred" (rinviate) sono eseguite - // appena prima che la funzione ritorni. + // appena prima che la funzione abbia termine. defer fmt.Println("le istruzioni 'deferred' sono eseguite in ordine inverso (LIFO).") defer fmt.Println("\nQuesta riga viene stampata per prima perché") // defer viene usato di solito per chiudere un file, così la funzione che diff --git a/it-it/html-it.html.markdown b/it-it/html-it.html.markdown index 1d2a0618..471019a1 100644 --- a/it-it/html-it.html.markdown +++ b/it-it/html-it.html.markdown @@ -5,6 +5,7 @@ contributors: - ["Christophe THOMAS", "https://github.com/WinChris"] translators: - ["Ale46", "http://github.com/Ale46/"] +lang: it-it --- HTML sta per HyperText Markup Language (linguaggio a marcatori per ipertesti). diff --git a/it-it/markdown.html.markdown b/it-it/markdown.html.markdown index 44801747..b0a123f1 100644 --- a/it-it/markdown.html.markdown +++ b/it-it/markdown.html.markdown @@ -28,7 +28,7 @@ Markdown varia nelle sue implementazioni da un parser all'altro. Questa guida ce ## Elementi HTML Markdown è un superset di HTML, quindi ogni file HTML è a sua volta un file Markdown valido. -```markdown +```md <!-- Questo significa che possiamo usare elementi di HTML in Markdown, come per esempio i commenti, e questi non saranno modificati dal parser di Markdown. State attenti però, se inserite un elemento HTML nel vostro file Markdown, non potrete usare la sua sintassi @@ -39,7 +39,7 @@ all'interno del contenuto dell'elemento. --> Potete creare gli elementi HTML da `<h1>` a `<h6>` facilmente, basta che inseriate un egual numero di caratteri cancelletto (#) prima del testo che volete all'interno dell'elemento -```markdown +```md # Questo è un <h1> ## Questo è un <h2> ### Questo è un <h3> @@ -49,7 +49,7 @@ Potete creare gli elementi HTML da `<h1>` a `<h6>` facilmente, basta che inseria ``` Markdown inoltre fornisce due alternative per indicare gli elementi h1 e h2 -```markdown +```md Questo è un h1 ============== @@ -60,7 +60,7 @@ Questo è un h2 ## Stili di testo semplici Il testo può essere stilizzato in corsivo o grassetto usando markdown -```markdown +```md *Questo testo è in corsivo.* _Come pure questo._ @@ -74,12 +74,12 @@ __Come pure questo.__ In Github Flavored Markdown, che è utilizzato per renderizzare i file markdown su Github, è presente anche lo stile barrato: -```markdown +```md ~~Questo testo è barrato.~~ ``` ## Paragrafi -```markdown +```md I paragrafi sono una o più linee di testo adiacenti separate da una o più righe vuote. Questo è un paragrafo. Sto scrivendo in un paragrafo, non è divertente? @@ -93,7 +93,7 @@ Qui siamo nel paragrafo 3! Se volete inserire l'elemento HTML `<br />`, potete terminare la linea con due o più spazi e poi iniziare un nuovo paragrafo. -```markdown +```md Questa frase finisce con due spazi (evidenziatemi per vederli). C'è un <br /> sopra di me! @@ -101,7 +101,7 @@ C'è un <br /> sopra di me! Le citazioni sono semplici da inserire, basta usare il carattere >. -```markdown +```md > Questa è una citazione. Potete > mandare a capo manualmente le linee e inserire un `>` prima di ognuna, oppure potete usare una sola linea e lasciare che vada a capo automaticamente. > Non c'è alcuna differenza, basta che iniziate ogni riga con `>`. @@ -115,7 +115,7 @@ Le citazioni sono semplici da inserire, basta usare il carattere >. ## Liste Le liste non ordinate possono essere inserite usando gli asterischi, il simbolo più o dei trattini -```markdown +```md * Oggetto * Oggetto * Altro oggetto @@ -135,7 +135,7 @@ oppure Le liste ordinate invece, sono inserite con un numero seguito da un punto. -```markdown +```md 1. Primo oggetto 2. Secondo oggetto 3. Terzo oggetto @@ -143,7 +143,7 @@ Le liste ordinate invece, sono inserite con un numero seguito da un punto. Non dovete nemmeno mettere i numeri nell'ordine giusto, markdown li visualizzerà comunque nell'ordine corretto, anche se potrebbe non essere una buona idea. -```markdown +```md 1. Primo oggetto 1. Secondo oggetto 1. Terzo oggetto @@ -152,7 +152,7 @@ Non dovete nemmeno mettere i numeri nell'ordine giusto, markdown li visualizzer Potete inserire anche sotto liste -```markdown +```md 1. Primo oggetto 2. Secondo oggetto 3. Terzo oggetto @@ -163,7 +163,7 @@ Potete inserire anche sotto liste Sono presenti anche le task list. In questo modo è possibile creare checkbox in HTML. -```markdown +```md I box senza la 'x' sono checkbox HTML ancora da completare. - [ ] Primo task da completare. - [ ] Secondo task che deve essere completato. @@ -174,14 +174,14 @@ Il box subito sotto è una checkbox HTML spuntata. Potete inserire un estratto di codice (che utilizza l'elemento `<code>`) indentando una linea con quattro spazi oppure con un carattere tab. -```markdown +```md Questa è una linea di codice Come questa ``` Potete inoltre inserire un altro tab (o altri quattro spazi) per indentare il vostro codice -```markdown +```md my_array.each do |item| puts item end @@ -189,7 +189,7 @@ Potete inoltre inserire un altro tab (o altri quattro spazi) per indentare il vo Codice inline può essere inserito usando il carattere backtick ` -```markdown +```md Giovanni non sapeva neppure a cosa servisse la funzione `go_to()`! ``` @@ -205,7 +205,7 @@ Se usate questa sintassi, il testo non richiederà di essere indentato, inoltre ## Linea orizzontale Le linee orizzontali (`<hr/>`) sono inserite facilmente usanto tre o più asterischi o trattini, con o senza spazi. -```markdown +```md *** --- - - - @@ -215,24 +215,24 @@ Le linee orizzontali (`<hr/>`) sono inserite facilmente usanto tre o più asteri ## Links Una delle funzionalità migliori di markdown è la facilità con cui si possono inserire i link. Mettete il testo da visualizzare fra parentesi quadre [] seguite dall'url messo fra parentesi tonde () -```markdown +```md [Cliccami!](http://test.com/) ``` Potete inoltre aggiungere al link un titolo mettendolo fra doppi apici dopo il link -```markdown +```md [Cliccami!](http://test.com/ "Link a Test.com") ``` La sintassi funziona anche con i path relativi. -```markdown +```md [Vai a musica](/music/). ``` Markdown supporta inoltre anche la possibilità di aggiungere i link facendo riferimento ad altri punti del testo. -```markdown +```md [Apri questo link][link1] per più informazioni! [Guarda anche questo link][foobar] se ti va. @@ -242,7 +242,7 @@ Markdown supporta inoltre anche la possibilità di aggiungere i link facendo rif l titolo può anche essere inserito in apici singoli o in parentesi, oppure omesso interamente. Il riferimento può essere inserito in un punto qualsiasi del vostro documento e l'identificativo del riferimento può essere lungo a piacere a patto che sia univoco. Esiste anche un "identificativo implicito" che vi permette di usare il testo del link come id. -```markdown +```md [Questo][] è un link. [Questo]: http://thisisalink.com/ @@ -252,13 +252,13 @@ Ma non è comunemente usato. ## Immagini Le immagini sono inserite come i link ma con un punto esclamativo inserito prima delle parentesi quadre! -```markdown +```md  ``` E la modalità a riferimento funziona esattamente come ci si aspetta -```markdown +```md ![Questo è il testo alternativo.][myimage] [myimage]: relative/urls/cool/image.jpg "Se vi serve un titolo, lo mettete qui" @@ -266,25 +266,25 @@ E la modalità a riferimento funziona esattamente come ci si aspetta ## Miscellanea ### Auto link -```markdown +```md <http://testwebsite.com/> è equivalente ad [http://testwebsite.com/](http://testwebsite.com/) ``` ### Auto link per le email -```markdown +```md <foo@bar.com> ``` ### Caratteri di escaping -```markdown +```md Voglio inserire *questo testo circondato da asterischi* ma non voglio che venga renderizzato in corsivo, quindi lo inserirò così: \*questo testo è circondato da asterischi\*. ``` ### Combinazioni di tasti In Github Flavored Markdown, potete utilizzare il tag `<kbd>` per raffigurare i tasti della tastiera. -```markdown +```md Il tuo computer è crashato? Prova a premere <kbd>Ctrl</kbd>+<kbd>Alt</kbd>+<kbd>Canc</kbd> ``` @@ -292,7 +292,7 @@ Il tuo computer è crashato? Prova a premere ### Tabelle Le tabelle sono disponibili solo in Github Flavored Markdown e sono leggeremente complesse, ma se proprio volete inserirle fate come segue: -```markdown +```md | Col1 | Col2 | Col3 | | :------------------- | :------: | -----------------: | | Allineato a sinistra | Centrato | Allineato a destra | @@ -300,7 +300,7 @@ Le tabelle sono disponibili solo in Github Flavored Markdown e sono leggeremente ``` oppure, per lo stesso risultato -```markdown +```md Col 1 | Col2 | Col3 :-- | :-: | --: È una cosa orrenda | fatela | finire in fretta diff --git a/it-it/python3-it.html.markdown b/it-it/python3-it.html.markdown new file mode 100644 index 00000000..04f78cff --- /dev/null +++ b/it-it/python3-it.html.markdown @@ -0,0 +1,1016 @@ +--- +language: python3 +filename: learnpython3-it.py +contributors: + - ["Louie Dinh", "http://pythonpracticeprojects.com"] + - ["Steven Basart", "http://github.com/xksteven"] + - ["Andre Polykanine", "https://github.com/Oire"] + - ["Zachary Ferguson", "http://github.com/zfergus2"] + - ["evuez", "http://github.com/evuez"] + - ["Rommel Martinez", "https://ebzzry.io"] +translators: + - ["Draio", "http://github.com/Draio/"] + - ["Ale46", "http://github.com/Ale46/"] + - ["Tommaso Pifferi", "http://github.com/neslinesli93/"] +lang: it-it +--- + +Python è stato creato da Guido Van Rossum agli inizi degli anni 90. Oggi è uno dei più popolari linguaggi esistenti. Mi sono innamorato di Python per la sua chiarezza sintattica. E' sostanzialmente pseudocodice eseguibile. + +Feedback sono altamente apprezzati! Potete contattarmi su [@louiedinh](http://twitter.com/louiedinh) oppure [at] [google's email service] + +Nota: Questo articolo è riferito a Python 3 in modo specifico. Se volete avete la necessità di utilizzare Python 2.7 potete consultarla [qui](https://learnxinyminutes.com/docs/it-it/python-it/) + +```python + +# I commenti su una sola linea iniziano con un cancelletto + + +""" Più stringhe possono essere scritte + usando tre ", e sono spesso usate + come documentazione +""" + +#################################################### +## 1. Tipi di dati primitivi ed Operatori +#################################################### + +# Ci sono i numeri +3 # => 3 + +# La matematica è quello che vi aspettereste +1 + 1 # => 2 +8 - 1 # => 7 +10 * 2 # => 20 +35 / 5 # => 7.0 + +# Risultato della divisione intera troncata sia in positivo che in negativo +5 // 3 # => 1 +5.0 // 3.0 # => 1.0 # works on floats too +-5 // 3 # => -2 +-5.0 // 3.0 # => -2.0 + +# Il risultato di una divisione è sempre un numero decimale (float) +10.0 / 3 # => 3.3333333333333335 + +# Operazione Modulo +7 % 3 # => 1 + +# Elevamento a potenza (x alla y-esima potenza) +2**3 # => 8 + +# Forzare le precedenze con le parentesi +(1 + 3) * 2 # => 8 + +# I valori booleani sono primitive del linguaggio (nota la maiuscola) +True +False + +# nega con not +not True # => False +not False # => True + +# Operatori Booleani +# Nota "and" e "or" sono case-sensitive +True and False # => False +False or True # => True + +# Note sull'uso di operatori Bool con interi +# False è 0 e True è 1 +# Non confonderti tra bool(ints) e le operazioni bitwise and/or (&,|) +0 and 2 # => 0 +-5 or 0 # => -5 +0 == False # => True +2 == True # => False +1 == True # => True +-5 != False != True #=> True + +# Uguaglianza è == +1 == 1 # => True +2 == 1 # => False + +# Disuguaglianza è != +1 != 1 # => False +2 != 1 # => True + +# Altri confronti +1 < 10 # => True +1 > 10 # => False +2 <= 2 # => True +2 >= 2 # => True + +# I confronti possono essere concatenati! +1 < 2 < 3 # => True +2 < 3 < 2 # => False + +# ('is' vs. '==') +# 'is' controlla se due variabili si riferiscono allo stesso oggetto +# '==' controlla se gli oggetti puntati hanno lo stesso valore. +a = [1, 2, 3, 4] # a punta ad una nuova lista [1, 2, 3, 4] +b = a # b punta a ciò a cui punta a +b is a # => True, a e b puntano allo stesso oggeto +b == a # => True, gli oggetti di a e b sono uguali +b = [1, 2, 3, 4] # b punta ad una nuova lista [1, 2, 3, 4] +b is a # => False, a e b non puntano allo stesso oggetto +b == a # => True, gli oggetti di a e b sono uguali + +# Le stringhe sono create con " o ' +"Questa è una stringa." +'Anche questa è una stringa.' + +# Anche le stringhe possono essere sommate! Ma cerca di non farlo. +"Hello " + "world!" # => "Hello world!" +# Le stringhe (ma non le variabili contenenti stringhe) possono essere +# sommate anche senza '+' +"Hello " "world!" # => "Hello world!" + +# Una stringa può essere considerata come una lista di caratteri +"Questa è una stringa"[0] # => 'Q' + +# Puoi conoscere la lunghezza di una stringa +len("Questa è una stringa") # => 20 + +# .format può essere usato per formattare le stringhe, in questo modo: +"{} possono essere {}".format("Le stringhe", "interpolate") # => "Le stringhe possono essere interpolate" + +# Puoi ripetere gli argomenti di formattazione per risparmiare un po' di codice +"{0} be nimble, {0} be quick, {0} jump over the {1}".format("Jack", "candle stick") +# => "Jack be nimble, Jack be quick, Jack jump over the candle stick" + +# Puoi usare dei nomi se non vuoi contare gli argomenti +"{nome} vuole mangiare {cibo}".format(nome="Bob", cibo="le lasagne") # => "Bob vuole mangiare le lasagne" + +# Se il tuo codice Python 3 necessita di eseguire codice Python 2.x puoi ancora +# utilizzare il vecchio stile di formattazione: +"%s possono essere %s nel %s modo" % ("Le stringhe", "interpolate", "vecchio") # => "Le stringhe possono essere interpolate nel vecchio modo" + +# None è un oggetto +None # => None + +# Non usare il simbolo di uguaglianza "==" per comparare oggetti a None +# Usa "is" invece +"etc" is None # => False +None is None # => True + +# None, 0, e stringhe/liste/dizionari/tuple vuoti vengono considerati +# falsi (False). Tutti gli altri valori sono considerati veri (True). +bool(0) # => False +bool("") # => False +bool([]) # => False +bool({}) # => False +bool(()) # => False + +#################################################### +## 2. Variabili e Collections +#################################################### + +# Python ha una funzione per scrivere (sul tuo schermo) +print("Sono Python. Piacere di conoscerti!") # => Sono Python. Piacere di conoscerti! + +# Di default la funzione print() scrive e va a capo aggiungendo un carattere +# newline alla fine della stringa. È possibile utilizzare l'argomento opzionale +# end per cambiare quest'ultimo carattere aggiunto. +print("Hello, World", end="!") # => Hello, World! + +# Un modo semplice per ricevere dati in input dalla riga di comando +variabile_stringa_input = input("Inserisci del testo: ") # Restituisce i dati letti come stringa +# Nota: Nelle precedenti vesioni di Python, il metodo input() +# era chiamato raw_input() + +# Non c'è bisogno di dichiarare una variabile per assegnarle un valore +# Come convenzione, per i nomi delle variabili, si utilizzano i caratteri +# minuscoli separati, se necessario, da underscore +some_var = 5 +some_var # => 5 + +# Accedendo ad una variabile non precedentemente assegnata genera un'eccezione. +# Dai un'occhiata al Control Flow per imparare di più su come gestire +# le eccezioni. +some_unknown_var # Genera un errore di nome + +# if può essere usato come un'espressione +# È l'equivalente dell'operatore ternario in C +"yahoo!" if 3 > 2 else 2 # => "yahoo!" + +# Le liste immagazzinano sequenze +li = [] +# Puoi partire con una lista pre-riempita +other_li = [4, 5, 6] + +# Aggiungere alla fine di una lista con append +li.append(1) # li ora è [1] +li.append(2) # li ora è [1, 2] +li.append(4) # li ora è [1, 2, 4] +li.append(3) # li ora è [1, 2, 4, 3] +# Rimuovi dalla fine della lista con pop +li.pop() # => 3 e li ora è [1, 2, 4] +# Rimettiamolo a posto +li.append(3) # li ora è [1, 2, 4, 3] di nuovo. + +# Accedi ad una lista come faresti con un array +li[0] # => 1 +# Guarda l'ultimo elemento +li[-1] # => 3 + +# Guardare al di fuori dei limiti genera un IndexError +li[4] # Genera IndexError + +# Puoi guardare gli intervalli con la sintassi slice (a fetta). +# (E' un intervallo chiuso/aperto per voi tipi matematici.) +li[1:3] # => [2, 4] +# Ometti l'inizio +li[2:] # => [4, 3] +# Ometti la fine +li[:3] # => [1, 2, 4] +# Seleziona ogni seconda voce +li[::2] # =>[1, 4] +# Copia al contrario della lista +li[::-1] # => [3, 4, 2, 1] +# Usa combinazioni per fare slices avanzate +# li[inizio:fine:passo] + +# Crea una copia (one layer deep copy) usando la sintassi slices +li2 = li[:] # => li2 = [1, 2, 4, 3] ma (li2 is li) risulterà falso. + +# Rimuovi arbitrariamente elementi da una lista con "del" +del li[2] # li è ora [1, 2, 3] + +# Rimuove la prima occorrenza di un elemento +li.remove(2) # Ora li è [1, 3, 4, 5, 6] +li.remove(2) # Emette un ValueError, poichè 2 non è contenuto nella lista + +# Inserisce un elemento all'indice specificato +li.insert(1, 2) # li è di nuovo [1, 2, 3, 4, 5, 6] + + Ritorna l'indice della prima occorrenza dell'elemento fornito +li.index(2) # => 1 +li.index(7) # Emette un ValueError, poichè 7 non è contenuto nella lista + +# Puoi sommare le liste +# Nota: i valori per li e per other_li non vengono modificati. +li + other_li # => [1, 2, 3, 4, 5, 6] + +# Concatena le liste con "extend()" +li.extend(other_li) # Adesso li è [1, 2, 3, 4, 5, 6] + +# Controlla l'esistenza di un valore in una lista con "in" +1 in li # => True + +# Esamina la lunghezza con "len()" +len(li) # => 6 + + +# Le tuple sono come le liste ma immutabili. +tup = (1, 2, 3) +tup[0] # => 1 +tup[0] = 3 # Genera un TypeError + +# Note that a tuple of length one has to have a comma after the last element but +# tuples of other lengths, even zero, do not. +type((1)) # => <class 'int'> +type((1,)) # => <class 'tuple'> +type(()) # => <class 'tuple'> + +# Puoi fare tutte queste cose da lista anche sulle tuple +len(tup) # => 3 +tup + (4, 5, 6) # => (1, 2, 3, 4, 5, 6) +tup[:2] # => (1, 2) +2 in tup # => True + +# Puoi scompattare le tuple (o liste) in variabili +a, b, c = (1, 2, 3) # a è ora 1, b è ora 2 e c è ora 3 +d, e, f = 4, 5, 6 # puoi anche omettere le parentesi +# Le tuple sono create di default se non usi le parentesi +g = 4, 5, 6 # => (4, 5, 6) +# Guarda come è facile scambiare due valori +e, d = d, e # d è ora 5 ed e è ora 4 + +# I dizionari memorizzano insiemi di dati indicizzati da nomi arbitrari (chiavi) +empty_dict= {} +# Questo è un dizionario pre-caricato +filled_dict = {"uno": 1, "due": 2, "tre": 3} + +# Nota: le chiavi dei dizionari devono essere di tipo immutabile. Questo per +# assicurare che le chiavi possano essere convertite in calori hash costanti +# per un risposta più veloce. +invalid_dict = {[1,2,3]: "123"} # => Emette un TypeError: unhashable type: 'list' +valid_dict = {(1,2,3):[1,2,3]} # I valori, invece, possono essere di qualunque tipo + +# Accedi ai valori indicando la chiave tra [] +filled_dict["uno"] # => 1 + +# Puoi ottenere tutte le chiavi di un dizionario con "keys()" +# (come oggetto iterabile). Per averle in formato lista è necessario +# utilizzare list(). +# Nota - Nei dizionari l'ordine delle chiavi non è garantito. +# Il tuo risultato potrebbe non essere uguale a questo. +list(filled_dict.keys()) # => ["tre", "due", "uno"] + + +# Puoi ottenere tutti i valori di un dizionario con "values()" +# (come oggetto iterabile). +# Anche in questo caso, er averle in formato lista, è necessario utilizzare list() +# Anche in questo caso, come per le chiavi, l'ordine non è garantito +list(filled_dict.values()) # => [3, 2, 1] + +# Controlla l'esistenza delle chiavi in un dizionario con "in" +"uno" in filled_dict # => True +1 in filled_dict # => False + +# Cercando una chiave non esistente genera un KeyError +filled_dict["quattro"] # KeyError + +# Usa il metodo "get()" per evitare KeyError +filled_dict.get("uno") # => 1 +filled_dict.get("quattro") # => None +# Il metodo get supporta un argomento di default quando il valore è mancante +filled_dict.get("uno", 4) # => 1 +filled_dict.get("quattro", 4) # => 4 + + +# "setdefault()" inserisce un valore per una chiave in un dizionario +# solo se la chiave data non è già presente +filled_dict.setdefault("cinque", 5) # filled_dict["cinque"] viene impostato a 5 +filled_dict.setdefault("cinque", 6) # filled_dict["cinque"] rimane 5 + +# Aggiungere una coppia chiave->valore a un dizionario +filled_dict.update({"quattro":4}) # => {"uno": 1, "due": 2, "tre": 3, "quattro": 4} +filled_dict["quattro"] = 4 # un altro modo pe aggiungere a un dizionario + +# Rimuovi una chiave da un dizionario con del +del filled_dict["uno"] # Rimuove la chiave "uno" dal dizionario + +# Da Python 3.5 puoi anche usare ulteriori opzioni di spacchettamento +{'a': 1, **{'b': 2}} # => {'a': 1, 'b': 2} +{'a': 1, **{'a': 2}} # => {'a': 2} + +# I set sono come le liste ma non possono contenere doppioni +empty_set = set() +# Inizializza un "set()" con un dei valori. Sì, sembra un dizionario. +some_set = {1, 1, 2, 2, 3, 4} # set_nuovo è {1, 2, 3, 4} + +# Come le chiavi di un dizionario, gli elementi di un set devono essere +# di tipo immutabile +invalid_set = {[1], 1} # => Genera un "TypeError: unhashable type: 'list'"" +valid_set = {(1,), 1} + +# Aggiungere uno o più elementi ad un set +some_set.add(5) # some_set ora è {1, 2, 3, 4, 5} + +# Fai intersezioni su un set con & +other_set = {3, 4, 5, 6} +some_set & other_set # => {3, 4, 5} + +# Fai unioni su set con | +some_set | other_set # => {1, 2, 3, 4, 5, 6} + +# Fai differenze su set con - +{1, 2, 3, 4} - {2, 3, 5} # => {1, 4} + +# Effettua la differenza simmetrica con ^ +{1, 2, 3, 4} ^ {2, 3, 5} # => {1, 4, 5} + +# Controlla se il set a sinistra contiene quello a destra +{1, 2} >= {1, 2, 3} # => False + +# Controlla se il set a sinistra è un sottoinsieme di quello a destra +{1, 2} <= {1, 2, 3} # => True + +# Controlla l'esistenza in un set con in +2 in some_set # => True +10 in some_set # => False + + + +#################################################### +## 3. Control Flow e oggetti Iterabili +#################################################### + +# Dichiariamo una variabile +some_var = 5 + +# Questo è un controllo if. L'indentazione è molto importante in python! +# Come convenzione si utilizzano quattro spazi, non la tabulazione. +# Il seguente codice stampa "some_var è minore di 10" +if some_var > 10: + print("some_var è maggiore di 10") +elif some_var < 10: # La clausolo elif è opzionale + print("some_var è minore di 10") +else: # Anche else è opzionale + print("some_var è 10.") + +""" +I cicli for iterano sulle liste, cioè ripetono un codice per ogni elemento +di una lista. +Il seguente codice scriverà: + cane è un mammifero + gatto è un mammifero + topo è un mammifero +""" +for animale in ["cane", "gatto", "topo"]: + # Puoi usare format() per interpolare le stringhe formattate. + print("{} è un mammifero".format(animale)) + +""" +"range(numero)" restituisce una lista di numeri da zero al numero dato +Il seguente codice scriverà: + 0 + 1 + 2 + 3 +""" +for i in range(4): + print(i) + +""" +"range(lower, upper)" restituisce una lista di numeri dal più piccolo (lower) +al più grande (upper). +Il seguente codice scriverà: + 4 + 5 + 6 + 7 +""" +for i in range(4, 8): + print(i) + +""" +"range(lower, upper, step)" rrestituisce una lista di numeri dal più piccolo +(lower) al più grande (upper), incrementando del valore step. +Se step non è indicato, avrà come valore di default 1. +Il seguente codice scriverà: + 4 + 6 +""" +for i in range(4, 8, 2): + print(i) +""" + +I cicli while vengono eseguiti finchè una condizione viene a mancare +Il seguente codice scriverà: + 0 + 1 + 2 + 3 +""" +x = 0 +while x < 4: + print(x) + x += 1 # Forma compatta per x = x + 1 + +# Gestione delle eccezioni con un blocco try/except +try: + # Usa "raise" per generare un errore + raise IndexError("Questo è un IndexError") +except IndexError as e: + pass # Pass è solo una non-operazione. Solitamente vorrai rimediare all'errore. +except (TypeError, NameError): + pass # Eccezioni multiple possono essere gestite tutte insieme, se necessario. +else: # Clausola opzionale al blocco try/except. Deve essere dopo tutti i blocchi except + print("Tutto ok!") # Viene eseguita solo se il codice dentro try non genera eccezioni +finally: # Eseguito sempre + print("Possiamo liberare risorse qui") + +# Se ti serve solo un try/finally, per liberare risorse, puoi usare il metodo with +with open("myfile.txt") as f: + for line in f: + print(line) + +# In Python qualunque oggetto in grado di essere trattato come una +# sequenza è definito un oggetto Iterable (itarabile). +# L'oggetto restituito da una funzione range è un iterabile. + +filled_dict = {"uno": 1, "due": 2, "tre": 3} +our_iterable = filled_dict.keys() +print(our_iterable) # => dict_keys(['uno', 'due', 'tre']). +# Questo è un oggetto che implementa la nostra interfaccia Iterable. + +# È possibile utilizzarlo con i loop: +for i in our_iterable: + print(i) # Scrive uno, due, tre + +# Tuttavia non possiamo recuperarne i valori tramite indice. +our_iterable[1] # Genera un TypeError + +# Un oggetto iterabile è in grado di generare un iteratore +our_iterator = iter(our_iterable) + +# L'iteratore è un oggetto che ricorda il suo stato mentro lo si "attraversa" +# Possiamo accedere al successivo elemento con "next()". +next(our_iterator) # => "uno" + +# Mantiene il suo stato mentro eseguiamo l'iterazione +next(our_iterator) # => "due" +next(our_iterator) # => "tre" + +# Dopo che un iteratore ha restituito tutti i suoi dati, genera +# un'eccezione StopIteration +next(our_iterator) # Raises StopIteration + +# Puoi prendere tutti gli elementi di un iteratore utilizzando list(). +list(filled_dict.keys()) # => Returns ["one", "two", "three"] + + + +#################################################### +## 4. Funzioni +#################################################### + +# Usa "def" per creare nuove funzioni +def aggiungi(x, y): + print("x è {} e y è {}".format(x, y)) // Scrive i valori formattati in una stringa + return x + y # Restituisce la somma dei valori con il metodo return + +# Chiamare funzioni con parametri +aggiungi(5, 6) # => scrive "x è 5 e y è 6" e restituisce 11 + +# Un altro modo per chiamare funzioni è con parole chiave come argomenti +aggiungi(y=6, x=5) # In questo modo non è necessario rispettare l'ordine degli argomenti + +# Puoi definire funzioni che accettano un numero non definito di argomenti +def varargs(*args): + return args + +varargs(1, 2, 3) # => (1, 2, 3) + +# Puoi definire funzioni che accettano un numero variabile di parole chiave +# come argomento, che saranno interpretati come un dizionario usando ** +def keyword_args(**kwargs): + return kwargs + +# Chiamiamola per vedere cosa succede +keyword_args(big="foot", loch="ness") # => {"big": "foot", "loch": "ness"} + + +# Puoi farle entrambi in una volta, se ti va +def all_the_args(*args, **kwargs): + print(args) + print(kwargs) +""" +all_the_args(1, 2, a=3, b=4) stampa: + (1, 2) + {"a": 3, "b": 4} +""" + +# Quando chiami funzioni, puoi fare l'opposto di args/kwargs! +# Usa * per sviluppare gli argomenti posizionale ed usa ** per +# espandere gli argomenti parola chiave +args = (1, 2, 3, 4) +kwargs = {"a": 3, "b": 4} +all_the_args(*args) # equivalente a foo(1, 2, 3, 4) +all_the_args(**kwargs) # equivalente a foo(a=3, b=4) +all_the_args(*args, **kwargs) # equivalente a foo(1, 2, 3, 4, a=3, b=4) + + +# Restituire valori multipli (with tuple assignments) +def swap(x, y): + return y, x # Restituisce valori multipli come tupla senza parentesi + # (Nota: le parentesi sono state escluse ma possono essere messe) + +x = 1 +y = 2 +x, y = swap(x, y) # => x = 2, y = 1 +# (x, y) = swap(x,y) # Le parentesi sono state escluse ma possono essere incluse. + +# Funzioni - Visibilità delle variabili (variable scope) +x = 5 + +def set_x(num): + # La variabile locale x non è la variabile globale x + x = num # => 43 + print(x) # => 43 + +def set_global_x(num): + global x + print(x) # => 5 + x = num # la variabile globable x è ora 6 + print(x) # => 6 + +set_x(43) +set_global_x(6) + + +# Python ha "first class functions" +def create_adder(x): + def adder(y): + return x + y + return adder + +add_10 = create_adder(10) +add_10(3) # => 13 + +# Ci sono anche funzioni anonime +(lambda x: x > 2)(3) # => True +(lambda x, y: x ** 2 + y ** 2)(2, 1) # => 5 + +# È possibile creare "mappe" e "filtri" +list(map(add_10, [1, 2, 3])) # => [11, 12, 13] +list(map(max, [1, 2, 3], [4, 2, 1])) # => [4, 2, 3] + +list(filter(lambda x: x > 5, [3, 4, 5, 6, 7])) # => [6, 7] + +# Possiamo usare le "list comprehensions" per mappe e filtri +# Le "list comprehensions" memorizzano l'output come una lista che può essere +# di per sé una lista annidata +[add_10(i) for i in [1, 2, 3]] # => [11, 12, 13] +[x for x in [3, 4, 5, 6, 7] if x > 5] # => [6, 7] + +# Puoi fare anche la comprensione di set e dizionari +{x for x in 'abcddeef' if x not in 'abc'} # => {'d', 'e', 'f'} +{x: x**2 for x in range(5)} # => {0: 0, 1: 1, 2: 4, 3: 9, 4: 16} + + +#################################################### +## 5. Modules +#################################################### + +# Puoi importare moduli +import math +print(math.sqrt(16)) # => 4.0 + +# Puoi ottenere specifiche funzione da un modulo +from math import ceil, floor +print(ceil(3.7)) # => 4.0 +print(floor(3.7)) # => 3.0 + +# Puoi importare tutte le funzioni da un modulo +# Attenzione: questo non è raccomandato +from math import * + +# Puoi abbreviare i nomi dei moduli +import math as m +math.sqrt(16) == m.sqrt(16) # => True + + +# I moduli di Python sono normali file python. Ne puoi +# scrivere di tuoi ed importarli. Il nome del modulo +# è lo stesso del nome del file. + +# Potete scoprire quali funzioni e attributi +# sono definiti in un modulo +import math +dir(math) + +# Se nella cartella corrente hai uno script chiamato math.py, +# Python caricherà quello invece del modulo math. +# Questo succede perchè la cartella corrente ha priorità +# sulle librerie standard di Python + +# Se hai uno script Python chiamato math.py nella stessa +# cartella del tua script, Python caricherà quello al posto del +# comune modulo math. +# Questo accade perché la cartella locale ha la priorità +# sulle librerie built-in di Python. + + +#################################################### +## 6. Classes +#################################################### + +# Usiamo l'istruzione "class" per creare una classe +class Human: + + # Un attributo della classe. E' condiviso tra tutte le istanze delle classe + species = "H. sapiens" + + # Si noti che i doppi underscore iniziali e finali denotano gli oggetti o + # attributi utilizzati da Python ma che vivono nel namespace controllato + # dall'utente + # Metodi, oggetti o attributi come: __init__, __str__, __repr__, etc. sono + # chiamati metodi speciali (o talvolta chiamati "dunder methods"). + # Non dovresti inventare tali nomi da solo. + + def __init__(self, name): + # Assegna l'argomento all'attributo name dell'istanza + self.name = name + + # Inizializza una proprietà + self._age = 0 + + # Un metodo dell'istanza. Tutti i metodi prendo "self" come primo argomento + def say(self, msg): + print("{name}: {message}".format(name=self.name, message=msg)) + + # Un altro metodo dell'istanza + def sing(self): + return 'yo... yo... microphone check... one two... one two...' + + # Un metodo della classe è condiviso fra tutte le istanze + # Sono chiamati con la classe chiamante come primo argomento + @classmethod + def get_species(cls): + return cls.species + + # Un metodo statico è chiamato senza classe o istanza di riferimento + @staticmethod + def grunt(): + return "*grunt*" + + # Una property è come un metodo getter. + # Trasforma il metodo age() in un attributo in sola lettura, che ha + # lo stesso nome + # In Python non c'è bisogno di scrivere futili getter e setter. + @property + def age(self): + return self._age + + # Questo metodo permette di modificare una property + @age.setter + def age(self, age): + self._age = age + + # Questo metodo permette di cancellare una property + @age.deleter + def age(self): + del self._age + +# Quando l'interprete Python legge un sorgente esegue tutto il suo codice. +# Questo controllo su __name__ assicura che questo blocco di codice venga +# eseguito solo quando questo modulo è il programma principale. + +if __name__ == '__main__': + # Crea un'istanza della classe + i = Human(name="Ian") + i.say("hi") # "Ian: hi" + j = Human("Joel") + j.say("hello") # "Joel: hello" + # i e j sono istanze del tipo Human, o in altre parole sono oggetti Human + + # Chiama un metodo della classe + i.say(i.get_species()) # "Ian: H. sapiens" + # Cambia l'attributo condiviso + Human.species = "H. neanderthalensis" + i.say(i.get_species()) # => "Ian: H. neanderthalensis" + j.say(j.get_species()) # => "Joel: H. neanderthalensis" + + # Chiama un metodo statico + print(Human.grunt()) # => "*grunt*" + + # Non è possibile chiamare il metodo statico con l'istanza dell'oggetto + # poiché i.grunt() metterà automaticamente "self" (l'oggetto i) + # come argomento + print(i.grunt()) # => TypeError: grunt() takes 0 positional arguments but 1 was given + + # Aggiorna la property (age) di questa istanza + i.age = 42 + # Leggi la property + i.say(i.age) # => "Ian: 42" + j.say(j.age) # => "Joel: 0" + # Cancella la property + del i.age + i.age # => questo genererà un AttributeError + + +#################################################### +## 6.1 Ereditarietà (Inheritance) +#################################################### + +# L'ereditarietà consente di definire nuove classi figlio che ereditano metodi e +# variabili dalla loro classe genitore. + +# Usando la classe Human definita sopra come classe base o genitore, possiamo +# definire una classe figlia, Superhero, che erediterà le variabili di classe +# come "species", "name" e "age", così come i metodi, come "sing" e "grunt", +# dalla classe Human, ma potrà anche avere le sue proprietà uniche. + +# Per importare le funzioni da altri file usa il seguente formato +# from "nomefile-senza-estensione" import "funzione-o-classe" + +from human import Human + +# Specificare le classi genitore come parametri della definizione della classe +class Superhero(Human): + + # Se la classe figlio deve ereditare tutte le definizioni del genitore + # senza alcuna modifica, puoi semplicemente usare la parola chiave "pass" + # (e nient'altro) + + #Le classi figlio possono sovrascrivere gli attributi dei loro genitori + species = 'Superhuman' + + # Le classi figlie ereditano automaticamente il costruttore della classe + # genitore, inclusi i suoi argomenti, ma possono anche definire ulteriori + # argomenti o definizioni e sovrascrivere i suoi metodi (compreso il + # costruttore della classe). + # Questo costruttore eredita l'argomento "nome" dalla classe "Human" e + # aggiunge gli argomenti "superpowers" e "movie": + + def __init__(self, name, movie=False, + superpowers=["super strength", "bulletproofing"]): + + # aggiungi ulteriori attributi della classe + self.fictional = True + self.movie = movie + self.superpowers = superpowers + + # La funzione "super" ti consente di accedere ai metodi della classe + # genitore che sono stati sovrascritti dalla classe figlia, + # in questo caso il metodo __init__. + # Il seguente codice esegue il costruttore della classe genitore: + super().__init__(name) + + # Sovrascrivere il metodo "sing" + def sing(self): + return 'Dun, dun, DUN!' + + # Aggiungi un ulteriore metodo dell'istanza + def boast(self): + for power in self.superpowers: + print("I wield the power of {pow}!".format(pow=power)) + + +if __name__ == '__main__': + sup = Superhero(name="Tick") + + # Controllo del tipo di istanza + if isinstance(sup, Human): + print('I am human') + if type(sup) is Superhero: + print('I am a superhero') + + # Ottieni il "Method Resolution search Order" usato sia da getattr () + # che da super (). Questo attributo è dinamico e può essere aggiornato + print(Superhero.__mro__) # => (<class '__main__.Superhero'>, + # => <class 'human.Human'>, <class 'object'>) + + # Esegui il metodo principale ma utilizza il proprio attributo di classe + print(sup.get_species()) # => Superhuman + + # Esegui un metodo che è stato sovrascritto + print(sup.sing()) # => Dun, dun, DUN! + + # Esegui un metodo di Human + sup.say('Spoon') # => Tick: Spoon + + # Esegui un metodo che esiste solo in Superhero + sup.boast() # => I wield the power of super strength! + # => I wield the power of bulletproofing! + + # Attributo di classe ereditato + sup.age = 31 + print(sup.age) # => 31 + + # Attributo che esiste solo in Superhero + print('Am I Oscar eligible? ' + str(sup.movie)) + +#################################################### +## 6.2 Ereditarietà multipla +#################################################### + +# Un'altra definizione di classe +# bat.py +class Bat: + + species = 'Baty' + + def __init__(self, can_fly=True): + self.fly = can_fly + + # Questa classe ha anche un metodo "say" + def say(self, msg): + msg = '... ... ...' + return msg + + # E anche un suo metodo personale + def sonar(self): + return '))) ... (((' + +if __name__ == '__main__': + b = Bat() + print(b.say('hello')) + print(b.fly) + +# Definizione di classe che eredita da Superhero e Bat +# superhero.py +from superhero import Superhero +from bat import Bat + +# Definisci Batman come classe figlia che eredita sia da Superhero che da Bat +class Batman(Superhero, Bat): + + def __init__(self, *args, **kwargs): + # In genere per ereditare gli attributi devi chiamare super: + # super(Batman, self).__init__(*args, **kwargs) + # Ma qui abbiamo a che fare con l'ereditarietà multipla, e super() + # funziona solo con la successiva classe nell'elenco MRO. + # Quindi, invece, chiamiamo esplicitamente __init__ per tutti gli + # antenati. L'uso di *args e **kwargs consente di passare in modo + # pulito gli argomenti, con ciascun genitore che "sbuccia un + # livello della cipolla". + Superhero.__init__(self, 'anonymous', movie=True, + superpowers=['Wealthy'], *args, **kwargs) + Bat.__init__(self, *args, can_fly=False, **kwargs) + # sovrascrivere il valore per l'attributo name + self.name = 'Sad Affleck' + + def sing(self): + return 'nan nan nan nan nan batman!' + + +if __name__ == '__main__': + sup = Batman() + + # Ottieni il "Method Resolution search Order" utilizzato da getattr() e super(). + # Questo attributo è dinamico e può essere aggiornato + print(Batman.__mro__) # => (<class '__main__.Batman'>, + # => <class 'superhero.Superhero'>, + # => <class 'human.Human'>, + # => <class 'bat.Bat'>, <class 'object'>) + + # Esegui il metodo del genitore ma utilizza il proprio attributo di classe + print(sup.get_species()) # => Superhuman + + # Esegui un metodo che è stato sovrascritto + print(sup.sing()) # => nan nan nan nan nan batman! + + # Esegui un metodo da Human, perché l'ordine di ereditarietà è importante + sup.say('I agree') # => Sad Affleck: I agree + + # Esegui un metodo che esiste solo nel 2o antenato + print(sup.sonar()) # => ))) ... ((( + + # Attributo di classe ereditato + sup.age = 100 + print(sup.age) # => 100 + + # Attributo ereditato dal secondo antenato il cui valore predefinito + # è stato ignorato. + print('Can I fly? ' + str(sup.fly)) # => Can I fly? False + + + +#################################################### +## 7. Advanced +#################################################### + +# I generatori ti aiutano a creare codice pigro (lazy code). +# Codice che darà un risultato solo quando sarà "valutato" +def double_numbers(iterable): + for i in iterable: + yield i + i + +# I generatori sono efficienti in termini di memoria perché caricano +# solo i dati necessari per elaborare il valore successivo nell'iterabile. +# Ciò consente loro di eseguire operazioni su intervalli di valori +# altrimenti proibitivi. +# NOTA: `range` sostituisce` xrange` in Python 3. +for i in double_numbers(range(1, 900000000)): # `range` is a generator. + print(i) + if i >= 30: + break + +# Proprio come è possibile creare una "list comprehension", è possibile +# creare anche delle "generator comprehensions". +values = (-x for x in [1,2,3,4,5]) +for x in values: + print(x) # prints -1 -2 -3 -4 -5 to console/terminal + +# Puoi anche trasmettere una "generator comprehensions" direttamente +# ad un elenco. +values = (-x for x in [1,2,3,4,5]) +gen_to_list = list(values) +print(gen_to_list) # => [-1, -2, -3, -4, -5] + + +# Decoratori +# In questo esempio "beg" avvolge/wrappa "say". +# Se say_please è True, cambierà il messaggio restituito. +from functools import wraps + +def beg(target_function): + @wraps(target_function) + def wrapper(*args, **kwargs): + msg, say_please = target_function(*args, **kwargs) + if say_please: + return "{} {}".format(msg, "Per favore! Sono povero :(") + return msg + + return wrapper + + +@beg +def say(say_please=False): + msg = "Puoi comprarmi una birra?" + return msg, say_please + + +print(say()) # Puoi comprarmi una birra? +print(say(say_please=True)) # Puoi comprarmi una birra? Per favore! Sono povero :( +``` + +## Pronto per qualcosa di più? + +### Gratis Online + +* [Automate the Boring Stuff with Python](https://automatetheboringstuff.com) +* [Ideas for Python Projects](http://pythonpracticeprojects.com) +* [The Official Docs](http://docs.python.org/3/) +* [Hitchhiker's Guide to Python](http://docs.python-guide.org/en/latest/) +* [Python Course](http://www.python-course.eu/index.php) +* [First Steps With Python](https://realpython.com/learn/python-first-steps/) +* [A curated list of awesome Python frameworks, libraries and software](https://github.com/vinta/awesome-python) +* [30 Python Language Features and Tricks You May Not Know About](http://sahandsaba.com/thirty-python-language-features-and-tricks-you-may-not-know.html) +* [Official Style Guide for Python](https://www.python.org/dev/peps/pep-0008/) +* [Python 3 Computer Science Circles](http://cscircles.cemc.uwaterloo.ca/) +* [Dive Into Python 3](http://www.diveintopython3.net/index.html) +* [A Crash Course in Python for Scientists](http://nbviewer.jupyter.org/gist/anonymous/5924718) diff --git a/it-it/rst-it.html.markdown b/it-it/rst-it.html.markdown new file mode 100644 index 00000000..a834e899 --- /dev/null +++ b/it-it/rst-it.html.markdown @@ -0,0 +1,111 @@ +--- +language: restructured text (RST) +filename: restructuredtext-it.rst +contributors: + - ["DamienVGN", "https://github.com/martin-damien"] + - ["Andre Polykanine", "https://github.com/Oire"] +translators: + - ["Ale46", "https://github.com/Ale46"] + - ["Chris54721", "https://chris54721.net"] +lang: it-it +--- + +RST (Restructured Text) è un formato di file inizialmente creato dalla comunità Python +per la documentazione (per questo motivo appartiene a Docutils). + +I file RST sono semplici file di testo con una sintassi leggera (in confronto all'HTML). + +## Installazione + +Per usare Restructured Text, sarà necessario installare [Python](http://www.python.org) ed il pacchetto `docutils`. + +`docutils` può essere installato da riga di comando: + +```bash +$ easy_install docutils +``` + +Oppure, se hai `pip` installato sul tuo sistema: + +```bash +$ pip install docutils +``` + + +## Sintassi del file + +Ecco un semplice esempio della sintassi RST: + +``` +.. Le righe che iniziano con due punti sono comandi speciali. Ma se non è possibile trovare alcun comando, la riga viene considerata come un commento + +=============================================================================== +I titoli principali sono scritti utilizzando caratteri di uguale, sopra e sotto +=============================================================================== + +Si noti che devono esserci tanti caratteri di uguale quanti caratteri del titolo. + +Anche i titoli normali usano caratteri di uguale, ma solo sotto +=============================================================== + +I sottotitoli usano i trattini +------------------------------ + +E i sotto-sottotitoli le tildi +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +Puoi inserire il testo in *corsivo* o in **grassetto**, puoi "contrassegnare" il testo come codice con un doppio apice ``: `` print () ``. + +Le liste sono semplici come in Markdown: + +- primo articolo +- Secondo elemento + - Sottoelemento + +oppure + +* Primo elemento +* Secondo elemento + * Sottoelemento + +Le tabelle sono molto semplici da inserire: + +=========== ======== +Stato Capitale +=========== ======== +Francia Parigi +Giappone Tokio +=========== ======== + +Anche le tabelle più complesse possono essere inserite facilmente (colonne e/o righe unite) ma ti suggerisco di leggere la documentazione completa per questo :) + +Esistono diversi modi per creare collegamenti: + +- Aggiungendo un underscore dopo una parola: Github_ e aggiungendo l'URL di destinazione dopo il testo (questo metodo ha il vantaggio di non inserire URL non necessari all'interno del testo leggibile). +- Digitando un URL completo: https://github.com/ (verrà automaticamente convertito in un collegamento) +- Utilizzando una sintassi simile a Markdown: `Github <https://github.com/>`_ . + +.. _Github https://github.com/ + +``` + +## Come usarlo + +RST viene fornito con docutils, che dispone di `rst2html`, per esempio: + +```bash +$ rst2html miofile.rst output.html +``` + +*Nota : In alcuni sistemi il comando potrebbe essere rst2html.py* + +Ma ci sono applicazioni più complesse che utilizzano il formato RST: + +- [Pelican](http://blog.getpelican.com/), un generatore di siti statici +- [Sphinx](http://sphinx-doc.org/), un generatore di documentazione +- e molti altri + + +## Letture + +- [Riferimento ufficiale rapido](http://docutils.sourceforge.net/docs/user/rst/quickref.html) diff --git a/java.html.markdown b/java.html.markdown index 7b59b085..ab2be4a2 100644 --- a/java.html.markdown +++ b/java.html.markdown @@ -44,8 +44,6 @@ import java.util.ArrayList; // Import all classes inside of java.security package import java.security.*; -// Each .java file contains one outer-level public class, with the same name -// as the file. public class LearnJava { // In order to run a java program, it must have a main method as an entry @@ -173,7 +171,7 @@ public class LearnJava { // Char - A single 16-bit Unicode character char fooChar = 'A'; - // final variables can't be reassigned to another object, + // final variables can't be reassigned, final int HOURS_I_WORK_PER_WEEK = 9001; // but they can be initialized later. final double E; @@ -280,7 +278,7 @@ public class LearnJava { // LinkedLists - Implementation of doubly-linked list. All of the // operations perform as could be expected for a // doubly-linked list. - // Maps - A set of objects that map keys to values. Map is + // Maps - A mapping of key Objects to value Objects. Map is // an interface and therefore cannot be instantiated. // The type of keys and values contained in a Map must // be specified upon instantiation of the implementing @@ -289,10 +287,16 @@ public class LearnJava { // HashMaps - This class uses a hashtable to implement the Map // interface. This allows the execution time of basic // operations, such as get and insert element, to remain - // constant even for large sets. - // TreeMap - This class is a sorted tree structure. It implements a red - // black tree and sorts the entries based on the key value or - // the comparator provided while creating the object + // constant-amortized even for large sets. + // TreeMap - A Map that is sorted by its keys. Each modification + // maintains the sorting defined by either a Comparator + // supplied at instantiation, or comparisons of each Object + // if they implement the Comparable interface. + // Failure of keys to implement Comparable combined with failure to + // supply a Comparator will throw ClassCastExceptions. + // Insertion and removal operations take O(log(n)) time + // so avoid using this data structure unless you are taking + // advantage of the sorting. /////////////////////////////////////// // Operators @@ -306,7 +310,7 @@ public class LearnJava { System.out.println("2-1 = " + (i2 - i1)); // => 1 System.out.println("2*1 = " + (i2 * i1)); // => 2 System.out.println("1/2 = " + (i1 / i2)); // => 0 (int/int returns int) - System.out.println("1/2 = " + (i1 / (double)i2)); // => 0.5 + System.out.println("1/2.0 = " + (i1 / (double)i2)); // => 0.5 // Modulo System.out.println("11%3 = "+(11 % 3)); // => 2 @@ -703,15 +707,21 @@ public class ExampleClass extends ExampleClassParent implements InterfaceOne, // // Method declarations // } -// Marking a class as abstract means that it contains at least one abstract -// method that must be defined in a child class. Similar to interfaces, abstract -// classes cannot be instantiated, but instead must be extended and the abstract -// methods defined. Different from interfaces, abstract classes can contain a -// mixture of concrete and abstract methods. Methods in an interface cannot -// have a body, unless the method is static, and variables are final by default, -// unlike an abstract class. Also abstract classes CAN have the "main" method. +// Abstract Classes cannot be instantiated. +// Abstract classes may define abstract methods. +// Abstract methods have no body and are marked abstract +// Non-abstract child classes must @Override all abstract methods +// from their super-classes. +// Abstract classes can be useful when combining repetitive logic +// with customised behavior, but as Abstract classes require +// inheritance, they violate "Composition over inheritance" +// so consider other approaches using composition. +// https://en.wikipedia.org/wiki/Composition_over_inheritance + public abstract class Animal { + private int age; + public abstract void makeSound(); // Method can have a body @@ -722,17 +732,12 @@ public abstract class Animal age = 30; } - // No need to initialize, however in an interface - // a variable is implicitly final and hence has - // to be initialized. - private int age; - public void printAge() { System.out.println(age); } - // Abstract classes can have main function. + // Abstract classes can have main method. public static void main(String[] args) { System.out.println("I am abstract"); diff --git a/javascript.html.markdown b/javascript.html.markdown index 35bcf988..ecaf02c5 100644 --- a/javascript.html.markdown +++ b/javascript.html.markdown @@ -103,7 +103,7 @@ false; // ... which works with more than just strings "1, 2, " + 3; // = "1, 2, 3" -"Hello " + ["world", "!"] // = "Hello world,!" +"Hello " + ["world", "!"]; // = "Hello world,!" // and are compared with < and > "a" < "b"; // = true @@ -180,6 +180,24 @@ myArray.length; // = 4 // Add/Modify at specific index myArray[3] = "Hello"; +// Add and remove element from front or back end of an array +myArray.unshift(3); // Add as the first element +someVar = myArray.shift(); // Remove first element and return it +myArray.push(3); // Add as the last element +someVar = myArray.pop(); // Remove last element and return it + +// Join all elements of an array with semicolon +var myArray0 = [32,false,"js",12,56,90]; +myArray0.join(";") // = "32;false;js;12;56;90" + +// Get subarray of elements from index 1 (include) to 4 (exclude) +myArray0.slice(1,4); // = [false,"js",12] + +// Remove 4 elements starting from index 2, and insert there strings +// "hi","wr" and "ld"; return removed subarray +myArray0.splice(2,4,"hi","wr","ld"); // = ["js",12,56,90] +// myArray0 === [32,false,"hi","wr","ld"] + // JavaScript's objects are equivalent to "dictionaries" or "maps" in other // languages: an unordered collection of key-value pairs. var myObj = {key1: "Hello", key2: "World"}; @@ -222,7 +240,7 @@ while (true){ var input; do { input = getInput(); -} while (!isValid(input)) +} while (!isValid(input)); // The `for` loop is the same as C and Java: // initialization; continue condition; iteration. @@ -302,7 +320,7 @@ myFunction("foo"); // = "FOO" // automatic semicolon insertion. Watch out for this when using Allman style. function myFunction(){ return // <- semicolon automatically inserted here - {thisIsAn: 'object literal'} + {thisIsAn: 'object literal'}; } myFunction(); // = undefined @@ -397,7 +415,7 @@ myFunc(); // = undefined // through `this`, even if it wasn't attached when it was defined. var myOtherFunc = function(){ return this.myString.toUpperCase(); -} +}; myObj.myOtherFunc = myOtherFunc; myObj.myOtherFunc(); // = "HELLO WORLD!" @@ -406,7 +424,7 @@ myObj.myOtherFunc(); // = "HELLO WORLD!" var anotherFunc = function(s){ return this.myString + s; -} +}; anotherFunc.call(myObj, " And Hello Moon!"); // = "Hello World! And Hello Moon!" // The `apply` function is nearly identical, but takes an array for an argument @@ -429,7 +447,7 @@ boundFunc(" And Hello Saturn!"); // = "Hello World! And Hello Saturn!" // `bind` can also be used to partially apply (curry) a function. -var product = function(a, b){ return a * b; } +var product = function(a, b){ return a * b; }; var doubler = product.bind(this, 2); doubler(8); // = 16 @@ -439,11 +457,11 @@ doubler(8); // = 16 var MyConstructor = function(){ this.myNumber = 5; -} +}; myNewObj = new MyConstructor(); // = {myNumber: 5} myNewObj.myNumber; // = 5 -// Unlike most other popular object-oriented languages, JavaScript has no +// Unlike most other popular object-oriented languages, JavaScript has no // concept of 'instances' created from 'class' blueprints; instead, JavaScript // combines instantiation and inheritance into a single concept: a 'prototype'. @@ -460,7 +478,7 @@ var myObj = { var myPrototype = { meaningOfLife: 42, myFunc: function(){ - return this.myString.toLowerCase() + return this.myString.toLowerCase(); } }; @@ -524,7 +542,7 @@ MyConstructor.prototype = { }; var myNewObj2 = new MyConstructor(); myNewObj2.getMyNumber(); // = 5 -myNewObj2.myNumber = 6 +myNewObj2.myNumber = 6; myNewObj2.getMyNumber(); // = 6 // Built-in types like strings and numbers also have constructors that create @@ -549,7 +567,7 @@ if (new Number(0)){ // you can actually add functionality to a string, for instance. String.prototype.firstCharacter = function(){ return this.charAt(0); -} +}; "abc".firstCharacter(); // = "a" // This fact is often used in "polyfilling", which is implementing newer @@ -565,7 +583,7 @@ if (Object.create === undefined){ // don't overwrite it if it exists Constructor.prototype = proto; // then use it to create a new, appropriately-prototyped object return new Constructor(); - } + }; } ``` @@ -591,13 +609,13 @@ of the language. [Eloquent Javascript][8] by Marijn Haverbeke is an excellent JS book/ebook with attached terminal -[Eloquent Javascript - The Annotated Version][9] by Gordon Zhu is also a great -derivative of Eloquent Javascript with extra explanations and clarifications for -some of the more complicated examples. - [Javascript: The Right Way][10] is a guide intended to introduce new developers to JavaScript and help experienced developers learn more about its best practices. +[Javascript:Info][11] is a modern javascript tutorial covering the basics (core language and working with a browser) +as well as advanced topics with concise explanations. + + In addition to direct contributors to this article, some content is adapted from Louie Dinh's Python tutorial on this site, and the [JS Tutorial][7] on the Mozilla Developer Network. @@ -611,5 +629,5 @@ Mozilla Developer Network. [6]: http://www.amazon.com/gp/product/0596805527/ [7]: https://developer.mozilla.org/en-US/docs/Web/JavaScript/A_re-introduction_to_JavaScript [8]: http://eloquentjavascript.net/ -[9]: http://watchandcode.com/courses/eloquent-javascript-the-annotated-version [10]: http://jstherightway.org/ +[11]: https://javascript.info/ diff --git a/julia.html.markdown b/julia.html.markdown index 85033aa6..891a0a00 100644 --- a/julia.html.markdown +++ b/julia.html.markdown @@ -2,16 +2,17 @@ language: Julia contributors: - ["Leah Hanson", "http://leahhanson.us"] - - ["Pranit Bauva", "http://github.com/pranitbauva1997"] + - ["Pranit Bauva", "https://github.com/pranitbauva1997"] + - ["Daniel YC Lin", "https://github.com/dlintw"] filename: learnjulia.jl --- Julia is a new homoiconic functional language focused on technical computing. While having the full power of homoiconic macros, first-class functions, and low-level control, Julia is as easy to learn and use as Python. -This is based on Julia 0.4. +This is based on Julia 1.0.0 -```ruby +```julia # Single line comments start with a hash (pound) symbol. #= Multiline comments can be written @@ -26,38 +27,38 @@ This is based on Julia 0.4. # Everything in Julia is an expression. # There are several basic types of numbers. -3 # => 3 (Int64) -3.2 # => 3.2 (Float64) -2 + 1im # => 2 + 1im (Complex{Int64}) -2//3 # => 2//3 (Rational{Int64}) +3 # => 3 (Int64) +3.2 # => 3.2 (Float64) +2 + 1im # => 2 + 1im (Complex{Int64}) +2 // 3 # => 2 // 3 (Rational{Int64}) # All of the normal infix operators are available. -1 + 1 # => 2 -8 - 1 # => 7 -10 * 2 # => 20 -35 / 5 # => 7.0 -5 / 2 # => 2.5 # dividing an Int by an Int always results in a Float -div(5, 2) # => 2 # for a truncated result, use div -5 \ 35 # => 7.0 -2 ^ 2 # => 4 # power, not bitwise xor -12 % 10 # => 2 +1 + 1 # => 2 +8 - 1 # => 7 +10 * 2 # => 20 +35 / 5 # => 7.0 +5 / 2 # => 2.5 # dividing integers always results in a Float64 +div(5, 2) # => 2 # for a truncated result, use div +5 \ 35 # => 7.0 +2^2 # => 4 # power, not bitwise xor +12 % 10 # => 2 # Enforce precedence with parentheses -(1 + 3) * 2 # => 8 +(1 + 3) * 2 # => 8 # Bitwise Operators -~2 # => -3 # bitwise not -3 & 5 # => 1 # bitwise and -2 | 4 # => 6 # bitwise or -2 $ 4 # => 6 # bitwise xor -2 >>> 1 # => 1 # logical shift right -2 >> 1 # => 1 # arithmetic shift right -2 << 1 # => 4 # logical/arithmetic shift left - -# You can use the bits function to see the binary representation of a number. -bits(12345) +~2 # => -3 # bitwise not +3 & 5 # => 1 # bitwise and +2 | 4 # => 6 # bitwise or +xor(2, 4) # => 6 # bitwise xor +2 >>> 1 # => 1 # logical shift right +2 >> 1 # => 1 # arithmetic shift right +2 << 1 # => 4 # logical/arithmetic shift left + +# Use the bitstring function to see the binary representation of a number. +bitstring(12345) # => "0000000000000000000000000000000000000000000000000011000000111001" -bits(12345.0) +bitstring(12345.0) # => "0100000011001000000111001000000000000000000000000000000000000000" # Boolean values are primitives @@ -65,40 +66,38 @@ true false # Boolean operators -!true # => false -!false # => true -1 == 1 # => true -2 == 1 # => false -1 != 1 # => false -2 != 1 # => true -1 < 10 # => true -1 > 10 # => false -2 <= 2 # => true -2 >= 2 # => true +!true # => false +!false # => true +1 == 1 # => true +2 == 1 # => false +1 != 1 # => false +2 != 1 # => true +1 < 10 # => true +1 > 10 # => false +2 <= 2 # => true +2 >= 2 # => true # Comparisons can be chained -1 < 2 < 3 # => true -2 < 3 < 2 # => false +1 < 2 < 3 # => true +2 < 3 < 2 # => false # Strings are created with " "This is a string." -# Julia has several types of strings, including ASCIIString and UTF8String. -# More on this in the Types section. - # Character literals are written with ' 'a' -# Some strings can be indexed like an array of characters -"This is a string"[1] # => 'T' # Julia indexes from 1 -# However, this is will not work well for UTF8 strings, -# so iterating over strings is recommended (map, for loops, etc). +# Strings are UTF8 encoded. Only if they contain only ASCII characters can +# they be safely indexed. +ascii("This is a string")[1] # => 'T' # Julia indexes from 1 +# Otherwise, iterating over strings is recommended (map, for loops, etc). # $ can be used for string interpolation: "2 + 2 = $(2 + 2)" # => "2 + 2 = 4" # You can put any Julia expression inside the parentheses. -# Another way to format strings is the printf macro. -@printf "%d is less than %f" 4.5 5.3 # 5 is less than 5.300000 +# Another way to format strings is the printf macro from the stdlib Printf. +using Printf +@printf "%d is less than %f\n" 4.5 5.3 # => 5 is less than 5.300000 # Printing is easy println("I'm Julia. Nice to meet you!") @@ -106,29 +105,29 @@ println("I'm Julia. Nice to meet you!") # String can be compared lexicographically "good" > "bye" # => true "good" == "good" # => true -"1 + 2 = 3" == "1 + 2 = $(1+2)" # => true +"1 + 2 = 3" == "1 + 2 = $(1 + 2)" # => true #################################################### ## 2. Variables and Collections #################################################### # You don't declare variables before assigning to them. -some_var = 5 # => 5 -some_var # => 5 +some_var = 5 # => 5 +some_var # => 5 # Accessing a previously unassigned variable is an error try - some_other_var # => ERROR: some_other_var not defined + some_other_var # => ERROR: UndefVarError: some_other_var not defined catch e println(e) end # Variable names start with a letter or underscore. # After that, you can use letters, digits, underscores, and exclamation points. -SomeOtherVar123! = 6 # => 6 +SomeOtherVar123! = 6 # => 6 # You can also use certain unicode characters -☃ = 8 # => 8 +☃ = 8 # => 8 # These are especially handy for mathematical notation 2 * π # => 6.283185307179586 @@ -147,165 +146,168 @@ SomeOtherVar123! = 6 # => 6 # functions are sometimes called mutating functions or in-place functions. # Arrays store a sequence of values indexed by integers 1 through n: -a = Int64[] # => 0-element Int64 Array +a = Int64[] # => 0-element Int64 Array # 1-dimensional array literals can be written with comma-separated values. -b = [4, 5, 6] # => 3-element Int64 Array: [4, 5, 6] -b = [4; 5; 6] # => 3-element Int64 Array: [4, 5, 6] -b[1] # => 4 -b[end] # => 6 +b = [4, 5, 6] # => 3-element Int64 Array: [4, 5, 6] +b = [4; 5; 6] # => 3-element Int64 Array: [4, 5, 6] +b[1] # => 4 +b[end] # => 6 # 2-dimensional arrays use space-separated values and semicolon-separated rows. -matrix = [1 2; 3 4] # => 2x2 Int64 Array: [1 2; 3 4] +matrix = [1 2; 3 4] # => 2x2 Int64 Array: [1 2; 3 4] -# Arrays of a particular Type -b = Int8[4, 5, 6] # => 3-element Int8 Array: [4, 5, 6] +# Arrays of a particular type +b = Int8[4, 5, 6] # => 3-element Int8 Array: [4, 5, 6] # Add stuff to the end of a list with push! and append! -push!(a,1) # => [1] -push!(a,2) # => [1,2] -push!(a,4) # => [1,2,4] -push!(a,3) # => [1,2,4,3] -append!(a,b) # => [1,2,4,3,4,5,6] +push!(a, 1) # => [1] +push!(a, 2) # => [1,2] +push!(a, 4) # => [1,2,4] +push!(a, 3) # => [1,2,4,3] +append!(a, b) # => [1,2,4,3,4,5,6] # Remove from the end with pop -pop!(b) # => 6 and b is now [4,5] +pop!(b) # => 6 and b is now [4,5] # Let's put it back -push!(b,6) # b is now [4,5,6] again. +push!(b, 6) # b is now [4,5,6] again. -a[1] # => 1 # remember that Julia indexes from 1, not 0! +a[1] # => 1 # remember that Julia indexes from 1, not 0! # end is a shorthand for the last index. It can be used in any # indexing expression -a[end] # => 6 +a[end] # => 6 -# we also have shift and unshift -shift!(a) # => 1 and a is now [2,4,3,4,5,6] -unshift!(a,7) # => [7,2,4,3,4,5,6] +# we also have popfirst! and pushfirst! +popfirst!(a) # => 1 and a is now [2,4,3,4,5,6] +pushfirst!(a, 7) # => [7,2,4,3,4,5,6] # Function names that end in exclamations points indicate that they modify # their argument. -arr = [5,4,6] # => 3-element Int64 Array: [5,4,6] -sort(arr) # => [4,5,6]; arr is still [5,4,6] -sort!(arr) # => [4,5,6]; arr is now [4,5,6] +arr = [5,4,6] # => 3-element Int64 Array: [5,4,6] +sort(arr) # => [4,5,6]; arr is still [5,4,6] +sort!(arr) # => [4,5,6]; arr is now [4,5,6] # Looking out of bounds is a BoundsError try - a[0] # => ERROR: BoundsError() in getindex at array.jl:270 - a[end+1] # => ERROR: BoundsError() in getindex at array.jl:270 + a[0] + # => BoundsError: attempt to access 7-element Array{Int64,1} at index [0] + a[end + 1] + # => BoundsError: attempt to access 7-element Array{Int64,1} at index [8] catch e println(e) end # Errors list the line and file they came from, even if it's in the standard -# library. If you built Julia from source, you can look in the folder base -# inside the julia folder to find these files. +# library. You can look in the folder share/julia inside the julia folder to +# find these files. # You can initialize arrays from ranges -a = [1:5;] # => 5-element Int64 Array: [1,2,3,4,5] +a = [1:5;] # => 5-element Int64 Array: [1,2,3,4,5] # You can look at ranges with slice syntax. -a[1:3] # => [1, 2, 3] -a[2:end] # => [2, 3, 4, 5] +a[1:3] # => [1, 2, 3] +a[2:end] # => [2, 3, 4, 5] # Remove elements from an array by index with splice! arr = [3,4,5] -splice!(arr,2) # => 4 ; arr is now [3,5] +splice!(arr, 2) # => 4 ; arr is now [3,5] # Concatenate lists with append! b = [1,2,3] -append!(a,b) # Now a is [1, 2, 3, 4, 5, 1, 2, 3] +append!(a, b) # Now a is [1, 2, 3, 4, 5, 1, 2, 3] # Check for existence in a list with in -in(1, a) # => true +in(1, a) # => true # Examine the length with length -length(a) # => 8 +length(a) # => 8 # Tuples are immutable. -tup = (1, 2, 3) # => (1,2,3) # an (Int64,Int64,Int64) tuple. -tup[1] # => 1 -try: - tup[1] = 3 # => ERROR: no method setindex!((Int64,Int64,Int64),Int64,Int64) +tup = (1, 2, 3) # => (1,2,3) # an (Int64,Int64,Int64) tuple. +tup[1] # => 1 +try + tup[1] = 3 # => ERROR: no method setindex!((Int64,Int64,Int64),Int64,Int64) catch e println(e) end -# Many list functions also work on tuples -length(tup) # => 3 -tup[1:2] # => (1,2) -in(2, tup) # => true +# Many array functions also work on tuples +length(tup) # => 3 +tup[1:2] # => (1,2) +in(2, tup) # => true # You can unpack tuples into variables -a, b, c = (1, 2, 3) # => (1,2,3) # a is now 1, b is now 2 and c is now 3 +a, b, c = (1, 2, 3) # => (1,2,3) # a is now 1, b is now 2 and c is now 3 # Tuples are created even if you leave out the parentheses -d, e, f = 4, 5, 6 # => (4,5,6) +d, e, f = 4, 5, 6 # => (4,5,6) # A 1-element tuple is distinct from the value it contains -(1,) == 1 # => false -(1) == 1 # => true +(1,) == 1 # => false +(1) == 1 # => true # Look how easy it is to swap two values -e, d = d, e # => (5,4) # d is now 5 and e is now 4 +e, d = d, e # => (5,4) # d is now 5 and e is now 4 # Dictionaries store mappings -empty_dict = Dict() # => Dict{Any,Any}() +empty_dict = Dict() # => Dict{Any,Any}() # You can create a dictionary using a literal -filled_dict = Dict("one"=> 1, "two"=> 2, "three"=> 3) -# => Dict{ASCIIString,Int64} +filled_dict = Dict("one" => 1, "two" => 2, "three" => 3) +# => Dict{String,Int64} # Look up values with [] -filled_dict["one"] # => 1 +filled_dict["one"] # => 1 # Get all keys keys(filled_dict) -# => KeyIterator{Dict{ASCIIString,Int64}}(["three"=>3,"one"=>1,"two"=>2]) +# => Base.KeySet for a Dict{String,Int64} with 3 entries. Keys: +# "two", "one", "three" # Note - dictionary keys are not sorted or in the order you inserted them. # Get all values values(filled_dict) -# => ValueIterator{Dict{ASCIIString,Int64}}(["three"=>3,"one"=>1,"two"=>2]) +# => Base.ValueIterator{Dict{String,Int64}} with 3 entries. Values: 2, 1, 3 # Note - Same as above regarding key ordering. # Check for existence of keys in a dictionary with in, haskey -in(("one" => 1), filled_dict) # => true -in(("two" => 3), filled_dict) # => false -haskey(filled_dict, "one") # => true -haskey(filled_dict, 1) # => false +in(("one" => 1), filled_dict) # => true +in(("two" => 3), filled_dict) # => false +haskey(filled_dict, "one") # => true +haskey(filled_dict, 1) # => false # Trying to look up a non-existent key will raise an error try - filled_dict["four"] # => ERROR: key not found: four in getindex at dict.jl:489 + filled_dict["four"] # => KeyError: key "four" not found catch e println(e) end # Use the get method to avoid that error by providing a default value -# get(dictionary,key,default_value) -get(filled_dict,"one",4) # => 1 -get(filled_dict,"four",4) # => 4 +# get(dictionary, key, default_value) +get(filled_dict, "one", 4) # => 1 +get(filled_dict, "four", 4) # => 4 # Use Sets to represent collections of unordered, unique values -empty_set = Set() # => Set{Any}() +empty_set = Set() # => Set{Any}() # Initialize a set with values -filled_set = Set([1,2,2,3,4]) # => Set{Int64}(1,2,3,4) +filled_set = Set([1, 2, 2, 3, 4]) # => Set([4, 2, 3, 1]) # Add more values to a set -push!(filled_set,5) # => Set{Int64}(5,4,2,3,1) +push!(filled_set, 5) # => Set([4, 2, 3, 5, 1]) # Check if the values are in the set -in(2, filled_set) # => true -in(10, filled_set) # => false +in(2, filled_set) # => true +in(10, filled_set) # => false # There are functions for set intersection, union, and difference. -other_set = Set([3, 4, 5, 6]) # => Set{Int64}(6,4,5,3) -intersect(filled_set, other_set) # => Set{Int64}(3,4,5) -union(filled_set, other_set) # => Set{Int64}(1,2,3,4,5,6) -setdiff(Set([1,2,3,4]),Set([2,3,5])) # => Set{Int64}(1,4) +other_set = Set([3, 4, 5, 6]) # => Set([4, 3, 5, 6]) +intersect(filled_set, other_set) # => Set([4, 3, 5]) +union(filled_set, other_set) # => Set([4, 2, 3, 5, 6, 1]) +setdiff(Set([1,2,3,4]), Set([2,3,5])) # => Set([4, 1]) #################################################### @@ -328,7 +330,7 @@ end # For loops iterate over iterables. # Iterable types include Range, Array, Set, Dict, and AbstractString. -for animal=["dog", "cat", "mouse"] +for animal = ["dog", "cat", "mouse"] println("$animal is a mammal") # You can use $ to interpolate variables or expression into strings end @@ -346,15 +348,16 @@ end # cat is a mammal # mouse is a mammal -for a in Dict("dog"=>"mammal","cat"=>"mammal","mouse"=>"mammal") - println("$(a[1]) is a $(a[2])") +for pair in Dict("dog" => "mammal", "cat" => "mammal", "mouse" => "mammal") + from, to = pair + println("$from is a $to") end # prints: # dog is a mammal # cat is a mammal # mouse is a mammal -for (k,v) in Dict("dog"=>"mammal","cat"=>"mammal","mouse"=>"mammal") +for (k, v) in Dict("dog" => "mammal", "cat" => "mammal", "mouse" => "mammal") println("$k is a $v") end # prints: @@ -363,10 +366,11 @@ end # mouse is a mammal # While loops loop while a condition is true -x = 0 -while x < 4 - println(x) - x += 1 # Shorthand for x = x + 1 +let x = 0 + while x < 4 + println(x) + x += 1 # Shorthand for x = x + 1 + end end # prints: # 0 @@ -376,9 +380,9 @@ end # Handle exceptions with a try/catch block try - error("help") + error("help") catch e - println("caught it $e") + println("caught it $e") end # => caught it ErrorException("help") @@ -398,15 +402,15 @@ function add(x, y) x + y end -add(5, 6) # => 11 after printing out "x is 5 and y is 6" +add(5, 6) # => 11 after printing out "x is 5 and y is 6" # Compact assignment of functions -f_add(x, y) = x + y # => "f (generic function with 1 method)" -f_add(3, 4) # => 7 +f_add(x, y) = x + y # => "f (generic function with 1 method)" +f_add(3, 4) # => 7 # Function can also return multiple values as tuple -f(x, y) = x + y, x - y -f(3, 4) # => (7, -1) +fn(x, y) = x + y, x - y +fn(3, 4) # => (7, -1) # You can define functions that take a variable number of # positional arguments @@ -416,41 +420,41 @@ function varargs(args...) end # => varargs (generic function with 1 method) -varargs(1,2,3) # => (1,2,3) +varargs(1, 2, 3) # => (1,2,3) # The ... is called a splat. # We just used it in a function definition. # It can also be used in a function call, # where it will splat an Array or Tuple's contents into the argument list. -add([5,6]...) # this is equivalent to add(5,6) +add([5,6]...) # this is equivalent to add(5,6) -x = (5,6) # => (5,6) -add(x...) # this is equivalent to add(5,6) +x = (5, 6) # => (5,6) +add(x...) # this is equivalent to add(5,6) # You can define functions with optional positional arguments -function defaults(a,b,x=5,y=6) +function defaults(a, b, x=5, y=6) return "$a $b and $x $y" end -defaults('h','g') # => "h g and 5 6" -defaults('h','g','j') # => "h g and j 6" -defaults('h','g','j','k') # => "h g and j k" +defaults('h', 'g') # => "h g and 5 6" +defaults('h', 'g', 'j') # => "h g and j 6" +defaults('h', 'g', 'j', 'k') # => "h g and j k" try - defaults('h') # => ERROR: no method defaults(Char,) - defaults() # => ERROR: no methods defaults() + defaults('h') # => ERROR: no method defaults(Char,) + defaults() # => ERROR: no methods defaults() catch e println(e) end # You can define functions that take keyword arguments -function keyword_args(;k1=4,name2="hello") # note the ; - return Dict("k1"=>k1,"name2"=>name2) +function keyword_args(;k1=4, name2="hello") # note the ; + return Dict("k1" => k1, "name2" => name2) end -keyword_args(name2="ness") # => ["name2"=>"ness","k1"=>4] -keyword_args(k1="mine") # => ["k1"=>"mine","name2"=>"hello"] -keyword_args() # => ["name2"=>"hello","k1"=>4] +keyword_args(name2="ness") # => ["name2"=>"ness","k1"=>4] +keyword_args(k1="mine") # => ["k1"=>"mine","name2"=>"hello"] +keyword_args() # => ["name2"=>"hello","k1"=>4] # You can combine all kinds of arguments in the same function function all_the_args(normal_arg, optional_positional_arg=2; keyword_arg="foo") @@ -474,7 +478,7 @@ function create_adder(x) end # This is "stabby lambda syntax" for creating anonymous functions -(x -> x > 2)(3) # => true +(x -> x > 2)(3) # => true # This function is identical to create_adder implementation above. function create_adder(x) @@ -490,16 +494,17 @@ function create_adder(x) end add_10 = create_adder(10) -add_10(3) # => 13 +add_10(3) # => 13 # There are built-in higher order functions -map(add_10, [1,2,3]) # => [11, 12, 13] -filter(x -> x > 5, [3, 4, 5, 6, 7]) # => [6, 7] +map(add_10, [1,2,3]) # => [11, 12, 13] +filter(x -> x > 5, [3, 4, 5, 6, 7]) # => [6, 7] -# We can use list comprehensions for nicer maps -[add_10(i) for i=[1, 2, 3]] # => [11, 12, 13] +# We can use list comprehensions +[add_10(i) for i = [1, 2, 3]] # => [11, 12, 13] [add_10(i) for i in [1, 2, 3]] # => [11, 12, 13] +[x for x in [3, 4, 5, 6, 7] if x > 5] # => [6, 7] #################################################### ## 5. Types @@ -508,11 +513,11 @@ filter(x -> x > 5, [3, 4, 5, 6, 7]) # => [6, 7] # Julia has a type system. # Every value has a type; variables do not have types themselves. # You can use the `typeof` function to get the type of a value. -typeof(5) # => Int64 +typeof(5) # => Int64 # Types are first-class values -typeof(Int64) # => DataType -typeof(DataType) # => DataType +typeof(Int64) # => DataType +typeof(DataType) # => DataType # DataType is the type that represents types, including itself. # Types are used for documentation, optimizations, and dispatch. @@ -520,80 +525,77 @@ typeof(DataType) # => DataType # Users can define types # They are like records or structs in other languages. -# New types are defined using the `type` keyword. +# New types are defined using the `struct` keyword. -# type Name +# struct Name # field::OptionalType # ... # end -type Tiger - taillength::Float64 - coatcolor # not including a type annotation is the same as `::Any` +struct Tiger + taillength::Float64 + coatcolor # not including a type annotation is the same as `::Any` end # The default constructor's arguments are the properties # of the type, in the order they are listed in the definition -tigger = Tiger(3.5,"orange") # => Tiger(3.5,"orange") +tigger = Tiger(3.5, "orange") # => Tiger(3.5,"orange") # The type doubles as the constructor function for values of that type -sherekhan = typeof(tigger)(5.6,"fire") # => Tiger(5.6,"fire") +sherekhan = typeof(tigger)(5.6, "fire") # => Tiger(5.6,"fire") # These struct-style types are called concrete types # They can be instantiated, but cannot have subtypes. # The other kind of types is abstract types. # abstract Name -abstract Cat # just a name and point in the type hierarchy +abstract type Cat end # just a name and point in the type hierarchy # Abstract types cannot be instantiated, but can have subtypes. +using InteractiveUtils # defines the subtype and supertype function # For example, Number is an abstract type -subtypes(Number) # => 2-element Array{Any,1}: +subtypes(Number) # => 2-element Array{Any,1}: # Complex{T<:Real} # Real -subtypes(Cat) # => 0-element Array{Any,1} +subtypes(Cat) # => 0-element Array{Any,1} # AbstractString, as the name implies, is also an abstract type -subtypes(AbstractString) # 8-element Array{Any,1}: - # Base.SubstitutionString{T<:AbstractString} - # DirectIndexString - # RepString - # RevString{T<:AbstractString} - # RopeString - # SubString{T<:AbstractString} - # UTF16String - # UTF8String - -# Every type has a super type; use the `super` function to get it. -typeof(5) # => Int64 -super(Int64) # => Signed -super(Signed) # => Integer -super(Integer) # => Real -super(Real) # => Number -super(Number) # => Any -super(super(Signed)) # => Real -super(Any) # => Any +subtypes(AbstractString) # 4-element Array{Any,1}: + # String + # SubString + # SubstitutionString + # Test.GenericString + +# Every type has a super type; use the `supertype` function to get it. +typeof(5) # => Int64 +supertype(Int64) # => Signed +supertype(Signed) # => Integer +supertype(Integer) # => Real +supertype(Real) # => Number +supertype(Number) # => Any +supertype(supertype(Signed)) # => Real +supertype(Any) # => Any # All of these type, except for Int64, are abstract. -typeof("fire") # => ASCIIString -super(ASCIIString) # => DirectIndexString -super(DirectIndexString) # => AbstractString -# Likewise here with ASCIIString +typeof("fire") # => String +supertype(String) # => AbstractString +# Likewise here with String +supertype(SubString) # => AbstractString # <: is the subtyping operator -type Lion <: Cat # Lion is a subtype of Cat - mane_color - roar::AbstractString +struct Lion <: Cat # Lion is a subtype of Cat + mane_color + roar::AbstractString end # You can define more constructors for your type # Just define a function of the same name as the type # and call an existing constructor to get a value of the correct type -Lion(roar::AbstractString) = Lion("green",roar) +Lion(roar::AbstractString) = Lion("green", roar) # This is an outer constructor because it's outside the type definition -type Panther <: Cat # Panther is also a subtype of Cat - eye_color - Panther() = new("green") - # Panthers will only have this constructor, and no default constructor. +struct Panther <: Cat # Panther is also a subtype of Cat + eye_color + Panther() = new("green") + # Panthers will only have this constructor, and no default constructor. end # Using inner constructors, like Panther does, gives you control # over how values of the type can be created. @@ -611,35 +613,35 @@ end # Definitions for Lion, Panther, Tiger function meow(animal::Lion) - animal.roar # access type properties using dot notation + animal.roar # access type properties using dot notation end function meow(animal::Panther) - "grrr" + "grrr" end function meow(animal::Tiger) - "rawwwr" + "rawwwr" end # Testing the meow function -meow(tigger) # => "rawwr" -meow(Lion("brown","ROAAR")) # => "ROAAR" -meow(Panther()) # => "grrr" +meow(tigger) # => "rawwr" +meow(Lion("brown", "ROAAR")) # => "ROAAR" +meow(Panther()) # => "grrr" # Review the local type hierarchy -issubtype(Tiger,Cat) # => false -issubtype(Lion,Cat) # => true -issubtype(Panther,Cat) # => true +Tiger <: Cat # => false +Lion <: Cat # => true +Panther <: Cat # => true # Defining a function that takes Cats function pet_cat(cat::Cat) - println("The cat says $(meow(cat))") + println("The cat says $(meow(cat))") end -pet_cat(Lion("42")) # => prints "The cat says 42" +pet_cat(Lion("42")) # => prints "The cat says 42" try - pet_cat(tigger) # => ERROR: no method pet_cat(Tiger,) + pet_cat(tigger) # => ERROR: no method pet_cat(Tiger,) catch e println(e) end @@ -649,130 +651,132 @@ end # In Julia, all of the argument types contribute to selecting the best method. # Let's define a function with more arguments, so we can see the difference -function fight(t::Tiger,c::Cat) - println("The $(t.coatcolor) tiger wins!") +function fight(t::Tiger, c::Cat) + println("The $(t.coatcolor) tiger wins!") end # => fight (generic function with 1 method) -fight(tigger,Panther()) # => prints The orange tiger wins! -fight(tigger,Lion("ROAR")) # => prints The orange tiger wins! +fight(tigger, Panther()) # => prints The orange tiger wins! +fight(tigger, Lion("ROAR")) # => prints The orange tiger wins! # Let's change the behavior when the Cat is specifically a Lion -fight(t::Tiger,l::Lion) = println("The $(l.mane_color)-maned lion wins!") +fight(t::Tiger, l::Lion) = println("The $(l.mane_color)-maned lion wins!") # => fight (generic function with 2 methods) -fight(tigger,Panther()) # => prints The orange tiger wins! -fight(tigger,Lion("ROAR")) # => prints The green-maned lion wins! +fight(tigger, Panther()) # => prints The orange tiger wins! +fight(tigger, Lion("ROAR")) # => prints The green-maned lion wins! # We don't need a Tiger in order to fight -fight(l::Lion,c::Cat) = println("The victorious cat says $(meow(c))") +fight(l::Lion, c::Cat) = println("The victorious cat says $(meow(c))") # => fight (generic function with 3 methods) -fight(Lion("balooga!"),Panther()) # => prints The victorious cat says grrr +fight(Lion("balooga!"), Panther()) # => prints The victorious cat says grrr try - fight(Panther(),Lion("RAWR")) # => ERROR: no method fight(Panther,Lion) -catch + fight(Panther(), Lion("RAWR")) +catch e + println(e) + # => MethodError(fight, (Panther("green"), Lion("green", "RAWR")), + # 0x000000000000557b) end # Also let the cat go first -fight(c::Cat,l::Lion) = println("The cat beats the Lion") -# => Warning: New definition -# fight(Cat,Lion) at none:1 -# is ambiguous with -# fight(Lion,Cat) at none:2. -# Make sure -# fight(Lion,Lion) -# is defined first. -#fight (generic function with 4 methods) +fight(c::Cat, l::Lion) = println("The cat beats the Lion") # This warning is because it's unclear which fight will be called in: -fight(Lion("RAR"),Lion("brown","rarrr")) # => prints The victorious cat says rarrr +try + fight(Lion("RAR"), Lion("brown", "rarrr")) + # => prints The victorious cat says rarrr +catch e + println(e) + # => MethodError(fight, (Lion("green", "RAR"), Lion("brown", "rarrr")), + # 0x000000000000557c) +end # The result may be different in other versions of Julia -fight(l::Lion,l2::Lion) = println("The lions come to a tie") -fight(Lion("RAR"),Lion("brown","rarrr")) # => prints The lions come to a tie +fight(l::Lion, l2::Lion) = println("The lions come to a tie") +fight(Lion("RAR"), Lion("brown", "rarrr")) # => prints The lions come to a tie # Under the hood # You can take a look at the llvm and the assembly code generated. -square_area(l) = l * l # square_area (generic function with 1 method) +square_area(l) = l * l # square_area (generic function with 1 method) -square_area(5) #25 +square_area(5) # => 25 # What happens when we feed square_area an integer? code_native(square_area, (Int32,)) - # .section __TEXT,__text,regular,pure_instructions - # Filename: none - # Source line: 1 # Prologue - # push RBP - # mov RBP, RSP - # Source line: 1 - # movsxd RAX, EDI # Fetch l from memory? - # imul RAX, RAX # Square l and store the result in RAX - # pop RBP # Restore old base pointer - # ret # Result will still be in RAX + # .section __TEXT,__text,regular,pure_instructions + # Filename: none + # Source line: 1 # Prologue + # push RBP + # mov RBP, RSP + # Source line: 1 + # movsxd RAX, EDI # Fetch l from memory? + # imul RAX, RAX # Square l and store the result in RAX + # pop RBP # Restore old base pointer + # ret # Result will still be in RAX code_native(square_area, (Float32,)) - # .section __TEXT,__text,regular,pure_instructions - # Filename: none - # Source line: 1 - # push RBP - # mov RBP, RSP - # Source line: 1 - # vmulss XMM0, XMM0, XMM0 # Scalar single precision multiply (AVX) - # pop RBP - # ret + # .section __TEXT,__text,regular,pure_instructions + # Filename: none + # Source line: 1 + # push RBP + # mov RBP, RSP + # Source line: 1 + # vmulss XMM0, XMM0, XMM0 # Scalar single precision multiply (AVX) + # pop RBP + # ret code_native(square_area, (Float64,)) - # .section __TEXT,__text,regular,pure_instructions - # Filename: none - # Source line: 1 - # push RBP - # mov RBP, RSP - # Source line: 1 - # vmulsd XMM0, XMM0, XMM0 # Scalar double precision multiply (AVX) - # pop RBP - # ret - # + # .section __TEXT,__text,regular,pure_instructions + # Filename: none + # Source line: 1 + # push RBP + # mov RBP, RSP + # Source line: 1 + # vmulsd XMM0, XMM0, XMM0 # Scalar double precision multiply (AVX) + # pop RBP + # ret + # # Note that julia will use floating point instructions if any of the # arguments are floats. # Let's calculate the area of a circle circle_area(r) = pi * r * r # circle_area (generic function with 1 method) -circle_area(5) # 78.53981633974483 +circle_area(5) # 78.53981633974483 code_native(circle_area, (Int32,)) - # .section __TEXT,__text,regular,pure_instructions - # Filename: none - # Source line: 1 - # push RBP - # mov RBP, RSP - # Source line: 1 - # vcvtsi2sd XMM0, XMM0, EDI # Load integer (r) from memory - # movabs RAX, 4593140240 # Load pi - # vmulsd XMM1, XMM0, QWORD PTR [RAX] # pi * r - # vmulsd XMM0, XMM0, XMM1 # (pi * r) * r - # pop RBP - # ret - # + # .section __TEXT,__text,regular,pure_instructions + # Filename: none + # Source line: 1 + # push RBP + # mov RBP, RSP + # Source line: 1 + # vcvtsi2sd XMM0, XMM0, EDI # Load integer (r) from memory + # movabs RAX, 4593140240 # Load pi + # vmulsd XMM1, XMM0, QWORD PTR [RAX] # pi * r + # vmulsd XMM0, XMM0, XMM1 # (pi * r) * r + # pop RBP + # ret + # code_native(circle_area, (Float64,)) - # .section __TEXT,__text,regular,pure_instructions - # Filename: none - # Source line: 1 - # push RBP - # mov RBP, RSP - # movabs RAX, 4593140496 - # Source line: 1 - # vmulsd XMM1, XMM0, QWORD PTR [RAX] - # vmulsd XMM0, XMM1, XMM0 - # pop RBP - # ret - # + # .section __TEXT,__text,regular,pure_instructions + # Filename: none + # Source line: 1 + # push RBP + # mov RBP, RSP + # movabs RAX, 4593140496 + # Source line: 1 + # vmulsd XMM1, XMM0, QWORD PTR [RAX] + # vmulsd XMM0, XMM1, XMM0 + # pop RBP + # ret + # ``` ## Further Reading -You can get a lot more detail from [The Julia Manual](http://docs.julialang.org/en/latest/#Manual-1) +You can get a lot more detail from the [Julia Documentation](https://docs.julialang.org/) The best place to get help with Julia is the (very friendly) [Discourse forum](https://discourse.julialang.org/). diff --git a/kdb+.html.markdown b/kdb+.html.markdown index 5ae86a4f..027b6571 100644 --- a/kdb+.html.markdown +++ b/kdb+.html.markdown @@ -76,7 +76,7 @@ floor 3.14159 / => 3 / ...getting the absolute value... abs -3.14159 / => 3.14159 / ...and many other things -/ see http://code.kx.com/wiki/Reference for more +/ see http://code.kx.com/q/ref/card/ for more / q has no operator precedence, everything is evaluated right to left / so results like this might take some getting used to @@ -174,7 +174,7 @@ t - 00:10:00.000 / => 00:50:00.000 d.year / => 2015i d.mm / => 12i d.dd / => 25i -/ see http://code.kx.com/wiki/JB:QforMortals2/atoms#Temporal_Data for more +/ see http://code.kx.com/q4m3/2_Basic_Data_Types_Atoms/#25-temporal-data for more / q also has an infinity value so div by zero will not throw an error 1%0 / => 0w @@ -183,7 +183,7 @@ d.dd / => 25i / And null types for representing missing values 0N / => null int 0n / => null float -/ see http://code.kx.com/wiki/JB:QforMortals2/atoms#Null_Values for more +/ see http://code.kx.com/q4m3/2_Basic_Data_Types_Atoms/#27-nulls for more / q has standard control structures / if is as you might expect (; separates the condition and instructions) @@ -642,7 +642,7 @@ kt upsert ([]name:`Thomas`Chester;age:33 58;height:175 179;sex:`f`m) / => Thomas 32 175 m / Most of the standard SQL joins are present in q-sql, plus a few new friends -/ see http://code.kx.com/wiki/JB:QforMortals2/queries_q_sql#Joins +/ see http://code.kx.com/q4m3/9_Queries_q-sql/#99-joins / the two most important (commonly used) are lj and aj / lj is basically the same as SQL LEFT JOIN @@ -669,7 +669,7 @@ aj[`time`sym;trades;quotes] / => 10:01:04 ge 150 / for each row in the trade table, the last (prevailing) quote (px) for that sym / is joined on. -/ see http://code.kx.com/wiki/JB:QforMortals2/queries_q_sql#Asof_Join +/ see http://code.kx.com/q4m3/9_Queries_q-sql/#998-as-of-joins //////////////////////////////////// ///// Extra/Advanced ////// @@ -689,14 +689,14 @@ first each (1 2 3;4 5 6;7 8 9) / each-left (\:) and each-right (/:) modify a two-argument function / to treat one of the arguments and individual variables instead of a list -1 2 3 +\: 1 2 3 -/ => 2 3 4 -/ => 3 4 5 -/ => 4 5 6 -1 2 3 +/: 1 2 3 -/ => 2 3 4 -/ => 3 4 5 -/ => 4 5 6 +1 2 3 +\: 11 22 33 +/ => 12 23 34 +/ => 13 24 35 +/ => 14 25 36 +1 2 3 +/: 11 22 33 +/ => 12 13 14 +/ => 23 24 25 +/ => 34 35 36 / The true alternatives to loops in q are the adverbs scan (\) and over (/) / their behaviour differs based on the number of arguments the function they @@ -716,7 +716,7 @@ first each (1 2 3;4 5 6;7 8 9) {x + y}/[1 2 3 4 5] / => 15 (only the final result) / There are other adverbs and uses, this is only intended as quick overview -/ http://code.kx.com/wiki/JB:QforMortals2/functions#Adverbs +/ http://code.kx.com/q4m3/6_Functions/#67-adverbs ////// Scripts ////// / q scripts can be loaded from a q session using the "\l" command @@ -756,7 +756,7 @@ select from splayed / (the columns are read from disk on request) / => 1 1 / => 2 2 / => 3 3 -/ see http://code.kx.com/wiki/JB:KdbplusForMortals/contents for more +/ see http://code.kx.com/q4m3/14_Introduction_to_Kdb+/ for more ////// Frameworks ////// / kdb+ is typically used for data capture and analysis. @@ -769,8 +769,8 @@ select from splayed / (the columns are read from disk on request) ## Want to know more? -* [*q for mortals* q language tutorial](http://code.kx.com/wiki/JB:QforMortals2/contents) -* [*kdb for mortals* on disk data tutorial](http://code.kx.com/wiki/JB:KdbplusForMortals/contents) -* [q language reference](http://code.kx.com/wiki/Reference) +* [*q for mortals* q language tutorial](http://code.kx.com/q4m3/) +* [*Introduction to Kdb+* on disk data tutorial](http://code.kx.com/q4m3/14_Introduction_to_Kdb+/) +* [q language reference](http://code.kx.com/q/ref/card/) * [Online training courses](http://training.aquaq.co.uk/) * [TorQ production framework](https://github.com/AquaQAnalytics/TorQ) diff --git a/ko-kr/markdown-kr.html.markdown b/ko-kr/markdown-kr.html.markdown index bfa2a877..397e9f30 100644 --- a/ko-kr/markdown-kr.html.markdown +++ b/ko-kr/markdown-kr.html.markdown @@ -25,7 +25,7 @@ lang: ko-kr ## HTML 요소 HTML은 마크다운의 수퍼셋입니다. 모든 HTML 파일은 유효한 마크다운이라는 것입니다. -```markdown +```md <!--따라서 주석과 같은 HTML 요소들을 마크다운에 사용할 수 있으며, 마크다운 파서에 영향을 받지 않을 것입니다. 하지만 마크다운 파일에서 HTML 요소를 만든다면 그 요소의 안에서는 마크다운 문법을 사용할 수 없습니다.--> @@ -34,7 +34,7 @@ HTML은 마크다운의 수퍼셋입니다. 모든 HTML 파일은 유효한 마 텍스트 앞에 붙이는 우물 정 기호(#)의 갯수에 따라 `<h1>`부터 `<h6>`까지의 HTML 요소를 손쉽게 작성할 수 있습니다. -```markdown +```md # <h1>입니다. ## <h2>입니다. ### <h3>입니다. @@ -43,7 +43,7 @@ HTML은 마크다운의 수퍼셋입니다. 모든 HTML 파일은 유효한 마 ###### <h6>입니다. ``` 또한 h1과 h2를 나타내는 다른 방법이 있습니다. -```markdown +```md h1입니다. ============= @@ -53,7 +53,7 @@ h2입니다. ## 간단한 텍스트 꾸미기 마크다운으로 쉽게 텍스트를 기울이거나 굵게 할 수 있습니다. -```markdown +```md *기울인 텍스트입니다.* _이 텍스트도 같습니다._ @@ -65,14 +65,14 @@ __이 텍스트도 같습니다.__ *__이것도 같습니다.__* ``` 깃헙 전용 마크다운에는 취소선도 있습니다. -```markdown +```md ~~이 텍스트에는 취소선이 그려집니다.~~ ``` ## 문단 문단은 하나 이상의 빈 줄로 구분되는, 한 줄 이상의 인접한 텍스트입니다. -```markdown +```md 문단입니다. 문단에 글을 쓰다니 재밌지 않나요? 이제 두 번째 문단입니다. @@ -83,7 +83,7 @@ __이 텍스트도 같습니다.__ HTML `<br />` 태그를 삽입하고 싶으시다면, 두 개 이상의 띄어쓰기로 문단을 끝내고 새 문단을 시작할 수 있습니다. -```markdown +```md 띄어쓰기 두 개로 끝나는 문단 (마우스로 긁어 보세요). 이 위에는 `<br />` 태그가 있습니다. @@ -91,7 +91,7 @@ HTML `<br />` 태그를 삽입하고 싶으시다면, 두 개 이상의 띄어 인용문은 > 문자로 쉽게 쓸 수 있습니다. -```markdown +```md > 인용문입니다. 수동으로 개행하고서 > 줄마다 `>`를 칠 수도 있고 줄을 길게 쓴 다음에 저절로 개행되게 내버려 둘 수도 있습니다. > `>`로 시작하기만 한다면 차이가 없습니다. @@ -103,7 +103,7 @@ HTML `<br />` 태그를 삽입하고 싶으시다면, 두 개 이상의 띄어 ## 목록 순서가 없는 목록은 별표, 더하기, 하이픈을 이용해 만들 수 있습니다. -```markdown +```md * 이거 * 저거 * 그거 @@ -111,7 +111,7 @@ HTML `<br />` 태그를 삽입하고 싶으시다면, 두 개 이상의 띄어 또는 -```markdown +```md + 이거 + 저거 + 그거 @@ -119,7 +119,7 @@ HTML `<br />` 태그를 삽입하고 싶으시다면, 두 개 이상의 띄어 또는 -```markdown +```md - 이거 - 저거 - 그거 @@ -127,7 +127,7 @@ HTML `<br />` 태그를 삽입하고 싶으시다면, 두 개 이상의 띄어 순서가 있는 목록은 숫자와 마침표입니다. -```markdown +```md 1. 하나 2. 둘 3. 셋 @@ -135,7 +135,7 @@ HTML `<br />` 태그를 삽입하고 싶으시다면, 두 개 이상의 띄어 숫자를 정확히 붙이지 않더라도 제대로 된 순서로 보여주겠지만, 좋은 생각은 아닙니다. -```markdown +```md 1. 하나 1. 둘 1. 셋 @@ -144,7 +144,7 @@ HTML `<br />` 태그를 삽입하고 싶으시다면, 두 개 이상의 띄어 목록 안에 목록이 올 수도 있습니다. -```markdown +```md 1. 하나 2. 둘 3. 셋 @@ -155,7 +155,7 @@ HTML `<br />` 태그를 삽입하고 싶으시다면, 두 개 이상의 띄어 심지어 할 일 목록도 있습니다. HTML 체크박스가 만들어집니다. -```markdown +```md x가 없는 박스들은 체크되지 않은 HTML 체크박스입니다. - [ ] 첫 번째 할 일 - [ ] 두 번째 할 일 @@ -168,13 +168,13 @@ x가 없는 박스들은 체크되지 않은 HTML 체크박스입니다. 띄어쓰기 네 개 혹은 탭 한 개로 줄을 들여씀으로서 (`<code> 요소를 사용하여`) 코드를 나타낼 수 있습니다. -```markdown +```md puts "Hello, world!" ``` 탭을 더 치거나 띄어쓰기를 네 번 더 함으로써 코드를 들여쓸 수 있습니다. -```markdown +```md my_array.each do |item| puts item end @@ -182,7 +182,7 @@ x가 없는 박스들은 체크되지 않은 HTML 체크박스입니다. 인라인 코드는 백틱 문자를 이용하여 나타냅니다. ` -```markdown +```md 철수는 `go_to()` 함수가 뭘 했는지도 몰랐어! ``` @@ -202,7 +202,7 @@ end 수평선(`<hr/>`)은 셋 이상의 별표나 하이픈을 이용해 쉽게 나타낼 수 있습니다. 띄어쓰기가 포함될 수 있습니다. -```markdown +```md *** --- - - - @@ -213,19 +213,19 @@ end 마크다운의 장점 중 하나는 링크를 만들기 쉽다는 것입니다. 대괄호 안에 나타낼 텍스트를 쓰고 괄호 안에 URL을 쓰면 됩니다. -```markdown +```md [클릭](http://test.com/) ``` 괄호 안에 따옴표를 이용해 링크에 제목을 달 수도 있습니다. -```markdown +```md [클릭](http://test.com/ "test.com으로 가기") ``` 상대 경로도 유효합니다. -```markdown +```md [music으로 가기](/music/). ``` @@ -251,7 +251,7 @@ end ## 이미지 이미지는 링크와 같지만 앞에 느낌표가 붙습니다. -```markdown +```md  ``` @@ -264,18 +264,18 @@ end ## 기타 ### 자동 링크 -```markdown +```md <http://testwebsite.com/>와 [http://testwebsite.com/](http://testwebsite.com/)는 동일합니다. ``` ### 이메일 자동 링크 -```markdown +```md <foo@bar.com> ``` ### 탈출 문자 -```markdown +```md *별표 사이에 이 텍스트*를 치고 싶지만 기울이고 싶지는 않다면 이렇게 하시면 됩니다. \*별표 사이에 이 텍스트\*. ``` @@ -284,7 +284,7 @@ end 깃헙 전용 마크다운에서는 `<kbd>` 태그를 이용해 키보드 키를 나타낼 수 있습니다. -```markdown +```md 컴퓨터가 멈췄다면 눌러보세요. <kbd>Ctrl</kbd>+<kbd>Alt</kbd>+<kbd>Del</kbd> ``` @@ -292,14 +292,14 @@ end ### 표 표는 깃헙 전용 마크다운에서만 쓸 수 있고 다소 복잡하지만, 정말 쓰고 싶으시다면 -```markdown +```md | 1열 | 2열 | 3열 | | :--------| :-------: | --------: | | 왼쪽 정렬 | 가운데 정렬 | 오른쪽 정렬 | | 머시기 | 머시기 | 머시기 | ``` 혹은 -```markdown +```md 1열 | 2열 | 3열 :-- | :-: | --: 으악 너무 못생겼어 | 그만 | 둬 diff --git a/lambda-calculus.html.markdown b/lambda-calculus.html.markdown new file mode 100644 index 00000000..72ed78ba --- /dev/null +++ b/lambda-calculus.html.markdown @@ -0,0 +1,214 @@ +--- +category: Algorithms & Data Structures +name: Lambda Calculus +contributors: + - ["Max Sun", "http://github.com/maxsun"] + - ["Yan Hui Hang", "http://github.com/yanhh0"] +--- + +# Lambda Calculus + +Lambda calculus (λ-calculus), originally created by +[Alonzo Church](https://en.wikipedia.org/wiki/Alonzo_Church), +is the world's smallest programming language. +Despite not having numbers, strings, booleans, or any non-function datatype, +lambda calculus can be used to represent any Turing Machine! + +Lambda calculus is composed of 3 elements: **variables**, **functions**, and +**applications**. + + +| Name | Syntax | Example | Explanation | +|-------------|------------------------------------|-----------|-----------------------------------------------| +| Variable | `<name>` | `x` | a variable named "x" | +| Function | `λ<parameters>.<body>` | `λx.x` | a function with parameter "x" and body "x" | +| Application | `<function><variable or function>` | `(λx.x)a` | calling the function "λx.x" with argument "a" | + +The most basic function is the identity function: `λx.x` which is equivalent to +`f(x) = x`. The first "x" is the function's argument, and the second is the +body of the function. + +## Free vs. Bound Variables: + +- In the function `λx.x`, "x" is called a bound variable because it is both in +the body of the function and a parameter. +- In `λx.y`, "y" is called a free variable because it is never declared before hand. + +## Evaluation: + +Evaluation is done via +[β-Reduction](https://en.wikipedia.org/wiki/Lambda_calculus#Beta_reduction), +which is essentially lexically-scoped substitution. + +When evaluating the +expression `(λx.x)a`, we replace all occurences of "x" in the function's body +with "a". + +- `(λx.x)a` evaluates to: `a` +- `(λx.y)a` evaluates to: `y` + +You can even create higher-order functions: + +- `(λx.(λy.x))a` evaluates to: `λy.a` + +Although lambda calculus traditionally supports only single parameter +functions, we can create multi-parameter functions using a technique called +[currying](https://en.wikipedia.org/wiki/Currying). + +- `(λx.λy.λz.xyz)` is equivalent to `f(x, y, z) = x(y(z))` + +Sometimes `λxy.<body>` is used interchangeably with: `λx.λy.<body>` + +---- + +It's important to recognize that traditional **lambda calculus doesn't have +numbers, characters, or any non-function datatype!** + +## Boolean Logic: + +There is no "True" or "False" in lambda calculus. There isn't even a 1 or 0. + +Instead: + +`T` is represented by: `λx.λy.x` + +`F` is represented by: `λx.λy.y` + +First, we can define an "if" function `λbtf` that +returns `t` if `b` is True and `f` if `b` is False + +`IF` is equivalent to: `λb.λt.λf.b t f` + +Using `IF`, we can define the basic boolean logic operators: + +`a AND b` is equivalent to: `λab.IF a b F` + +`a OR b` is equivalent to: `λab.IF a T b` + +`a NOT b` is equivalent to: `λa.IF a F T` + +*Note: `IF a b c` is essentially saying: `IF(a(b(c)))`* + +## Numbers: + +Although there are no numbers in lambda calculus, we can encode numbers using +[Church numerals](https://en.wikipedia.org/wiki/Church_encoding). + +For any number n: <code>n = λf.f<sup>n</sup></code> so: + +`0 = λf.λx.x` + +`1 = λf.λx.f x` + +`2 = λf.λx.f(f x)` + +`3 = λf.λx.f(f(f x))` + +To increment a Church numeral, +we use the successor function `S(n) = n + 1` which is: + +`S = λn.λf.λx.f((n f) x)` + +Using successor, we can define add: + +`ADD = λab.(a S)n` + +**Challenge:** try defining your own multiplication function! + +## Get even smaller: SKI, SK and Iota + +### SKI Combinator Calculus + +Let S, K, I be the following functions: + +`I x = x` + +`K x y = x` + +`S x y z = x z (y z)` + +We can convert an expression in the lambda calculus to an expression +in the SKI combinator calculus: + +1. `λx.x = I` +2. `λx.c = Kc` +3. `λx.(y z) = S (λx.y) (λx.z)` + +Take the church number 2 for example: + +`2 = λf.λx.f(f x)` + +For the inner part `λx.f(f x)`: +``` + λx.f(f x) += S (λx.f) (λx.(f x)) (case 3) += S (K f) (S (λx.f) (λx.x)) (case 2, 3) += S (K f) (S (K f) I) (case 2, 1) +``` + +So: +``` + 2 += λf.λx.f(f x) += λf.(S (K f) (S (K f) I)) += λf.((S (K f)) (S (K f) I)) += S (λf.(S (K f))) (λf.(S (K f) I)) (case 3) +``` + +For the first argument `λf.(S (K f))`: +``` + λf.(S (K f)) += S (λf.S) (λf.(K f)) (case 3) += S (K S) (S (λf.K) (λf.f)) (case 2, 3) += S (K S) (S (K K) I) (case 2, 3) +``` + +For the second argument `λf.(S (K f) I)`: +``` + λf.(S (K f) I) += λf.((S (K f)) I) += S (λf.(S (K f))) (λf.I) (case 3) += S (S (λf.S) (λf.(K f))) (K I) (case 2, 3) += S (S (K S) (S (λf.K) (λf.f))) (K I) (case 1, 3) += S (S (K S) (S (K K) I)) (K I) (case 1, 2) +``` + +Merging them up: +``` + 2 += S (λf.(S (K f))) (λf.(S (K f) I)) += S (S (K S) (S (K K) I)) (S (S (K S) (S (K K) I)) (K I)) +``` + +Expanding this, we would end up with the same expression for the +church number 2 again. + +### SK Combinator Calculus + +The SKI combinator calculus can still be reduced further. We can +remove the I combinator by noting that `I = SKK`. We can substitute +all `I`'s with `SKK`. + +### Iota Combinator + +The SK combinator calculus is still not minimal. Defining: + +``` +ι = λf.((f S) K) +``` + +We have: + +``` +I = ιι +K = ι(ιI) = ι(ι(ιι)) +S = ι(K) = ι(ι(ι(ιι))) +``` + +## For more advanced reading: + +1. [A Tutorial Introduction to the Lambda Calculus](http://www.inf.fu-berlin.de/lehre/WS03/alpi/lambda.pdf) +2. [Cornell CS 312 Recitation 26: The Lambda Calculus](http://www.cs.cornell.edu/courses/cs3110/2008fa/recitations/rec26.html) +3. [Wikipedia - Lambda Calculus](https://en.wikipedia.org/wiki/Lambda_calculus) +4. [Wikipedia - SKI combinator calculus](https://en.wikipedia.org/wiki/SKI_combinator_calculus) +5. [Wikipedia - Iota and Jot](https://en.wikipedia.org/wiki/Iota_and_Jot) diff --git a/latex.html.markdown b/latex.html.markdown index a3866892..c9b1d8fb 100644 --- a/latex.html.markdown +++ b/latex.html.markdown @@ -255,7 +255,7 @@ There exists two main types of links: visible URL \\ % You can not add extra-spaces or special symbols into shadowing text since it % will cause mistakes during the compilation -This package also produces list of tumbnails in the output pdf document and +This package also produces list of thumbnails in the output pdf document and active links in the table of contents. \section{End} diff --git a/lua.html.markdown b/lua.html.markdown index 1e2d4366..32174a81 100644 --- a/lua.html.markdown +++ b/lua.html.markdown @@ -62,6 +62,11 @@ if not aBoolValue then print('twas false') end -- in C/js: ans = aBoolValue and 'yes' or 'no' --> 'no' +-- BEWARE: this only acts as a ternary if the value returned when the condition +-- evaluates to true is not `false` or Nil +iAmNotFalse = (not aBoolValue) and false or true --> true +iAmAlsoNotFalse = (not aBoolValue) and true or false --> true + karlSum = 0 for i = 1, 100 do -- The range includes both ends. karlSum = karlSum + i diff --git a/make.html.markdown b/make.html.markdown index ab128475..45d020e9 100644 --- a/make.html.markdown +++ b/make.html.markdown @@ -2,6 +2,7 @@ language: make
contributors:
- ["Robert Steed", "https://github.com/robochat"]
+ - ["Stephan Fuhrmann", "https://github.com/sfuhrm"]
filename: Makefile
---
@@ -11,7 +12,7 @@ target to the most recent version of the source. Famously written over a weekend by Stuart Feldman in 1976, it is still widely used (particularly
on Unix and Linux) despite many competitors and criticisms.
-There are many varieties of make in existence, however this article
+There are many varieties of make in existence, however this article
assumes that we are using GNU make which is the standard on Linux.
```make
@@ -168,9 +169,9 @@ echo: name2 = Sara # True within the matching rule # Some variables defined automatically by make.
echo_inbuilt:
echo $(CC)
- echo ${CXX)}
+ echo ${CXX}
echo $(FC)
- echo ${CFLAGS)}
+ echo ${CFLAGS}
echo $(CPPFLAGS)
echo ${CXXFLAGS}
echo $(LDFLAGS)
diff --git a/markdown.html.markdown b/markdown.html.markdown index a1f5173b..cf4286e2 100644 --- a/markdown.html.markdown +++ b/markdown.html.markdown @@ -29,7 +29,7 @@ specific to a certain parser. ## HTML Elements Markdown is a superset of HTML, so any HTML file is valid Markdown. -```markdown +```md <!--This means we can use HTML elements in Markdown, such as the comment element, and they won't be affected by a markdown parser. However, if you create an HTML element in your markdown file, you cannot use markdown syntax @@ -41,7 +41,7 @@ within that element's contents.--> You can create HTML elements `<h1>` through `<h6>` easily by prepending the text you want to be in that element by a number of hashes (#). -```markdown +```md # This is an <h1> ## This is an <h2> ### This is an <h3> @@ -51,7 +51,7 @@ text you want to be in that element by a number of hashes (#). ``` Markdown also provides us with two alternative ways of indicating h1 and h2. -```markdown +```md This is an h1 ============= @@ -63,7 +63,7 @@ This is an h2 Text can be easily styled as italic or bold using markdown. -```markdown +```md *This text is in italics.* _And so is this text._ @@ -78,7 +78,7 @@ __And so is this text.__ In GitHub Flavored Markdown, which is used to render markdown files on GitHub, we also have strikethrough: -```markdown +```md ~~This text is rendered with strikethrough.~~ ``` ## Paragraphs @@ -86,7 +86,7 @@ GitHub, we also have strikethrough: Paragraphs are a one or multiple adjacent lines of text separated by one or multiple blank lines. -```markdown +```md This is a paragraph. I'm typing in a paragraph isn't this fun? Now I'm in paragraph 2. @@ -99,7 +99,7 @@ I'm in paragraph three! Should you ever want to insert an HTML `<br />` tag, you can end a paragraph with two or more spaces and then begin a new paragraph. -```markdown +```md I end with two spaces (highlight me to see them). There's a <br /> above me! @@ -107,7 +107,7 @@ There's a <br /> above me! Block quotes are easy and done with the > character. -```markdown +```md > This is a block quote. You can either > manually wrap your lines and put a `>` before every line or you can let your lines get really long and wrap on their own. > It doesn't make a difference so long as they start with a `>`. @@ -121,7 +121,7 @@ Block quotes are easy and done with the > character. ## Lists Unordered lists can be made using asterisks, pluses, or hyphens. -```markdown +```md * Item * Item * Another item @@ -141,7 +141,7 @@ or Ordered lists are done with a number followed by a period. -```markdown +```md 1. Item one 2. Item two 3. Item three @@ -150,7 +150,7 @@ Ordered lists are done with a number followed by a period. You don't even have to label the items correctly and Markdown will still render the numbers in order, but this may not be a good idea. -```markdown +```md 1. Item one 1. Item two 1. Item three @@ -159,7 +159,7 @@ render the numbers in order, but this may not be a good idea. You can also use sublists -```markdown +```md 1. Item one 2. Item two 3. Item three @@ -170,7 +170,7 @@ You can also use sublists There are even task lists. This creates HTML checkboxes. -```markdown +```md Boxes below without the 'x' are unchecked HTML checkboxes. - [ ] First task to complete. - [ ] Second task that needs done @@ -183,7 +183,7 @@ This checkbox below will be a checked HTML checkbox. You can indicate a code block (which uses the `<code>` element) by indenting a line with four spaces or a tab. -```markdown +```md This is code So is this ``` @@ -191,15 +191,15 @@ a line with four spaces or a tab. You can also re-tab (or add an additional four spaces) for indentation inside your code -```markdown +```md my_array.each do |item| puts item end ``` -Inline code can be created using the backtick character ` +Inline code can be created using the backtick character `` ` `` -```markdown +```md John didn't even know what the `go_to()` function did! ``` @@ -220,7 +220,7 @@ highlighting of the language you specify after the \`\`\` Horizontal rules (`<hr/>`) are easily added with three or more asterisks or hyphens, with or without spaces. -```markdown +```md *** --- - - - @@ -232,17 +232,17 @@ hyphens, with or without spaces. One of the best things about markdown is how easy it is to make links. Put the text to display in hard brackets [] followed by the url in parentheses () -```markdown +```md [Click me!](http://test.com/) ``` You can also add a link title using quotes inside the parentheses. -```markdown +```md [Click me!](http://test.com/ "Link to Test.com") ``` Relative paths work too. -```markdown +```md [Go to music](/music/). ``` @@ -269,7 +269,7 @@ But it's not that commonly used. ## Images Images are done the same way as links but with an exclamation point in front! -```markdown +```md  ``` @@ -281,20 +281,20 @@ And reference style works as expected. ## Miscellany ### Auto-links -```markdown +```md <http://testwebsite.com/> is equivalent to [http://testwebsite.com/](http://testwebsite.com/) ``` ### Auto-links for emails -```markdown +```md <foo@bar.com> ``` ### Escaping characters -```markdown +```md I want to type *this text surrounded by asterisks* but I don't want it to be in italics, so I do this: \*this text surrounded by asterisks\*. ``` @@ -304,7 +304,7 @@ in italics, so I do this: \*this text surrounded by asterisks\*. In GitHub Flavored Markdown, you can use a `<kbd>` tag to represent keyboard keys. -```markdown +```md Your computer crashed? Try sending a <kbd>Ctrl</kbd>+<kbd>Alt</kbd>+<kbd>Del</kbd> ``` @@ -313,7 +313,7 @@ Your computer crashed? Try sending a Tables are only available in GitHub Flavored Markdown and are slightly cumbersome, but if you really want it: -```markdown +```md | Col1 | Col2 | Col3 | | :----------- | :------: | ------------: | | Left-aligned | Centered | Right-aligned | @@ -321,7 +321,7 @@ cumbersome, but if you really want it: ``` or, for the same results -```markdown +```md Col 1 | Col2 | Col3 :-- | :-: | --: Ugh this is so ugly | make it | stop diff --git a/matlab.html.markdown b/matlab.html.markdown index 6dc9f697..b88b1c03 100644 --- a/matlab.html.markdown +++ b/matlab.html.markdown @@ -374,8 +374,8 @@ disp('Hello World') % Print out a string fprintf % Print to Command Window with more control % Conditional statements (the parentheses are optional, but good style) -if (a > 15) - disp('Greater than 15') +if (a > 23) + disp('Greater than 23') elseif (a == 23) disp('a is 23') else @@ -545,7 +545,7 @@ ans = multiplyLatBy(a,3) % The method can also be called using dot notation. In this case, the object % does not need to be passed to the method. -ans = a.multiplyLatBy(a,1/3) +ans = a.multiplyLatBy(1/3) % Matlab functions can be overloaded to handle objects. % In the method above, we have overloaded how Matlab handles diff --git a/mips.html.markdown b/mips.html.markdown new file mode 100644 index 00000000..4134d3fa --- /dev/null +++ b/mips.html.markdown @@ -0,0 +1,366 @@ +--- +language: "MIPS Assembly" +filename: MIPS.asm +contributors: + - ["Stanley Lim", "https://github.com/Spiderpig86"] +--- + +The MIPS (Microprocessor without Interlocked Pipeline Stages) Assembly language +is designed to work with the MIPS microprocessor paradigm designed by J. L. +Hennessy in 1981. These RISC processors are used in embedded systems such as +gateways and routers. + +[Read More](https://en.wikipedia.org/wiki/MIPS_architecture) + +```asm +# Comments are denoted with a '#' + +# Everything that occurs after a '#' will be ignored by the assembler's lexer. + +# Programs typically contain a .data and .text sections + +.data # Section where data is stored in memory (allocated in RAM), similar to + # variables in higher level languages + + # Declarations follow a ( label: .type value(s) ) form of declaration + hello_world: .asciiz "Hello World\n" # Declare a null terminated string + num1: .word 42 # Integers are referred to as words + # (32 bit value) + + arr1: .word 1, 2, 3, 4, 5 # Array of words + arr2: .byte 'a', 'b' # Array of chars (1 byte each) + buffer: .space 60 # Allocates space in the RAM + # (not cleared to 0) + + # Datatype sizes + _byte: .byte 'a' # 1 byte + _halfword: .half 53 # 2 bytes + _word: .word 3 # 4 bytes + _float: .float 3.14 # 4 bytes + _double: .double 7.0 # 8 bytes + + .align 2 # Memory alignment of data, where + # number indicates byte alignment in + # powers of 2. (.align 2 represents + # word alignment since 2^2 = 4 bytes) + +.text # Section that contains instructions + # and program logic +.globl _main # Declares an instruction label as + # global, making it accessible to + # other files + + _main: # MIPS programs execute instructions + # sequentially, where the code under + # this label will be executed firsts + + # Let's print "hello world" + la $a0, hello_world # Load address of string stored in + # memory + li $v0, 4 # Load the syscall value (indicating + # type of functionality) + syscall # Perform the specified syscall with + # the given argument ($a0) + + # Registers (used to hold data during program execution) + # $t0 - $t9 # Temporary registers used for + # intermediate calculations inside + # subroutines (not saved across + # function calls) + + # $s0 - $s7 # Saved registers where values are + # saved across subroutine calls. + # Typically saved in stack + + # $a0 - $a3 # Argument registers for passing in + # arguments for subroutines + # $v0 - $v1 # Return registers for returning + # values to caller function + + # Types of load/store instructions + la $t0, label # Copy the address of a value in + # memory specified by the label into + # register $t0 + lw $t0, label # Copy a word value from memory + lw $t1, 4($s0) # Copy a word value from an address + # stored in a register with an offset + # of 4 bytes (addr + 4) + lb $t2, label # Copy a byte value to the lower order + # portion of the register $t2 + lb $t2, 0($s0) # Copy a byte value from the source + # address in $s0 with offset 0 + # Same idea with 'lh' for halfwords + + sw $t0, label # Store word value into memory address + # mapped by label + sw $t0, 8($s0) # Store word value into address + # specified in $s0 and offset of 8 bytes + # Same idea using 'sb' and 'sh' for bytes and halfwords. 'sa' does not exist + +### Math ### + _math: + # Remember to load your values into a register + lw $t0, num # From the data section + li $t0, 5 # Or from an immediate (constant) + li $t1, 6 + add $t2, $t0, $t1 # $t2 = $t0 + $t1 + sub $t2, $t0, $t1 # $t2 = $t0 - $t1 + mul $t2, $t0, $t1 # $t2 = $t0 * $t1 + div $t2, $t0, $t1 # $t2 = $t0 / $t1 (Might not be + # supported in some versons of MARS) + div $t0, $t1 # Performs $t0 / $t1. Get the quotient + # using 'mflo' and remainder using 'mfhi' + + # Bitwise Shifting + sll $t0, $t0, 2 # Bitwise shift to the left with + # immediate (constant value) of 2 + sllv $t0, $t1, $t2 # Shift left by a variable amount in + # register + srl $t0, $t0, 5 # Bitwise shift to the right (does + # not sign preserve, sign-extends with 0) + srlv $t0, $t1, $t2 # Shift right by a variable amount in + # a register + sra $t0, $t0, 7 # Bitwise arithmetic shift to the right + # (preserves sign) + srav $t0, $t1, $t2 # Shift right by a variable amount + # in a register + + # Bitwise operators + and $t0, $t1, $t2 # Bitwise AND + andi $t0, $t1, 0xFFF # Bitwise AND with immediate + or $t0, $t1, $t2 # Bitwise OR + ori $t0, $t1, 0xFFF # Bitwise OR with immediate + xor $t0, $t1, $t2 # Bitwise XOR + xori $t0, $t1, 0xFFF # Bitwise XOR with immediate + nor $t0, $t1, $t2 # Bitwise NOR + +## BRANCHING ## + _branching: + # The basic format of these branching instructions typically follow <instr> + # <reg1> <reg2> <label> where label is the label we want to jump to if the + # given conditional evaluates to true + # Sometimes it is easier to write the conditional logic backwards, as seen + # in the simple if statement example below + + beq $t0, $t1, reg_eq # Will branch to reg_eq if + # $t0 == $t1, otherwise + # execute the next line + bne $t0, $t1, reg_neq # Branches when $t0 != $t1 + b branch_target # Unconditional branch, will always execute + beqz $t0, req_eq_zero # Branches when $t0 == 0 + bnez $t0, req_neq_zero # Branches when $t0 != 0 + bgt $t0, $t1, t0_gt_t1 # Branches when $t0 > $t1 + bge $t0, $t1, t0_gte_t1 # Branches when $t0 >= $t1 + bgtz $t0, t0_gt0 # Branches when $t0 > 0 + blt $t0, $t1, t0_gt_t1 # Branches when $t0 < $t1 + ble $t0, $t1, t0_gte_t1 # Branches when $t0 <= $t1 + bltz $t0, t0_lt0 # Branches when $t0 < 0 + slt $s0, $t0, $t1 # Instruction that sends a signal when + # $t0 < $t1 with reuslt in $s0 (1 for true) + + # Simple if statement + # if (i == j) + # f = g + h; + # f = f - i; + + # Let $s0 = f, $s1 = g, $s2 = h, $s3 = i, $s4 = j + bne $s3, $s4, L1 # if (i !=j) + add $s0, $s1, $s2 # f = g + h + + L1: + sub $s0, $s0, $s3 # f = f - i + + # Below is an example of finding the max of 3 numbers + # A direct translation in Java from MIPS logic: + # if (a > b) + # if (a > c) + # max = a; + # else + # max = c; + # else + # max = b; + # else + # max = c; + + # Let $s0 = a, $s1 = b, $s2 = c, $v0 = return register + ble $s0, $s1, a_LTE_b # if (a <= b) branch(a_LTE_b) + ble $s0, $s2, max_C # if (a > b && a <=c) branch(max_C) + move $v0, $s1 # else [a > b && a > c] max = a + j done # Jump to the end of the program + + a_LTE_b: # Label for when a <= b + ble $s1, $s2, max_C # if (a <= b && b <= c) branch(max_C) + move $v0, $s1 # if (a <= b && b > c) max = b + j done # Jump to done + + max_C: + move $v0, $s2 # max = c + + done: # End of program + +## LOOPS ## + _loops: + # The basic structure of loops is having an exit condition and a jump + instruction to continue its execution + li $t0, 0 + while: + bgt $t0, 10, end_while # While $t0 is less than 10, keep iterating + addi $t0, $t0, 1 # Increment the value + j while # Jump back to the beginning of the loop + end_while: + + # 2D Matrix Traversal + # Assume that $a0 stores the address of an integer matrix which is 3 x 3 + li $t0, 0 # Counter for i + li $t1, 0 # Counter for j + matrix_row: + bgt $t0, 3, matrix_row_end + + matrix_col: + bgt $t1, 3, matrix_col_end + + # Do stuff + + addi $t1, $t1, 1 # Increment the col counter + matrix_col_end: + + # Do stuff + + addi $t0, $t0, 1 + matrix_row_end: + +## FUNCTIONS ## + _functions: + # Functions are callable procedures that can accept arguments and return + values all denoted with labels, like above + + main: # Programs begin with main func + jal return_1 # jal will store the current PC in $ra + # and then jump to return_1 + + # What if we want to pass in args? + # First we must pass in our parameters to the argument registers + li $a0, 1 + li $a1, 2 + jal sum # Now we can call the function + + # How about recursion? + # This is a bit more work since we need to make sure we save and restore + # the previous PC in $ra since jal will automatically overwrite on each call + li $a0, 3 + jal fact + + li $v0, 10 + syscall + + # This function returns 1 + return_1: + li $v0, 1 # Load val in return register $v0 + jr $ra # Jump back to old PC to continue exec + + + # Function with 2 args + sum: + add $v0, $a0, $a1 + jr $ra # Return + + # Recursive function to find factorial + fact: + addi $sp, $sp, -8 # Allocate space in stack + sw $s0, ($sp) # Store reg that holds current num + sw $ra, 4($sp) # Store previous PC + + li $v0, 1 # Init return value + beq $a0, 0, fact_done # Finish if param is 0 + + # Otherwise, continue recursion + move $s0, $a0 # Copy $a0 to $s0 + sub $a0, $a0, 1 + jal fact + + mul $v0, $s0, $v0 # Multiplication is done + + fact_done: + lw $s0, ($sp) + lw $ra, ($sp) # Restore the PC + addi $sp, $sp, 8 + + jr $ra + +## MACROS ## + _macros: + # Macros are extremly useful for substituting repeated code blocks with a + # single label for better readability + # These are in no means substitutes for functions + # These must be declared before it is used + + # Macro for printing new lines (since these can be very repetitive) + .macro println() + la $a0, newline # New line string stored here + li $v0, 4 + syscall + .end_macro + + println() # Assembler will copy that block of + # code here before running + + # Parameters can be passed in through macros. + # These are denoted by a '%' sign with any name you choose + .macro print_int(%num) + li $v0, 1 + lw $a0, %num + syscall + .end_macro + + li $t0, 1 + print_int($t0) + + # We can also pass in immediates for macros + .macro immediates(%a, %b) + add $t0, %a, %b + .end_macro + + immediates(3, 5) + + # Along with passing in labels + .macro print(%string) + la $a0, %string + li $v0, 4 + syscall + .end_macro + + print(hello_world) + +## ARRAYS ## +.data + list: .word 3, 0, 1, 2, 6 # This is an array of words + char_arr: .asciiz "hello" # This is a char array + buffer: .space 128 # Allocates a block in memory, does + # not automatically clear + # These blocks of memory are aligned + # next each other + +.text + la $s0, list # Load address of list + li $t0, 0 # Counter + li $t1, 5 # Length of the list + + loop: + bgt $t0, $t1, end_loop + + lw $a0, ($s0) + li $v0, 1 + syscall # Print the number + + addi $s0, $s0, 4 # Size of a word is 4 bytes + addi $t0, $t0, 1 # Increment + j loop + end_loop: + +## INCLUDE ## +# You do this to import external files into your program (behind the scenes, +# it really just takes whatever code that is in that file and places it where +# the include statement is) +.include "somefile.asm" + +``` diff --git a/nim.html.markdown b/nim.html.markdown index 07674532..1e17d8f0 100644 --- a/nim.html.markdown +++ b/nim.html.markdown @@ -12,6 +12,19 @@ that gives the programmer power without compromises on runtime efficiency. Nim is efficient, expressive, and elegant. ```nim +# Single-line comments start with a # + +#[ + This is a multiline comment. + In Nim, multiline comments can be nested, beginning with #[ + ... and ending with ]# +]# + +discard """ +This can also work as a multiline comment. +Or for unparsable, broken code +""" + var # Declare (and assign) variables, letter: char = 'n' # with or without type annotations lang = "N" & "im" @@ -35,10 +48,6 @@ when compileBadCode: # `when` is a compile time `if` discard 1 > 2 # Note: The compiler will complain if the result of an expression # is unused. `discard` bypasses this. -discard """ -This can work as a multiline comment. -Or for unparsable, broken code -""" # # Data Structures diff --git a/nix.html.markdown b/nix.html.markdown index ba122a46..d078395a 100644 --- a/nix.html.markdown +++ b/nix.html.markdown @@ -3,6 +3,7 @@ language: nix filename: learn.nix contributors: - ["Chris Martin", "http://chris-martin.org/"] + - ["Rommel Martinez", "https://ebzzry.io"] --- Nix is a simple functional language developed for the @@ -356,5 +357,5 @@ with builtins; [ * [James Fisher - Nix by example - Part 1: The Nix expression language] (https://medium.com/@MrJamesFisher/nix-by-example-a0063a1a4c55) -* [Susan Potter - Nix Cookbook - Nix By Example] - (http://funops.co/nix-cookbook/nix-by-example/) +* [Rommel Martinez - A Gentle Introduction to the Nix Family] + (https://ebzzry.io/en/nix/#nix) diff --git a/nl-nl/bash-nl.html.markdown b/nl-nl/bash-nl.html.markdown index da47e2a9..af4a8cc8 100644 --- a/nl-nl/bash-nl.html.markdown +++ b/nl-nl/bash-nl.html.markdown @@ -17,8 +17,8 @@ lang: nl-nl filename: LearnBash-nl.sh --- -Bash is de naam van den unix shell, deze wordt gebruikt voor het GNU operating system en is de standaard shell op Linux en Mac OS X. -Bijna alle voorbeelden hier onder kunnen deel uitmaken van een shell script of kunnen uitgevoerd worden in de shell. +Bash is de naam van de unix shell, deze wordt gebruikt voor het GNU operating system en is de standaard shell op Linux en Mac OS X. +Bijna alle voorbeelden hieronder kunnen deel uitmaken van een shell script of kunnen uitgevoerd worden in de shell. [Lees er meer over hier.](http://www.gnu.org/software/bash/manual/bashref.html) @@ -28,23 +28,23 @@ Bijna alle voorbeelden hier onder kunnen deel uitmaken van een shell script of k # het script uitgevoerd moet worden: http://en.wikipedia.org/wiki/Shebang_(Unix) # Zoals je kan zien wordt # gebruikt om een commentaar lijn te starten. -# Simpel hello world voorbeeld: +# Een simpel hello world voorbeeld: echo Hello world! -# Elke command start op een nieuwe lijn, of achter een puntkomma (;): +# Elk commando start op een nieuwe lijn, of achter een puntkomma (;): echo 'Dit is de eerste lijn'; echo 'Dit is de tweede lijn' -# Een varialbe declareren gebeurt op volgende manier: +# Een variabele declareren gebeurt op volgende manier: Variabele="Een string" # Maar niet op deze manier: Variabele = "Een string" -# Bash ziet variable als een commando en zal een error geven omdat dit commando +# Bash ziet variabelen als een commando en zal een error geven omdat dit commando # niet bestaat. # Of op deze manier: Variabele= 'Een string' -# Bash zal 'Een string' zien als een commanda en een error geven omdat het niet +# Bash zal 'Een string' zien als een commando en een error geven omdat het niet # gevonden kan worden. # Variabelen gebruiken: @@ -83,7 +83,7 @@ echo "Wat is uw naam?" read Naam # Merk op dat we geen variabele gedeclareerd hebben echo Hallo, $Naam! -# We hebben ook if structuren +# We hebben ook logische if structuren # Gebruik 'man test' voor meer informatie over condities. if [ $Naam -ne $USER ] then diff --git a/nl-nl/html-nl.html.markdown b/nl-nl/html-nl.html.markdown new file mode 100644 index 00000000..54c81ed6 --- /dev/null +++ b/nl-nl/html-nl.html.markdown @@ -0,0 +1,98 @@ +--- +language: html +filename: learnhtml-nl.html +contributors: + - ["Christophe THOMAS", "https://github.com/WinChris"] +translators: + - ["Robert Steed", "https://github.com/robochat"] + - ["Jeroen Deviaene", "https://github.com/jerodev"] +lang: nl-nl +--- + +HTML staat voor HyperText Markup Language. +Het is een taal die je toe staat pagina's te maken op het World Wide Web. +Het is een opmaak taal, dit staat de gebruiker toe om webpagina's te maken in code en zo aan te duiden hoe de pagina moet weergegeven worden. +Eigenlijk zijn html files zelfs simpele tekst bestanden. +Wat is deze opmaak? Het is een manier om de structuur en data op de pagina weer te geven met speciale html tags. +Deze tags dienen om de betekenis te geven aan de tekst die het bevat. +Zoals vele computer talen heeft html vele verschillende versies. Hier zullen we HTML5 bespreken. + +**Merk op:** Je kan de verschillende tags en elementen testen terwijl je door de tutorial gaat met een website zoals [codepen](http://codepen.io/pen/), zo kan je de effecten hier van live zien. +Dit artikel gaat vooral over de HTML syntax en enkele handige tips + + +```html +<!-- Commentaren worden toegevoegd zoals deze lijn --> + +<!-- #################### De Tags #################### --> + +<!-- Hier is een voorbeeld HTML bestand dat we zullen analyseren. --> + +<!doctype html> + <html> + <head> + <title>Mijn Website</title> + </head> + <body> + <h1>Hello, world!</h1> + <a href="http://codepen.io/anon/pen/xwjLbZ">Neem een kijkje op deze link</a> + <p>Dit is een paragraaf.</p> + <p>Dit is nog een paragraaf.</p> + <ul> + <li>Dit is een item in een niet genummerde lijst</li> + <li>Dit is nog zo een item</li> + <li>En dit is het laatste item van de lijst</li> + </ul> + </body> + </html> + +<!-- Een HTML bestand start altijd met een tag die aan de browser laat weten dat we HTML gebruiken --> +<!doctype html> + +<!-- Daarna openen we de root van het bestand met de <html> tag --> +<html> + +<!-- Deze tag moet ook gesloten worden op het einde van het bestand --> +</html> + +<!-- Niets mag nog na deze tag komen! --> + +<!-- Binnenin (tussen de html tags <html></html>) vinden we: --> + +<!-- Een header, gedefigneerd door <head> (Deze moet gesloten worden met </head>) --> +<!-- De header bevat beschrijvingen en externe data die niet zichtbaar is op de website; Dit is metadata --> + +<head> + <title>Mijn Website</title><!-- De <title> tag geeft de tekst aan die in de titelbar van de browser moet weergegeven worden. --> +</head> + +<!-- Achter de <head> sectie vinden we bijna altijd <body> --> +<!-- Tot op dit punt is nog niets verschenen in het browser venster. --> +<!-- In de body plaatsen we wat zichtbaar moet zijn in de browser --> + +<body> + <h1>Hello, world!</h1> <!-- De h1 tag maakt een titel. --> + <!-- Er zijn ook sub titels voor <h1> van belangrijk <h2> tot minder belangrijk <h6>. --> + <a href="http://codepen.io/anon/pen/xwjLbZ">Neem een kijkje op deze link</a> <!-- een hyperlink naar de aangegeven link waar op geklikt kan worden in de browser --> + <p>This is a paragraph.</p> <!-- De tag <p> laat ons tekst toevoegen. --> + <p>This is another paragraph.</p> + <ul> <!-- De tag <ul> maakt een lijst met puntjes. --> + <!-- Om een genummerde lijst te hebben gebruik je <ol>, hiermee worden de elementen <li> automatisch genummerd --> + <li>This is an item in a non-enumerated list (bullet list)</li> + <li>This is another item</li> + <li>And this is the last item on the list</li> + </ul> +</body> + +<!-- En dat is het! Zo gemakkelijk is het om een html bestand te maken. --> +``` + +## Gebruik + +HTML wordt altijd opgeslagen in bestanden die eindigen in `.html`. + +## Meer weten + +* [wikipedia](https://nl.wikipedia.org/wiki/HTML) +* [HTML tutorial](https://developer.mozilla.org/en-US/docs/Web/HTML) +* [W3School](http://www.w3schools.com/html/html_intro.asp) diff --git a/nl-nl/markdown-nl.html.markdown b/nl-nl/markdown-nl.html.markdown index 35cc67c5..b5b4681c 100644 --- a/nl-nl/markdown-nl.html.markdown +++ b/nl-nl/markdown-nl.html.markdown @@ -12,7 +12,7 @@ Markdown is gecreëerd door John Gruber in 2004. Het is bedoeld om met een gemak schrijven syntax te zijn die gemakkelijk omgevormd kan worden naar HTML (en op heden verschillende andere formaten) -```markdown +```md <!-- Markdown erft over van HTML, dus ieder HTML bestand is een geldig Markdown bestand. Dit betekend ook dat html elementen gebruikt kunnen worden in Markdown zoals het commentaar element. Echter, als je een html element maakt in een Markdown diff --git a/objective-c.html.markdown b/objective-c.html.markdown index 04c4e529..de3884af 100644 --- a/objective-c.html.markdown +++ b/objective-c.html.markdown @@ -731,7 +731,10 @@ if ([myClass conformsToProtocol:@protocol(CarUtilities)]) { /////////////////////////////////////// // Blocks are statements of code, just like a function, that are able to be used as data. // Below is a simple block with an integer argument that returns the argument plus 4. -int (^addUp)(int n); // Declare a variable to store the block. +^(int n) { + return n + 4; +} +int (^addUp)(int n); // Declare a variable to store a block. void (^noParameterBlockVar)(void); // Example variable declaration of block with no arguments. // Blocks have access to variables in the same scope. But the variables are readonly and the // value passed to the block is the value of the variable when the block is created. diff --git a/ocaml.html.markdown b/ocaml.html.markdown index c087216c..74eb7993 100644 --- a/ocaml.html.markdown +++ b/ocaml.html.markdown @@ -375,4 +375,3 @@ sum_int_list t ;; * Visit the official website to get the compiler and read the docs: <http://ocaml.org/> * Try interactive tutorials and a web-based interpreter by OCaml Pro: <http://try.ocamlpro.com/> -* Read "OCaml for the skeptical" course: <http://www2.lib.uchicago.edu/keith/ocaml-class/home.html> diff --git a/pascal.html.markdown b/pascal.html.markdown new file mode 100644 index 00000000..6877afef --- /dev/null +++ b/pascal.html.markdown @@ -0,0 +1,96 @@ +--- +language: Pascal +filename: learnpascal.pas +contributors: + - ["Ganesha Danu", "http://github.com/blinfoldking"] +--- + + +>Pascal is an imperative and procedural programming language, which Niklaus Wirth designed in 1968–69 and published in 1970, as a small, efficient language intended to encourage good programming practices using structured programming and data structuring. It is named in honor of the French mathematician, philosopher and physicist Blaise Pascal. +source : [wikipedia](https://en.wikipedia.org/wiki/Pascal_(programming_language)) + + + +to compile and run a pascal program you could use a free pascal compiler. [Download Here](https://www.freepascal.org/) + +```pascal +//Anathomy of a Pascal Program +//this is a comment +{ + this is a + multiline comment +} + +//name of the program +program learn_pascal; //<-- dont forget a semicolon + +type + { + this is where you should delcare a custom + data-types + } +var + { + this is where you should declare a variable + } + +//main program area +begin + { + area to declare your instruction + } +end. // End of a main program area should required a "." symbol +``` + +```pascal +//declaring variable +//you can do this +var a:integer; +var b:integer; +//or this +var + a : integer; + b : integer; +//or this +var a,b : integer; +``` +```pascal +program Learn_More; +//Lets learn about data types and their operations + +//Declaring variables +var + int : integer; // a variable that contains an integer number data types + ch : char; // a variable that contains a character data types + str : string; // a variable that contains a string data types + r : real; // a variable that contains a real number data types + bool : boolean; //a variables that contains a Boolean(True/False) value data types +Begin + int := 1;// how to assign a value to a variable + r := 3.14; + ch := 'a'; + str := 'apple'; + bool := true; + //pascal is not a case-sensitive language + //arithmethic operation + int := 1 + 1; // int = 2 overwriting the previous assignment + int := int + 1; // int = 2 + 1 = 3; + int := 4 div 2; //int = 2 a division operation which the result will be floored + int := 3 div 2; //int = 1 + int := 1 div 2; //int = 0 + + bool := true or false; // bool = true + bool := false and true; // bool = false + bool := true xor true; // bool = false + + r := 3 / 2; // a division operator for real + r := int; // you can assign an integer to a real variable but not the otherwise + + c := str[1]; // assign the first letter of str to c + str := 'hello' + 'world'; //combining strings +End. +``` + +```pascal + +```
\ No newline at end of file diff --git a/perl6.html.markdown b/perl6.html.markdown index 2821f0d4..04f9c6e3 100644 --- a/perl6.html.markdown +++ b/perl6.html.markdown @@ -1366,7 +1366,7 @@ sub add($a, $b) { $a + $b } say [[&add]] 1, 2, 3; #=> 6 ## * Zip meta-operator -## This one is an infix meta-operator than also can be used as a "normal" +## This one is an infix meta-operator that also can be used as a "normal" ## operator. It takes an optional binary function (by default, it just creates ## a pair), and will pop one value off of each array and call its binary ## function on these until it runs out of elements. It returns an array with @@ -1659,7 +1659,7 @@ sub MAIN($name) { say "Hello, $name !" } ## Usage: ## t.pl <name> -## And since it's a regular Perl 6 sub, you can haz multi-dispatch: +## And since it's a regular Perl 6 sub, you can have multi-dispatch: ## (using a "Bool" for the named argument so that we can do `--replace` ## instead of `--replace=1`) subset File of Str where *.IO.d; # convert to IO object to check the file exists diff --git a/php.html.markdown b/php.html.markdown index f82cea7d..d4fbaa32 100644 --- a/php.html.markdown +++ b/php.html.markdown @@ -841,7 +841,7 @@ try { try { // Do something -} catch (\Exception $e) { +} catch (Exception $e) { // Handle exception } diff --git a/prolog.html.markdown b/prolog.html.markdown index 7a18a144..f7b55ac6 100644 --- a/prolog.html.markdown +++ b/prolog.html.markdown @@ -38,9 +38,9 @@ magicNumber(42). % predicate names must start with lower case letters. We can now use % interactive mode to ask if it is true for different values: -?- magicNumber(7). % True -?- magicNumber(8). % False -?- magicNumber(9). % True +?- magicNumber(7). % True +?- magicNumber(8). % False +?- magicNumber(9). % True % Some older Prologs may display "Yes" and "No" instead of True and % False. @@ -50,7 +50,7 @@ magicNumber(42). % starting with a capital letter is a variable in Prolog. ?- magicNumber(Presto). % Presto = 7 ; - % Presto = 9 ; + % Presto = 9 ; % Presto = 42. % Prolog makes magicNumber true by assigning one of the valid numbers to @@ -66,26 +66,33 @@ magicNumber(42). % follows: % If both sides are bound (ie, defined), check equality. % If one side is free (ie, undefined), assign to match the other side. -% If both sides are free, abort because this can't be resolved. +% If both sides are free, the assignment is remembered. With some luck, +% one of the two sides will eventually be bound, but this isn't +% necessary. +% % The = sign in Prolog represents unification, so: ?- 2 = 3. % False - equality test -?- X = 3. % X = 3 - assignment -?- X = 2, X = Y. % X = Y = 2 - two assignments +?- X = 3. % X = 3 - assignment +?- X = 2, X = Y. % X = Y = 2 - two assignments % Note Y is assigned to, even though it is % on the right hand side, because it is free ?- X = 3, X = 2. % False - % First acts as assignment and binds X=3 - % Second acts as equality because X is bound + % First acts as assignment and binds X=3 + % Second acts as equality because X is bound % Since 3 does not equal 2, gives False % Thus in Prolog variables are immutable ?- X = 3+2. % X = 3+2 - unification can't do arithmetic ?- X is 3+2. % X = 5 - "is" does arithmetic. -?- 5 = X+2. % This is why = can't do arithmetic - +?- 5 = X+2. % This is why = can't do arithmetic - % because Prolog can't solve equations ?- 5 is X+2. % Error. Unlike =, the right hand side of IS % must always be bound, thus guaranteeing % no attempt to solve an equation. +?- X = Y, X = 2, Z is Y + 3. % X = Y, Y = 2, Z = 5. + % X = Y are both free, so Prolog remembers + % it. Therefore assigning X will also + % assign Y. % Any unification, and thus any predicate in Prolog, can either: % Succeed (return True) without changing anything, @@ -101,11 +108,11 @@ magicNumber(42). % example, Prolog has a built in predicate plus which represents % arithmetic addition but can reverse simple additions. -?- plus(1, 2, 3). % True +?- plus(1, 2, 3). % True ?- plus(1, 2, X). % X = 3 because 1+2 = X. -?- plus(1, X, 3). % X = 2 because 1+X = 3. -?- plus(X, 2, 3). % X = 1 because X+1 = 3. -?- plus(X, 5, Y). % Error - although this could be solved, +?- plus(1, X, 3). % X = 2 because 1+X = 3. +?- plus(X, 2, 3). % X = 1 because X+2 = 3. +?- plus(X, 5, Y). % Error - although this could be solved, % the number of solutions is infinite, % which most predicates try to avoid. @@ -129,9 +136,9 @@ magicNumber(42). ?- print("Hello"). % "Hello" true. ?- X = 2, print(X). % 2 true. -?- X = 2, print(X), X = 3. % 2 false - print happens immediately when - % it is encountered, even though the overall - % compound goal fails (because 2 != 3, +?- X = 2, print(X), X = 3. % 2 false - print happens immediately when + % it is encountered, even though the overall + % compound goal fails (because 2 != 3, % see the example above). % By using Print we can see what actually happens when we give a @@ -156,7 +163,7 @@ magicNumber(42). % the interactive prompt by pressing ;, for example: ?- magicNumber(X), print(X), X > 8. % 7 9 X = 9 ; - % 42 X = 42. + % 42 X = 42. % As you saw above we can define our own simple predicates as facts. % More complex predicates are defined as rules, like this: @@ -168,7 +175,7 @@ nearby(X,Y) :- Y is X-1. % nearby(X,Y) is true if Y is X plus or minus 1. % However this predicate could be improved. Here's why: -?- nearby(2,3). % True ; False. +?- nearby(2,3). % True ; False. % Because we have three possible definitions, Prolog sees this as 3 % possibilities. X = Y fails, so Y is X+1 is then tried and succeeds, % giving the True answer. But Prolog still remembers there are more @@ -177,11 +184,11 @@ nearby(X,Y) :- Y is X-1. % the option of rejecting the True answer, which doesn't make a whole % lot of sense. -?- nearby(4, X). % X = 4 ; - % X = 5 ; - % X = 3. Great, this works -?- nearby(X, 4). % X = 4 ; - % error +?- nearby(4, X). % X = 4 ; + % X = 5 ; + % X = 3. Great, this works +?- nearby(X, 4). % X = 4 ; + % error % After rejecting X = 4 prolog backtracks and tries "Y is X+1" which is % "4 is X+1" after substitution of parameters. But as we know from above % "is" requires its argument to be fully instantiated and it is not, so @@ -195,10 +202,10 @@ nearbychk(X,Y) :- Y is X+1, !. nearbychk(X,Y) :- Y is X-1. % This solves the first problem: -?- nearbychk(2,3). % True. +?- nearbychk(2,3). % True. % But unfortunately it has consequences: -?- nearbychk(2,X). % X = 2. +?- nearbychk(2,X). % X = 2. % Because Prolog cannot backtrack past the cut after X = Y, it cannot % try the possibilities "Y is X+1" and "Y is X-1", so it only generates % one solution when there should be 3. @@ -230,14 +237,14 @@ nearby3(X,Y) :- nearby2(X,Y). % Here is the structured comment declaration for nearby3: -%% nearby3(+X:Int, +Y:Int) is semidet. -%% nearby3(+X:Int, -Y:Int) is multi. -%% nearby3(-X:Int, +Y:Int) is multi. +%! nearby3(+X:Int, +Y:Int) is semideterministic. +%! nearby3(+X:Int, -Y:Int) is multi. +%! nearby3(-X:Int, +Y:Int) is multi. % For each variable we list a type. The + or - before the variable name % indicates if the parameter is bound (+) or free (-). The word after % "is" describes the behaviour of the predicate: -% semidet - can succeed once or fail +% semideterministic - can succeed once or fail % ( Two specific numbers are either nearby or not ) % multi - can succeed multiple times but cannot fail % ( One number surely has at least 3 nearby numbers ) @@ -250,13 +257,13 @@ nearby3(X,Y) :- nearby2(X,Y). % An unusual feature of Prolog is its support for atoms. Atoms are % essentially members of an enumerated type that are created on demand % whenever an unquoted non variable value is used. For example: -character(batman). % Creates atom value batman -character(robin). % Creates atom value robin -character(joker). % Creates atom value joker -character(darthVader). % Creates atom value darthVader -?- batman = batman. % True - Once created value is reused -?- batman = batMan. % False - atoms are case sensitive -?- batman = darthVader. % False - atoms are distinct +character(batman). % Creates atom value batman +character(robin). % Creates atom value robin +character(joker). % Creates atom value joker +character(darthVader). % Creates atom value darthVader +?- batman = batman. % True - Once created value is reused +?- batman = batMan. % False - atoms are case sensitive +?- batman = darthVader. % False - atoms are distinct % Atoms are popular in examples but were created on the assumption that % Prolog would be used interactively by end users - they are less @@ -267,54 +274,55 @@ character(darthVader). % Creates atom value darthVader % Note that below, writeln is used instead of print because print is % intended for debugging. -%% countTo(+X:Int) is det. -%% countUpTo(+Value:Int, +Limit:Int) is det. +%! countTo(+X:Int) is deterministic. +%! countUpTo(+Value:Int, +Limit:Int) is deterministic. countTo(X) :- countUpTo(1,X). countUpTo(Value, Limit) :- Value = Limit, writeln(Value), !. countUpTo(Value, Limit) :- Value \= Limit, writeln(Value), - NextValue is Value+1, - countUpTo(NextValue, Limit). + NextValue is Value+1, + countUpTo(NextValue, Limit). -?- countTo(10). % Outputs 1 to 10 +?- countTo(10). % Outputs 1 to 10 % Note the use of multiple declarations in countUpTo to create an % IF test. If Value = Limit fails the second declaration is run. % There is also a more elegant syntax. -%% countUpTo2(+Value:Int, +Limit:Int) is det. +%! countUpTo2(+Value:Int, +Limit:Int) is deterministic. countUpTo2(Value, Limit) :- writeln(Value), - Value = Limit -> true ; ( - NextValue is Value+1, - countUpTo2(NextValue, Limit)). + Value = Limit -> true ; ( + NextValue is Value+1, + countUpTo2(NextValue, Limit)). -?- countUpTo2(1,10). % Outputs 1 to 10 +?- countUpTo2(1,10). % Outputs 1 to 10 % If a predicate returns multiple times it is often useful to loop % through all the values it returns. Older Prologs used a hideous syntax % called a "failure-driven loop" to do this, but newer ones use a higher % order function. -%% countTo2(+X:Int) is det. +%! countTo2(+X:Int) is deterministic. countTo2(X) :- forall(between(1,X,Y),writeln(Y)). -?- countTo2(10). % Outputs 1 to 10 +?- countTo2(10). % Outputs 1 to 10 % Lists are given in square brackets. Use memberchk to check membership. % A group is safe if it doesn't include Joker or does include Batman. -%% safe(Group:list(atom)) is det. + +%! safe(Group:list(atom)) is deterministic. safe(Group) :- memberchk(joker, Group) -> memberchk(batman, Group) ; true. -?- safe([robin]). % True -?- safe([joker]). % False -?- safe([joker, batman]). % True +?- safe([robin]). % True +?- safe([joker]). % False +?- safe([joker, batman]). % True % The member predicate works like memberchk if both arguments are bound, % but can accept free variables and thus can be used to loop through % lists. -?- member(X, [1,2,3]). % X = 1 ; X = 2 ; X = 3 . +?- member(X, [1,2,3]). % X = 1 ; X = 2 ; X = 3 . ?- forall(member(X,[1,2,3]), - (Y is X+1, writeln(Y))). % 2 3 4 + (Y is X+1, writeln(Y))). % 2 3 4 % The maplist function can be used to generate lists based on other % lists. Note that the output list is a free variable, causing an diff --git a/pt-br/amd-pt.html.markdown b/pt-br/amd-pt.html.markdown index 38c1f70f..40c7cd09 100644 --- a/pt-br/amd-pt.html.markdown +++ b/pt-br/amd-pt.html.markdown @@ -141,7 +141,7 @@ require(['jquery', 'coolLibFromBower', 'modules/algunsHelpers'], function($, coo coolLib.facaAlgoDoidoCom(helpers.transform($('#foo'))); }); ``` -Apps baseados em `require.js` geralmente terão u´m único ponto de acesso (`main.js`) que é passado à tag script do `require.js` como um data-attribute. Ele vai ser automaticamente carregado e executado com o carregamento da página: +Apps baseados em `require.js` geralmente terão um único ponto de acesso (`main.js`) que é passado à tag script do `require.js` como um data-attribute. Ele vai ser automaticamente carregado e executado com o carregamento da página: ```html <!DOCTYPE html> diff --git a/pt-br/asciidoc-pt.html.markdown b/pt-br/asciidoc-pt.html.markdown index 1dee31db..b12c0693 100644 --- a/pt-br/asciidoc-pt.html.markdown +++ b/pt-br/asciidoc-pt.html.markdown @@ -99,7 +99,7 @@ Para criar uma lista com marcadores use asteriscos. * baz ``` -Para criar uma lista númerada use pontos. +Para criar uma lista numerada use pontos. ``` . item 1 diff --git a/pt-br/asymptotic-notation-pt.html.markdown b/pt-br/asymptotic-notation-pt.html.markdown index 2e299d09..aecc2194 100644 --- a/pt-br/asymptotic-notation-pt.html.markdown +++ b/pt-br/asymptotic-notation-pt.html.markdown @@ -38,7 +38,7 @@ Na primeira seção desse documento, descrevemos como Notação Assintótica ide *f*, *n* como o tamanho da entrada e *f(n)* sendo o tempo de execução. Então, para dado algoritmo *f*, com entrada de tamanho *n*, você terá tempo de execução *f(n)*. Isto resulta em um gráfico onde a coordernada Y é o tempo de execução -, a coordernada X representa o tamanho da entrada e os pontos representao o tempo +, a coordernada X representa o tamanho da entrada e os pontos representam o tempo de execução para dado tamanho de entrada. Você pode representar a função, ou o algoritmo, com Notação Assintótica de várias diff --git a/pt-br/awk-pt.html.markdown b/pt-br/awk-pt.html.markdown new file mode 100644 index 00000000..761f5294 --- /dev/null +++ b/pt-br/awk-pt.html.markdown @@ -0,0 +1,376 @@ +--- +language: awk +filename: learnawk-pt.awk +contributors: + - ["Marshall Mason", "http://github.com/marshallmason"] +translators: + - ["Paulo Henrique Rodrigues Pinheiro", "https://github.com/paulohrpinheiro"] +lang: pt-br + +--- + +AWK é uma ferramenta padrão em todos os sistemas UNIX compatíveis com POSIX. É +como um Perl despojado, perfeito para tarefas de processamento de texto e +outras tarefas de script. Possui uma sintaxe C-like, mas sem ponto e vírgula, +gerenciamento manual de memória, ou tipagem estática. Destaca-se no +processamento de texto. Você pode chamá-lo a partir de um shell-script, ou você +pode usá-lo como uma linguagem de script autônomo. + +Por que usar AWK ao invés de Perl? Principalmente porque AWK faz parte do UNIX. +Você pode sempre contar com ele, enquanto o futuro do Perl é indefinido. AWK é +também mais fácil de ler que Perl. Para scripts simples de processamento de +texto, particularmente aqueles que leem arquivos linha por linha e fatiam texto +por delimitadores, AWK é provavelmente a ferramenta certa para a tarefa. + +```awk +#!/usr/bin/awk -f + +# Comentários são assim + +# Programas AWK consistem de uma coleção de padrões e ações. O mais +# importante padrão é chamado BEGIN. Ações estão dentro de blocos +# entre chaves. + +BEGIN { + + # O bloco BEGIN será executado no começo do programa. É onde você coloca + # todo código que prepara a execução, antes que você processe qualquer + # arquivo de texto. Se você não tem arquivos de texto, então pense no + # BEGIN como o ponto principal de entrada. + + # Variáveis são globais. Simplesmente atribua valores ou as use, sem + # necessidade de declarar. + + # Operadores são como em C e similares + a = count + 1 + b = count - 1 + c = count * 1 + d = count / 1 # divisão inteira + e = count % 1 # módulo + f = count ^ 1 # exponenciação + + a += 1 + b -= 1 + c *= 1 + d /= 1 + e %= 1 + f ^= 1 + + # Incrementando e decrementando por um + a++ + b-- + + # Como um operador pré-fixado, retorna o valor incrementado + ++a + --b + + # Perceba, não há pontuação, como ponto-e-vírgula, ao final das declarações + + # Declarações de controle + if (count == 0) + print "Começando com count em 0" + else + print "Como é que é?" + + # Ou você pode usar o operador ternário + print (count == 0) ? "Começando com count em 0" : "Como é que é?" + + # Blocos multilinhas devem usar chaves + while (a < 10) { + print "Concatenação de texto é feita" " com uma série" " de" + " textos separados por espaço" + print a + + a++ + } + + for (i = 0; i < 10; i++) + print "Uma boa opção para um loop de uma linha" + + # Quanto a comparações, eis os padrões: + a < b # Menor que + a <= b # Menor ou igual a + a != b # Não igual + a == b # Igual + a > b # Maior que + a >= b # Maior ou igual a + + # Bem como operadores lógicos + a && b # E + a || b # OU (inclusivo) + + # Em adição, há o utilíssimo operador para expressões regulares + if ("foo" ~ "^fo+$") + print "Fooey!" + if ("boo" !~ "^fo+$") + print "Boo!" + + # Matrizes + arr[0] = "foo" + arr[1] = "bar" + # Infelizmente, não há outra forma para inicializar uma matriz. Apenas + # coloque cada valor em uma linha, como mostrado acima. + + # Você também pode ter matrizes associativas + assoc["foo"] = "bar" + assoc["bar"] = "baz" + + # E matrizes multidimensionais, com algumas limitações que não mencionarei + multidim[0,0] = "foo" + multidim[0,1] = "bar" + multidim[1,0] = "baz" + multidim[1,1] = "boo" + + # Você pode testar a pertinência de um elemento em uma matriz + if ("foo" in assoc) + print "Fooey!" + + # Você pode também usar o operador 'in' para percorrer as chaves de uma + # matriz associativa + for (key in assoc) + print assoc[key] + + # Os argumentos da linha de comando estão em uma matriz especial ARGV + for (argnum in ARGV) + print ARGV[argnum] + + # Você pode remover elementos de uma matriz + # Isso é muito útil para prevenir que o AWK assuma que os argumentos são + # arquivo para ele processar + delete ARGV[1] + + # A quantidade de argumentos passados está na variável ARGC + print ARGC + + # O AWK tem várias funções nativas. Elas estão separadas em três categorias. + # Demonstrarei cada uma delas logo mais abaixo. + + return_value = arithmetic_functions(a, b, c) + string_functions() + io_functions() +} + +# Eis como você deve definir uma função +function arithmetic_functions(a, b, c, d) { + + # Provavelmente a parte mais irritante do AWK é ele não possuir variáveis + # locais. Tudo é global. Para pequenos scripts, isso não é problema, e + # pode até mesmo ser considerado útil, mas para grandes scripts, isso pode + # ser um problema. + + # Mas há como contornar isso (um hack). Os argumentos de função são locais + # para a função e o AWK permite que você defina mais argumentos de função + # do que ele precise. Então, coloque a variável local na declaração de + # função, como eu fiz acima. Como uma convenção, adicione alguns espaços + # extras para distinguir entre parâmetros de função reais e variáveis + # locais. Neste exemplo, a, b e c são parâmetros reais, enquanto d é + # meramente uma variável local. + + # Agora, serão demonstradas as funções aritméticas + + # Muitas implementações AWK possuem algumas funções trigonométricas padrão + localvar = sin(a) + localvar = cos(a) + localvar = atan2(b, a) # arco-tangente de b / a + + # E conteúdo logarítmico + localvar = exp(a) + localvar = log(a) + + # Raiz quadrada + localvar = sqrt(a) + + # Descartando a parte não inteira de um número em ponto flutuante. + localvar = int(5.34) # localvar => 5 + + # Números aleatórios + srand() # Forneça uma semente como argumento. Por padrão, ele usa a hora atual + localvar = rand() # Número aleatório entre 0 e 1. + + # Aqui mostramos como retornar um valor + return localvar +} + +function string_functions( localvar, arr) { + + # Sendo o AWK uma linguagem para processamento de texto, ele possui + # várias funções para manipulação de texto, muitas das quais + # fortemente dependentes de expressões regulares. + + # Procurar e substituir, primeira instância (sub), ou todas (gsub) + # Ambas retornam o número de instâncias substituídas + localvar = "fooooobar" + sub("fo+", "Meet me at the ", localvar) # localvar => "Meet me at the bar" + gsub("e+", ".", localvar) # localvar => "m..t m. at th. bar" + + # Localiza um texto que casa com uma expressão regular + # index() faz a mesma coisa, mas não permite uma expressão regular + match(localvar, "t") # => 4, pois 't' é o quarto carácter + + # Separa por delimitador + split("foo-bar-baz", arr, "-") # a => ["foo", "bar", "baz"] + + # Outras coisas úteis + sprintf("%s %d %d %d", "Testing", 1, 2, 3) # => "Testing 1 2 3" + substr("foobar", 2, 3) # => "oob" + substr("foobar", 4) # => "bar" + length("foo") # => 3 + tolower("FOO") # => "foo" + toupper("foo") # => "FOO" +} + +function io_functions( localvar) { + + # Você já viu como imprimir + print "Hello world" + + # Também há o printf + printf("%s %d %d %d\n", "Testing", 1, 2, 3) + + # O AWK não disponibiliza manipuladores de arquivo. Ele irá automaticamente + # manipular um arquivo quando você fizer algo que precise disso. O texto + # que você usou para isso pode ser usado como um manipulador de arquivo, + # para propósitos de E/S. Isso faz ele parecer com um shell script: + + print "foobar" >"/tmp/foobar.txt" + + # Agora a string "/tmp/foobar.txt" é um manipulador de arquivos. Você pode + # fechá-lo: + close("/tmp/foobar.txt") + + # Aqui está como você pode executar alguma coisa no shell + system("echo foobar") # => prints foobar + + # Lê uma linha da entrada padrão e armazena em localvar + getline localvar + + # Lê uma linha de um pipe + "echo foobar" | getline localvar # localvar => "foobar" + close("echo foobar") + + # Lê uma linha de um arquivo e armazena em localvar + getline localvar <"/tmp/foobar.txt" + close("/tmp/foobar.txt") +} + +# Como dito no início, os programas AWK consistem de uma coleção de padrões +# e ações. Você já viu o padrão BEGIN, o mais importante. Outros padrões são +# usados apenas se você estiver processando linhas de arquivos ou a entrada +# padrão. + +# Quando você passa argumentos para o AWK, eles são tratados como nomes de +# arquivos para processar. Todos serão processados, em ordem. Pense nisso como +# um implícito para loop, iterando sobre as linhas nesses arquivos. Esses +# padrões e ações são como instruções de mudança dentro do loop. + +/^fo+bar$/ { + + # Esta ação será executada para cada linha que corresponda à expressão + # regular, / ^ fo + bar $ /, e será ignorada para qualquer linha que não + # corresponda. Vamos apenas imprimir a linha: + + print + + # Opa, sem argumento! Isso ocorre pois print tem um argumento padrão: $0. + # $0 é o nome da linha atual que está sendo processada. Essa variável é + # criada automaticamente para você. + + # Você provavelmente pode adivinhar que existem outras variáveis $. Toda + # linha é implicitamente dividida antes de cada ação ser chamada, como + # o shell faz. E, como o shell, cada campo pode ser acessado com um sinal + # de cifrão + + # Isso irá imprimir o segundo e quarto campos da linha + print $2, $4 + + # O AWK automaticamente define muitas outras variáveis para ajudar você + # a inspecionar processar cada linha. A mais importante delas é NF. + + # Imprime o número de campos da linha atual + print NF + + # Imprime o último campo da linha atual + print $NF +} + +# Todo padrão é na verdade um teste verdadeiro/falso. A expressão regular no +# último padrão também é um teste verdadeiro/falso, mas parte dele estava +# escondido. Se você não informar um texto para testar, AWK assumirá $0, +# a linha que está atualmente sendo processada. Assim, a versão completa +# é a seguinte: + +$0 ~ /^fo+bar$/ { + print "Equivalente ao último padrão" +} + +a > 0 { + # Isso será executado uma vez para cada linha, quando a for positivo +} + +# Você entendeu. Processar arquivos de texto, ler uma linha de cada vez, e +# fazer algo com ela, particularmente dividir com base em um delimitador, é +# tão comum no UNIX que AWK é uma linguagem de script que faz tudo por você, +# sem você precisa perguntar. Tudo o que você precisa fazer é escrever os +# padrões e ações com base no que você espera da entrada, e o que você quer +# fazer com isso. + +# Aqui está um exemplo rápido de um script simples, o tipo de coisa que o AWK +# é perfeito para fazer. Ele irá ler um nome da entrada padrão e depois +imprimirá a média de idade de todos com esse primeiro nome. Digamos que você +forneça como argumento o nome de um arquivo com esses dados: + +# Bob Jones 32 +# Jane Doe 22 +# Steve Stevens 83 +# Bob Smith 29 +# Bob Barker 72 +# +# Eis o script: + +BEGIN { + + # Primeiro, pergunte o nome do usuário + print "Para qual nome você quer calcular a média de idade?" + + # Pega uma linha da entrada padrão, não dos arquivos indicados na + # linha de comando + getline name <"/dev/stdin" +} + +# Agora, processa cada linha em que o primeiro nome é o nome informado +$1 == name { + + # Dentro desse bloco, nós temos acesso a algumas variáveis uteis, que + # foram pré-carregadas para nós: + # $0 é a linha corrente completa + # $3 é o terceiro campo, que é o que nos interessa aqui + # NF é a quantidade de campos, que deve ser 3 + # NR é o número de registros (linhas) lidas até agora + # FILENAME é o nome do arquivo sendo processado + # FS é o delimitador em uso, que é " " aqui + # ...etc. Há muito mais, documentadas no manual. + + # Mantenha um registro do total e da quantidade de linhas encontradas + sum += $3 + nlines++ +} + +# Outro padrão especial é chamado END. Ele será executado após o processamento +# de todos os arquivos de texto. Ao contrário de BEGIN, ele só será executado +# se você tiver dado a ele dados para processar. Ele será executado depois de +# todos os arquivos terem sido lidos e processados de acordo com as regras e +# ações que você forneceu. O objetivo disso em geral é produzir algum tipo de +# relatório final, ou fazer algo com o agregado dos dados acumulados ao longo +# do script. + +END { + if (nlines) + print "A média da idade para " name " é " sum / nlines +} + +``` +Leituras adicionais (em inglês): + +* [Awk tutorial](http://www.grymoire.com/Unix/Awk.html) +* [Awk man page](https://linux.die.net/man/1/awk) +* [The GNU Awk User's Guide](https://www.gnu.org/software/gawk/manual/gawk.html) GNU AWK é encontrado na maioria dos sistemas GNU/Linux. diff --git a/pt-br/bf-pt.html.markdown b/pt-br/bf-pt.html.markdown index 52a5269e..53baa9a2 100644 --- a/pt-br/bf-pt.html.markdown +++ b/pt-br/bf-pt.html.markdown @@ -13,7 +13,9 @@ lang: pt-br Brainfuck (em letras minúsculas, exceto no início de frases) é uma linguagem de programação Turing-completa extremamente simples com apenas 8 comandos. -``` +Você pode experimentar brainfuck pelo seu browser com [brainfuck-visualizer](http://fatiherikli.github.io/brainfuck-visualizer/). + +```bf Qualquer caractere exceto "><+-.,[]" (sem contar as aspas) é ignorado. Brainfuck é representado por um vetor com 30 000 células inicializadas em zero diff --git a/pt-br/c++-pt.html.markdown b/pt-br/c++-pt.html.markdown index c1cfbbb1..cd4adde7 100644 --- a/pt-br/c++-pt.html.markdown +++ b/pt-br/c++-pt.html.markdown @@ -18,9 +18,9 @@ foi concebida para - suportar programação orientada a objetos - suportar programação genérica -Embora sua sintaxe pode ser mais difícil ou complexa do que as linguagens mais -recentes, C++ é amplamente utilizado porque compila para instruções nativas que -podem ser executadas diretamente pelo processador e oferece um controlo rígido sobre hardware (como C), enquanto oferece recursos de alto nível, como os +Embora sua sintaxe possa ser mais difícil ou complexa do que as linguagens mais +recentes, C++ é amplamente utilizada porque compila para instruções nativas que +podem ser executadas diretamente pelo processador e oferece um controle rígido sobre o hardware (como C), enquanto oferece recursos de alto nível, como os genéricos, exceções e classes. Esta combinação de velocidade e funcionalidade faz C++ uma das linguagens de programação mais utilizadas. @@ -40,10 +40,10 @@ faz C++ uma das linguagens de programação mais utilizadas. int main(int argc, char** argv) { - // Argumentos de linha de comando são passados em pelo argc e argv da mesma + // Argumentos de linha de comando são passados para argc e argv da mesma // forma que eles estão em C. // argc indica o número de argumentos, - // e argv é um array de strings, feito C (char*) representado os argumentos + // e argv é um array de strings, feito C (char*) representando os argumentos // O primeiro argumento é o nome pelo qual o programa foi chamado. // argc e argv pode ser omitido se você não se importa com argumentos, // dando a assinatura da função de int main() @@ -274,7 +274,7 @@ public: void setWeight(int dogsWeight); - // Funções que não modificam o estado do objecto devem ser marcadas como + // Funções que não modificam o estado do objeto devem ser marcadas como // const. Isso permite que você chamá-los se for dada uma referência const // para o objeto. Além disso, observe as funções devem ser explicitamente // declarados como _virtual_, a fim de ser substituídas em classes diff --git a/pt-br/c-pt.html.markdown b/pt-br/c-pt.html.markdown index 6e7aa8c2..d594b7b9 100644 --- a/pt-br/c-pt.html.markdown +++ b/pt-br/c-pt.html.markdown @@ -182,7 +182,7 @@ int main() { int a, b, c; a = b = c = 0; - // Aritimética é óbvia + // Aritmética é óbvia i1 + i2; // => 3 i2 - i1; // => 1 i2 * i1; // => 2 @@ -191,7 +191,7 @@ int main() { f1 / f2; // => 0.5, mais ou menos epsilon // Números e cálculos de ponto flutuante não são exatos - // Modulo também existe + // Módulo também existe 11 % 3; // => 2 // Operadores de comparação provavelmente são familiares, @@ -638,16 +638,17 @@ typedef void (*minha_função_type)(char *); ## Leitura adicional É recomendado ter uma cópia de [K&R, aka "The C Programming Language"](https://en.wikipedia.org/wiki/The_C_Programming_Language). -Este é *o* livro sobre C, escrito pelos criadores da linguage. Mas cuidado - ele é antigo e contém alguns erros (bem, -ideias que não são consideradas boas hoje) ou práticas mudadas. +Este é *o* livro sobre C, escrito pelos criadores da linguagem. Mas cuidado - ele é antigo e contém alguns erros (bem, +ideias que não são mais consideradas boas) ou práticas ultrapassadas. Outra boa referência é [Learn C the hard way](http://c.learncodethehardway.org/book/). Se você tem uma pergunta, leia [compl.lang.c Frequently Asked Questions](http://c-faq.com). É importante usar espaços e indentação adequadamente e ser consistente com seu estilo de código em geral. -Código legível é melhor que código 'esperto' e rápido. Para adotar um estilo de código bom e são, veja +Código legível é melhor que código 'esperto' e rápido. Para adotar um estilo de código bom e sensato, veja [Linux kernel coding style](https://www.kernel.org/doc/Documentation/CodingStyle). Além disso, Google é teu amigo. + [1] http://stackoverflow.com/questions/119123/why-isnt-sizeof-for-a-struct-equal-to-the-sum-of-sizeof-of-each-member diff --git a/pt-br/common-lisp-pt.html.markdown b/pt-br/common-lisp-pt.html.markdown index 03a7c15c..c22cfd8e 100644 --- a/pt-br/common-lisp-pt.html.markdown +++ b/pt-br/common-lisp-pt.html.markdown @@ -19,7 +19,7 @@ Outro livro recente e popular é o [Land of Lisp](http://landoflisp.com/). -```common_lisp +```lisp ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;; 0. Sintaxe diff --git a/pt-br/csharp-pt.html.markdown b/pt-br/csharp-pt.html.markdown index 547f4817..b6e95d36 100644 --- a/pt-br/csharp-pt.html.markdown +++ b/pt-br/csharp-pt.html.markdown @@ -6,23 +6,23 @@ contributors: lang: pt-br --- -C# é uma linguagem elegante e altamente tipado orientada a objetos que permite aos desenvolvedores criarem uma variedade de aplicações seguras e robustas que são executadas no .NET Framework. +C# é uma linguagem elegante, altamente tipada e orientada a objetos que permite aos desenvolvedores criar uma variedade de aplicações seguras e robustas que são executadas no .NET Framework. -[Read more here.](http://msdn.microsoft.com/pt-br/library/vstudio/z1zx9t92.aspx) +[Leia mais aqui.](http://msdn.microsoft.com/pt-br/library/vstudio/z1zx9t92.aspx) ```c# -// Comentário de linha única começa com // +// Comentários de linha única começam com // /* -Múltipas linhas é desta forma +Comentários de múltiplas linhas são desta forma */ /// <summary> -/// Esta é uma documentação comentário XML que pode ser usado para gerar externo -/// documentação ou fornecer ajuda de contexto dentro de um IDE +/// Este é um comentário de documentação XML que pode ser usado para gerar documentação +/// externa ou para fornecer ajuda de contexto dentro de uma IDE /// </summary> //public void MethodOrClassOrOtherWithParsableHelp() {} -// Especificar qual namespace seu código irá usar -// Os namespaces a seguir são padrões do .NET Framework Class Library +// Especifica os namespaces que o código irá usar +// Os namespaces a seguir são padrões da biblioteca de classes do .NET Framework using System; using System.Collections.Generic; using System.Dynamic; @@ -33,11 +33,11 @@ using System.IO; // Mas este aqui não é : using System.Data.Entity; -// Para que consiga utiliza-lo, você precisa adicionar novas referências +// Para que consiga utilizá-lo, você precisa adicionar novas referências // Isso pode ser feito com o gerenciador de pacotes NuGet : `Install-Package EntityFramework` -// Namespaces são escopos definidos para organizar o códgo em "pacotes" or "módulos" -// Usando este código a partir de outra arquivo de origem: using Learning.CSharp; +// Namespaces são escopos definidos para organizar o código em "pacotes" ou "módulos" +// Usando este código a partir de outro arquivo de origem: using Learning.CSharp; namespace Learning.CSharp { // Cada .cs deve conter uma classe com o mesmo nome do arquivo @@ -762,7 +762,7 @@ on a new line! ""Wow!"", the masses cried"; } } - //Method to display the attribute values of this Object. + //Método para exibir os valores dos atributos deste objeto. public virtual string Info() { return "Gear: " + Gear + @@ -784,13 +784,13 @@ on a new line! ""Wow!"", the masses cried"; } // end class Bicycle - // PennyFarthing is a subclass of Bicycle + // PennyFarthing é uma subclasse de Bicycle class PennyFarthing : Bicycle { - // (Penny Farthings are those bicycles with the big front wheel. - // They have no gears.) + // (Penny Farthings são aquelas bicicletas com uma grande roda frontal. + // Elas não tem correias.) - // calling parent constructor + // chamando construtor pai public PennyFarthing(int startCadence, int startSpeed) : base(startCadence, startSpeed, 0, "PennyFarthing", true, BikeBrand.Electra) { @@ -823,10 +823,10 @@ on a new line! ""Wow!"", the masses cried"; } } - // Interfaces only contain signatures of the members, without the implementation. + // Interfaces contêm apenas as assinaturas dos membros, sem a implementação. interface IJumpable { - void Jump(int meters); // all interface members are implicitly public + void Jump(int meters); // todos os membros da interface são implicitamente públicos } interface IBreakable diff --git a/pt-br/css-pt.html.markdown b/pt-br/css-pt.html.markdown index b1fbd961..956b3614 100644 --- a/pt-br/css-pt.html.markdown +++ b/pt-br/css-pt.html.markdown @@ -25,7 +25,7 @@ O foco principal deste artigo é sobre a sintaxe e algumas dicas gerais. ```css /* Comentários aparecem dentro do slash-asterisk, tal como esta linha! - não há "comentários de uma linha"; este é o único estilo de comentário * / + Não há "comentários de uma linha"; este é o único estilo de comentário * / /* #################### ## SELETORES diff --git a/pt-br/dart-pt.html.markdown b/pt-br/dart-pt.html.markdown new file mode 100644 index 00000000..e9d72850 --- /dev/null +++ b/pt-br/dart-pt.html.markdown @@ -0,0 +1,509 @@ +--- +language: dart +filename: learndart-pt.dart +contributors: + - ["Joao Pedrosa", "https://github.com/jpedrosa/"] +translators: + - ["Junior Damacena", "https://github.com/jdamacena/"] +lang: pt-br +--- + +Dart é uma novata no reino das linguagens de programação. +Ela empresta muito de outras linguagens mais conhecidas, e tem a meta de não se diferenciar muito de seu irmão, JavaScript. Assim como JavaScript, Dart foi pensada para oferecer grande integração com o Browser. + +A característica mais controversa da Dart é a sua Tipagem Opcional, ou seja, não é obrigatório declarar tipos. + +```dart +import "dart:collection"; +import "dart:math" as DM; + +// Bem vindo ao Aprenda Dart em 15 minutos. http://www.dartlang.org/ +// Este é um tutorial executável. Você pode rodar esse tutorial com Dart ou no +// site Try Dart!, é só copiar e colar este código lá. http://try.dartlang.org/ + +// Declarações de funções e métodos são iguais. Declarações de funções +// podem ser aninhadas. A declaração é feita das seguintes formas +// nome() {} ou nome() => expressaoDeUmaLinhaSo; +// A declaração feita com a seta tem um return implícito para o resultado da +// expressão. +example1() { + example1nested1() { + example1nested2() => print("Example1 nested 1 nested 2"); + example1nested2(); + } + example1nested1(); +} + +// Funções anônimas são criadas sem um nome. +example2() { + example2nested1(fn) { + fn(); + } + example2nested1(() => print("Example2 nested 1")); +} + +// Quando uma função é declarada como parâmetro, a declaração pode incluir o número +// de parâmetros que a função recebe, isso é feito especificando o nome de cada um dos +// parâmetros que serão recebidos pela função. +example3() { + example3nested1(fn(informSomething)) { + fn("Example3 nested 1"); + } + example3planB(fn) { // Ou não declare o número de parâmetros. + fn("Example3 plan B"); + } + example3nested1((s) => print(s)); + example3planB((s) => print(s)); +} + +// Funções têm acesso à variáveis fora de seu escopo +var example4Something = "Example4 nested 1"; +example4() { + example4nested1(fn(informSomething)) { + fn(example4Something); + } + example4nested1((s) => print(s)); +} + +// Declaração de classe com um método chamado sayIt, que também tem acesso +// à variável externa, como se fosse uma função como se viu antes. +var example5method = "Example5 sayIt"; +class Example5Class { + sayIt() { + print(example5method); + } +} +example5() { + // Criar uma instância anônima de Example5Class e chamar o método sayIt + // nela. + new Example5Class().sayIt(); +} + +// A declaração de uma classe é feita da seguinte maneira: class name { [classBody] }. +// onde classBody pode incluir métodos e variáveis de instância, assim como +// métodos e variáveis de classe. +class Example6Class { + var example6InstanceVariable = "Example6 instance variable"; + sayIt() { + print(example6InstanceVariable); + } +} +example6() { + new Example6Class().sayIt(); +} + +// Métodos e variáveis de classe são declarados como "static". +class Example7Class { + static var example7ClassVariable = "Example7 class variable"; + static sayItFromClass() { + print(example7ClassVariable); + } + sayItFromInstance() { + print(example7ClassVariable); + } +} +example7() { + Example7Class.sayItFromClass(); + new Example7Class().sayItFromInstance(); +} + +// Literais são ótimos, mas há uma limitação para o que eles podem ser +// quando estão fora do corpo de uma função/método. Literais fora do escopo da classe +// ou fora da classe têm que ser constantes. Strings e números são constantes +// por padrão. Mas arrays e mapas não. Eles podem ser declarados como constantes +// usando o comando "const". +var example8A = const ["Example8 const array"], + example8M = const {"someKey": "Example8 const map"}; +example8() { + print(example8A[0]); + print(example8M["someKey"]); +} + +// Loops em Dart são criados com for () {} ou while () {}, +// um pouco mais moderno temos for (.. in ..) {}, ou funções de callbacks com muitas +// funcionalidades, começando com o forEach. +var example9A = const ["a", "b"]; +example9() { + for (var i = 0; i < example9A.length; i++) { + print("Example9 for loop '${example9A[i]}'"); + } + var i = 0; + while (i < example9A.length) { + print("Example9 while loop '${example9A[i]}'"); + i++; + } + for (var e in example9A) { + print("Example9 for-in loop '${e}'"); + } + example9A.forEach((e) => print("Example9 forEach loop '${e}'")); +} + +// Para percorrer os caracteres de uma string ou extrair uma substring. +var example10S = "ab"; +example10() { + for (var i = 0; i < example10S.length; i++) { + print("Example10 String character loop '${example10S[i]}'"); + } + for (var i = 0; i < example10S.length; i++) { + print("Example10 substring loop '${example10S.substring(i, i + 1)}'"); + } +} + +// Int e double são os dois formatos de número suportados. +example11() { + var i = 1 + 320, d = 3.2 + 0.01; + print("Example11 int ${i}"); + print("Example11 double ${d}"); +} + +// DateTime traz operações com data/hora. +example12() { + var now = new DateTime.now(); + print("Example12 now '${now}'"); + now = now.add(new Duration(days: 1)); + print("Example12 tomorrow '${now}'"); +} + +// Expressões regulares são suportadas. +example13() { + var s1 = "some string", s2 = "some", re = new RegExp("^s.+?g\$"); + match(s) { + if (re.hasMatch(s)) { + print("Example13 regexp matches '${s}'"); + } else { + print("Example13 regexp doesn't match '${s}'"); + } + } + match(s1); + match(s2); +} + +// Expressões booleanas precisam retornar ou true ou false, já que +// Dart não faz a conversão implicitamente. +example14() { + var v = true; + if (v) { + print("Example14 value is true"); + } + v = null; + try { + if (v) { + // Nunca seria executada + } else { + // Nunca seria executada + } + } catch (e) { + print("Example14 null value causes an exception: '${e}'"); + } +} + +// try/catch/finally e throw são usados para tratamento de exceções. +// throw aceita qualquer objeto como parâmetro; +example15() { + try { + try { + throw "Some unexpected error."; + } catch (e) { + print("Example15 an exception: '${e}'"); + throw e; // Re-throw + } + } catch (e) { + print("Example15 catch exception being re-thrown: '${e}'"); + } finally { + print("Example15 Still run finally"); + } +} + +// Para mais eficiência ao criar strings longas dinamicamente, use o +// StringBuffer. Ou você pode também concatenar um array de strings. +example16() { + var sb = new StringBuffer(), a = ["a", "b", "c", "d"], e; + for (e in a) { sb.write(e); } + print("Example16 dynamic string created with " + "StringBuffer '${sb.toString()}'"); + print("Example16 join string array '${a.join()}'"); +} + +// Strings podem ser concatenadas apenas colocando strings literais uma perto +// da outra, sem necessidade de nenhum outro operador. +example17() { + print("Example17 " + "concatenar " + "strings " + "é simples assim"); +} + +// Strings podem ser delimitadas por apóstrofos ou aspas e não há +// diferença entre os dois. Essa flexibilidade pode ser boa para +// evitar a necessidade de escapar conteúdos que contenham o delimitador da string. +// Por exemplo, aspas dos atributos HTMLse a string conter HTML. +example18() { + print('Example18 <a href="etc">' + "Don't can't I'm Etc" + '</a>'); +} + +// Strings com três apóstrofos ou aspas podem +// ter muitas linhas e incluem os delimitadores de linha (ou seja, os enter). +example19() { + print('''Example19 <a href="etc"> +Example19 Don't can't I'm Etc +Example19 </a>'''); +} + +// Strings têm a função de interpolação que é chamada com o caractere $. +// Com $ { [expression] }, o retorno da expressão é interpolado. +// $ seguido pelo nome de uma variável interpola o conteúdo dessa variável. +// $ pode ser escapedo assim \$. +example20() { + var s1 = "'\${s}'", s2 = "'\$s'"; + print("Example20 \$ interpolation ${s1} or $s2 works."); +} + +// A tipagem opcional permite que APIs usem anotações e também ajuda os +// IDEs na hora das refatorações, auto-complete e checagem de +// erros. Note que até agora não declaramos nenhum tipo e o programa está +// funcionando normalmente. De fato, os tipos são ignorados em tempo de execução. +// Os tipos podem até mesmo estarem errados e o programa ainda vai dar o +// benefício da dúvida e rodar, visto que os tipos não importam. +// Existe um parâmetro que checa erros de tipagem que é o +// checked mode, dizem que é útil enquanto se está desenvolvendo, +// mas também é mais lento devido às checagens extras e por isso +// é evitado em ambiente de produção. +class Example21 { + List<String> _names; + Example21() { + _names = ["a", "b"]; + } + List<String> get names => _names; + set names(List<String> list) { + _names = list; + } + int get length => _names.length; + void add(String name) { + _names.add(name); + } +} +void example21() { + Example21 o = new Example21(); + o.add("c"); + print("Example21 names '${o.names}' and length '${o.length}'"); + o.names = ["d", "e"]; + print("Example21 names '${o.names}' and length '${o.length}'"); +} + +// Herança em classes é feito assim: class name extends AnotherClassName {}. +class Example22A { + var _name = "Some Name!"; + get name => _name; +} +class Example22B extends Example22A {} +example22() { + var o = new Example22B(); + print("Example22 class inheritance '${o.name}'"); +} + +// Mistura de classes também é possível, e é feito assim: +// class name extends SomeClass with AnotherClassName {} +// É necessário extender uma classe para poder misturar com outra. +// No momento, classes misturadas não podem ter construtor. +// Mistura de classes é mais usado para compartilhar métodos com classes distantes, então +// a herança comum não fica no caminho do reuso de código. +// As misturas aparecem após o comando "with" na declaração da classe. +class Example23A {} +class Example23Utils { + addTwo(n1, n2) { + return n1 + n2; + } +} +class Example23B extends Example23A with Example23Utils { + addThree(n1, n2, n3) { + return addTwo(n1, n2) + n3; + } +} +example23() { + var o = new Example23B(), r1 = o.addThree(1, 2, 3), + r2 = o.addTwo(1, 2); + print("Example23 addThree(1, 2, 3) results in '${r1}'"); + print("Example23 addTwo(1, 2) results in '${r2}'"); +} + +// O método construtor da classe usa o mesmo nome da classe e +// é feito assim SomeClass() : super() {}, onde a parte ": super()" +// é opcional e é usada para passar parâmetros estáticos para o +// construtor da classe pai. +class Example24A { + var _value; + Example24A({value: "someValue"}) { + _value = value; + } + get value => _value; +} +class Example24B extends Example24A { + Example24B({value: "someOtherValue"}) : super(value: value); +} +example24() { + var o1 = new Example24B(), + o2 = new Example24B(value: "evenMore"); + print("Example24 calling super during constructor '${o1.value}'"); + print("Example24 calling super during constructor '${o2.value}'"); +} + +// Há um atalho para passar parâmetros para o construtor no caso de classes mais simples. +// Simplesmente use o prefixo this.nomeDoParametro e isso irá passar o parâmetro para uma +// instância de variável de mesmo nome. +class Example25 { + var value, anotherValue; + Example25({this.value, this.anotherValue}); +} +example25() { + var o = new Example25(value: "a", anotherValue: "b"); + print("Example25 shortcut for constructor '${o.value}' and " + "'${o.anotherValue}'"); +} + +// Parâmetros com nome estão disponíveis quando declarados entre {}. +// Quando os parâmetros têm nomes, eles podem ser passados em qualquer ordem. +// Parâmetros declarados entre [] são opcionais. +example26() { + var _name, _surname, _email; + setConfig1({name, surname}) { + _name = name; + _surname = surname; + } + setConfig2(name, [surname, email]) { + _name = name; + _surname = surname; + _email = email; + } + setConfig1(surname: "Doe", name: "John"); + print("Example26 name '${_name}', surname '${_surname}', " + "email '${_email}'"); + setConfig2("Mary", "Jane"); + print("Example26 name '${_name}', surname '${_surname}', " + "email '${_email}'"); +} + +// Variáveis declaradas com um final só podem receber valor uma vez. +// No caso de classes, variáveis final podem ter valor atribuido através +// de um parâmetro no construtor +class Example27 { + final color1, color2; + // Um pouco de flexibilidade ao criar variáveis final com a sintaxe + // que é a seguinte: + Example27({this.color1, color2}) : color2 = color2; +} +example27() { + final color = "orange", o = new Example27(color1: "lilac", color2: "white"); + print("Example27 color is '${color}'"); + print("Example27 color is '${o.color1}' and '${o.color2}'"); +} + +// para importar uma biblioteca, use import "libraryPath" ou se for uma biblioteca da linguagem, +// import "dart:libraryName". Também tem o gerenciador de pacotes "pub"que tem +// sua própria convenção de import "package:packageName". +// Veja o import "dart:collection"; no início do arquivo. Imports devem vir no início +// do arquivo. IterableBase vem de dart:collection. +class Example28 extends IterableBase { + var names; + Example28() { + names = ["a", "b"]; + } + get iterator => names.iterator; +} +example28() { + var o = new Example28(); + o.forEach((name) => print("Example28 '${name}'")); +} + +// Para controle de fluxo nós temos: +// * switch com comandos break obrigatórios +// * if-else if-else e se-ternário ..?..:.. +// * closures e funções anônimas +// * comandos break, continue e return +example29() { + var v = true ? 30 : 60; + switch (v) { + case 30: + print("Example29 switch statement"); + break; + } + if (v < 30) { + } else if (v > 30) { + } else { + print("Example29 if-else statement"); + } + callItForMe(fn()) { + return fn(); + } + rand() { + v = new DM.Random().nextInt(50); + return v; + } + while (true) { + print("Example29 callItForMe(rand) '${callItForMe(rand)}'"); + if (v != 30) { + break; + } else { + continue; + } + // Nunca chega aqui. + } +} + +// Você pode converter string para int, double para int, ou só pegar a parte inteira da divisão +// usando o comando ~/. Vamos jogar um jogo de adivinhação. +example30() { + var gn, tooHigh = false, + n, n2 = (2.0).toInt(), top = int.parse("123") ~/ n2, bottom = 0; + top = top ~/ 6; + gn = new DM.Random().nextInt(top + 1); // +1 porque o máximo do nextInt conta o número passado - 1 + print("Example30 Diga um número entre 0 e ${top}"); + guessNumber(i) { + if (n == gn) { + print("Example30 Você acertou! O número é ${gn}"); + } else { + tooHigh = n > gn; + print("Example30 O número ${n} é muito " + "${tooHigh ? 'alto' : 'baixo'}. Tente de novo"); + } + return n == gn; + } + n = (top - bottom) ~/ 2; + while (!guessNumber(n)) { + if (tooHigh) { + top = n - 1; + } else { + bottom = n + 1; + } + n = bottom + ((top - bottom) ~/ 2); + } +} + +// Programas em Dart só têm um ponto de entrada, que é a função main. +// Nada será executado antes da funcão main de um programa. +// Isso ajuda a carregar o programa mais rapidamente, até mesmo quando o +// carregamento é "Lazy". +// O programa deve começar com: +main() { + print("Aprenda Dart em 15 minutos!"); + [example1, example2, example3, example4, example5, example6, example7, + example8, example9, example10, example11, example12, example13, example14, + example15, example16, example17, example18, example19, example20, + example21, example22, example23, example24, example25, example26, + example27, example28, example29, example30 + ].forEach((ef) => ef()); +} + +``` + +## Continue lendo + +Dart tem um site bastante fácil de entender. Ele tem os docs da API, tutoriais, artigos e muito mais, incluindo uma +opção muito útil de testar o Dart online. +* [https://www.dartlang.org](https://www.dartlang.org) +* [https://try.dartlang.org](https://try.dartlang.org) + + + + diff --git a/pt-br/dynamic-programming-pt.html.markdown b/pt-br/dynamic-programming-pt.html.markdown index 8de9bee6..84b055d9 100644 --- a/pt-br/dynamic-programming-pt.html.markdown +++ b/pt-br/dynamic-programming-pt.html.markdown @@ -22,16 +22,16 @@ Sempre se lembre!! ## Maneiras de Solucionar tais Problemas -1. Top-Down (De cima para baixo): Começe solucionando o problema quebrando-o em +1. Top-Down (De cima para baixo): Comece solucionando o problema quebrando-o em partes. Se você perceber que o problema já foi resolvido, então simplemente pegue a resposta salva. Se ainda não foi resolvido, solucione-o e salve a resposta. Isso é geralmente fácil de pensar e muito intuitivo. É geralmente referenciado como Memorização. 2. Bottom-Up (De baixo para cima): Analise o problema e veja a ordem em que os -subproblemas são resolvidos e começe a solucionar dos problemas mais triviais, +subproblemas são resolvidos e comece a solucionar dos problemas mais triviais, até o problema dado. Neste processo, é garantido que os subproblemas são -resolvidos antes de resoler o problema. Isto é referenciado como Programação Dinâmica. +resolvidos antes de resolver o problema. Isto é referenciado como Programação Dinâmica. ## Exemplo de Programação Dinâmica @@ -51,7 +51,7 @@ array antecedente e uma variável como maiorSequenciasAteAgora e seu índice ajudariam a poupar muito tempo. Um conceito similar poderia ser aplicado ao procurar o maior caminho em um grafo acíclico dirigido. ---------------------------------------------------------------------------- + ``` for i=0 to n-1 LS[i]=1 @@ -62,7 +62,7 @@ grafo acíclico dirigido. if (largest < LS[i]) ``` -### Alguns Problemas Famosos de Programação Dinâmica +## Alguns Problemas Famosos de Programação Dinâmica ``` Floyd Warshall Algorithm - Tutorial and C Program source code:http://www.thelearningpoint.net/computer-science/algorithms-all-to-all-shortest-paths-in-graphs---floyd-warshall-algorithm-with-c-program-source-code diff --git a/pt-br/elm-pt.html.markdown b/pt-br/elm-pt.html.markdown index 78a4f1b7..d2469a93 100644 --- a/pt-br/elm-pt.html.markdown +++ b/pt-br/elm-pt.html.markdown @@ -76,8 +76,8 @@ List.head [] -- Nothing -- Acesse os elementos de um par com as funções first e second. -- (Este é um atalho; nós iremos para o "caminho real" em breve.) -fst ("elm", 42) -- "elm" -snd ("elm", 42) -- 42 +Tuple.first ("elm", 42) -- "elm" +Tuple.second ("elm", 42) -- 42 -- Uma tupla vazia ou "unidade" às vezes é utilizada como um placeholder. -- É o único valor de seu tipo, também chamado de "Unit". diff --git a/pt-br/java-pt.html.markdown b/pt-br/java-pt.html.markdown index 82989502..1b9d7fc6 100644 --- a/pt-br/java-pt.html.markdown +++ b/pt-br/java-pt.html.markdown @@ -42,7 +42,7 @@ public class LearnJava { " Double: " + 3.14 + " Boolean: " + true); - // Para imprimir sem inserir uma nova lina, use o System.out.print + // Para imprimir sem inserir uma nova linha, use o System.out.print System.out.print("Olá "); System.out.print("Mundo"); diff --git a/pt-br/javascript-pt.html.markdown b/pt-br/javascript-pt.html.markdown index 7b6729ef..ed4a6ff3 100644 --- a/pt-br/javascript-pt.html.markdown +++ b/pt-br/javascript-pt.html.markdown @@ -25,7 +25,7 @@ Feedback são muito apreciados! Você me encontrar em ```js // Comentários são como em C. Comentários de uma linha começam com duas barras, -/* e comentários de múltplas linhas começam com barra-asterisco +/* e comentários de múltiplas linhas começam com barra-asterisco e fecham com asterisco-barra */ // comandos podem ser terminados com ; diff --git a/pt-br/json-pt.html.markdown b/pt-br/json-pt.html.markdown index fd822c03..62d9ccad 100644 --- a/pt-br/json-pt.html.markdown +++ b/pt-br/json-pt.html.markdown @@ -16,7 +16,7 @@ Como JSON é um formato de intercâmbio de dados, este será, muito provavelment JSON na sua forma mais pura não tem comentários, mas a maioria dos analisadores aceitarão comentários no estilo C (//, /\* \*/). No entanto estes devem ser evitados para otimizar a compatibilidade. -Um valor JSON pode ser um numero, uma string, um array, um objeto, um booleano (true, false) ou null. +Um valor JSON pode ser um número, uma string, um array, um objeto, um booleano (true, false) ou null. Os browsers suportados são: Firefox 3.5+, Internet Explorer 8.0+, Chrome 1.0+, Opera 10.0+, e Safari 4.0+. diff --git a/pt-br/latex-pt.html.markdown b/pt-br/latex-pt.html.markdown new file mode 100644 index 00000000..a9ed566e --- /dev/null +++ b/pt-br/latex-pt.html.markdown @@ -0,0 +1,291 @@ +--- +language: latex +contributors: + - ["Chaitanya Krishna Ande", "http://icymist.github.io"] + - ["Colton Kohnke", "http://github.com/voltnor"] + - ["Sricharan Chiruvolu", "http://sricharan.xyz"] + - ["Ramanan Balakrishnan", "https://github.com/ramananbalakrishnan"] + - ["Svetlana Golubeva", "https://attillax.github.io/"] +translators: + - ["Paulo Henrique Rodrigues Pinheiro", "https://github.com/paulohrpinheiro"] +lang: pt-br +filename: learn-latex-pt.tex +--- + +```tex +% Todas as linhas de comentários começam com % +% Não existem comentários multilinhas + +$ LaTeX não é um programa processador de textos "Visual" como +% MS Word ou OpenOffice Writer + +$ Todo comando LaTeX começa com uma barra invertida (\) + +% Documentos LaTeX começam com a definição do tipo que será % compilado +% Os tipos de documento podem ser livro, relatório, apresentação, etc. +% As opções para um documento aparecem entre [] chaves. Nesse caso +% está especificado que queremos o tamanho da fonte em 12pt. +\documentclass[12pt]{article} + +% Em seguida definimos os pacotes que o documento usa. +% Se você quiser incluir gráficos, texto colorido, ou código fonte de outra +% linguagem em outro arquivo em seu documento, você precisa ampliar as +% capacidade do LaTeX. Isso é feito adicionando-se pacotes. +% Serão incluídos os pacotes float e caption para imagens e hyperref +% para links. +\usepackage{caption} +\usepackage{float} +\usepackage{hyperref} + +% Para poder usar caracteres acentuados, use o seguinte pacote: +\usepackage[utf8]{inputenc} + +% Podemos definir algumas outras propriedades do documento também! +\author{Chaitanya Krishna Ande, Colton Kohnke, Sricharan Chiruvolu \& \\ +Svetlana Golubeva} +\date{\today} +\title{Aprenda \LaTeX \hspace{1pt} em Y Minutos!} + +% Agora estamos pronto para começar o documento +% Tudo antes dessa linha é chamado "preâmbulo". +\begin{document} +% Se informarmos os campos author (autores), date (data), "title" (título), +% LaTeX poderá cria uma página inicial para nós. +\maketitle +% Se tivermos seções, poderemos criar uma tabela de conteúdo. Para isso, +% o documento deve ser compilado duas vezes, para que tudo apareça na ordem +% correta. +% É uma voa prática separar a tabela de conteúdo do corpo do documento. Para +% isso usa-se o comando \newpage +\newpage +\tableofcontents + +\newpage + +% Muitos artigos de pesquisa possuem um resumo, e pode-se isar comandos +% predefinidos para isso. +% Isso deve aparecer em sua ordem lógica, portanto, após o topo, +% mas antes das seções principais do corpo. +% Esse comando está disponível para os documentos do tipo artigo (article) +% e relatório (report). +\begin{abstract} + Documentação do \LaTeX \hspace{1pt} escrita em \LaTeX! Nada original! +\end{abstract} + +% Comandos para seções são intuitivos. +% Todos os títulos de seção são adicionados automaticamente à tabela de conteúdo. +\section{Introdução} +Olá, meu nome é Colton e juntos estamos explorando o mundo do \LaTeX! + +\section{Outra seção} +Esse é o texto para outra seção. Penso que precisamos de uma subseção. + +\subsection{Isso é uma subseção} % Subseções também são intuitivas. +Penso que precisamos de mais uma + +\subsubsection{Pythagoras} +Muito melhor agora. +\label{subsec:pythagoras} + +% Ao usar o asterisco nós impedimos a numeração automática. +% Isso funciona para outros comandos \LaTeX também. +\section*{Essa é uma seção não numerada} +Afinal nem todas as seções precisam ser numeradas! + +\section{Algumas notas sobre texto} +%\section{Espaçamento % É necessário mais informação sobre intervalos de espaço. +\LaTeX \hspace{1pt} geralmente é muito bom sobre colocar texto onde ele deve +ser posto. Se +uma linha \\ deve \\ ser \\ quebrada \\ adicione \textbackslash\textbackslash +\hspace{1pt} ao código de seu documento. \\ + +\section{Listas} +Listas são uma das coisas mais fáceis de criar no \LaTeX! Preciso fazer compras +amanhã, então façamos uma lista de compras. +\begin{enumerate} % Isso cria o bloco "enumerate". + % \item faz com que o enumerate incremente + \item Salada. + \item 27 melancias. + \item Uma lebre. + % pode-se também sobrescrever o número do item usando [] + \item[quantas?] Pistolas de água médias. + + Não é um item da lista, mas faz parte do bloco enumerate. + + \end{enumerate} % Todos os blocos devem ter um final (end{}). + +\section{Matemática} + +Um dos usos iniciais para \LaTeX \hspace{1pt} foi a produção de artigos +acadêmicos e técnicos. Usualmente nos campos da matemática e ciência. Assim, é +necessários que consigamos incluir alguns símbolos especiais em nosso texto! \\ + +A matemática tem muitos símbolos, além dos quais se pode encontrar no teclado; +símbolos para relações e conjuntos, setas, operadores, e letras gregas, apenas +para mencionar alguns.\\ + +Conjuntos e relações são essenciais em muitos textos de pesquisa em matemática. +Aqui está como você pode indicar como todo x que pertence +a X, $\forall$ x $\in$ X. \\ +% Perceba que é necessário adicionar os sinais $ antes e depois dos símbolos. +% Isso é porque quando escrevendo, estamos em modo texto. +% Mas os símbolos de matemática só existem no modo matemática. +% Podemos entrar no modo matemática a partir do modo texto com os símbolos $. +% O oposto também pode ocorrer. Variáveis podem ser renderizadas no modo +% matemática. +% Também podemos entrar no modo matemática com \[\] + +\[a^2 + b^2 = c^2 \] + +Minha letra grega favorita é $\xi$. Eu também gosto da $\beta$, $\gamma$ e $\sigma$. +Eu ainda não encontrei uma letra grega que o \LaTeX \hspace{1pt} não tenha!\\ + +Operadores são parte essencial de um documento sobre matemática: +funções trigonométricas ($\sin$, $\cos$, $\tan$), +logaritmo e exponencial ($\log$, $\exp$), +limites ($\lim$), etc. +possuem comandos pré-definidos em LaTex. +Vamos escrever uma equação para ver como se faz: +$\cos(2\theta) = \cos^{2}(\theta) - \sin^{2}(\theta)$ \\ + +Frações (numerador/denominador) podem ser escritas dessa forma: + +% 10 / 7 +$$ ^{10}/_{7} $$ + +% Frações relativamente complexas podem ser escritas como +% \frac{numerator}{denominator} +$$ \frac{n!}{k!(n - k)!} $$ \\ + +Também podemos escrever equações em um ``bloco de equação''. + +% Apresenta matemática com o 'bloco' equação +\begin{equation} % entra no modo matemática + c^2 = a^2 + b^2. + \label{eq:pythagoras} % para referência + \end{equation} % toda declaração \begin precisa de uma declaração end + +Podemos então referenciar nossa nova equação! +A equação~\ref{eq:pythagoras} é também conhecida como Teorema de Pitágoras que é +também assunto da Seção~\ref{subsec:pythagoras}. Muitas coisas podem ser +rotuladas: figuras, equações, seções, etc. + +Somatórios e Integrais são escritas com os comandos sum e int: + +% Alguns compiladores LaTeX irão reclamar se existirem linhas em branco +% em um bloco de equação. +\begin{equation} + \sum_{i=0}^{5} f_{i} +\end{equation} +\begin{equation} + \int_{0}^{\infty} \mathrm{e}^{-x} \mathrm{d}x +\end{equation} + +\section{Figuras} + +Insiramos uma Figura. O local para colocar a figura pode ser difícil +de determinar. Eu tenho sempre que verificar as opções toda vez. + +\begin{figure}[H] % H aqui é uma opção para o local da figura. + \centering % centra a figura na página + % Inclui uma figura com escala de 0.8 do tamanho da página. + %\includegraphics[width=0.8\linewidth]{right-triangle.png} + % Comentado para propósitos de compilação. Por favor, use sua imaginação. + \caption{Triângulo retângulo com lados $a$, $b$, $c$} + \label{fig:right-triangle} +\end{figure} + +\subsection{Tabelas} +Também podemos incluir tabelas da mesma forma que figuras. + +\begin{table}[H] + \caption{Título para a Tabela.} + % os argumentos {} abaixo descrevem como cada linha da tabela é desenhada. + % Aqui também, Preciso ver isso. Toda. E. Cada. Vez. + \begin{tabular}{c|cc} + Número & Sobrenome & Primeiro Nome \\ % Colunas são separadas por & + \hline % uma linha horizontal + 1 & Biggus & Dickus \\ + 2 & Monty & Python + \end{tabular} +\end{table} + +\section{Fazendo o \LaTeX \hspace{1pt} não compilar algo (o código fonte)} +Digamos que precisamos incluir algum código dentro do nosso +documento \LaTeX \hspace{1pt}, para isso precisamos com o \LaTeX \hspace{1pt} +não tente interpretar esse texto e que apenas inclua ele no documento. Fazemos +isso com o bloco verbatim. + +% Existem outros pacotes (por exemplo, minty, lstlisting, etc.) +% mas verbatim é o básico +\begin{verbatim} + print("Hello World!") + a%b; % olha só! Podemos usar os sinais % no bloco verbatim. + random = 4; #decided by fair random dice roll +\end{verbatim} + +\section{Compilando} + +Imagino que agora você esteja pensando como compilar esse fantástico documento +e visualizar a gloriosa glória que é um pdf gerado por \LaTeX \hspace{1pt} pdf. +(sim, esse documento é compilável). \\ + +Finalizando o documento usando \LaTeX \hspace{1pt} consiste nos seguintes passos: + \begin{enumerate} + \item Escrever o documento em texto puro (o ``código fonte''). + \item Compilar o código fonte para gerar um pdf. + Os passos para compilar se parecem (em Linux) com: \\ + \begin{verbatim} + > pdflatex learn-latex.tex + \end{verbatim} + \end{enumerate} + +Existem editores de \LaTeX \hspace{1pt} que combinam os passos 1 e 2 no mesmo +sistema de software. Assim, você pode ver o passo 1, mas não o passo 2 por +completo. Passo 2 estará acontecendo escondido\footnote{Por exemplo, quando usar +referências (como Equação~\ref{eq:pythagoras}), pode ser necessário executar o +passo 2 várias vezes, para gerar arquivos *.aux intermediários.}. +% É assim que você adiciona notas de rodapé em seus documentos! + +Você escreve toda a informação de formatação em texto puro, no passo 1. O +momento da compilação no passo 2 é responsável por produzir o documento no +formato que você definiu no passo 1. + +\section{Links} +Nós podemos inserir links em nosso documento. Para isso nós necessitamos incluir +o pacote hyperref no preâmbulo com o comando: +\begin{verbatim} + \usepackage{hyperref} +\end{verbatim} + +Existem dois tipos principais de links: URL visíveis \\ +\url{https://learnxinyminutes.com/docs/latex/}, ou +\href{https://learnxinyminutes.com/docs/latex/}{um texto alternativo} +% Você não pode adicionar espaços extras ou símbolos especiais no texto +% alternativo, pois isso causará problemas na compilação. + +Esse pacote também produz uma lista de thumbnails no documento pdf gerado e +ativa os links na tabela de conteúdo. + +\section{End} + +Por enquanto é isso! + +% Frequentemente você precisa de uma seção de referências em seu documento. +% A forma mais fácil de configurá-la é usando uma seção de bibliografia +\begin{thebibliography}{1} + % como em outras listas, o comando \bibitem pode ser usado para itens da lista + % cada entrada pode ser citada diretamente no corpo do texto + \bibitem{latexwiki} The amazing \LaTeX \hspace{1pt} wikibook: {\em +https://en.wikibooks.org/wiki/LaTeX} + \bibitem{latextutorial} An actual tutorial: {\em http://www.latex-tutorial.com} +\end{thebibliography} + +% end the document +\end{document} +``` + +## Mais sobre LaTeX + +* The amazing LaTeX wikibook: [https://en.wikibooks.org/wiki/LaTeX](https://en.wikibooks.org/wiki/LaTeX) +* An actual tutorial: [http://www.latex-tutorial.com/](http://www.latex-tutorial.com/) diff --git a/pt-br/markdown-pt.html.markdown b/pt-br/markdown-pt.html.markdown index f22093f9..c2aa515d 100644 --- a/pt-br/markdown-pt.html.markdown +++ b/pt-br/markdown-pt.html.markdown @@ -14,7 +14,7 @@ escrever sintaxe que converte facilmente em HTML (hoje, suporta outros formatos Dê-me feedback tanto quanto você quiser! / Sinta-se livre para a garfar (fork) e puxar o projeto (pull request) -```markdown +```md <!-- Markdown é um superconjunto do HTML, de modo que qualquer arvquivo HTML é um arquivo Markdown válido, isso significa que nós podemos usar elementos HTML em Markdown, como o elemento de comentário, e eles não serão afetados pelo analisador diff --git a/pt-br/perl-pt.html.markdown b/pt-br/perl-pt.html.markdown index cc07a2ec..217861f9 100644 --- a/pt-br/perl-pt.html.markdown +++ b/pt-br/perl-pt.html.markdown @@ -21,7 +21,7 @@ Perl 5 roda em mais de 100 plataformas, de portáteis a mainframes e é adequada # Variáveis iniciam com um sigilo, que é um símbolo que mostra o tipo. # Um nome de variável válido começa com uma letra ou sublinhado, -# seguido por qualquer número de letras, números ou sublinhados. +# seguido por qualquer quantidade de letras, números ou sublinhados. ### Perl has three main variable types: $scalar, @array, e %hash. @@ -52,10 +52,10 @@ my %fruta_cor = ( banana => "amarelo", ); -# Scalars, arrays and hashes são documentados mais profundamentes em perldata. +# Scalars, arrays and hashes são documentados mais profundamente em perldata. # (perldoc perldata). -# Mais tipos de dados complexos podem ser construídas utilizando referências, +# Mais tipos de dados complexos podem ser construídos utilizando referências, # o que permite que você crie listas e hashes dentro de listas e hashes. #### Condicionais e construtores de iteração diff --git a/pt-br/solidity-pt.html.markdown b/pt-br/solidity-pt.html.markdown index 37d15bf2..d4555fa7 100644 --- a/pt-br/solidity-pt.html.markdown +++ b/pt-br/solidity-pt.html.markdown @@ -1,6 +1,6 @@ --- language: Solidity -filename: learnSolidity.sol +filename: learnSolidity-br.sol contributors: - ["Nemil Dalal", "https://www.nemil.com"] - ["Joseph Chow", ""] diff --git a/pt-br/visualbasic-pt.html.markdown b/pt-br/visualbasic-pt.html.markdown index 76cca567..2a7205cd 100644 --- a/pt-br/visualbasic-pt.html.markdown +++ b/pt-br/visualbasic-pt.html.markdown @@ -8,16 +8,16 @@ lang: pt-br filename: learnvisualbasic-pt.vb --- -```vb +``` Module Module1 module Module1 Sub Main () ' Uma visão geral de console de aplicativos do Visual Basic antes de - ' mergulharmos mais profundamente na linguagem + ' mergulharmos mais profundamente na linguagem. ' Aspas simples começam comentários. - ' Para Navegar este tutorial dentro do compilador do Visual Basic, + ' Para navegar neste tutorial dentro do compilador do Visual Basic, ' eu criei um sistema de navegação. ' Este sistema de navegação vai ser explicado conforme avançarmos no ' tutorial, e você vai entender o que isso significa. @@ -93,16 +93,16 @@ module Module1 Private Sub HelloWorldInput () Console.Title = " Olá Mundo YourName | Saiba X em Y Minutes" ' Variáveis - 'Os dados inseridos por um usuário precisa ser armazenada . + 'Os dados inseridos por um usuário precisam ser armazenados. ' As variáveis também começar com um Dim e terminar com um Como VariableType . - ' Neste tutorial, nós queremos saber o que o seu nome, e faça o programa + ' Neste tutorial, nós queremos saber qual é o seu nome, e faça o programa ' Responder ao que é dito. Nome de usuário Dim As String " Nós usamos string como string é uma variável de texto baseado . Console.WriteLine (" Olá, Qual é o seu nome? ") ' Peça ao usuário seu nome. - username = Console.ReadLine () ' armazena o nome usuários. - Console.WriteLine (" Olá " + nome do usuário) " A saída é Olá ' Seu nome ' + username = Console.ReadLine () ' armazena o nome do usuário. + Console.WriteLine (" Olá " + username) ' A saída é "Olá < seu nome >". Console.ReadLine () ' Outsputs acima. ' O código acima irá lhe fazer uma pergunta seguiu imprimindo sua resposta. " Outras variáveis incluem Integer e usamos inteiro para números inteiros. diff --git a/pt-br/whip-pt.html.markdown b/pt-br/whip-pt.html.markdown new file mode 100644 index 00000000..989bae05 --- /dev/null +++ b/pt-br/whip-pt.html.markdown @@ -0,0 +1,247 @@ +--- +language: whip +contributors: + - ["Tenor Biel", "http://github.com/L8D"] + - ["Saurabh Sandav", "http://github.com/SaurabhSandav"] +author: Tenor Biel +author_url: http://github.com/L8D +translators: + - ["Paulo Henrique Rodrigues Pinheiro", "https://github.com/paulohrpinheiro"] +lang: pt-br +filename: whip-pt.lisp +--- + +Whip é um dialeto de Lisp feito para construir scripts e trabalhar com +conceitos mais simples. +Ele também copia muitas funções e sintaxe de Haskell (uma linguagem não correlata) + +Esse documento foi escrito pelo próprio autor da linguagem. Então é isso. + +```scheme +; Comentário são como em Lisp. Pontos-e-vírgulas... + +; A maioria das declarações de primeiro nível estão dentro de "listas" +; que nada mais são que coisas entre parêntesis separadas por espaços em branco +nao_é_uma_lista +(uma lista) + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +; 1. Números, texto e operadores + +; Whip tem um tipo numérico (que é um double de 64 bits IEE 754, do JavaScript) +3 ; => 3 +1.5 ; => 1.5 + +; Funções são chamadas se elas são o primeiro elemento em uma lista +(funcao_chamada argumentos) + +; A maioria das operações são feitas com funções +; Todas as funções aritméticas básicas são bem diretas +(+ 1 1) ; => 2 +(- 2 1) ; => 1 +(* 1 2) ; => 2 +(/ 2 1) ; => 2 +; até mesmo o módulo +(% 9 4) ; => 1 +; Divisão não inteira ao estilo JavaScript. +(/ 5 2) ; => 2.5 + +; Aninhamento de listas funciona como esperado. +(* 2 (+ 1 3)) ; => 8 + +; Há um tipo boleano. +true +false + +; Textos são criados com ". +"Hello, world" + +; Caracteres são criados com '. +'a' + +; Para negação usa-se a função 'not'. +(not true) ; => false +(not false) ; => true + +; Mas a maioria das funções não-haskell tem atalhos +; o não atalho é um '!'. +(! (! true)) ; => true + +; Igualdade é `equal` ou `=`. +(= 1 1) ; => true +(equal 2 1) ; => false + +; Por exemplo, inigualdade pode ser verificada combinando as funções +;`not` e `equal`. +(! (= 2 1)) ; => true + +; Mais comparações +(< 1 10) ; => true +(> 1 10) ; => false +; e suas contra partes para texto. +(lesser 1 10) ; => true +(greater 1 10) ; => false + +; Texto pode ser concatenado com +. +(+ "Hello " "world!") ; => "Hello world!" + +; Você pode usar as características comparativas do JavaScript. +(< 'a' 'b') ; => true +; ... e coerção de tipos +(= '5' 5) + +; As funções `at` ou `@` acessarão caracteres de um texto, começando em 0. +(at 0 'a') ; => 'a' +(@ 3 "foobar") ; => 'b' + +; Também existem as variáveis `null` e `undefined`. +null ; usada para indicar a ausência de algum valor +undefined ; usada para indicar que um valor não foi informado + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +; 2. Variáveis, matrizes e dicionários + +; Variáveis são declaradas com as funções `def` ou `let`. +; Variáveis que não tiveram valor atribuído serão `undefined`. +(def some_var 5) +; `def` deixará a variável no contexto global. +; `let` deixará a variável no contexto local, e tem uma sintaxe estranha. +(let ((a_var 5)) (+ a_var 5)) ; => 10 +(+ a_var 5) ; = undefined + 5 => undefined + +; Matrizes são listas de valores de qualquer tipo. +; Elas basicamente são listas sem funções no início +(1 2 3) ; => [1, 2, 3] (sintaxe JavaScript) + +; Dicionários em Whip são o equivalente a 'object' em JavaScript ou +; 'dict' em python ou 'hash' em Ruby: eles s]ão uma coleção desordenada +de pares chave-valor. +{"key1" "value1" "key2" 2 3 3} + +; Chaves podem ser apenas identificadores, números ou texto. +(def my_dict {my_key "my_value" "my other key" 4}) +; Mas em Whip, dicionários são parceados como: valor, espaço, valor; +; com mais espaço entre cada. Então isso significa que +{"key" "value" +"another key" +1234 +} +é avaliado da mesma forma que +{"key" "value" "another key" 1234} + +; Dicionários podem ser acessados usando a função `at` +; (como em texto e listas) +(@ "my other key" my_dict) ; => 4 + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +; 3. Lógica e controle de fluxo + +; A função `if` é muito simples, ainda que muito diferente do que em muitas +linguagens imperativas. +(if true "returned if first arg is true" "returned if first arg is false") +; => "returned if first arg is true" + +; E por conta do legado operador ternário +; `?` é o atalho não utilizado para `if`. +(? false true false) ; => false + +; `both` é uma declaração lógica `and`, e `either` é o `or` lógico. +(both true true) ; => true +(both true false) ; => false +(either true false) ; => true +(either false false) ; => false +; E seus atalhos são +; & => both +; ^ => either +(& true true) ; => true +(^ false true) ; => true + +;;;;;;;;; +; Lambdas + +; Lambdas em Whip são declaradas com as funções `lambda` ou `->`. +; E funções são na verdade lambdas com nomes. +(def my_function (-> (x y) (+ (+ x y) 10))) +; | | | | +; | | | valor retornado (com escopo contento argumentos) +; | | argumentos +; | declaração de funções lambda +; | +; nome do lambda a ser declarado + +(my_function 10 10) ; = (+ (+ 10 10) 10) => 30 + +; Obviamente, todos os lambdas por definição são anônimos e +; tecnicamente sempre usados anonimamente. Redundância. +((lambda (x) x) 10) ; => 10 + +;;;;;;;;;;;;;;;; +; Comprehensions + +; `range` or `..` geram uma lista dos números para +; cada número entre seus dois argumentos. +(range 1 5) ; => (1 2 3 4 5) +(.. 0 2) ; => (0 1 2) + +; `map` aplica seu primeiro argumento (que deve ser um lambda/função) +; a cada item dos argumentos seguintes (que precisa ser uma lista) +(map (-> (x) (+ x 1)) (1 2 3)) ; => (2 3 4) + +; Reduce +(reduce + (.. 1 5)) +; equivalente a +((+ (+ (+ 1 2) 3) 4) 5) + +; Nota: map e reduce não possuem atalhos + +; `slice` ou `\` é similar ao .slice() do JavaScript +; mas veja que ele pega uma lista como primeiro argumento, não o último. +(slice (.. 1 5) 2) ; => (3 4 5) +(\ (.. 0 100) -5) ; => (96 97 98 99 100) + +; `append` ou `<<` são auto explicativos +(append 4 (1 2 3)) ; => (1 2 3 4) +(<< "bar" ("foo")) ; => ("foo" "bar") + +; Length é auto explicativo. +(length (1 2 3)) ; => 3 +(_ "foobar") ; => 6 + +;;;;;;;;;;;;;;; +; Delicadezas Haskell + +; Primeiro item de uma lista +(head (1 2 3)) ; => 1 +; Pega do segundo ao último elemento de uma lista +(tail (1 2 3)) ; => (2 3) +; Último item de uma lista +(last (1 2 3)) ; => 3 +; Contrário de `tail` +(init (1 2 3)) ; => (1 2) +; Pega do primeiro até o elemento especificado da lista +(take 1 (1 2 3 4)) ; (1 2) +; Contrário de `take` +(drop 1 (1 2 3 4)) ; (3 4) +; Menos valor em uma lista +(min (1 2 3 4)) ; 1 +; Maior valor em uma lista +(max (1 2 3 4)) ; 4 +; Verifica se o valor está em uma lista ou objeto +(elem 1 (1 2 3)) ; true +(elem "foo" {"foo" "bar"}) ; true +(elem "bar" {"foo" "bar"}) ; false +; Inverte a ordem de uma lista +(reverse (1 2 3 4)) ; => (4 3 2 1) +; Verifica se o valor é par ou ímpar +(even 1) ; => false +(odd 1) ; => true +; Separa um texto cortando por espaço em branco +(words "foobar nachos cheese") ; => ("foobar" "nachos" "cheese") +; Junta lista de textos +(unwords ("foo" "bar")) ; => "foobar" +; Sucessor e predecessor +(pred 21) ; => 20 +(succ 20) ; => 21 +``` + +Para mais informação, verifique o [repositório](http://github.com/L8D/whip) diff --git a/python.html.markdown b/python.html.markdown index 946cbc0c..df1ca6f2 100644 --- a/python.html.markdown +++ b/python.html.markdown @@ -7,6 +7,7 @@ contributors: - ["evuez", "http://github.com/evuez"] - ["asyne", "https://github.com/justblah"] - ["habi", "http://github.com/habi"] + - ["Rommel Martinez", "https://ebzzry.io"] filename: learnpython.py --- @@ -363,6 +364,12 @@ filled_set | other_set # => {1, 2, 3, 4, 5, 6} # Check for existence in a set with in 2 in filled_set # => True 10 in filled_set # => False +10 not in filled_set # => True + +# Check data type of variable +type(li) # => list +type(filled_dict) # => dict +type(5) # => int #################################################### @@ -502,9 +509,9 @@ all_the_args(1, 2, a=3, b=4) prints: # Use * to expand positional args and use ** to expand keyword args. args = (1, 2, 3, 4) kwargs = {"a": 3, "b": 4} -all_the_args(*args) # equivalent to foo(1, 2, 3, 4) -all_the_args(**kwargs) # equivalent to foo(a=3, b=4) -all_the_args(*args, **kwargs) # equivalent to foo(1, 2, 3, 4, a=3, b=4) +all_the_args(*args) # equivalent to all_the_args(1, 2, 3, 4) +all_the_args(**kwargs) # equivalent to all_the_args(a=3, b=4) +all_the_args(*args, **kwargs) # equivalent to all_the_args(1, 2, 3, 4, a=3, b=4) # you can pass args and kwargs along to other functions that take args/kwargs diff --git a/python3.html.markdown b/python3.html.markdown index 5aa61b65..b378a8c6 100644 --- a/python3.html.markdown +++ b/python3.html.markdown @@ -6,6 +6,8 @@ contributors: - ["Andre Polykanine", "https://github.com/Oire"] - ["Zachary Ferguson", "http://github.com/zfergus2"] - ["evuez", "http://github.com/evuez"] + - ["Rommel Martinez", "https://ebzzry.io"] + - ["Roberto Fernandez Diaz", "https://github.com/robertofd1995"] filename: learnpython3.py --- @@ -137,6 +139,10 @@ len("This is a string") # => 16 # still use the old style of formatting: "%s can be %s the %s way" % ("Strings", "interpolated", "old") # => "Strings can be interpolated the old way" +# You can also format using f-strings or formatted string literals +name = "Reiko" +f"She said her name is {name}." # => "She said her name is Reiko" + # None is an object None # => None @@ -209,9 +215,9 @@ li[4] # Raises an IndexError # The start index is included, the end index is not # (It's a closed/open range for you mathy types.) li[1:3] # => [2, 4] -# Omit the end +# Omit the beginning and return the list li[2:] # => [4, 3] -# Omit the beginning +# Omit the end and return the list li[:3] # => [1, 2, 4] # Select every second entry li[::2] # =>[1, 4] @@ -347,6 +353,8 @@ valid_set = {(1,), 1} # Add one more item to the set filled_set = some_set filled_set.add(5) # filled_set is now {1, 2, 3, 4, 5} +# Sets do not have duplicate elements +filled_set.add(5) # it remains as before {1, 2, 3, 4, 5} # Do set intersection with & other_set = {3, 4, 5, 6} @@ -546,9 +554,9 @@ all_the_args(1, 2, a=3, b=4) prints: # Use * to expand tuples and use ** to expand kwargs. args = (1, 2, 3, 4) kwargs = {"a": 3, "b": 4} -all_the_args(*args) # equivalent to foo(1, 2, 3, 4) -all_the_args(**kwargs) # equivalent to foo(a=3, b=4) -all_the_args(*args, **kwargs) # equivalent to foo(1, 2, 3, 4, a=3, b=4) +all_the_args(*args) # equivalent to all_the_args(1, 2, 3, 4) +all_the_args(**kwargs) # equivalent to all_the_args(a=3, b=4) +all_the_args(*args, **kwargs) # equivalent to all_the_args(1, 2, 3, 4, a=3, b=4) # Returning multiple values (with tuple assignments) def swap(x, y): @@ -669,7 +677,7 @@ class Human: # An instance method. All methods take "self" as the first argument def say(self, msg): - print ("{name}: {message}".format(name=self.name, message=msg)) + print("{name}: {message}".format(name=self.name, message=msg)) # Another instance method def sing(self): @@ -740,10 +748,105 @@ if __name__ == '__main__': #################################################### -## 6.1 Multiple Inheritance +## 6.1 Inheritance +#################################################### + +# Inheritance allows new child classes to be defined that inherit methods and +# variables from their parent class. + +# Using the Human class defined above as the base or parent class, we can +# define a child class, Superhero, which inherits the class variables like +# "species", "name", and "age", as well as methods, like "sing" and "grunt" +# from the Human class, but can also have its own unique properties. + +# To take advantage of modularization by file you could place the classes above in their own files, +# say, human.py + +# To import functions from other files use the following format +# from "filename-without-extension" import "function-or-class" + +from human import Human + + +# Specify the parent class(es) as parameters to the class definition +class Superhero(Human): + + # If the child class should inherit all of the parent's definitions without + # any modifications, you can just use the "pass" keyword (and nothing else) + # but in this case it is commented out to allow for a unique child class: + # pass + + # Child classes can override their parents' attributes + species = 'Superhuman' + + # Children automatically inherit their parent class's constructor including + # its arguments, but can also define additional arguments or definitions + # and override its methods such as the class constructor. + # This constructor inherits the "name" argument from the "Human" class and + # adds the "superpower" and "movie" arguments: + def __init__(self, name, movie=False, + superpowers=["super strength", "bulletproofing"]): + + # add additional class attributes: + self.fictional = True + self.movie = movie + self.superpowers = superpowers + + # The "super" function lets you access the parent class's methods + # that are overridden by the child, in this case, the __init__ method. + # This calls the parent class constructor: + super().__init__(name) + + # override the sing method + def sing(self): + return 'Dun, dun, DUN!' + + # add an additional instance method + def boast(self): + for power in self.superpowers: + print("I wield the power of {pow}!".format(pow=power)) + + +if __name__ == '__main__': + sup = Superhero(name="Tick") + + # Instance type checks + if isinstance(sup, Human): + print('I am human') + if type(sup) is Superhero: + print('I am a superhero') + + # Get the Method Resolution search Order used by both getattr() and super() + # This attribute is dynamic and can be updated + print(Superhero.__mro__) # => (<class '__main__.Superhero'>, + # => <class 'human.Human'>, <class 'object'>) + + # Calls parent method but uses its own class attribute + print(sup.get_species()) # => Superhuman + + # Calls overridden method + print(sup.sing()) # => Dun, dun, DUN! + + # Calls method from Human + sup.say('Spoon') # => Tick: Spoon + + # Call method that exists only in Superhero + sup.boast() # => I wield the power of super strength! + # => I wield the power of bulletproofing! + + # Inherited class attribute + sup.age = 31 + print(sup.age) # => 31 + + # Attribute that only exists within Superhero + print('Am I Oscar eligible? ' + str(sup.movie)) + +#################################################### +## 6.2 Multiple Inheritance #################################################### # Another class definition +# bat.py class Bat: species = 'Baty' @@ -765,31 +868,25 @@ if __name__ == '__main__': print(b.say('hello')) print(b.fly) -# To take advantage of modularization by file you could place the classes above in their own files, -# say, human.py and bat.py - -# To import functions from other files use the following format -# from "filename-without-extension" import "function-or-class" +# And yet another class definition that inherits from Superhero and Bat # superhero.py -from human import Human +from superhero import Superhero from bat import Bat -# Batman inherits from both Human and Bat -class Batman(Human, Bat): - - # Batman has its own value for the species class attribute - species = 'Superhero' +# Define Batman as a child that inherits from both Superhero and Bat +class Batman(Superhero, Bat): def __init__(self, *args, **kwargs): # Typically to inherit attributes you have to call super: - #super(Batman, self).__init__(*args, **kwargs) + # super(Batman, self).__init__(*args, **kwargs) # However we are dealing with multiple inheritance here, and super() # only works with the next base class in the MRO list. # So instead we explicitly call __init__ for all ancestors. # The use of *args and **kwargs allows for a clean way to pass arguments, # with each parent "peeling a layer of the onion". - Human.__init__(self, 'anonymous', *args, **kwargs) + Superhero.__init__(self, 'anonymous', movie=True, + superpowers=['Wealthy'], *args, **kwargs) Bat.__init__(self, *args, can_fly=False, **kwargs) # override the value for the name attribute self.name = 'Sad Affleck' @@ -801,22 +898,17 @@ class Batman(Human, Bat): if __name__ == '__main__': sup = Batman() - # Instance type checks - if isinstance(sup, Human): - print('I am human') - if isinstance(sup, Bat): - print('I am bat') - if type(sup) is Batman: - print('I am Batman') - # Get the Method Resolution search Order used by both getattr() and super(). # This attribute is dynamic and can be updated - print(Batman.__mro__) # => (<class '__main__.Batman'>, <class 'human.Human'>, <class 'bat.Bat'>, <class 'object'>) + print(Batman.__mro__) # => (<class '__main__.Batman'>, + # => <class 'superhero.Superhero'>, + # => <class 'human.Human'>, + # => <class 'bat.Bat'>, <class 'object'>) # Calls parent method but uses its own class attribute - print(sup.get_species()) # => Superhero + print(sup.get_species()) # => Superhuman - # Calls overloaded method + # Calls overridden method print(sup.sing()) # => nan nan nan nan nan batman! # Calls method from Human, because inheritance order matters @@ -827,10 +919,10 @@ if __name__ == '__main__': # Inherited class attribute sup.age = 100 - print(sup.age) + print(sup.age) # => 100 # Inherited attribute from 2nd ancestor whose default value was overridden. - print('Can I fly? ' + str(sup.fly)) + print('Can I fly? ' + str(sup.fly)) # => Can I fly? False diff --git a/pythonstatcomp.html.markdown b/pythonstatcomp.html.markdown index 79bbcd8d..6dde1cf0 100644 --- a/pythonstatcomp.html.markdown +++ b/pythonstatcomp.html.markdown @@ -13,10 +13,11 @@ This is a tutorial on how to do some typical statistical programming tasks using # 0. Getting set up ==== -""" Get set up with IPython and pip install the following: numpy, scipy, pandas, +""" To get started, pip install the following: jupyter, numpy, scipy, pandas, matplotlib, seaborn, requests. - Make sure to do this tutorial in the IPython notebook so that you get - the inline plots and easy documentation lookup. + Make sure to do this tutorial in a Jupyter notebook so that you get + the inline plots and easy documentation lookup. The shell command to open + one is simply `jupyter notebook`, then click New -> Python. """ # 1. Data acquisition ==== diff --git a/r.html.markdown b/r.html.markdown index 7a94ba05..e7486e60 100644 --- a/r.html.markdown +++ b/r.html.markdown @@ -663,7 +663,8 @@ require(plyr) # "pets.csv" is a file on the internet # (but it could just as easily be a file on your own computer) -pets <- read.csv("http://learnxinyminutes.com/docs/pets.csv") +require(RCurl) +pets <- read.csv(textConnection(getURL("http://learnxinyminutes.com/docs/pets.csv"))) pets head(pets, 2) # first two rows tail(pets, 1) # last row diff --git a/ro-ro/elixir-ro.html.markdown b/ro-ro/elixir-ro.html.markdown new file mode 100644 index 00000000..10fec3c5 --- /dev/null +++ b/ro-ro/elixir-ro.html.markdown @@ -0,0 +1,459 @@ +--- +language: elixir +contributors: + - ["Joao Marques", "http://github.com/mrshankly"] + - ["Dzianis Dashkevich", "https://github.com/dskecse"] + - ["Ryan Plant", "https://github.com/ryanplant-au"] + - ["Ev Bogdanov", "https://github.com/evbogdanov"] +translators: + - ["Vitalie Lazu", "https://github.com/vitaliel"] +lang: ro-ro +filename: learnelixir-ro.ex +--- + +Elixir este un limbaj funcțional modern construit pe baza mașinii virtuale Erlang. +E total compatibil cu Erlang, dar are o sintaxă mai prietenoasă și propune mai multe +posibilități. + +```elixir + +# Comentariile de o linie încep cu simbolul diez. + +# Pentru comentarii pe mai multe linii nu există sintaxă separată, +# de aceea folosiți mai multe linii cu comentarii. + +# Pentru a folosi shell-ul elixir utilizați comanda `iex`. +# Compilați modulele cu comanda `elixirc`. + +# Ambele comenzi vor lucra în terminal, dacă ați instalat Elixir corect. + +## --------------------------- +## -- Tipuri de bază +## --------------------------- + +# Numere +3 # număr întreg +0x1F # număr întreg +3.0 # număr cu virgulă mobilă + +# Atomii, sunt constante nenumerice. Ei încep cu `:`. +:salut # atom + +# Tuplele sunt păstrate în memorie consecutiv. +{1,2,3} # tuple + +# Putem accesa elementul tuplelui folosind funcția `elem`: +elem({1, 2, 3}, 0) #=> 1 + +# Listele sunt implementate ca liste înlănțuite. +[1,2,3] # listă + +# Fiecare listă ne vidă are cap (primul element al listei) +# și coadă (restul elementelor). +# Putem accesa capul și coada listei cum urmează: +[cap | coadă] = [1,2,3] +cap #=> 1 +coadă #=> [2, 3] + +# În Elixir, ca și în Erlang, simbolul `=` denotă potrivirea șabloanelor și +# nu atribuire. +# +# Aceasta înseamnă că expresia din stînga (șablonul) se potrivește cu +# expresia din dreaptă. +# +# În modul acesta exemplul de mai sus lucrează accesînd capul și coada unei liste. + +# Potrivirea șablonului va da eroare cînd expresiile din stînga și dreapta nu se +# potrivesc, în exemplu acesta tuplele au lungime diferită. +{a, b, c} = {1, 2} #=> ** (MatchError) + +# Există și date binare +<<1,2,3>> + +# Sunt două tipuri de șiruri de caractere +"salut" # șir de caractere Elixir +'salut' # listă de caractere Erlang + +# Șir de caractere pe mai multe linii +""" +Sunt un șir de caractere +pe mai multe linii. +""" +#=> "Sunt un șir de caractere\npe mai multe linii..\n" + +# Șirurile de caractere sunt codificate în UTF-8: +"Bună dimineața" #=> "Bună dimineața" + +# Șirurile de caractere sunt date binare, listele de caractere doar liste. +<<?a, ?b, ?c>> #=> "abc" +[?a, ?b, ?c] #=> 'abc' + +# `?a` în Elixir întoarce codul ASCII pentru litera `a` +?a #=> 97 + +# Pentru a concatena listele folosiți `++`, pentru date binare - `<>` +[1,2,3] ++ [4,5] #=> [1,2,3,4,5] +'Salut ' ++ 'lume' #=> 'Salut lume' + +<<1,2,3>> <> <<4,5>> #=> <<1,2,3,4,5>> +"Salut " <> "lume" #=> "Salut lume" + +# Diapazoanele sunt reprezentate ca `început..sfîrșit` (inclusiv) +1..10 #=> 1..10 +început..sfîrșit = 1..10 # Putem folosi potrivirea șabloanelor cu diapazoane de asemenea +[început, sfîrșit] #=> [1, 10] + +# Dicţionarele stochează chei şi o valoare pentru fiecare cheie +genuri = %{"Ion" => "bărbat", "Maria" => "femeie"} +genuri["Ion"] #=> "bărbat" + +# Dicționare cu chei de tip atom au sintaxă specială +genuri = %{ion: "bărbat", maria: "femeie"} +genuri.ion #=> "bărbat" + +## --------------------------- +## -- Operatori +## --------------------------- + +# Operații matematice +1 + 1 #=> 2 +10 - 5 #=> 5 +5 * 2 #=> 10 +10 / 2 #=> 5.0 + +# În Elixir operatorul `/` întotdeauna întoarce un număr cu virgulă mobilă. + +# Folosiți `div` pentru împărțirea numerelor întregi +div(10, 2) #=> 5 + +# Pentru a obține restul de la împărțire utilizați `rem` +rem(10, 3) #=> 1 + +# Există și operatori booleni: `or`, `and` and `not`. +# Acești operatori așteaptă ca primul argument o expresie booleană. +true and true #=> true +false or true #=> true +1 and true #=> ** (BadBooleanError) + +# Elixir de asemenea oferă `||`, `&&` și `!` care acceptă argumente de orice tip. +# Toate valorile în afară de `false` și `nil` se vor evalua ca `true`. +1 || true #=> 1 +false && 1 #=> false +nil && 20 #=> nil +!true #=> false + +# Operatori de comparație: `==`, `!=`, `===`, `!==`, `<=`, `>=`, `<` și `>` +1 == 1 #=> true +1 != 1 #=> false +1 < 2 #=> true + +# `===` și `!==` au strictețe mai mare cînd comparăm numere întregi și reale: +1 == 1.0 #=> true +1 === 1.0 #=> false + +# Putem compara de asemenea și date de diferite tipuri: +1 < :salut #=> true + +# La compararea diferitor tipuri folosiți următoare prioritate: +# număr < atom < referință < funcție < port < proces < tuple < listă < șir de caractere + +# Cităm pe Joe Armstrong în acest caz: "Ordinea actuală nu e importantă, +dar că ordinea totală este bine definită este important." + +## --------------------------- +## -- Ordinea execuției +## --------------------------- + +# expresia `if` +if false do + "Aceasta nu veți vedea niciodată" +else + "Aceasta veți vedea" +end + +# expresia opusă `unless` +unless true do + "Aceasta nu veți vedea niciodată" +else + "Aceasta veți vedea" +end + +# Țineți minte potrivirea șabloanelor? Multe structuri în Elixir se bazează pe ea. + +# `case` ne permite să comparăm o valoare cu multe șabloane: +case {:unu, :doi} do + {:patru, :cinci} -> + "Aceasta nu se potrivește" + {:unu, x} -> + "Aceasta se potrivește și atribuie lui `x` `:doi` în acest bloc" + _ -> + "Aceasta se va potrivi cu orice valoare" +end + +# Simbolul `_` se numește variabila anonimă. +# Folosiți-l pentru valori ce nu vă interesează. +# De exemplu, dacă doar capul listei ne intereseaza: +[cap | _] = [1,2,3] +cap #=> 1 + +# Pentru o citire mai bună putem scri: +[cap | _coadă] = [:a, :b, :c] +cap #=> :a + +# `cond` ne permite să verificăm multe condiții de odată. +# Folosiți `cond` în schimbul la multe expresii `if`. +cond do + 1 + 1 == 3 -> + "Aceasta nu veți vedea niciodată" + 2 * 5 == 12 -> + "Pe mine la fel" + 1 + 2 == 3 -> + "Aceasta veți vedea" +end + +# Este obușnuit de setat ultima condiție cu `true`, care se va potrivi întotdeauna. +cond do + 1 + 1 == 3 -> + "Aceasta nu veți vedea niciodată" + 2 * 5 == 12 -> + "Pe mine la fel" + true -> + "Aceasta veți vedea (este else în esență)" +end + +# Blocul `try/catch` se foloște pentru prelucrarea excepțiilor. +# Elixir suportă blocul `after` care se execută în orice caz. +try do + throw(:salut) +catch + mesaj -> "Am primit #{mesaj}." +after + IO.puts("Sunt în blocul after.") +end +#=> Sunt în blocul after. +# "Am primit salut" + +## --------------------------- +## -- Module și Funcții +## --------------------------- + +# Funcții anonime (atenție la punct la apelarea funcției) +square = fn(x) -> x * x end +square.(5) #=> 25 + +# Ele de asemenea aceptă multe clauze și expresii de gardă. +# Expresiile de gardă vă permit să acordați potrivirea șabloanelor, +# ele sunt indicate după cuvîntul cheie `when`: +f = fn + x, y when x > 0 -> x + y + x, y -> x * y +end + +f.(1, 3) #=> 4 +f.(-1, 3) #=> -3 + +# Elixir de asemenea oferă multe funcții incorporate. +# Ele sunt accesibile în scopul curent. +is_number(10) #=> true +is_list("salut") #=> false +elem({1,2,3}, 0) #=> 1 + +# Puteți grupa cîteva funcții într-un modul. În interiorul modulului folosiți `def` +# pentru a defini funcțiile necesare. +defmodule Math do + def sum(a, b) do + a + b + end + + def square(x) do + x * x + end +end + +Math.sum(1, 2) #=> 3 +Math.square(3) #=> 9 + +# Pentru a compila modulul nostru simplu Math îl salvăm ca `math.ex` și utilizăm `elixirc`. +# în terminal: elixirc math.ex + +# În interiorul modulului putem defini funcții cu `def` și funcții private cu `defp`. +defmodule PrivateMath do + # O funcție definită cu `def` este accesibilă pentru apelare din alte module, + def sum(a, b) do + do_sum(a, b) + end + + # O funcție privată poate fi apelată doar local. + defp do_sum(a, b) do + a + b + end +end + +PrivateMath.sum(1, 2) #=> 3 +PrivateMath.do_sum(1, 2) #=> ** (UndefinedFunctionError) + +# Declarația funcției de asemenea suportă expresii de gardă și multe clauze: +defmodule Geometry do + def area({:rectangle, w, h}) do + w * h + end + + def area({:circle, r}) when is_number(r) do + 3.14 * r * r + end +end + +Geometry.area({:rectangle, 2, 3}) #=> 6 +Geometry.area({:circle, 3}) #=> 28.25999999999999801048 +Geometry.area({:circle, "not_a_number"}) #=> ** (FunctionClauseError) + +# Din cauza variabilelor imutabile, un rol important îl ocupă funcțiile recursive +defmodule Recursion do + def sum_list([head | tail], acc) do + sum_list(tail, acc + head) + end + + def sum_list([], acc) do + acc + end +end + +Recursion.sum_list([1,2,3], 0) #=> 6 + +# Modulele în Elixir suportă atribute, există atribute incorporate și +# puteți adăuga altele. +defmodule MyMod do + @moduledoc """ + Este un atribut incorporat + """ + + @my_data 100 # Acesta e atributul nostru + IO.inspect(@my_data) #=> 100 +end + +# Operatorul |> permite transferarea rezultatului unei expresii din stînga +# ca primul argument al unei funcții din dreapta. +Range.new(1,10) +|> Enum.map(fn x -> x * x end) +|> Enum.filter(fn x -> rem(x, 2) == 0 end) +#=> [4, 16, 36, 64, 100] + +## --------------------------- +## -- Structuri și Excepții +## --------------------------- + +# Structurile sunt extensii a dicționarelor ce au valori implicite, +# verificări în timpul compilării și polimorfism +defmodule Person do + defstruct name: nil, age: 0, height: 0 +end + +joe_info = %Person{ name: "Joe", age: 30, height: 180 } +#=> %Person{age: 30, height: 180, name: "Joe"} + +# Acesarea cîmpului din structură +joe_info.name #=> "Joe" + +# Actualizarea valorii cîmpului +older_joe_info = %{ joe_info | age: 31 } +#=> %Person{age: 31, height: 180, name: "Joe"} + +# Blocul `try` cu cuvîntul cheie `rescue` e folosit pentru a prinde excepții +try do + raise "o eroare" +rescue + RuntimeError -> "a fost prinsă o eroare runtime" + _error -> "aici vor fi prinse toate erorile" +end +#=> "a fost prinsă o eroare runtime" + +# Toate excepțiile au un mesaj +try do + raise "o eroare" +rescue + x in [RuntimeError] -> + x.message +end +#=> "o eroare" + +## --------------------------- +## -- Concurența +## --------------------------- + +# Concurența în Elixir se bazează pe modelul actor. Pentru a scrie programe +# concurente avem nevoie de trei lucruri: +# 1. Crearea proceselor +# 2. Trimiterea mesajelor +# 3. Primirea mesajelor + +# Un nou proces se crează folosind funcția `spawn`, care primește o funcție +# ca argument. +f = fn -> 2 * 2 end #=> #Function<erl_eval.20.80484245> +spawn(f) #=> #PID<0.40.0> + +# `spawn` întoarce identificatorul procesului pid, îl puteți folosi pentru +# a trimite mesaje procesului. Mesajele se transmit folosind operatorul `send`. +# Pentru primirea mesajelor se folosește mecanismul `receive`: + +# Blocul `receive do` este folosit pentru așteptarea mesajelor și prelucrarea lor +# cînd au fost primite. Blocul `receive do` va procesa doar un singur mesaj primit. +# Pentru a procesa mai multe mesaje, funcția cu blocul `receive do` trebuie +# recursiv să se auto apeleze. + +defmodule Geometry do + def area_loop do + receive do + {:rectangle, w, h} -> + IO.puts("Aria = #{w * h}") + area_loop() + {:circle, r} -> + IO.puts("Aria = #{3.14 * r * r}") + area_loop() + end + end +end + +# Compilați modulul și creați un proces +pid = spawn(fn -> Geometry.area_loop() end) #=> #PID<0.40.0> +# Un alt mod +pid = spawn(Geometry, :area_loop, []) + +# Trimiteți un mesaj către `pid` care se va potrivi cu un șablon din blocul `receive` +send pid, {:rectangle, 2, 3} +#=> Aria = 6 +# {:rectangle,2,3} + +send pid, {:circle, 2} +#=> Aria = 12.56000000000000049738 +# {:circle,2} + +# Interpretatorul este de asemenea un proces, puteți folosi `self` +# pentru a primi identificatorul de proces: +self() #=> #PID<0.27.0> + +## --------------------------- +## -- Agenții +## --------------------------- + +# Un agent este un proces care urmărește careva valori ce se schimbă. + +# Creați un agent cu `Agent.start_link`, transmițînd o funcție. +# Stare inițială a agentului va fi rezultatul funcției. +{ok, my_agent} = Agent.start_link(fn -> ["roșu", "verde"] end) + +# `Agent.get` primește numele agentului și o `fn` care primește starea curentă +# Orice va întoarce `fn` este ceea ce veți primi înapoi: +Agent.get(my_agent, fn colors -> colors end) #=> ["roșu", "verde"] + +# Actualizați starea agentului în acelaș mod: +Agent.update(my_agent, fn colors -> ["albastru" | colors] end) +``` + +## Link-uri utile + +* [Primii pași](http://elixir-lang.org/getting-started/introduction.html) de pe [situl Elixir](http://elixir-lang.org) +* [Documentația oficială Elixir](http://elixir-lang.org/docs/master/) +* [Un mic conspect pe Elixir](http://media.pragprog.com/titles/elixir/ElixirCheat.pdf) +* [Cartea "Programming Elixir"](https://pragprog.com/book/elixir/programming-elixir) de Dave Thomas +* [Cartea "Learn You Some Erlang for Great Good!"](http://learnyousomeerlang.com/) de Fred Hebert +* [Cartea "Programming Erlang: Software for a Concurrent World"](https://pragprog.com/book/jaerlang2/programming-erlang) de Joe Armstrong diff --git a/ru-ru/kotlin-ru.html.markdown b/ru-ru/kotlin-ru.html.markdown index 21940e41..58dab4cd 100644 --- a/ru-ru/kotlin-ru.html.markdown +++ b/ru-ru/kotlin-ru.html.markdown @@ -8,7 +8,7 @@ translators: - ["Vadim Toptunov", "https://github.com/VadimToptunov"] --- -Kotlin - статистически типизированный язык для JVM, Android и браузера. Язык полностью cjdvtcnbv c Java. +Kotlin - статистически типизированный язык для JVM, Android и браузера. Язык полностью совместим c Java. [Более детальная информация здесь.](https://kotlinlang.org/) ```kotlin diff --git a/ru-ru/markdown-ru.html.markdown b/ru-ru/markdown-ru.html.markdown index ff7a0cc3..579a9a20 100644 --- a/ru-ru/markdown-ru.html.markdown +++ b/ru-ru/markdown-ru.html.markdown @@ -36,13 +36,14 @@ lang: ru-ru Markdown является надмножеством HTML, поэтому любой HTML-файл является корректным документом Markdown. - ```markdown + ```md <!-- Это позволяет использовать напрямую любые элементы HTML-разметки, такие, например, как этот комментарий. Встроенные в документ HTML-элементы не затрагиваются парсером Markdown и попадают в итоговый HTML без изменений. Однако следует понимать, что эта же особенность не позволяет использовать разметку Markdown внутри HTML-элементов --> +``` ## Заголовки @@ -50,7 +51,7 @@ HTML-элементы от <h1> до <h6> размечаются очень пр текст, который должен стать заголовком, предваряется соответствующим количеством символов "#": -```markdown +```md # Это заголовок h1 ## Это заголовок h2 ### Это заголовок h3 @@ -60,7 +61,7 @@ HTML-элементы от <h1> до <h6> размечаются очень пр ``` Markdown позволяет размечать заголовки <h1> и <h2> ещё одним способом: -```markdown +```md Это заголовок h1 ================ @@ -72,7 +73,7 @@ Markdown позволяет размечать заголовки <h1> и <h2> Текст легко сделать полужирным и/или курсивным: -```markdown +```md *Этот текст будет выведен курсивом.* _Так же, как этот._ @@ -87,7 +88,7 @@ __И этот тоже.__ В Github Flavored Markdown, стандарте, который используется в Github, текст также можно сделать зачёркнутым: -```markdown +```md ~~Зачёркнутый текст.~~ ``` @@ -96,7 +97,7 @@ __И этот тоже.__ Абзацами являются любые строки, следующие друг за другом. Разделяются же абзацы одной или несколькими пустыми строками: -```markdown +```md Это абзац. Я печатаю в абзаце, разве это не прикольно? А тут уже абзац №2. @@ -108,7 +109,7 @@ __И этот тоже.__ Для вставки принудительных переносов можно завершить абзац двумя дополнительными пробелами: -```markdown +```md Эта строка завершается двумя пробелами (выделите, чтобы увидеть!). Над этой строкой есть <br />! @@ -116,7 +117,7 @@ __И этот тоже.__ Цитаты размечаются с помощью символа «>»: -```markdown +```md > Это цитата. В цитатах можно > принудительно переносить строки, вставляя «>» в начало каждой следующей строки. А можно просто оставлять их достаточно длинными, и такие длинные строки будут перенесены автоматически. > Разницы между этими двумя подходами к переносу строк нет, коль скоро @@ -133,7 +134,7 @@ __И этот тоже.__ одного из символов «*», «+» или «-»: (символ должен быть одним и тем же для всех элементов) -```markdown +```md * Список, * Размеченный * Звёздочками @@ -154,7 +155,7 @@ __И этот тоже.__ В нумерованных списках каждая строка начинается с числа и точки вслед за ним: -```markdown +```md 1. Первый элемент 2. Второй элемент 3. Третий элемент @@ -164,7 +165,7 @@ __И этот тоже.__ любое число в начале каждого элемента, и парсер пронумерует элементы сам! Правда, злоупотреблять этим не стоит :) -```markdown +```md 1. Первый элемент 1. Второй элемент 1. Третий элемент @@ -173,7 +174,7 @@ __И этот тоже.__ Списки могут быть вложенными: -```markdown +```md 1. Введение 2. Начало работы 3. Примеры использования @@ -184,7 +185,7 @@ __И этот тоже.__ Можно даже делать списки задач. Блок ниже создаёт HTML-флажки. -```markdown +```md Для отметки флажка используйте «x» - [ ] Первая задача - [ ] Вторая задача @@ -197,7 +198,7 @@ __И этот тоже.__ Фрагменты исходного кода (обычно отмечаемые тегом `<code>`) выделяются просто: каждая строка блока должна иметь отступ в четыре пробела либо в один символ табуляции. -```markdown +```md Это код, причём многострочный ``` @@ -205,7 +206,7 @@ __И этот тоже.__ Вы также можете делать дополнительные отступы, добавляя символы табуляции или по четыре пробела: -```markdown +```md my_array.each do |item| puts item end @@ -215,7 +216,7 @@ __И этот тоже.__ не выделяя код в блок. Для этого фрагменты кода нужно обрамлять символами «`»: -```markdown +```md Ваня даже не знал, что делает функция `go_to()`! ``` @@ -237,7 +238,7 @@ end Разделители (`<hr>`) добавляются вставкой строки из трёх и более (одинаковых) символов «*» или «-», с пробелами или без них: -```markdown +```md *** --- - - - @@ -251,18 +252,18 @@ end текст ссылки, заключив его в квадратные скобки, и сразу после — URL-адрес, заключенный в круглые -```markdown +```md [Ссылка!](http://test.com/) ``` Также для ссылки можно указать всплывающую подсказку (`title`), используя кавычки внутри круглых скобок: -```markdown +```md [Ссылка!](http://test.com/ "Ссылка на Test.com") ``` Относительные пути тоже возможны: -```markdown +```md [Перейти к музыке](/music/). ``` @@ -290,7 +291,7 @@ Markdown также позволяет размечать ссылку в вид Разметка изображений очень похожа на разметку ссылок. Нужно всего лишь добавить перед ссылкой восклицательный знак! -```markdown +```md  ``` Изображения тоже могут быть оформлены, как сноски. @@ -301,20 +302,20 @@ Markdown также позволяет размечать ссылку в вид ## Разное ### Автоссылки -```markdown +```md Ссылка вида <http://testwebsite.com/> эквивалентна [http://testwebsite.com/](http://testwebsite.com/) ``` ### Автоссылки для адресов электронной почты -```markdown +```md <foo@bar.com> ``` ### Экранирование символов -```markdown +```md Я хочу напечатать *текст, заключённый в звёздочки*, но я не хочу, чтобы он был курсивным. Тогда я делаю так: \*Текст, заключённый в звёздочки\* @@ -324,7 +325,7 @@ Markdown также позволяет размечать ссылку в вид В Github Flavored Markdown для представления клавиш на клавиатуре вы можете использовать тег `<kbd>`. -```markdown +```md Ваш компьютер завис? Попробуйте нажать <kbd>Ctrl</kbd>+<kbd>Alt</kbd>+<kbd>Del</kbd> ``` @@ -334,7 +335,7 @@ Markdown также позволяет размечать ссылку в вид да и синтаксис имеют не слишком удобный. Но если очень нужно, размечайте таблицы так: -```markdown +```md | Столбец 1 | Столбец 2 | Столбец 3 | | :----------- | :----------: | -----------: | | Выравнивание | Выравнивание | Выравнивание | @@ -342,7 +343,7 @@ Markdown также позволяет размечать ссылку в вид ``` Или более компактно -```markdown +```md Столбец 1|Столбец 2|Столбец 3 :--|:-:|--: Выглядит|это|страшновато... diff --git a/ru-ru/php-ru.html.markdown b/ru-ru/php-ru.html.markdown index 014ff5d0..af77a9ca 100644 --- a/ru-ru/php-ru.html.markdown +++ b/ru-ru/php-ru.html.markdown @@ -61,6 +61,8 @@ $int4 = 0x0F; // => 15 (ведущие символы 0x означают шес // Двоичная запись integer доступна начиная с PHP 5.4.0. $int5 = 0b11111111; // 255 (0b в начале означает двоичное число) +// Удаление переменной +unset($int1); // Дробные числа $float = 1.234; diff --git a/ru-ru/python3-ru.html.markdown b/ru-ru/python3-ru.html.markdown index 2b6b59a7..bf80fed2 100644 --- a/ru-ru/python3-ru.html.markdown +++ b/ru-ru/python3-ru.html.markdown @@ -106,6 +106,9 @@ False or True #=> True # И строки тоже могут складываться! Хотя лучше не злоупотребляйте этим. "Привет " + "мир!" #=> "Привет мир!" +# Строки можно умножать. +"aa" * 4 #=> "aaaaaaaa" + # Со строкой можно работать, как со списком символов "Это строка"[0] #=> 'Э' diff --git a/ru-ru/ruby-ru.html.markdown b/ru-ru/ruby-ru.html.markdown index f54c89b4..e69c6d94 100644 --- a/ru-ru/ruby-ru.html.markdown +++ b/ru-ru/ruby-ru.html.markdown @@ -182,8 +182,9 @@ array.[] 12 #=> nil array[-1] #=> 5 array.last #=> 5 -# С заданными левой и правой границами индексов -array[2, 4] #=> [3, 4, 5] +# Задавая индекс и количество элементов +array[0,2] #=> [1, 2] +array[0,999] #=> [1, 2, 3, 4, 5] # Или с использованием диапазона значений array[1..3] #=> [2, 3, 4] diff --git a/ruby-ecosystem.html.markdown b/ruby-ecosystem.html.markdown index 50eedcd0..3c80075b 100644 --- a/ruby-ecosystem.html.markdown +++ b/ruby-ecosystem.html.markdown @@ -10,6 +10,16 @@ contributors: People using Ruby generally have a way to install different Ruby versions, manage their packages (or gems), and manage their gem dependencies. +## Ruby Versions + +Ruby was created by Yukihiro "Matz" Matsumoto, who remains somewhat of a +[BDFL](https://en.wikipedia.org/wiki/Benevolent_Dictator_for_Life), although +that is changing recently. As a result, the reference implementation of Ruby is +called MRI (Matz' Reference Implementation), and when you hear a Ruby version, +it is referring to the release version of MRI. + +New major versions of Ruby are traditionally released on Christmas Day. The current major version (25 December 2017) is 2.5. The most popular stable versions are 2.4.4 and 2.3.7 (both released 28 March 2018). + ## Ruby Managers Some platforms have Ruby pre-installed or available as a package. Most rubyists @@ -29,28 +39,6 @@ The following are the popular Ruby environment managers: * [chruby](https://github.com/postmodern/chruby) - Only switches between rubies. Similar in spirit to rbenv. Unopinionated about how rubies are installed. -## Ruby Versions - -Ruby was created by Yukihiro "Matz" Matsumoto, who remains somewhat of a -[BDFL](https://en.wikipedia.org/wiki/Benevolent_Dictator_for_Life), although -that is changing recently. As a result, the reference implementation of Ruby is -called MRI (Matz' Reference Implementation), and when you hear a Ruby version, -it is referring to the release version of MRI. - -The three major version of Ruby in use are: - -* 2.0.0 - Released in February 2013. Most major libraries and frameworks support - 2.0.0. -* 1.9.3 - Released in October 2011. This is the version most rubyists use - currently. Also [retired](https://www.ruby-lang.org/en/news/2015/02/23/support-for-ruby-1-9-3-has-ended/) -* 1.8.7 - Ruby 1.8.7 has been - [retired](http://www.ruby-lang.org/en/news/2013/06/30/we-retire-1-8-7/). - -The change between 1.8.7 to 1.9.x is a much larger change than 1.9.3 to 2.0.0. -For instance, the 1.9 series introduced encodings and a bytecode VM. There -are projects still on 1.8.7, but they are becoming a small minority, as most of -the community has moved to at least 1.9.2 or 1.9.3. - ## Ruby Implementations The Ruby ecosystem enjoys many different implementations of Ruby, each with diff --git a/ruby.html.markdown b/ruby.html.markdown index e0a6bb6e..2f4d0934 100644 --- a/ruby.html.markdown +++ b/ruby.html.markdown @@ -15,32 +15,29 @@ contributors: - ["Gabriel Halley", "https://github.com/ghalley"] - ["Persa Zula", "http://persazula.com"] - ["Jake Faris", "https://github.com/farisj"] + - ["Corey Ward", "https://github.com/coreyward"] + - ["Jannik Siebert", "https://github.com/janniks"] --- ```ruby # This is a comment -=begin -This is a multiline comment -No-one uses them -You shouldn't either -=end +# In Ruby, (almost) everything is an object. +# This includes numbers... +3.class #=> Integer -# First and foremost: Everything is an object. - -# Numbers are objects - -3.class #=> Fixnum - -3.to_s #=> "3" +# ...and strings... +"Hello".class #=> String +# ...and even methods! +"Hello".method(:class).class #=> Method # Some basic arithmetic 1 + 1 #=> 2 8 - 1 #=> 7 10 * 2 #=> 20 35 / 5 #=> 7 -2**5 #=> 32 +2 ** 5 #=> 32 5 % 3 #=> 2 # Bitwise operators @@ -52,6 +49,7 @@ You shouldn't either # for calling a method on an object 1.+(3) #=> 4 10.* 5 #=> 50 +100.methods.include?(:/) #=> true # Special values are objects nil # equivalent to null in other languages @@ -70,11 +68,12 @@ false.class #=> FalseClass 1 != 1 #=> false 2 != 1 #=> true -# apart from false itself, nil is the only other 'falsey' value +# Apart from false itself, nil is the only other 'falsey' value -!nil #=> true -!false #=> true -!0 #=> false +!!nil #=> false +!!false #=> false +!!0 #=> true +!!"" #=> true # More comparisons 1 < 10 #=> true @@ -82,7 +81,8 @@ false.class #=> FalseClass 2 <= 2 #=> true 2 >= 2 #=> true -# Combined comparison operator +# Combined comparison operator (returns `1` when the first argument is greater, +# `-1` when the second argument is greater, and `0` otherwise) 1 <=> 10 #=> -1 10 <=> 1 #=> 1 1 <=> 1 #=> 0 @@ -90,7 +90,6 @@ false.class #=> FalseClass # Logical operators true && false #=> false true || false #=> true -!true #=> false # There are alternate versions of the logical operators with much lower # precedence. These are meant to be used as flow-control constructs to chain @@ -101,61 +100,54 @@ do_something() and do_something_else() # `log_error` only called if `do_something` fails. do_something() or log_error() - -# Strings are objects - -'I am a string'.class #=> String -"I am a string too".class #=> String +# String interpolation placeholder = 'use string interpolation' "I can #{placeholder} when using double quoted strings" #=> "I can use string interpolation when using double quoted strings" -# Prefer single quoted strings to double quoted ones where possible -# Double quoted strings perform additional inner calculations - -# Combine strings, but not with numbers +# You can combine strings using `+`, but not with other types 'hello ' + 'world' #=> "hello world" 'hello ' + 3 #=> TypeError: can't convert Fixnum into String 'hello ' + 3.to_s #=> "hello 3" +"hello #{3}" #=> "hello 3" -# Combine strings and operators +# ...or combine strings and operators 'hello ' * 3 #=> "hello hello hello " -# Append to string +# ...or append to string 'hello' << ' world' #=> "hello world" -# print to the output with a newline at the end +# You can print to the output with a newline at the end puts "I'm printing!" #=> I'm printing! #=> nil -# print to the output without a newline +# ...or print to the output without a newline print "I'm printing!" -#=> I'm printing! => nil +#=> "I'm printing!" => nil # Variables x = 25 #=> 25 x #=> 25 -# Note that assignment returns the value assigned -# This means you can do multiple assignment: +# Note that assignment returns the value assigned. +# This means you can do multiple assignment. x = y = 10 #=> 10 x #=> 10 y #=> 10 -# By convention, use snake_case for variable names +# By convention, use snake_case for variable names. snake_case = true # Use descriptive variable names path_to_project_root = '/good/name/' -path = '/bad/name/' +m = '/bad/name/' -# Symbols (are objects) # Symbols are immutable, reusable constants represented internally by an # integer value. They're often used instead of strings to efficiently convey -# specific, meaningful values +# specific, meaningful values. :pending.class #=> Symbol @@ -167,77 +159,82 @@ status == 'pending' #=> false status == :approved #=> false +# Strings can be converted into symbols and vice versa. +status.to_s #=> "pending" +"argon".to_sym #=> :argon + # Arrays -# This is an array +# This is an array. array = [1, 2, 3, 4, 5] #=> [1, 2, 3, 4, 5] -# Arrays can contain different types of items - +# Arrays can contain different types of items. [1, 'hello', false] #=> [1, "hello", false] -# Arrays can be indexed -# From the front +# Arrays can be indexed. +# From the front... array[0] #=> 1 array.first #=> 1 array[12] #=> nil -# Like arithmetic, [var] access -# is just syntactic sugar -# for calling a method [] on an object -array.[] 0 #=> 1 -array.[] 12 #=> nil - -# From the end +# ...or from the back... array[-1] #=> 5 array.last #=> 5 -# With a start index and length +# ...or with a start index and length... array[2, 3] #=> [3, 4, 5] -# Reverse an Array -a=[1,2,3] +# ...or with a range... +array[1..3] #=> [2, 3, 4] + +# You can reverse an Array. +a = [1,2,3] a.reverse! #=> [3,2,1] -# Or with a range -array[1..3] #=> [2, 3, 4] +# Like arithmetic, [var] access is just syntactic sugar +# for calling a method '[]' on an object. +array.[] 0 #=> 1 +array.[] 12 #=> nil -# Add to an array like this +# You can add to an array... array << 6 #=> [1, 2, 3, 4, 5, 6] # Or like this array.push(6) #=> [1, 2, 3, 4, 5, 6] -# Check if an item exists in an array +# ...and check if an item exists in an array array.include?(1) #=> true # Hashes are Ruby's primary dictionary with key/value pairs. -# Hashes are denoted with curly braces: +# Hashes are denoted with curly braces. hash = { 'color' => 'green', 'number' => 5 } hash.keys #=> ['color', 'number'] -# Hashes can be quickly looked up by key: -hash['color'] #=> 'green' +# Hashes can be quickly looked up by key. +hash['color'] #=> "green" hash['number'] #=> 5 -# Asking a hash for a key that doesn't exist returns nil: +# Asking a hash for a key that doesn't exist returns nil. hash['nothing here'] #=> nil -# Since Ruby 1.9, there's a special syntax when using symbols as keys: +# When using symbols for keys in a hash, you can use an alternate syntax. -new_hash = { defcon: 3, action: true } +hash = { :defcon => 3, :action => true } +hash.keys #=> [:defcon, :action] -new_hash.keys #=> [:defcon, :action] +hash = { defcon: 3, action: true } +hash.keys #=> [:defcon, :action] # Check existence of keys and values in hash -new_hash.key?(:defcon) #=> true -new_hash.value?(3) #=> true +hash.key?(:defcon) #=> true +hash.value?(3) #=> true -# Tip: Both Arrays and Hashes are Enumerable -# They share a lot of useful methods such as each, map, count, and more +# Tip: Both Arrays and Hashes are Enumerable! +# They share a lot of useful methods such as each, map, count, and more. # Control structures +# Conditionals if true 'if statement' elsif false @@ -246,35 +243,26 @@ else 'else, also optional' end +# Loops +# In Ruby, traditional `for` loops aren't very common. Instead, these +# basic loops are implemented using enumerable, which hinges on `each`. +(1..5).each do |counter| + puts "iteration #{counter}" +end + +# Which is roughly equivalent to the following, which is unusual to see in Ruby. for counter in 1..5 puts "iteration #{counter}" end -#=> iteration 1 -#=> iteration 2 -#=> iteration 3 -#=> iteration 4 -#=> iteration 5 -# HOWEVER, No-one uses for loops. -# Instead you should use the "each" method and pass it a block. -# A block is a bunch of code that you can pass to a method like "each". -# It is analogous to lambdas, anonymous functions or closures in other -# programming languages. +# The `do |variable| ... end` construct above is called a 'block'. Blocks are similar +# to lambdas, anonymous functions or closures in other programming languages. They can +# be passed around as objects, called, or attached as methods. # -# The "each" method of a range runs the block once for each element of the range. +# The 'each' method of a range runs the block once for each element of the range. # The block is passed a counter as a parameter. -# Calling the "each" method with a block looks like this: -(1..5).each do |counter| - puts "iteration #{counter}" -end -#=> iteration 1 -#=> iteration 2 -#=> iteration 3 -#=> iteration 4 -#=> iteration 5 - -# You can also surround blocks in curly brackets: +# You can also surround blocks in curly brackets. (1..5).each { |counter| puts "iteration #{counter}" } # The contents of data structures can also be iterated using each. @@ -285,8 +273,8 @@ hash.each do |key, value| puts "#{key} is #{value}" end -# If you still need an index you can use "each_with_index" and define an index -# variable +# If you still need an index you can use 'each_with_index' and define an index +# variable. array.each_with_index do |element, index| puts "#{element} is number #{index} in the array" end @@ -302,9 +290,9 @@ end #=> iteration 4 #=> iteration 5 -# There are a bunch of other helpful looping functions in Ruby, -# for example "map", "reduce", "inject", the list goes on. Map, -# for instance, takes the array it's looping over, does something +# There are a bunch of other helpful looping functions in Ruby. +# For example: 'map', 'reduce', 'inject', the list goes on. +# Map, for instance, takes the array it's looping over, does something # to it as defined in your block, and returns an entirely new array. array = [1,2,3,4,5] doubled = array.map do |element| @@ -315,6 +303,7 @@ puts doubled puts array #=> [1,2,3,4,5] +# Case construct grade = 'B' case grade @@ -333,7 +322,7 @@ else end #=> "Better luck next time" -# cases can also use ranges +# Cases can also use ranges grade = 82 case grade when 90..100 @@ -345,9 +334,9 @@ else end #=> "OK job" -# exception handling: +# Exception handling begin - # code here that might raise an exception + # Code here that might raise an exception raise NoMemoryError, 'You ran out of memory.' rescue NoMemoryError => exception_variable puts 'NoMemoryError was raised', exception_variable @@ -365,10 +354,10 @@ def double(x) x * 2 end -# Methods (and all blocks) implicitly return the value of the last statement +# Methods (and blocks) implicitly return the value of the last statement. double(2) #=> 4 -# Parentheses are optional where the result is unambiguous +# Parentheses are optional where the interpretation is unambiguous. double 3 #=> 6 double double 3 #=> 12 @@ -377,15 +366,14 @@ def sum(x, y) x + y end -# Method arguments are separated by a comma +# Method arguments are separated by a comma. sum 3, 4 #=> 7 sum sum(3, 4), 5 #=> 12 # yield -# All methods have an implicit, optional block parameter -# it can be called with the 'yield' keyword - +# All methods have an implicit, optional block parameter. +# Tt can be called with the 'yield' keyword. def surround puts '{' yield @@ -394,46 +382,78 @@ end surround { puts 'hello world' } -# { -# hello world -# } +#=> { +#=> hello world +#=> } - -# You can pass a block to a method -# "&" marks a reference to a passed block +# Blocks can be converted into a 'proc' object, which wraps the block +# and allows it to be passed to another method, bound to a different scope, +# or manipulated otherwise. This is most common in method parameter lists, +# where you frequently see a trailing '&block' parameter that will accept +# the block, if one is given, and convert it to a 'Proc'. The naming here is +# convention; it would work just as well with '&pineapple'. def guests(&block) - block.call 'some_argument' + block.class #=> Proc + block.call(4) end -# You can pass a list of arguments, which will be converted into an array -# That's what splat operator ("*") is for +# The 'call' method on the Proc is similar to calling 'yield' when a block is +# present. The arguments passed to 'call' will be forwarded to the block as arugments. + +guests { |n| "You have #{n} guests." } +# => "You have 4 guests." + +# You can pass a list of arguments, which will be converted into an array. +# That's what splat operator ("*") is for. def guests(*array) array.each { |guest| puts guest } end -# If a method returns an array, you can use destructuring assignment -def foods - ['pancake', 'sandwich', 'quesadilla'] +# Destructuring + +# Ruby will automatically destructure arrays on assignment to multiple variables. +a, b, c = [1, 2, 3] +a #=> 1 +b #=> 2 +c #=> 3 + +# In some cases, you will want to use the splat operator: `*` to prompt destructuring +# of an array into a list. +ranked_competitors = ["John", "Sally", "Dingus", "Moe", "Marcy"] + +def best(first, second, third) + puts "Winners are #{first}, #{second}, and #{third}." +end + +best *ranked_competitors.first(3) #=> Winners are John, Sally, and Dingus. + +# The splat operator can also be used in parameters. +def best(first, second, third, *others) + puts "Winners are #{first}, #{second}, and #{third}." + puts "There were #{others.count} other participants." end -breakfast, lunch, dinner = foods -breakfast #=> 'pancake' -dinner #=> 'quesadilla' -# By convention, all methods that return booleans end with a question mark -5.even? # false -5.odd? # true +best *ranked_competitors +#=> Winners are John, Sally, and Dingus. +#=> There were 2 other participants. -# And if a method ends with an exclamation mark, it does something destructive +# By convention, all methods that return booleans end with a question mark. +5.even? #=> false +5.odd? #=> true + +# By convention, if a method name ends with an exclamation mark, it does something destructive # like mutate the receiver. Many methods have a ! version to make a change, and -# a non-! version to just return a new changed version +# a non-! version to just return a new changed version. company_name = "Dunder Mifflin" company_name.upcase #=> "DUNDER MIFFLIN" company_name #=> "Dunder Mifflin" -company_name.upcase! # we're mutating company_name this time! +# We're mutating company_name this time. +company_name.upcase! #=> "DUNDER MIFFLIN" company_name #=> "DUNDER MIFFLIN" +# Classes -# Define a class with the class keyword +# You can define a class with the 'class' keyword. class Human # A class variable. It is shared by all instances of this class. @@ -441,7 +461,7 @@ class Human # Basic initializer def initialize(name, age = 0) - # Assign the argument to the "name" instance variable for the instance + # Assign the argument to the 'name' instance variable for the instance. @name = name # If no age given, we will fall back to the default in the arguments list. @age = age @@ -457,10 +477,10 @@ class Human @name end - # The above functionality can be encapsulated using the attr_accessor method as follows + # The above functionality can be encapsulated using the attr_accessor method as follows. attr_accessor :name - # Getter/setter methods can also be created individually like this + # Getter/setter methods can also be created individually like this. attr_reader :name attr_writer :name @@ -475,13 +495,11 @@ class Human end end - -# Instantiate a class +# Instantiating of a class jim = Human.new('Jim Halpert') - dwight = Human.new('Dwight K. Schrute') -# Let's call a couple of methods +# You can call the methods of the generated object. jim.species #=> "H. sapiens" jim.name #=> "Jim Halpert" jim.name = "Jim Halpert II" #=> "Jim Halpert II" @@ -489,30 +507,30 @@ jim.name #=> "Jim Halpert II" dwight.species #=> "H. sapiens" dwight.name #=> "Dwight K. Schrute" -# Call the class method +# Calling of a class method Human.say('Hi') #=> "Hi" # Variable's scopes are defined by the way we name them. -# Variables that start with $ have global scope +# Variables that start with $ have global scope. $var = "I'm a global var" defined? $var #=> "global-variable" -# Variables that start with @ have instance scope +# Variables that start with @ have instance scope. @var = "I'm an instance var" defined? @var #=> "instance-variable" -# Variables that start with @@ have class scope +# Variables that start with @@ have class scope. @@var = "I'm a class var" defined? @@var #=> "class variable" -# Variables that start with a capital letter are constants +# Variables that start with a capital letter are constants. Var = "I'm a constant" defined? Var #=> "constant" -# Class is also an object in ruby. So class can have instance variables. -# Class variable is shared among the class and all of its descendants. +# Class is also an object in ruby. So a class can have instance variables. +# A class variable is shared among the class and all of its descendants. -# base class +# Base class class Human @@foo = 0 @@ -525,18 +543,17 @@ class Human end end -# derived class +# Derived class class Worker < Human end -Human.foo # 0 -Worker.foo # 0 +Human.foo #=> 0 +Worker.foo #=> 0 -Human.foo = 2 # 2 -Worker.foo # 2 - -# Class instance variable is not shared by the class's descendants. +Human.foo = 2 +Worker.foo #=> 2 +# A class instance variable is not shared by the class's descendants. class Human @bar = 0 @@ -552,8 +569,8 @@ end class Doctor < Human end -Human.bar # 0 -Doctor.bar # nil +Human.bar #=> 0 +Doctor.bar #=> nil module ModuleExample def foo @@ -561,9 +578,8 @@ module ModuleExample end end -# Including modules binds their methods to the class instances -# Extending modules binds their methods to the class itself - +# Including modules binds their methods to the class instances. +# Extending modules binds their methods to the class itself. class Person include ModuleExample end @@ -572,13 +588,12 @@ class Book extend ModuleExample end -Person.foo # => NoMethodError: undefined method `foo' for Person:Class -Person.new.foo # => 'foo' -Book.foo # => 'foo' -Book.new.foo # => NoMethodError: undefined method `foo' +Person.foo #=> NoMethodError: undefined method `foo' for Person:Class +Person.new.foo #=> "foo" +Book.foo #=> "foo" +Book.new.foo #=> NoMethodError: undefined method `foo' # Callbacks are executed when including and extending a module - module ConcernExample def self.included(base) base.extend(ClassMethods) @@ -602,10 +617,10 @@ class Something include ConcernExample end -Something.bar # => 'bar' -Something.qux # => NoMethodError: undefined method `qux' -Something.new.bar # => NoMethodError: undefined method `bar' -Something.new.qux # => 'qux' +Something.bar #=> "bar" +Something.qux #=> NoMethodError: undefined method `qux' +Something.new.bar #=> NoMethodError: undefined method `bar' +Something.new.qux #=> "qux" ``` ## Additional resources diff --git a/scala.html.markdown b/scala.html.markdown index 78053b40..016e2b4f 100644 --- a/scala.html.markdown +++ b/scala.html.markdown @@ -276,6 +276,8 @@ r foreach println // NB: Scala is quite lenient when it comes to dots and brackets - study the // rules separately. This helps write DSLs and APIs that read like English +// Why doesn't `println` need any parameters here? +// Stay tuned for first-class functions in the Functional Programming section below! (5 to 1 by -1) foreach (println) // A while loop @@ -299,7 +301,7 @@ do { // Recursion is the idiomatic way of repeating an action in Scala (as in most // other functional languages). // Recursive functions need an explicit return type, the compiler can't infer it. -// Here it's Unit. +// Here it's Unit, which is analagous to a `void` return type in Java def showNumbersInRange(a: Int, b: Int): Unit = { print(a) if (a < b) @@ -412,8 +414,8 @@ class Dog(br: String) { private def sleep(hours: Int) = println(s"I'm sleeping for $hours hours") - // Abstract methods are simply methods with no body. If we uncomment the next - // line, class Dog would need to be declared abstract + // Abstract methods are simply methods with no body. If we uncomment the + // def line below, class Dog would need to be declared abstract like so: // abstract class Dog(...) { ... } // def chaseAfter(what: String): String } @@ -455,7 +457,7 @@ george.phoneNumber // => "1234" Person("George", "1234") == Person("Kate", "1236") // => false // Easy way to copy -// otherGeorge == Person("george", "9876") +// otherGeorge == Person("George", "9876") val otherGeorge = george.copy(phoneNumber = "9876") // And many others. Case classes also get pattern matching for free, see below. @@ -523,7 +525,9 @@ def matchPerson(person: Person): String = person match { case Person(name, number) => "We matched someone : " + name + ", phone : " + number } -val email = "(.*)@(.*)".r // Define a regex for the next example. +// Regular expressions are also built in. +// Create a regex with the `r` method on a string: +val email = "(.*)@(.*)".r // Pattern matching might look familiar to the switch statements in the C family // of languages, but this is much more powerful. In Scala, you can match much @@ -589,6 +593,8 @@ List("Dom", "Bob", "Natalia") foreach println // Combinators +// Using `s` from above: +// val s = Set(1, 3, 7) s.map(sq) @@ -608,8 +614,8 @@ List( ).filter(_.age > 25) // List(Person("Bob", 30)) -// Scala a foreach method defined on certain collections that takes a type -// returning Unit (a void method) +// Certain collections (such as List) in Scala have a `foreach` method, +// which takes as an argument a type returning Unit - that is, a void method val aListOfNumbers = List(1, 2, 3, 4, 10, 20, 100) aListOfNumbers foreach (x => println(x)) aListOfNumbers foreach println diff --git a/sk-sk/bash.html.markdown b/sk-sk/bash-sk.html.markdown index e9d1490c..e9d1490c 100644 --- a/sk-sk/bash.html.markdown +++ b/sk-sk/bash-sk.html.markdown diff --git a/sk-sk/coffeescript.html.markdown b/sk-sk/coffeescript-sk.html.markdown index 30bbceec..30bbceec 100644 --- a/sk-sk/coffeescript.html.markdown +++ b/sk-sk/coffeescript-sk.html.markdown diff --git a/sk-sk/elixir.html.markdown b/sk-sk/elixir-sk.html.markdown index 2401f92e..2401f92e 100644 --- a/sk-sk/elixir.html.markdown +++ b/sk-sk/elixir-sk.html.markdown diff --git a/sk-sk/git.html.markdown b/sk-sk/git-sk.html.markdown index 21741406..21741406 100644 --- a/sk-sk/git.html.markdown +++ b/sk-sk/git-sk.html.markdown diff --git a/sk-sk/json.html.markdown b/sk-sk/json-sk.html.markdown index 2b1fbb58..2b1fbb58 100644 --- a/sk-sk/json.html.markdown +++ b/sk-sk/json-sk.html.markdown diff --git a/sk-sk/latex.html.markdown.tex b/sk-sk/latex-sk.html.markdown.tex index 5e2f9c7f..5e2f9c7f 100644 --- a/sk-sk/latex.html.markdown.tex +++ b/sk-sk/latex-sk.html.markdown.tex diff --git a/sk-sk/ruby.html.markdown b/sk-sk/ruby-sk.html.markdown index 799865b0..799865b0 100644 --- a/sk-sk/ruby.html.markdown +++ b/sk-sk/ruby-sk.html.markdown diff --git a/solidity.html.markdown b/solidity.html.markdown index c1f910fd..b657b6a1 100644 --- a/solidity.html.markdown +++ b/solidity.html.markdown @@ -37,8 +37,8 @@ features are typically marked, and subject to change. Pull requests welcome. // simple_bank.sol (note .sol extension) /* **** START EXAMPLE **** */ -// Declare the source file compiler version. -pragma solidity ^0.4.2; +// Declare the source file compiler version +pragma solidity ^0.4.19; // Start with Natspec comment (the three slashes) // used for documentation - and as descriptive data for UI elements/actions @@ -65,7 +65,7 @@ contract SimpleBank { // CapWords event LogDepositMade(address accountAddress, uint amount); // Constructor, can receive one or many variables here; only one allowed - function SimpleBank() { + function SimpleBank() public { // msg provides details about the message that's sent to the contract // msg.sender is contract caller (address of contract creator) owner = msg.sender; @@ -73,7 +73,11 @@ contract SimpleBank { // CapWords /// @notice Deposit ether into bank /// @return The balance of the user after the deposit is made - function deposit() public returns (uint) { + function deposit() public payable returns (uint) { + // Use 'require' to test user inputs, 'assert' for internal invariants + // Here we are making sure that there isn't an overflow issue + require((balances[msg.sender] + msg.value) >= balances[msg.sender]); + balances[msg.sender] += msg.value; // no "this." or "self." required with state variable // all values set to data type's initial value by default @@ -88,18 +92,17 @@ contract SimpleBank { // CapWords /// @param withdrawAmount amount you want to withdraw /// @return The balance remaining for the user function withdraw(uint withdrawAmount) public returns (uint remainingBal) { - if(balances[msg.sender] >= withdrawAmount) { - // Note the way we deduct the balance right away, before sending - due to - // the risk of a recursive call that allows the caller to request an amount greater - // than their balance - balances[msg.sender] -= withdrawAmount; - - if (!msg.sender.send(withdrawAmount)) { - // increment back only on fail, as may be sending to contract that - // has overridden 'send' on the receipt end - balances[msg.sender] += withdrawAmount; - } - } + require(withdrawAmount <= balances[msg.sender]); + + // Note the way we deduct the balance right away, before sending + // Every .transfer/.send from this contract can call an external function + // This may allow the caller to request an amount greater + // than their balance using a recursive call + // Aim to commit state before calling external functions, including .transfer/.send + balances[msg.sender] -= withdrawAmount; + + // this automatically throws on a failure, which means the updated balance is reverted + msg.sender.transfer(withdrawAmount); return balances[msg.sender]; } @@ -108,18 +111,9 @@ contract SimpleBank { // CapWords /// @return The balance of the user // 'constant' prevents function from editing state variables; // allows function to run locally/off blockchain - function balance() constant returns (uint) { + function balance() constant public returns (uint) { return balances[msg.sender]; } - - // Fallback function - Called if other functions don't match call or - // sent ether without data - // Typically, called when invalid data is sent - // Added so ether sent to this contract is reverted if the contract fails - // otherwise, the sender's money is transferred to contract - function () { - throw; // throw reverts state to before call - } } // ** END EXAMPLE ** @@ -137,6 +131,11 @@ int256 constant a = 8; // same effect as line above, here the 256 is explicit uint constant VERSION_ID = 0x123A1; // A hex constant // with 'constant', compiler replaces each occurrence with actual value +// All state variables (those outside a function) +// are by default 'internal' and accessible inside contract +// and in all contracts that inherit ONLY +// Need to explicitly set to 'public' to allow external contracts to access +int256 public a = 8; // For int and uint, can explicitly set space in steps of 8 up to 256 // e.g., int8, int16, int24 @@ -145,6 +144,12 @@ int64 c; uint248 e; // Be careful that you don't overflow, and protect against attacks that do +// For example, for an addition, you'd do: +uint256 c = a + b; +assert(c >= a); // assert tests for internal invariants; require is used for user inputs +// For more examples of common arithmetic issues, see Zeppelin's SafeMath library +// https://github.com/OpenZeppelin/zeppelin-solidity/blob/master/contracts/math/SafeMath.sol + // No random functions built in, use other contracts for randomness @@ -165,14 +170,14 @@ address public owner; // a getter is automatically created, but NOT a setter // All addresses can be sent ether -owner.send(SOME_BALANCE); // returns false on failure -if (owner.send) {} // REMEMBER: wrap in 'if', as contract addresses have +owner.transfer(SOME_BALANCE); // fails and reverts on failure + +// Can also do a lower level .send call, which returns a false if it failed +if (owner.send) {} // REMEMBER: wrap send in 'if', as contract addresses have // functions executed on send and these can fail // Also, make sure to deduct balances BEFORE attempting a send, as there is a risk of a recursive // call that can drain the contract -// can override send by defining your own - // Can check balance owner.balance; // the balance of the owner (user or contract) @@ -213,7 +218,7 @@ uint x = 5; // Destructuring/Tuples -(x, y) = (2, 7); // assign/swap multiple value +(x, y) = (2, 7); // assign/swap multiple values // 2. DATA STRUCTURES @@ -250,7 +255,7 @@ delete balances; // sets all elements to 0 // mapping, without knowing source keys - can build data structure // on top to do this -// Structs and enums +// Structs struct Bank { address owner; uint balance; @@ -273,7 +278,7 @@ state = State.Created; // enums can be explicitly converted to ints uint createdState = uint(State.Created); // 0 -// Data locations: Memory vs. storage vs. stack - all complex types (arrays, +// Data locations: Memory vs. storage vs. calldata - all complex types (arrays, // structs) have a data location // 'memory' does not persist, 'storage' does // Default is 'storage' for local and state variables; 'memory' for func params @@ -292,13 +297,13 @@ uint createdState = uint(State.Created); // 0 // 4. Global Variables of note // ** this ** this; // address of contract -// often used at end of contract life to send remaining balance to party +// often used at end of contract life to transfer remaining balance to party this.balance; this.someFunction(); // calls func externally via call, not via internal jump // ** msg - Current message received by the contract ** ** msg.sender; // address of sender -msg.value; // amount of ether provided to this contract in wei +msg.value; // amount of ether provided to this contract in wei, the function should be marked "payable" msg.data; // bytes, complete call data msg.gas; // remaining gas @@ -308,6 +313,8 @@ tx.gasprice; // gas price of the transaction // ** block - Information about current block ** now; // current time (approximately), alias for block.timestamp (uses Unix time) +// Note that this can be manipulated by miners, so use carefully + block.number; // current block number block.difficulty; // current block difficulty block.blockhash(1); // returns bytes32, only works for most recent 256 blocks @@ -334,9 +341,10 @@ function increment(uint x, uint y) returns (uint x, uint y) { // Call previous functon uint (a,b) = increment(1,1); -// 'constant' indicates that function does not/cannot change persistent vars +// 'constant' (alias for 'view') +// indicates that function does not/cannot change persistent vars // Constant function execute locally, not on blockchain -uint y; +uint y = 1; function increment(uint x) constant returns (uint x) { x += 1; @@ -344,13 +352,21 @@ function increment(uint x) constant returns (uint x) { // y is a state variable, and can't be changed in a constant function } +// 'pure' is more strict than 'constant', and does not +// even allow reading of state vars +// The exact rules are more complicated, so see more about +// constant/pure: +// http://solidity.readthedocs.io/en/develop/contracts.html#view-functions + // 'Function Visibility specifiers' // These can be placed where 'constant' is, including: -// public - visible externally and internally (default) -// external +// public - visible externally and internally (default for function) +// external - only visible externally (including a call made with this.) // private - only visible in the current contract // internal - only visible in current contract, and those deriving from it +// Generally, a good idea to mark each function explicitly + // Functions hoisted - and can assign a function to a variable function a() { var z = b; @@ -361,8 +377,15 @@ function b() { } +// All functions that receive ether must be marked 'payable' +function depositEther() public payable { + balances[msg.sender] += msg.value; +} + // Prefer loops to recursion (max call stack depth is 1024) +// Also, don't setup loops that you haven't bounded, +// as this can hit the gas limit // B. Events // Events are notify external parties; easy to search and @@ -376,10 +399,11 @@ function b() { event LogSent(address indexed from, address indexed to, uint amount); // note capital first letter // Call -Sent(from, to, amount); +LogSent(from, to, amount); -// For an external party (a contract or external entity), to watch: -Coin.Sent().watch({}, '', function(error, result) { +// For an external party (a contract or external entity), to watch using +// the Web3 Javascript library: +Coin.LogSent().watch({}, '', function(error, result) { if (!error) { console.log("Coin transfer: " + result.args.amount + " coins were sent from " + result.args.from + @@ -398,10 +422,10 @@ Coin.Sent().watch({}, '', function(error, result) { // '_' (underscore) often included as last line in body, and indicates // function being called should be placed there -modifier onlyAfter(uint _time) { if (now <= _time) throw; _ } -modifier onlyOwner { if (msg.sender == owner) _ } +modifier onlyAfter(uint _time) { require (now >= _time); _; } +modifier onlyOwner { require(msg.sender == owner) _; } // commonly used with state machines -modifier onlyIfState (State currState) { if (currState != State.A) _ } +modifier onlyIfStateA (State currState) { require(currState == State.A) _; } // Append right after function declaration function changeOwner(newOwner) @@ -415,12 +439,10 @@ onlyIfState(State.A) // underscore can be included before end of body, // but explicitly returning will skip, so use carefully modifier checkValue(uint amount) { - _ + _; if (msg.value > amount) { uint amountToRefund = amount - msg.value; - if (!msg.sender.send(amountToRefund)) { - throw; - } + msg.sender.transfer(amountToRefund); } } @@ -437,22 +459,21 @@ modifier checkValue(uint amount) { // amount of gas for a block of code - and will fail if that is exceeded // For example: for(uint x = 0; x < refundAddressList.length; x++) { - if (!refundAddressList[x].send(SOME_AMOUNT)) { - throw; - } + refundAddressList[x].transfer(SOME_AMOUNT); } // Two errors above: -// 1. A failure on send stops the loop from completing, tying up money +// 1. A failure on transfer stops the loop from completing, tying up money // 2. This loop could be arbitrarily long (based on the amount of users who need refunds), and // therefore may always fail as it exceeds the max gas for a block // Instead, you should let people withdraw individually from their subaccount, and mark withdrawn +// e.g., favor pull payments over push payments // 7. OBJECTS/CONTRACTS // A. Calling external contract -contract infoFeed { +contract InfoFeed { function info() returns (uint ret) { return 42; } } @@ -502,23 +523,10 @@ function someAbstractFunction(uint x); import "filename"; import "github.com/ethereum/dapp-bin/library/iterable_mapping.sol"; -// Importing under active development -// Cannot currently be done at command line - // 8. OTHER KEYWORDS -// A. Throwing -// Throwing -throw; // reverts unused money to sender, state is reverted -// Can't currently catch - -// Common design pattern is: -if (!addr.send(123)) { - throw; -} - -// B. Selfdestruct +// A. Selfdestruct // selfdestruct current contract, sending funds to address (often creator) selfdestruct(SOME_ADDRESS); @@ -543,7 +551,7 @@ function remove() { // that is private needs to be obfuscated (e.g., hashed w/secret) // Steps: 1. Commit to something, 2. Reveal commitment -sha3("some_bid_amount", "some secret"); // commit +keccak256("some_bid_amount", "some secret"); // commit // call contract's reveal function in the future // showing bid plus secret that hashes to SHA3 @@ -617,6 +625,7 @@ contract SomeOracle { // ** START EXAMPLE ** // CrowdFunder.sol +pragma solidity ^0.4.19; /// @title CrowdFunder /// @author nemild @@ -650,22 +659,20 @@ contract CrowdFunder { event LogWinnerPaid(address winnerAddress); modifier inState(State _state) { - if (state != _state) throw; - _ + require(state == _state); + _; } modifier isCreator() { - if (msg.sender != creator) throw; - _ + require(msg.sender == creator); + _; } - // Wait 6 months after final contract state before allowing contract destruction + // Wait 24 weeks after final contract state before allowing contract destruction modifier atEndOfLifecycle() { - if(!((state == State.ExpiredRefund || state == State.Successful) && - completeAt + 6 months < now)) { - throw; - } - _ + require(((state == State.ExpiredRefund || state == State.Successful) && + completeAt + 24 weeks < now)); + _; } function CrowdFunder( @@ -673,6 +680,7 @@ contract CrowdFunder { string _campaignUrl, address _fundRecipient, uint _minimumToRaise) + public { creator = msg.sender; fundRecipient = _fundRecipient; @@ -683,7 +691,9 @@ contract CrowdFunder { function contribute() public + payable inState(State.Fundraising) + returns(uint256 id) { contributions.push( Contribution({ @@ -699,7 +709,9 @@ contract CrowdFunder { return contributions.length - 1; // return id } - function checkIfFundingCompleteOrExpired() { + function checkIfFundingCompleteOrExpired() + public + { if (totalRaised > minimumToRaise) { state = State.Successful; payOut(); @@ -715,31 +727,23 @@ contract CrowdFunder { public inState(State.Successful) { - if(!fundRecipient.send(this.balance)) { - throw; - } - - + fundRecipient.transfer(this.balance); LogWinnerPaid(fundRecipient); } - function getRefund(id) - public + function getRefund(uint256 id) inState(State.ExpiredRefund) + public + returns(bool) { - if (contributions.length <= id || id < 0 || contributions[id].amount == 0 ) { - throw; - } + require(contributions.length > id && id >= 0 && contributions[id].amount != 0 ); - uint amountToRefund = contributions[id].amount; + uint256 amountToRefund = contributions[id].amount; contributions[id].amount = 0; - if(!contributions[id].contributor.send(amountToSend)) { - contributions[id].amount = amountToSend; - return false; - } + contributions[id].contributor.transfer(amountToRefund); - return true; + return true; } function removeContract() @@ -750,8 +754,6 @@ contract CrowdFunder { selfdestruct(msg.sender); // creator gets all money that hasn't be claimed } - - function () { throw; } } // ** END EXAMPLE ** @@ -798,6 +800,7 @@ someContractAddress.callcode('function_name'); // 13. STYLE NOTES // Based on Python's PEP8 style guide +// Full Style guide: http://solidity.readthedocs.io/en/develop/style-guide.html // Quick summary: // 4 spaces for indentation @@ -825,11 +828,16 @@ someContractAddress.callcode('function_name'); ## Additional resources - [Solidity Docs](https://solidity.readthedocs.org/en/latest/) +- [Smart Contract Best Practices](https://github.com/ConsenSys/smart-contract-best-practices) - [Solidity Style Guide](https://ethereum.github.io/solidity//docs/style-guide/): Ethereum's style guide is heavily derived from Python's [pep8](https://www.python.org/dev/peps/pep-0008/) style guide. -- [Browser-based Solidity Editor](http://chriseth.github.io/browser-solidity/) +- [EthFiddle - The JsFiddle for Solidity](https://ethfiddle.com/) +- [Browser-based Solidity Editor](https://remix.ethereum.org/) - [Gitter Solidity Chat room](https://gitter.im/ethereum/solidity) - [Modular design strategies for Ethereum Contracts](https://docs.erisindustries.com/tutorials/solidity/) +## Important libraries +- [Zeppelin](https://github.com/OpenZeppelin/zeppelin-solidity/): Libraries that provide common contract patterns (crowdfuding, safemath, etc) + ## Sample contracts - [Dapp Bin](https://github.com/ethereum/dapp-bin) - [Solidity Baby Step Contracts](https://github.com/fivedogit/solidity-baby-steps/tree/master/contracts) @@ -841,9 +849,6 @@ someContractAddress.callcode('function_name'); - [Smart Contract Security](https://blog.ethereum.org/2016/06/10/smart-contract-security/) - [Hacking Distributed Blog](http://hackingdistributed.com/) -## Information purposefully excluded -- Libraries - ## Style - Python's [PEP8](https://www.python.org/dev/peps/pep-0008/) is used as the baseline style guide, including its general philosophy diff --git a/standard-ml.html.markdown b/standard-ml.html.markdown index 5db15b5c..b34f1c08 100644 --- a/standard-ml.html.markdown +++ b/standard-ml.html.markdown @@ -6,6 +6,7 @@ contributors: - ["David Pedersen", "http://lonelyproton.com/"] - ["James Baker", "http://www.jbaker.io/"] - ["Leo Zovic", "http://langnostic.inaimathi.ca/"] + - ["Chris Wilson", "http://sencjw.com/"] --- Standard ML is a functional programming language with type inference and some @@ -266,6 +267,16 @@ fun second_elem (x::y::xs) = y fun evenly_positioned_elems (odd::even::xs) = even::evenly_positioned_elems xs | evenly_positioned_elems [odd] = [] (* Base case: throw away *) | evenly_positioned_elems [] = [] (* Base case *) + +(* The case expression can also be used to pattern match and return a value *) +datatype temp = + C of real + | F of real + +fun temp_to_f t = + case t of + C x => x * (9.0 / 5.0) + 32.0 + | F x => x (* When matching on records, you must use their slot names, and you must bind every slot in a record. The order of the slots doesn't matter though. *) diff --git a/sv-se/haskell-sv.html.markdown b/sv-se/haskell-sv.html.markdown new file mode 100644 index 00000000..da2d6ab0 --- /dev/null +++ b/sv-se/haskell-sv.html.markdown @@ -0,0 +1,461 @@ +--- +language: Haskell +filename: learnhaskell-sv.hs +contributors: + - ["Adit Bhargava", "http://adit.io"] +translators: + - ["Edward Tjörnhammar", "http://edwtjo.me"] +lang: sv-se +--- + +Haskell skapades för att vara ett praktiskt, rent, funktionellt +programmeringsspråk. Det är känt för sin använding av monader och dess +härledande typsystem men anledningen till att jag ständigt återbesöker språket +är på grund av dess elegans. Haskell gör programmering till ett rent nöje. + +```haskell +-- Radkommenterar börjar med två bindestreck. +{- Flerradskommentarer innesluts av vänster/höger måsvinge bindestreck +block på detta vis. +-} + +---------------------------------------------------- +-- 1. Fördefinierade datatyper och operatorer +---------------------------------------------------- + +-- Du har siffror +3 -- 3 + +-- Matte fungerar som förväntat +1 + 1 -- 2 +8 - 1 -- 7 +10 * 2 -- 20 +35 / 5 -- 7.0 + +-- Division är normalt inte heltalsdivision +35 / 4 -- 8.75 + +-- Heltalsdivision, här infix div +35 `div` 4 -- 8 + +-- Boolar (Sant och Falskt) är fördefinierade +True +False + +-- Samt dess operationer +not True -- False +not False -- True +1 == 1 -- True +1 /= 1 -- False +1 < 10 -- True + +-- I ovanstående exempel är `not` en funktion vilken bara tar ett argument. +-- Haskell behöver inte paranteser för sina funktionsanrop... alla argument +-- ges mellanslagsseparerade direkt efter funktionen. Det övergripande mönstret +-- är: +-- func arg1 arg2 arg3... +-- Se sektionen om funktioner för information om hur du skriver dina egna. + +-- Strängar och bokstäver +"Detta är en sträng" +'a' -- bokstav +'Du kan inte använda enkelfnutt för strängar.' -- fel! + +-- Strängar kan konkateneras +"Hej " ++ "världen!" -- "Hej världen!" + +-- En sträng är en lista av bokstäver +['H', 'e', 'j', 's', 'a', 'n'] -- "Hejsan" +"Detta är en sträng" !! 0 -- 'D' + + +---------------------------------------------------- +-- 2. Listor och Tupler +---------------------------------------------------- + +-- Varje element i en lista måste ha samma typ. +-- Dessa listor är ekvivalenta: +[1, 2, 3, 4, 5] +[1..5] + +-- Intervall är mångsidiga. +['A'..'F'] -- "ABCDEF" + +-- Man kan stega intervall. +[0,2..10] -- [0, 2, 4, 6, 8, 10] +[5..1] -- [] (Haskell förutsätter normalt inkrement) +[5,4..1] -- [5, 4, 3, 2, 1] + +-- Indexering in i en lista +[1..10] !! 3 -- 4 (nollindexerat) + +-- Man kan ha oändliga listor i Haskell! +[1..] -- listan över alla naturliga tal + +-- Oändliga listor fungerar enbart för att Haskell har "lat evaluering". +-- Det betyder att Haskell bara evaluerar de uttryck den måste. Du kan alltså +-- fråga efter det 1000:e elementet i en oändlig lista och Haskell kommer då ge +-- dig det: + +[1..] !! 999 -- 1000 + +-- Nu har Haskell evaluerat element 1 till 1000 i denna lista... men resten +-- av medlemmarna i denna oändliga lista existerar inte ännu! Haskell kommer +-- faktiskt inte utvärdera element den inte måste. + +-- Sammanslagning av två listor +[1..5] ++ [6..10] + +-- Lägg till 0 vid listhuvudet +0:[1..5] -- [0, 1, 2, 3, 4, 5] + +-- fler listoperationer som huvud, svans, initiella samt sista +head [1..5] -- 1 +tail [1..5] -- [2, 3, 4, 5] +init [1..5] -- [1, 2, 3, 4] +last [1..5] -- 5 + +-- listomfattningar +[x*2 | x <- [1..5]] -- [2, 4, 6, 8, 10] + +-- med bivilkor +[x*2 | x <- [1..5], x*2 > 4] -- [6, 8, 10] + +-- Varje element i en tupel kan ha olika typ men en tupel kan bara ha en +-- fixerad, eller statisk, längd. +-- En tupel: +("haskell", 1) + +-- För att komma åt element i ett par, alltså en 2-tupel, finns +-- de fördefinierade funktionerna: +fst ("haskell", 1) -- "haskell" +snd ("haskell", 1) -- 1 + +---------------------------------------------------- +-- 3. Funktioner +---------------------------------------------------- +-- En enkel funktion med två parametrar +add a b = a + b + +-- Notera även att om du använder ghci (Haskellinterpretatorn) kommer du behöva +-- använda `let` namnbindning för att synliggöra din funktionsdeklaration, +-- alltså +let add a b = a + b + +-- För att använda funktionen +add 1 2 -- 3 + +-- Man kan även göra funktionsanropet infix, alltså mellan parametersättningen, +-- med hjälp av bakåtfnuttar: +1 `add` 2 -- 3 + +-- Du kan även definiera funktioner vars funktionsnamn avsaknar bokstäver! +-- Med hjälp av parenteser kan du därmed definiera operatorer (normalt infix)! +-- Följande är en operator för heltalsdivision, vilken förlitar sig på div: +(//) a b = a `div` b +35 // 4 -- 8 + +-- Funktionsvakter: ett enkelt sätt att grena ut dina funktioner +fib x + | x < 2 = 1 + | otherwise = fib (x - 1) + fib (x - 2) + +-- Mönstermatchning fungerar på liknande vis. Här ger vi tre olika +-- parametermatchningar för vårat fib-resulat. Haskell kommer automatiskt följa +-- första bästa träff, uppifrån ned, vars vänstra sida om likhetstecknet matchar +-- anroparens parametervärde. +fib 1 = 1 +fib 2 = 2 +fib x = fib (x - 1) + fib (x - 2) + +-- Mönstermatchning på tupler: +foo (x, y) = (x + 1, y + 2) + +-- Mönstermatchning på listor. Här är `x` det första elementet i listan och `xs` +-- är resten av listan. Nu kan vi skriva våran egen map-funktion +minMap func [] = [] +minMap func (x:xs) = func x:(minMap func xs) + +-- Anonyma funktioner, eller lambdauttryck, skapas med hjälp av omvänt +-- snedstreck, följt av parametrarna +minMap (\x -> x + 2) [1..5] -- [3, 4, 5, 6, 7] + +-- Användning av fold (även kallad `inject`, `reduce`, osv.) tillsammans med en +-- anonym funktion. `fold1` är en vänstervikande funktion och använder första +-- värdet i listan som det initiella värdet för ackumulatorn. +foldl1 (\acc x -> acc + x) [1..5] -- 15 + +---------------------------------------------------- +-- 4. Mer funktioner +---------------------------------------------------- + +-- Partiell applikation: +-- Om du inte anropar funktionen med alla sina argument +-- blir den partiellt applicerad. Det betyder att du erhåller en funktion där en +-- delmängd av parametrarna blivit värdesatta men några är fortfarande fria. +add a b = a + b +foo = add 10 -- foo är nu en funktion som tar ett nummer och lägger till 10 till + -- det +foo 5 -- 15 + +-- Ett annat sätt att skriva samma sak +foo = (10+) +foo 5 -- 15 + +-- Funktionskomposition: +-- Operatorn `.` kedjar ihop funktioner +-- Till exempel, nedan är `foo` en funktion som tar ett värde, den adderar 10 +-- till det, multiplicerar det resultatet med 4 och sen ersätts med det värdet. +foo = (4*) . (10+) + +-- 4*(10+5) = 60 +foo 5 -- 60 + +-- Precedensordning: +-- Haskell har en operator `$`. Denna operator applicerar en funktion till en +-- given parameter med dess precedens. I kontrast mot vanlig +-- funktionsapplikation, vilket har den högsta utvärderingsprioriteten 10 och +-- associerar till vänster, har denna prioritetsordning 0 och är +-- högerassociativ. Denna låga prioritet medför att parameteruttrycket till +-- höger om operatorn får det reducerat innan det appliceras till sin vänster. + +-- före +even (fib 7) -- falskt + +-- ekvivalent +even $ fib 7 -- falskt + +-- med funktionskomposition +even . fib $ 7 -- falskt + + +---------------------------------------------------- +-- 5. Typsignaturer +---------------------------------------------------- + +-- Haskell har ett väldigt starkt typsystem, alla giltiga uttryck har en typ. + +-- Några grundläggande typer: +5 :: Integer +"hello" :: String +True :: Bool + +-- Funktioner har också typer, +-- `not` tar en bool och returnerar en bool: +-- not :: Bool -> Bool + +-- Här är ett exempel på en funktionssignatur vilken beskriver en funktion som +-- reducerar två heltal till ett: +-- add :: Integer -> Integer -> Integer + +-- Trots att Haskell härleder typen på icke typsatta uttryck är det bra form att +-- explicit ange dessa för ens deklarerade funktioner: +double :: Integer -> Integer +double x = x * 2 + +---------------------------------------------------- +-- 6. Kontrollflöde och Ifsatser +---------------------------------------------------- + +-- if-sats +haskell = if 1 == 1 then "awesome" else "awful" -- haskell = "awesome" + +-- if-statser kan spridas över rader men indentering har betydelse +haskell = if 1 == 1 + then "awesome" + else "awful" + +-- case uttryck: följande är ett exempel på kommandoradsparsning +case args of + "help" -> printHelp + "start" -> startProgram + _ -> putStrLn "bad args" + +-- Haskell har inte loopar istället används recursion. +-- map applicerar en funktion över varje element i en lista + +map (*2) [1..5] -- [2, 4, 6, 8, 10] + +-- man kan deklarera en for funktion genom att använda map +for array func = map func array + +-- och därefter använda den tillsammans med en anonym funktion för att +-- efterlikna en loop +for [0..5] $ \i -> show i + +-- men vi kunde även ha skrivit på följande vis: +for [0..5] show + +-- Du kan använda foldl eller foldr för att reducera en lista +-- foldl <fn> <initial value> <list> +foldl (\x y -> 2*x + y) 4 [1,2,3] -- 43 + +-- Vilket är samma sak som +(2 * (2 * (2 * 4 + 1) + 2) + 3) + +-- foldl viker från vänster, foldr från höger +foldr (\x y -> 2*x + y) 4 [1,2,3] -- 16 + +-- Vilket alltså är samma sak som +(2 * 1 + (2 * 2 + (2 * 3 + 4))) + +---------------------------------------------------- +-- 7. Datatyper +---------------------------------------------------- + +-- Såhär definierar du din egen datatyp i Haskell +data Color = Red | Blue | Green + +-- När du gjort det kan du använda den i funktionssignaturer och uttryck +say :: Color -> String +say Red = "Du är Rö!" +say Blue = "Du är Blå!" +say Green = "Du är Grön!" + +-- Dina datatyper kan även ta parametrar +data Maybe a = Nothing | Just a + +-- Följande uttryck är alla specialiseringar av typen Maybe +Just "hello" -- har typen `Maybe String` +Just 1 -- har typen `Maybe Int` +Nothing -- har typen `Maybe a` för alla `a` + +---------------------------------------------------- +-- 8. Haskell IO +---------------------------------------------------- + +-- Även om IO inte kan förstås fullt ut utan att först förklara monader är det +-- inte svårt att lära sig tillräckligt för att komma igång + +-- När ett Haskellprogram körs är det topnivåns main som körs. Main måste +-- returnerna ett värde av typen `IO a`, för någon typ `a`. Till exempel: + +main :: IO () +main = putStrLn $ "Hej, himmelen! " ++ (say Blue) +-- putStrLn har typen type String -> IO () + +-- Det är enkelt att göra IO om du kan implementera ditt program som en funktion +-- från String till String. Funktionen +-- interact :: (String -> String) -> IO () +-- tar denna funktion och matar den med strängdata från stdin och skriver ut +-- resultatet som en sträng på stdout + +countLines :: String -> String +countLines = show . length . lines + +main' = interact countLines + +-- Du kan tänka på värden av typen `IO ()` som att representera +-- händelsesekvenser du vill att din dator skall utföra, likt imperativa språk. +-- För att kedja ihop händelsesekvenser använder man ett syntaktiskt socker +-- kallat do-notation. Som exempel: + +sägHej :: IO () +sägHej = do + putStrLn "Vad heter du?" + namn <- getLine -- denna raden läser en rad från stdin och vi binder den till + -- funktionsnamnet `namn` + putStrLn $ "Hejsan, " ++ namn + +-- Övning: Skriv din egen version av interageringsfunktionen `interact` som bara +-- läser en rad från stdin, vanliga `interact` läser till EOF. + +-- Koden i sägHej kommer dock aldrig exekveras. Den enda handlingen som blir det +-- är som bekant utvärderingen av `main`. +-- För att köra `sägHej` kommentera ut definition av `main` ovan och +-- avkommentera nedanstående version: +-- main = sayHello + +-- Låt oss bättre förstå hur funktionen `getLine` vi just använde fungerar. Dess +-- typsignatur är: +-- getLine :: IO String +-- Du kan tänka på typen `IO a` som att representeras av ett datorprogram vilken +-- kommer generera ett värde av typen `a` när det exekveras (utöver allt annat +-- det kan tänkas göra). Vi kan därtill binda detta värde till ett namn för +-- återanvändning genom att använda `<-`. Vi kan även skapa våran egen handling +-- av typen `IO String`: + +handling :: IO String +handling = do + putStrLn "Detta är en rad, tihi" + input1 <- getLine + input2 <- getLine + -- Typen av hela `do` blocket är vad som står på sista raden. Här är även + -- `return` inte ett nyckelord i språket utan en funktion med en typsignatur + return (input1 ++ "\n" ++ input2) -- return :: String -> IO String + +-- Vi kan använda `return` på samma sätt som vi använde `getLine`: + +main'' = do + putStrLn "Jag kommer eka två rader!" + result <- handling + putStrLn result + putStrLn "Tack och hej leverpastej!" + +-- Typen `IO` är ett exempel på en monad. Sättet Haskell utnyttjar monader på är +-- anledningen till hur språket kan bibehålla sin renhet. En funktion vilken +-- interagerar med omvärlden (alltså gör IO) blir markerad med `IO` i sin +-- typsignatur. Detta låter oss enkelt upptäcka vilka funktioner som är "rena" +-- (inte interagerar med omvärlden eller är tillståndsoberoende) and vilka +-- funktioner som inte är det. + +-- Detta är ett mäktigt särdrag eftersom det är enkelt att köra rena funktioner +-- sammanlöpande; Samtidig programmering är enkel att göra i Haskell. + +---------------------------------------------------- +-- 9. Haskell REPL (kodtolk) +---------------------------------------------------- + +-- Efter installation av GHC kan vi starta tolken genom att skriva `ghci`. +-- Nu kan du mata in Haskellkod direkt i den. Nya värden måste introduceras med +-- `let` bindning: + +let foo = 5 + +-- Du kan även se typen av namnbindningen med `:t` + +> :t foo +foo :: Integer + +-- Operatorer, som `+`, `:` och `$` är funktioner. Deras typ kan inspekteras +-- genom att skriva operatorn mellan parenteser: + +> :t (:) +(:) :: a -> [a] -> [a] + +-- Du kan få ytterliggare information om något namn genom att använda `:i` + +> :i (+) +class Num a where + (+) :: a -> a -> a + ... + -- Defined in ‘GHC.Num’ +infixl 6 + + +-- Du kan även köra alla handlingar av typen `IO ()` direkt i tolken + +> sägHej +Vad är ditt namn? +Kompis! +Hello, Kompis! + +``` + +Det finns mycket mer att upptäcka med Haskell, inklusive typklasser och monader. +Vilka är de stora idéerna som gör Haskell till det roliga programmeringsspråket +det är. Jag lämar dig med ett sista exempel; En implementation av quicksort: + +```haskell +qsort [] = [] +qsort (p:xs) = qsort mindre ++ [p] ++ qsort större + where mindre = filter (< p) xs + större = filter (>= p) xs +``` + +Det finns två populära sätt att installera Haskell på: Den traditionella [Cabal sättet](http://www.haskell.org/platform/), eller det nyare [Stack sättet](https://www.stackage.org/install). + +Du kan finna vänligare och/eller djupare introduktioner till Haskell på engelska +från: +[Learn you a Haskell](http://learnyouahaskell.com/), +[Happy Learn Haskell Tutorial](http://www.happylearnhaskelltutorial.com/) eller +[Real World Haskell](http://book.realworldhaskell.org/). diff --git a/sv-se/nix-sv.html.markdown b/sv-se/nix-sv.html.markdown new file mode 100644 index 00000000..15d9456b --- /dev/null +++ b/sv-se/nix-sv.html.markdown @@ -0,0 +1,368 @@ +--- +language: nix +filename: learn-sv.nix +contributors: + - ["Chris Martin", "http://chris-martin.org/"] +translators: + - ["Edward Tjörnhammar", "http://edwtjo.me"] +lang: sv-se +--- + +Nix är ett enkelt funktionelt språk utvecklat för +[Nix pakethanteraren](https://nixos.org/nix/) och +[NixOS](https://nixos.org/) linuxdistributionen. + +Du kan utvärdera Nix uttryck genom att använda +[nix-instantiate](https://nixos.org/nix/manual/#sec-nix-instantiate) +eller [`nix-repl`](https://github.com/edolstra/nix-repl). + +``` +with builtins; [ + + # Kommentarer + #========================================= + + # Inlinekommentarer ser ut såhär. + + /* Flerradskommentarer ser ut + såhär. */ + + + # Booleaner + #========================================= + + (true && false) # Och + #=> false + + (true || false) # Eller + #=> true + + (if 3 < 4 then "a" else "b") # Villkorlig + #=> "a" + + + # Heltal + #========================================= + + # Heltal är den enda numeriska typen. + + 1 0 42 (-3) # Några heltal + + (4 + 6 + 12 - 2) # Addition + #=> 20 + + (7 / 2) # Division + #=> 3 + + + # Strängar + #========================================= + + "Stränglitteraler omgärdas av raka citationstecken." + + " + Stränglitteraler kan sträcka sig + över flera rader. + " + + '' + Detta kallas för en indenterad strängliteral, omgärdad av dubbla apostrofer + Den plockar intelligent bort ledande blanktecken. + '' + + '' + a + b + '' + #=> "a\n b" + + ("ab" + "cd") # Strängkonkatenering + #=> "abcd" + + # Antikvotering låter dig bädda in språkvärden i strängar. + ("Din hemkatalog är ${getEnv "HOME"}") + #=> "Din hemkatalog är /home/alice" + + + # Sökvägar + #========================================= + + # Nix har en primitiv, inbyggd, typ för sökvägar. + /tmp/tutorials/learn.nix + + # Relativa sökvägar förenas med sökvägen till dess definerande fils sökväg + # vid tolkningstillfället för att skapa dess absoluta sökväg. + + tutorials/learn.nix + #=> /the-base-path/tutorials/learn.nix + + # En sökväg måste innehålla åtminstonde ett snedstreck, så en relativ sökväg + # till en fil i samma katalog måste ges ett "./" prefix + + ./learn.nix + #=> /the-base-path/learn.nix + + # Divisionsoperatorn / måste omges av blanksteg om man vill att det skall + # tolkas som heltalsdivision + + 7/2 # Detta är en sökväg + (7 / 2) # Detta är heltalsdivision + + + # Importer + #========================================= + + # En nix fil innehåller ett enstaka topnivåuttryck utan fria variabler. + # Ett importuttryck evalueras till värdet på filen som den importerar. + (import /tmp/foo.nix) + + # Importer kan också specificeras med hjälp av strängar. + (import "/tmp/foo.nix") + + # Importsökvägar måste vara absoluta. Sökvägslitteraler härleds vid + # tolkningstillfället så följande är ok. + (import ./foo.nix) + + # Men detta är inte något som sker med strängar. + (import "./foo.nix") + #=> error: string ‘foo.nix’ doesn't represent an absolute path + + + # Let + #========================================= + + # `let` block tillåter oss att binda värden till namn. + (let x = "a"; in + x + x + x) + #=> "aaa" + + # Bindingar kan referera till varandra och deras ordning sinsemellan spelar + # ingen roll. + (let y = x + "b"; + x = "a"; in + y + "c") + #=> "abc" + + # Innre bindningar skuggar utanpåliggande bindingar. + (let a = 1; in + let a = 2; in + a) + #=> 2 + + + # Funktioner + #========================================= + + (n: n + 1) # En lambdafunktion som lägger till 1 + + ((n: n + 1) 5) # Samma funktion applicerad på 5 + #=> 6 + + # Det finns ingen syntax för direkt namngivna funktioner, istället binder man + # dessa med `let` block som andra värden. + (let succ = (n: n + 1); in succ 5) + #=> 6 + + # En funktion är en lambda med en parameter. Flera parameterar kan ges med + # hjälp av currying. + ((x: y: x + "-" + y) "a" "b") + #=> "a-b" + + # Vi kan också ha namngivna funktionsparametrar, vilket vi kommer komma till + # senare, efter att vi introducerat attributset. + + # Listor + #========================================= + + # Listor noteras med hakparenteser. + + (length [1 2 3 "x"]) + #=> 4 + + ([1 2 3] ++ [4 5]) + #=> [1 2 3 4 5] + + (concatLists [[1 2] [3 4] [5]]) + #=> [1 2 3 4 5] + + (head [1 2 3]) + #=> 1 + (tail [1 2 3]) + #=> [2 3] + + (elemAt ["a" "b" "c" "d"] 2) + #=> "c" + + (elem 2 [1 2 3]) + #=> true + (elem 5 [1 2 3]) + #=> false + + (filter (n: n < 3) [1 2 3 4]) + #=> [ 1 2 ] + + + # Mängder + #========================================= + + # Ett attributset är en oordnad mappning av strängnycklar och värden. + { foo = [1 2]; bar = "x"; } + + # Punktoperatorn . väljer ett värde från attributset:et + { a = 1; b = 2; }.a + #=> 1 + + # Frågeoperatorn ? testar om en nyckel är närvarande i ett attributset + ({ a = 1; b = 2; } ? a) + #=> true + ({ a = 1; b = 2; } ? c) + #=> false + + # Snedstrecksoperatorn // slår ihop två attributset:ar. + ({ a = 1; } // { b = 2; }) + #=> { a = 1; b = 2; } + + # Värden på höger skriver över värden till vänster. + ({ a = 1; b = 2; } // { a = 3; c = 4; }) + #=> { a = 3; b = 2; c = 4; } + + # Recursionsnyckelordet rec noterar ett rekursivt attributset (en fixpunkt) + # i vilket attributen kan referera till varandra. + (let a = 1; in { a = 2; b = a; }.b) + #=> 1 + (let a = 1; in rec { a = 2; b = a; }.b) + #=> 2 + + # Nästlade attributset:ar kan definieras bit för bit. + { + a.b = 1; + a.c.d = 2; + a.c.e = 3; + }.a.c + #=> { d = 2; e = 3; } + + # Ett attributsets barn kan inte tilldelas på detta vis om attributsetet + # självt blivit direkt tilldelat. + { + a = { b = 1; }; + a.c = 2; + } + #=> error: attribute ‘a’ already defined + + + # Bindningsintroduktion, `with` + #========================================= + + # Det attributset vilket återfinns i ett `with` uttryck kommer få sina + # värdebindningar introducerade i efterkommande uttryck. + (with { a = 1; b = 2; }; + a + b) + # => 3 + + # Innre bindningar skuggar yttre bindningar. + (with { a = 1; b = 2; }; + (with { a = 5; }; + a + b)) + #=> 7 + + # Första raden av detta exempel börjar med "with builtins;" eftersom builtins + # är ett attributset innehållande alla inbyggda hjälpfunktioner såsom + # (length, head, tail, filter, etc.). Detta sparar oss från att hela tiden + # referera in i det attributset:et , alltså du kan använda bara "length" + # istället för "builtins.length". + + + # Attributsetmönster + #========================================= + + # Attributset är användbara när vi skall skicka med flera värden till en + # funktion. + (args: args.x + "-" + args.y) { x = "a"; y = "b"; } + #=> "a-b" + + # Man kan använda attributsetmönster för ökad tydlighet. + ({x, y}: x + "-" + y) { x = "a"; y = "b"; } + #=> "a-b" + + # Attributmönster misslyckas dock om det medskickade attributmönstret + # innehåller extra nycklar. + ({x, y}: x + "-" + y) { x = "a"; y = "b"; z = "c"; } + #=> error: anonymous function called with unexpected argument ‘z’ + + # Genom att lägga till ", ..." kan vi ignorera ytterliggare nycklar. + ({x, y, ...}: x + "-" + y) { x = "a"; y = "b"; z = "c"; } + #=> "a-b" + + + # Felmeddelanden + #========================================= + + # `throw` gör att programtolken gör abort med dess tillhörande felmeddelande + causes evaluation to abort with an error message. + (2 + (throw "foo")) + #=> error: foo + + # `tryEval` fångar kastade fel `throw`. + (tryEval 42) + #=> { success = true; value = 42; } + (tryEval (2 + (throw "foo"))) + #=> { success = false; value = false; } + + # `abort` fungerar som `throw`, men är kritiskt och kan inte fångas. + (tryEval (abort "foo")) + #=> error: evaluation aborted with the following error message: ‘foo’ + + # `assert` utvärderas till det givna värdet om dess predikat är sant. + # annars skickar den ett fångbart fel. + (assert 1 < 2; 42) + #=> 42 + (assert 1 > 2; 42) + #=> error: assertion failed at (string):1:1 + (tryEval (assert 1 > 2; 42)) + #=> { success = false; value = false; } + + + # Orenhet + #========================================= + + # Eftersom repeterbarhet för byggen är en kritisk egenskap för + # Nix-pakethanteraren betonas funktionell renhet i Nix-programmeringsspråket. + # Men med det sagt existerar det källor till orenhet + + # Man kan referera till miljövariabler. + (getEnv "HOME") + #=> "/home/alice" + + # `trace` funktionen används för att debugga. Den skriver ut första argumentet + # till stderr och reduceras samtidigt till det andra argumentet. + (trace 1 2) + #=> trace: 1 + #=> 2 + + # Man kan skriva filer till Nix-store, lagringsplatsen för alla Nix-uttryck. + # Även om detta är orent beteende är det hyfsat säkert eftersom filens + # lagringsplats är härledd från dess innehåll och beroenden. Man kan läsa + # filer från precis överallt. I nedanstående exempel skriver vi en fil till + # Nix-store och sedan läser tillbaka den. + + (let filename = toFile "foo.txt" "hello!"; in + [filename (builtins.readFile filename)]) + #=> [ "/nix/store/ayh05aay2anx135prqp0cy34h891247x-foo.txt" "hello!" ] + + # Vi kan också ladda ned filer till Nix-store. + (fetchurl "https://example.com/package-1.2.3.tgz") + #=> "/nix/store/2drvlh8r57f19s9il42zg89rdr33m2rm-package-1.2.3.tgz" + +] +``` + +### Vidare Läsning (eng) + +* [Nix Manual - Nix expression language] + (https://nixos.org/nix/manual/#ch-expression-language) + +* [James Fisher - Nix by example - Part 1: The Nix expression language] + (https://medium.com/@MrJamesFisher/nix-by-example-a0063a1a4c55) + +* [Susan Potter - Nix Cookbook - Nix By Example] + (http://funops.co/nix-cookbook/nix-by-example/) diff --git a/tcl.html.markdown b/tcl.html.markdown index 40d9111a..f48d5271 100644 --- a/tcl.html.markdown +++ b/tcl.html.markdown @@ -328,6 +328,7 @@ proc greet {greeting name} { # the third argument to "proc", is a string. The previous command # can be rewritten using no braces: proc greet greeting\ name return\ \"\$greeting,\ \$name!\" +# " diff --git a/toml.html.markdown b/toml.html.markdown index 980563f9..814e57e7 100755 --- a/toml.html.markdown +++ b/toml.html.markdown @@ -12,7 +12,7 @@ It is an alternative to YAML and JSON. It aims to be more human friendly than JS Be warned, TOML's spec is still changing a lot. Until it's marked as 1.0, you should assume that it is unstable and act accordingly. This document follows TOML v0.4.0. -```toml +``` # Comments in TOML look like this. ################ @@ -102,9 +102,10 @@ boolMustBeLowercase = true # Datetime # ############ -date1 = 1979-05-27T07:32:00Z # follows the RFC 3339 spec -date2 = 1979-05-27T07:32:00 # without offset -date3 = 1979-05-27 # without offset nor time +date1 = 1979-05-27T07:32:00Z # UTC time, following RFC 3339/ISO 8601 spec +date2 = 1979-05-26T15:32:00+08:00 # with RFC 3339/ISO 8601 offset +date3 = 1979-05-27T07:32:00 # without offset +date4 = 1979-05-27 # without offset or time #################### # COLLECTION TYPES # diff --git a/tr-tr/c++-tr.html.markdown b/tr-tr/c++-tr.html.markdown new file mode 100644 index 00000000..2c841456 --- /dev/null +++ b/tr-tr/c++-tr.html.markdown @@ -0,0 +1,1077 @@ +--- +language: c++ +lang: tr-tr +filename: learncpp-tr.cpp +contributors: + - ["Steven Basart", "http://github.com/xksteven"] + - ["Matt Kline", "https://github.com/mrkline"] + - ["Geoff Liu", "http://geoffliu.me"] + - ["Connor Waters", "http://github.com/connorwaters"] + - ["Ankush Goyal", "http://github.com/ankushg07"] + - ["Jatin Dhankhar", "https://github.com/jatindhankhar"] + - ["Adem Budak", "https://github.com/p1v0t"] +--- + +C++ +[yaratıcısı Bjarne Stroustrup'a göre](http://channel9.msdn.com/Events/Lang-NEXT/Lang-NEXT-2014/Keynote), + +- "daha iyi bir C" yapmak +- veri soyutlamayı desteklemek +- nesneye yönelik programlamayı deskteklemek +- tipten bağımsız programlamayı desteklemek + +için tasarlanmış bir sistem programlama dilir. + +Sözdizimi daha yeni dillerden daha zor veya karmaşık olsa da işlemcinin doğrudan çalıştırabileceği +native komutlara derlenerek, donanım üzerinde (C gibi) sıkı bir kontrol sağlar, bunu yaparken +tipten bağımsızlık, exception'lar ve sınıflar gibi yüksek-seviyeli özellikleri destekler. +Bu hız ve kullanışlılık C++'ı en çok kullanılan dillerden biri yapar. + +```c++ +////////////////////// +// C ile karşılaştırma +////////////////////// + +// C++ _neredeyse_ C'nin bir üstkümesidir, değişken tanımı, basit tipleri +// ve fonksiyonları için temelde aynı sözdizimini paylaşır. + +// Aynı C gibi, programın başlangıç noktası bir integer döndüren +// main fonksiyonudur. +// Bu değer programın bitiş statüsünü belli eder. +// Daha fazla bilgi için bknz http://en.wikipedia.org/wiki/Exit_status . + +int main(int argc, char** argv) +{ + // Komut satırı argümanları C'de olduğu gibi argv ve argc ile geçilir + // argc, argüman sayısını belli eder, + // argv, argümanları belli eden, C-stili string'lerin (char*) dizisidir. + // İlk argüman çağrılan programın adıdır. + // Eğer argümanları umursamıyorsan, argv ve argc kullanılmayabilir + // int main() gibi + + // 0 çıkış durumu başarıyı belirtir. + return 0; +} + +// Bunlara rağmen C++ aşağıdaki noktalarda farklılaşır: + +// C++'ta, karakterler char türündendir +sizeof('c') == sizeof(char) == 1 + +// C'de, karakterler int türündendir +sizeof('c') == sizeof(int) + + +// C++ katı bir prototip kuralına sahiptir +void func(); // fonksiyon argüman kabul etmez + +// C'de +void func(); // fonksiyon herhangi bir sayıda argüman kabul edebilir + +// C++'da NULL yerine nullptr kullanılır +int* ip = nullptr; + +// C standard başlıkları başına "c" eklenip, sondaki .h +// kullanılmadan C++'ta kullanılabilir +#include <cstdio> + +int main() +{ + printf("Hello, world!\n"); + return 0; +} + +////////////////////////////////// +// Fonksiyonun fazladan yüklenmesi +////////////////////////////////// + +// C++ herbir fonksiyonun farklı parametereler +// aldığı fonksiyon fazladan yüklenmesini desktekler + +void print(char const* myString) +{ + printf("String %s\n", myString); +} + +void print(int myInt) +{ + printf("My int is %d", myInt); +} + +int main() +{ + print("Hello"); // void print(const char*) fonksiyonunu çağırır. + print(15); // void print(int) fonksiyonunu çağırır. +} + +//////////////////////////////// +// Default fonksiyon argümanları +//////////////////////////////// + +// Eğer çağırıcı tarafından fonksiyona argüman sağlanmamışsa, +// fonksiyona default argüman verebilirsin + +void doSomethingWithInts(int a = 1, int b = 4) +{ + // Burada int'lerle birşeyler yap +} + +int main() +{ + doSomethingWithInts(); // a = 1, b = 4 + doSomethingWithInts(20); // a = 20, b = 4 + doSomethingWithInts(20, 5); // a = 20, b = 5 +} + +// Default argümanlar, argüman listesinin sonunda yer almalı. + +void invalidDeclaration(int a = 1, int b) // Hata! +{ +} + + +///////////////////////// +// Namespace(İsim uzayı) +///////////////////////// + +// Namespace'ler değişken, fonksiyon ve diğer bildirimlerin +// kapsama alanını ayırır. +// Namespace'ler içiçe geçebilir. + +namespace First { + namespace Nested { + void foo() + { + printf("This is First::Nested::foo\n"); + } + } // Nested namespace'inin sonu +} // First namespace'inin sonu + +namespace Second { + void foo() + { + printf("This is Second::foo\n"); + } +} + +void foo() +{ + printf("This is global foo\n"); +} + +int main() +{ + // Second namespace'i içinideki tüm sembolleri mevcut kapsama alanına dahil eder. + // Dikkat edersen artık yalnızca foo() çağrısı çalışmayacaktır çünkü hangi + // namespace'ten çağrıldığı açık değildir. + using namespace Second; + + Second::foo(); // "This is Second::foo" yazdırıır + First::Nested::foo(); // "This is First::Nested::foo" yazdırır + ::foo(); // "This is global foo" yazdırır. +} + +/////////////// +// Input/Output +/////////////// + +// C++'ta input ve output stream'leri kullanır. +// cin, cout ve cerr,sırasıyla, stdin, stdout, ve stderr'i temsil eder. +// << araya ekleme ve >> aradan çıkarma operatörüdür. + +#include <iostream> // I/O stream'lerini dahil etmek için + +using namespace std; // Streamler std namespace'i içindedir(standard kütüphane) + +int main() +{ + int myInt; + + // stdout (veya terminal/screen)'ta çıktı verir + cout << "Enter your favorite number:\n"; + // Girdiyi alır + cin >> myInt; + + // cout ayrıca formatlanabilir + cout << "Your favorite number is " << myInt << "\n"; + // prints "Your favorite number is <myInt>" + + cerr << "Used for error messages"; +} + +////////////// +// String'ler +///////////// + +// String'ler C++'ta nesnedir ve pek çok üye fonksiyonu vardır +#include <string> + +using namespace std; // String'ler de std namespace'i içindedir. (standard kütüphane) + +string myString = "Hello"; +string myOtherString = " World"; + +// + eklemek için kullanıldır +cout << myString + myOtherString; // "Hello World" + +cout << myString + " You"; // "Hello You" + +// C++'ta stringler are mutable'dır (değişebilir). +myString.append(" Dog"); +cout << myString; // "Hello Dog" + + +/////////////////////// +// Reference (Referans) +/////////////////////// + +// C'deki pointer'lara ek olarak +// C++ _reference_'lara sahiptir. +// Bunlar bir kere atandınğında tekrardan atanamayan pointer'dır +// ve null olamaz. +// Değişkenin kendisiyle aynı sözdizimine sahiptir: +// Değerine ulaşmak için * ihtiyaç yoktur ve +// atama için & (address of) kullanılmaz. + +using namespace std; + +string foo = "I am foo"; +string bar = "I am bar"; + + +string& fooRef = foo; // Bu foo'nun reference'ını oluşturur. +fooRef += ". Hi!"; // foo'yu reference'ı üzerinden değiştirir. +cout << fooRef; // "I am foo. Hi!" yazdırır. + +// "fooRef"e yeniden atama yapmaz. Bu "foo = bar" denktir ve bu satırdan sonra +// foo == "I am bar" olur +cout << &fooRef << endl; // foo'un adresini yazdırır +fooRef = bar; +cout << &fooRef << endl; //Hala foo'nun adresini yazdırır +cout << fooRef; //"I am bar" yazdırır + +// fooRef'in adresi aynı kalır yani hala foo'nun adresidir. + +const string& barRef = bar; // bar'a const reference oluşturur +// C'de olduğu gibi, const değerler (pointer'lar ve reference'ler) değiştirilemez. +barRef += ". Hi!"; // Hata, const reference'ler değiştirilemez. + +// Kısa bir ekleme: reference'lere devam etmeden önce, geçici nesne konseptinden +// bahsetmeliyiz. Mesela aşadaki gibi bir kod var: +string tempObjectFun() { ... } +string retVal = tempObjectFun(); + +// Bu iki satırda aslında ne oluyor: +// - tempObjectFun fonksiyonundan bir string nesnesi dönüyor +// - dönmüş olan nesneyle yeni bir string oluşturuyor +// - dönmüş olan nesne yok ediliyor +// İşte bu dönen nesneye geçici nesne denir. Geçici nesneler fonksiyon nesne +// döndürdüğünde oluşturulur ve ifade işini bitirdiğinde yok edilir (Aslında, +// standard'ın söylediği şey bu ama derleyiciler bu davranışı değiştirmemize +// izin veriyor. Daha fazla detay için "return value optimization" diye +// aratabilirsin. Sonuç olarak aşağıdaki kodda: +foo(bar(tempObjectFun())) + +// foo ve bar'ın varolduğunu kabul ediyoruz, tempObjectFun'dan dönen nesne +// bar'a geçti ve foo çağrılmadan önce yokedildir. + +// Şimdi reference'lara dönelim. "ifadenin sonunda" kuralının bir istisnası +// eğer geçici nesne const reference'a geçildiyse oratya çıkar, bu durumda +// nesnenin ömrü mevcut kapsama alanına kadar uzar: + +void constReferenceTempObjectFun() { + // constRef geçici nesneyi alır ve bu durum fonksiyonun sonuna kadar geçerlidir. + const string& constRef = tempObjectFun(); + ... +} + +// C++11 ile gelen diğer bir reference geçici nesnelere özeldir. Bu türden birden +// bir tip tanımlayamazsın ama aşırı yüklenme sırasında bu tipler öncelik alır: +void someFun(string& s) { ... } // Regular reference +void someFun(string&& s) { ... } // Geçici nesneye reference + +string foo; +someFun(foo); // regular reference'ı çağırır +someFun(tempObjectFun()); // geçici reference'ı çağırır + +///////////////////// +// Enum +///////////////////// + +// Enum'lar sabit değerler yapmak için kullanılır ve çoğunlukla kodun daha okunaklı +// olması için kullanılır + +enum ECarTypes +{ + Sedan, + Hatchback, + SUV, + Wagon +}; + +ECarTypes GetPreferredCarType() +{ + return ECarTypes::Hatchback; +} + +// C++11 ile beraber bir tipi enum'a atamanın kolay bir yolu var, bu enum'un istenen +// tipe dönüştürmek için kullanışlı bir yöntem +enum ECarTypes : uint8_t +{ + Sedan, // 0 + Hatchback, // 1 + SUV = 254, // 254 + Hybrid // 255 +}; + +void WriteByteToFile(uint8_t InputValue) +{ + // Serialize the InputValue to a file +} + +void WritePreferredCarTypeToFile(ECarTypes InputCarType) +{ + // enum uint8_t tipine dönüştürüldü + WriteByteToFile(InputCarType); +} + +// Diğer yandan enum'ların yanlışlıkla integer tipini veya diğer enumlara dönüşmesini +// istemiyorsan enum class olarak tanımlayabilirsin +enum class ECarTypes : uint8_t +{ + Sedan, // 0 + Hatchback, // 1 + SUV = 254, // 254 + Hybrid // 255 +}; + +void WriteByteToFile(uint8_t InputValue) +{ + // Serialize the InputValue to a file +} + +void WritePreferredCarTypeToFile(ECarTypes InputCarType) +{ + // ECarTypes, uint8_t tipinde olmasına rağmen, "enum class" olarak + // tanımlandığından derlenmeyecektir! + WriteByteToFile(InputCarType); +} + +/////////////////////////////////////////// +// Sınıflar ve nesneye yönelik proglamalama +/////////////////////////////////////////// + +// Sınıflara(class) ilk örnek +#include <iostream> + +// Sınıfı tanımla. +// Sınıflar genelde header (.h veya .hpp) dosyalarında tanımlanır. +class Dog { + // Üye değişkenler ve fonksiyonlar default olarak private'dir. + std::string name; + int weight; + +// Aşağıda, "private:" veya "protected:" bulunana kadar +// bütün üyeler public'tir. +public: + + // Default constructor + Dog(); + + // Üye fonksiyon bildirimi (gerçeklenimi aşağıda) + // Dikkat ederseniz using namespace std; yerine + // std::string kullandık. + // Hiçbir zaman header dosyasında "using namespace std;" kullanma. + void setName(const std::string& dogsName); + + void setWeight(int dogsWeight); + + // Nesnenin durumunu değiştirmeyen fonksiyonlar const ile işaretlenmelidir + + // Türetilen sınıflarda fonksiyonu override edebilmek için başına + // _virtual_ eklenmelidir. + // Fonksiyonlar, performanslar ilgili nedenlerden ötürü default olarak virtual değildir + virtual void print() const; + + // Fonksiyonlar class içinde de tanımlanabilir. + // Bu şekille tanımlanan fonksiyonlar otomatik olarak inline olur. + void bark() const { std::cout << name << " barks!\n"; } + + // C++ constructor'ların yanında destructor'da sağlar. + // Bunlar nesne silindiğinde veya scope'un dışına çıktığında çağrılır. + // Bu RAII gibi güçlü paradigmaları etkin kılar. + // (aşağıda açıklandı) + // Eğer sınıf kendisinden türetiliyorsa, destructor virtual olmalıdır, + // eğer virtual değilse, türetilmiş sınıfın destructor'ı nesne, ana sınıf + // referans'ı veya pointer'ı üzerinden yok edildiğinde, çağrılmayacaktır. + virtual ~Dog(); + +}; // class tanımının sonuda noktalı virgül(;) olmalıdır. + +// Sınıfın üye fonksiyonları genelde .cpp dosyaları içinde gerçeklenir. +Dog::Dog() +{ + std::cout << "A dog has been constructed\n"; +} + +// Objects (such as strings) should be passed by reference +// Nesneler (string gibi) reference ile fonksiyonlara geçilmelidir +// Eğer nesneleri değiştirilecekse reference ile fonksiyonlara geçilmelidir, +// değiştirilmeyecekse const reference ile geçilmelidir. +void Dog::setName(const std::string& dogsName) +{ + name = dogsName; +} + +void Dog::setWeight(int dogsWeight) +{ + weight = dogsWeight; +} + +// Dikkat edersen "virtual" yalnızca bildirimde gerekli, tanımlamada değil. +void Dog::print() const +{ + std::cout << "Dog is " << name << " and weighs " << weight << "kg\n"; +} + +Dog::~Dog() +{ + std::cout << "Goodbye " << name << "\n"; +} + +int main() { + Dog myDog; // "A dog has been constructed" yazdırır + myDog.setName("Barkley"); + myDog.setWeight(10); + myDog.print(); // "Dog is Barkley and weighs 10 kg" yazdırır. + return 0; +} // "Goodbye Barkley" yazdırır. + +// Inheritance(Miras) + +// Bu sınıf, Dog sınıfında public ve protected olan herşeyi miras alır, +// private olanları da miras alır ama, public ve protected sınıflar aracılıyla +// yapılmıyorsa, doğrudan erişemez. +class OwnedDog : public Dog { + +public: + void setOwner(const std::string& dogsOwner); + + // print fonksiyonunun davranışını bütün OwnedDogs sınıfı için override eder + // (üstünden geçer, kendine uyarlar). + // bknz http://en.wikipedia.org/wiki/Polymorphism_(computer_science) + // override anahtar sözcüpü kullanılma da olur ama kullanılması aslında bir temel + // temel sınıf fonksiyonunun üzerinden geçtiğimizi gösterir. + void print() const override; + +private: + std::string owner; +}; + +// Bu arada takip eden .cpp dosyasında: + +void OwnedDog::setOwner(const std::string& dogsOwner) +{ + owner = dogsOwner; +} + +void OwnedDog::print() const +{ + Dog::print(); // Ana dog sınıfındaki print fonksiyonunu çağırır + std::cout << "Dog is owned by " << owner << "\n"; + // "Dog is <name> and weights <weight>" + // "Dog is owned by <owner>" + // yazdırır +} + +///////////////////////////////////////////////////// +// ilk değer atama ve Operatörün fazladan yüklenmesi +///////////////////////////////////////////////////// + +// C++ dilinde +, -, *, /, gibi operatörlerin davranışını fazladan yükleyebilirsiniz. +// Bu, operator her kullandınıldığında çağrılan bir fonksiyon tanımlamasıyla yapılır. + +#include <iostream> +using namespace std; + +class Point { +public: + // Üye değişkenkenlere default değer atanabilir. + double x = 0; + double y = 0; + + // Default constructor + Point() { }; + + Point (double a, double b) : + x(a), + y(b) + { /* İlk değer atama dışında birşey yapma */ } + + // + operatorünün fazladan yükle. + Point operator+(const Point& rhs) const; + + // += operatorünü fazladan yükle + Point& operator+=(const Point& rhs); + + // - ve -= operatorleri fazladan yüklemek de mantıklı olurdu + // ama kısa tutmak için burda değinmedik. +}; + +Point Point::operator+(const Point& rhs) const +{ + // yeni bir nokta oluştur ve bunu rhs ile topla + return Point(x + rhs.x, y + rhs.y); +} + +Point& Point::operator+=(const Point& rhs) +{ + x += rhs.x; + y += rhs.y; + return *this; +} + +int main () { + Point up (0,1); + Point right (1,0); + // Bu Point + operatorünü çağırır + Point result = up + right; + // "Result is upright (1,1)" yazdırır. + cout << "Result is upright (" << result.x << ',' << result.y << ")\n"; + return 0; +} + +//////////////////////// +// Şablonlar (Templates) +//////////////////////// + +// Şablonlar C++ dilinde tipten bağımsız programlama için kullanılır. + +// Zaten aşina olduğun tipten bağımsız programlamayla başladık. Bir tip parametresi +// alan fonksiyon veya sınıf tanımlamaık için: +template<class T> +class Box { +public: + // Bu sınıfta T, herhangi bir tip için kullanılabilir. + void insert(const T&) { ... } +}; + +// Derleme esnasında derleyici aslında, parametreleri yerine konmuş şekilde herbir şablonu üretir, +// bu yüzden sınıfın tam tanımı her çağrılma sırasında var olmak zorundadır. Bu nedenle şablon sınıflarını +// tamamen header dosyalarında görürsün. + +// Stack'ta şablon sınıfın bir örneğini oluşturmak için: +Box<int> intBox; + +// ve, anladığın gibi, kullanabilirsin: +intBox.insert(123); + +// Tabi, şablonları içiçe geçirebilirsin: +Box<Box<int> > boxOfBox; +boxOfBox.insert(intBox); + +// C++11'den önce iki '>' arasına boşluk koymak zorundaydık yoksa sağa kaydırma +// operatörü olarak algılanabilirdi. + +// Bazen şunu da görebilirsin +// template<typename T> +// 'class' ve 'typename' anahtar sözcükleri çoğunlukla +// birbirlerinin yerine kullanılabilir. Tam açıklama için, bknz. +// http://en.wikipedia.org/wiki/Typename +// (evet, bu anahtar sözcüğün kendi Wikipedia sayfası var). + +// Benzer şekilde, bir şablon fonksiyon: +template<class T> +void barkThreeTimes(const T& input) +{ + input.bark(); + input.bark(); + input.bark(); +} + +// Dikkat edersen tip parametresi hakkında birşey belirtilmedi. Derleyici bunları üretecek +// ve her parametre geçişinde tip-kontrolü yapacaktır, bu nedenle de fonksiyon herhangi bir T +// tipi için çalışacaktır! + +Dog fluffy; +fluffy.setName("Fluffy") +barkThreeTimes(fluffy); // Üç kere "Fluffy barks" yazdırır. + +// Şablonun parametresi sınıf olmak zorunda değildir: +template<int Y> +void printMessage() { + cout << "Learn C++ in " << Y << " minutes!" << endl; +} + +// Ve template'i daha etkili kod için dışarıdan özelleştirebilirsin. +// Tabiki gerçek-dünya kullanımlarında özelleştirme bunun kadar kolay değildir. +// Dikkat edersen, bütün parametreleri dıştan özelleştirmiş olsak bile +// hala fonksiyonu (veya sınıfı( template olarak tanımlamamız gerekli. +template<> +void printMessage<10>() { + cout << "Learn C++ faster in only 10 minutes!" << endl; +} + +printMessage<20>(); // "Learn C++ in 20 minutes!" yazdırır +printMessage<10>(); // "Learn C++ faster in only 10 minutes!" yazdırır + + +/////////////////////////////////////////////// +// İstisnai Durum Yönetimi (Exception Handling) +/////////////////////////////////////////////// + +// Standard kütüphane bazı istisnai tipler sağlar +// (bknz http://en.cppreference.com/w/cpp/error/exception) +// ama herhangi bir tip de istisnai durum fırlatabilir + +#include <exception> +#include <stdexcept> + +// _try_ bloğu içinde fırlatılan bütün istisnai durumlar, takip eden, _catch_ ile +// yakalanabilir. +try { + // _new_ kullanarak heap'ten istisnai durumlar için yer ayırma + throw std::runtime_error("A problem occurred"); +} + +// istisnai durumlar nesne ise const reference ile yakala +catch (const std::exception& ex) +{ + std::cout << ex.what(); +} + +// Bir önceki _catch_ bloğundan kaçan istisnai durum burda yakala +catch (...) +{ + std::cout << "Unknown exception caught"; + throw; // Tekrardan istisnai durum fırlatır +} + +/////// +// RAII +/////// + +// RAII, "Resource Acquisition Is Initialization" kelimelerinin kısaltmasıdır. +// Bu Türkçe, "Kaynak alımı aynı zamanda ilk değer atamasıdır." olarak çevrilebilir. +// Bunu basitçe constructor ile ayrılan hafızanın destructor ile iade edilmesi olarak +// düşünebiliriz. + +// Bunun ne şekilde kullanışlı olduğunu görmek için +// bir C dosyasının, dosya işleme biçimine bakabiliriz: +void doSomethingWithAFile(const char* filename) +{ + // Başlangıçta herşeyin yolunda gittiğini düşünelim + + FILE* fh = fopen(filename, "r"); // Dosyayı okuma modunda aç + + doSomethingWithTheFile(fh); + doSomethingElseWithIt(fh); + + fclose(fh); // Dosyayı kapat +} + +// Malesef hatalarla başa çıkmaya çalışırken işler hızlıca karmaşıklaşır. +// Mesela fopen'ın başarısız olduğunu varsayalım, ve doSoomethingWithTheFile ve +// doSomethingWithIt hata kodları gönderdi. +// (İstisnai durumlar yonetimi, hata koduna tercih ediler bir yöntemdir, ama bazı +// programcılar, özellikle C arkaplanı olanlar, aynı fikirde değildir. +// Bu durumda her bir fonksiyon çağrısını kontrol etmeli ve bir problem oluştuysa +// dosyayı kapatmalıyız. + +bool doSomethingWithAFile(const char* filename) +{ + FILE* fh = fopen(filename, "r"); // Dosyayı okuma modunda aç + if (fh == nullptr) // Başarısız olma durumunda dönen değer null olur + return false; // Başarısız olma durumunu çağırıcıya bildir + + // Başarısız olma durumunda her iki fonksiyonun da false döndürdüğünü kabul edelim + if (!doSomethingWithTheFile(fh)) { + fclose(fh); // Dosyayı kapatalım, akıntı olmasın. + return false; // Hatayı bildir + } + if (!doSomethingElseWithIt(fh)) { + fclose(fh); // Dosyayı kapatalım, akıntı olmasın. + return false; // Hatayı bildir + } + + fclose(fh); // Dosyayı kapat + return true; // Başarı durumunu ifade eder +} + +// C programcıları biraz goto kullanarak bu durumu temizler +bool doSomethingWithAFile(const char* filename) +{ + FILE* fh = fopen(filename, "r"); + if (fh == nullptr) + return false; + + if (!doSomethingWithTheFile(fh)) + goto failure; + + if (!doSomethingElseWithIt(fh)) + goto failure; + + fclose(fh); // Dosyayı kapat + return true; // Başarı durumunu ifade eder + +failure: + fclose(fh); + return false; // Hatayı bildir +} + +// Eğer fonksiyon istisnai durum yönetimi araçlarını kullanırsa +// işler daha temiz olur ama hala en iyi durumun altında kalır. +void doSomethingWithAFile(const char* filename) +{ + FILE* fh = fopen(filename, "r"); + if (fh == nullptr) + throw std::runtime_error("Could not open the file."); + + try { + doSomethingWithTheFile(fh); + doSomethingElseWithIt(fh); + } + catch (...) { + fclose(fh); // Hata durumunda dosyayı kapattığından emin ol + throw; // Sonra, tekrardan istisnai durum fırlat + } + + fclose(fh); // Dosyayı kapat + // Herşey başarılı +} + +// Şimdi aynı şeyi C++'ın dosya stream sınıfıyla (fstream) karşılaştıralım +// fstream, dosyayı kapatmak için kendi destructor'ını kullanır. +// Destructor'ın, nesne scope dışına çıktığında otomatik olarak çağrıldığını +// hatırlayın. +void doSomethingWithAFile(const std::string& filename) +{ + std::ifstream fh(filename); // Dosyayı aç + + // Dosyayla birşeyler yap + doSomethingWithTheFile(fh); + doSomethingElseWithIt(fh); + +} // Dosya, destructor tarafından otomatik olarak kapatıldı + +// Bunun _çok büyük_ avantajları var: +// 1. Ne olursa olursun, +// kaynak (bu örnekte dosya tutucusu) temizlenecektir. +// Destructor doğru yazıldığında, +// Tutucuyu kapatmayı unutma ve kaynak akıntısı _imkansız_dır. +// 2. Kodun çok daha temiz olduğuna dikkat edin. +// Destructor, dosyayı kapatma işini, endilenmemize gerek kalmadan +// arka planda halleder. +// 3. Kod, istisnai durumlara karşı korunaklıdır. +// İstisnai durum fonksiyonun herhangi bir yerinde fırlatılabilir ve +// temizleme işi gene de yapılır. + +// Bütün C++ kodu deyimleri RAII prensibini tüm kaynakları için kullanır. +// Ek örnekler şunlardır: +// - unique_ptr ve shared_ptr ile hafıza kullanımı +// - Tutucular - standard kütüphane linked list, +// vector (yani kendiliğinden boyu ayarlanan dizi), hash map vs. +// scope'un dışına çıktığında içerini otomatik olarak yok eden tüm yapılar. +// - lock_guard ve unique_lock kullanan mutex'ler + +/////////////////////////////////////// +// Lambda İfadeleri (C++11 ve yukarısı) +/////////////////////////////////////// + +// lambda'lar, tam olarak çağrıldığı yerde bir anonim fonksiyon tanımlamak +// veya fonksiyona argüman geçmek için uygun bir yoldur. + +// Mesela, pair'lardan oluşan bir vector'u, pair'ın ikinci değerine +// göre sıralamak isteyelim + +vector<pair<int, int> > tester; +tester.push_back(make_pair(3, 6)); +tester.push_back(make_pair(1, 9)); +tester.push_back(make_pair(5, 0)); + +// sort fonksiyonuna üçüncü argüman olarak lambda ifadesini geç +// sort, <algorithm> başlığında tanımlı + +sort(tester.begin(), tester.end(), [](const pair<int, int>& lhs, const pair<int, int>& rhs) { + return lhs.second < rhs.second; + }); + +// Lambda ifadesinin söz dizimine dikkat edin, +// lambda'daki [], değişkenleri "tutmak" için kullanılır +// "Tutma listesi", fonksiyon gövdesinde nelerin, ne şekilde erişilebilir olduğunu tanımlar +// Şunlardan biri olabilir: +// 1. bir değer : [x] +// 2. bir referans : [&x] +// 3. mevcut scope içindeki herhangi bir değişkene referans ile [&] +// 4. 3 ile aynı, ama değer ile [=] +// Mesela: +vector<int> dog_ids; +// number_of_dogs = 3; +for(int i = 0; i < 3; i++) { + dog_ids.push_back(i); +} + +int weight[3] = {30, 50, 10}; + +// Mesela dog_ids vector'unu dog'ların ağırlıklarına göre sıralamak isteyelim +// Yani en sonunda şöyle olmalı: [2, 0, 1] + +// Burada lambda ifadesi oldukça kullanışlıdır + +sort(dog_ids.begin(), dog_ids.end(), [&weight](const int &lhs, const int &rhs) { + return weight[lhs] < weight[rhs]; + }); +// Dikkat edersen "weight" dizisini referans ile aldık. +// C++'da lambdalar hakkında daha fazla bilgi için : http://stackoverflow.com/questions/7627098/what-is-a-lambda-expression-in-c11 + +////////////////////////////////// +// Akıllı For (C++11 ve yukarısı) +////////////////////////////////// + +// Akıllı for döngüsünü bir tutucuyu dolaşmak için kullanabilirsin +int arr[] = {1, 10, 3}; + +for(int elem: arr){ + cout << elem << endl; +} + +// Tutucunun elemanlarının tipi için endişe etmeden "auto" kullanabilirsin +// Mesela: + +for(auto elem: arr) { + // arr dizisinin elemanlarıyla ilgili bir şeyler yap +} + +//////////////// +// Güzel Şeyler +//////////////// + +// C++ dilinin bakış açısı yeni başlayanlar için (hatta dili iyi bilenler için bile) +// şaşırtıcı olabilir. +// Bu bölüm, ne yazık ki, büyük ölçüde tam değil; C++ kendi ayağına ateş edilebilecek kolay +// dillerden biridir. + +// private metodları override edebilirsin! +class Foo { + virtual void bar(); +}; +class FooSub : public Foo { + virtual void bar(); // Foo::bar fonksiyonu override edilir! +}; + + +// 0 == false == NULL (çoğu zaman)! +bool* pt = new bool; +*pt = 0; // 'pt'nin gösterdiği değere false atar. +pt = 0; // 'pt'ye null pointer atar. Her iki satır uyarısız derlenir. + +// nullptr'ın bu meselenin bazılarını çözmesi beklenmiştir: +int* pt2 = new int; +*pt2 = nullptr; // Derlenmez. +pt2 = nullptr; // pt2'ye null atar. + +// bool tipleri için bir istisna vardır. +// Bu null pointer'ları if(!ptr) ile test etmek içindir. +// ama sonuç olarak bir bool değerine nullptr atayabilirsin! +*pt = nullptr; // '*pt' değeri bir boll olmasına rağmen, hala derlenir! + + +// '=' != '=' != '='! +// Calls Foo::Foo(const Foo&) or some variant (see move semantics) copy +// Foo::Foo(const Foo&) çağrısını veya kopyalama constructor'ının bir çeşidinin çağrısınıyapar(taşıma semantiklerine bknz.) +Foo f2; +Foo f1 = f2; + +// Foo::operator=(Foo&) çağrısını yapar. +Foo f1; +f1 = f2; + + +/////////////////////////////////////// +// Tuple (C++11 ve yukarısı) +/////////////////////////////////////// + +#include<tuple> + +// Ana fikir olarak, Tuple, eski veri yapılarına (C'deki struct'lar) benzer ama isimli veri üyeleri yerine +// elemanlarına tuple içindeki sırasına göre erişilir. + +// Tuple'ı inşa ederek başlayalım +// değişkenleri tuple içinde paketliyoruz +auto first = make_tuple(10, 'A'); +const int maxN = 1e9; +const int maxL = 15; +auto second = make_tuple(maxN, maxL); + +// 'first' tuple'ının değerlerini yazdırma +cout << get<0>(first) << " " << get<1>(first) << "\n"; // 10 A yazdırır + +// 'second' tuple'ının değerlerini yazdırma +cout << get<0>(second) << " " << get<1>(second) << "\n"; // 1000000000 15 yazdırır + +// Değişkenleri tuple'dan çıkarma + +int first_int; +char first_char; +tie(first_int, first_char) = first; +cout << first_int << " " << first_char << "\n"; // 10 A yazdırır + +// Ayrıca şu şekide de tuple oluşturabiliriz. + +tuple<int, char, double> third(11, 'A', 3.14141); +// tuple_size, tuple'daki eleman sayısını (constexpr olarak) döndürür + +cout << tuple_size<decltype(third)>::value << "\n"; // 3 yazdırır + +// tuple_cat, tuple'daki tüm elemanları aynı sırada birleştirir. + +auto concatenated_tuple = tuple_cat(first, second, third); +// concatenated_tuple = (10, 'A', 1e9, 15, 11, 'A', 3.14141) olur + +cout << get<0>(concatenated_tuple) << "\n"; // 10 yazdırır +cout << get<3>(concatenated_tuple) << "\n"; // 15 yazdırır +cout << get<5>(concatenated_tuple) << "\n"; // 'A' yazdırır + + +///////////////////// +// Tutucular +///////////////////// + +// Tutucular veya Standard Şablon Kütüphanesi(STL) önceden tanımlanmış şablonlar sunar. +// Bunlar elemanları için ayrılan hafıza alanını yönetir +// ve onlara erişim ve değiştirmek için üye fonksiyonlar sağlar + +// Bazı tutucular şunlardır: + +// Vector (Dinamik Dizi) +// koşma anında nesne dizisi veya list oluşturmamızı sağlar +#include <vector> +string val; +vector<string> my_vector; // vector'ü tanımla +cin >> val; +my_vector.push_back(val); // val değerini my_vector vectörüne push edecektir +my_vector.push_back(val); // val değerini yeniden push edecektir (şu an iki elemanı var) + +// vector içinde dolaşmak için iki seçenek var: +// ya klasik döngüyle (0. index'ten son index'e kadar iterasyon yaparak) +for (int i = 0; i < my_vector.size(); i++) { + cout << my_vector[i] << endl; // vector'ün elemanlarına uşamak için [] operatörünü kullanabiliriz +} + +// ya da iteratör kulllanarak: +vector<string>::iterator it; // vector için iterator tanımla +for (it = my_vector.begin(); it != my_vector.end(); ++it) { + cout << *it << endl; +} + +// Set(Küme) +// Set'ler benzersiz(unique) elemanları belirli bir sırada saklayan tutuculardır. +// Set, benzersiz değerleri, herhangi bir fonksiyon veya kod gerektirmeksizin, sıralı olarak + +#include<set> +set<int> ST; // int tipi için set tanımlar +ST.insert(30); // ST kümesini 30 değerini dahil eder +ST.insert(10); // ST kümesini 10 değerini dahil eder +ST.insert(20); // ST kümesini 20 değerini dahil eder +ST.insert(30); // ST kümesini 30 değerini dahil eder +// Şimdi kümedeki elemanlar aşağıdaki gibidir +// 10 20 30 + +// Bir eleman silmek için: +ST.erase(20); // 20 değerine sahip elemanı siler +// Set ST: 10 30 +// Iterator kullanarak Set içinde iterasyon yapmak için: +set<int>::iterator it; +for(it=ST.begin();it<ST.end();it++) { + cout << *it << endl; +} +// Output: +// 10 +// 30 + +// Tutucuyu tamamen silmek için Tutucu_Adi.clear() kullanırız +ST.clear(); +cout << ST.size(); // ST kümesinin eleman sayısı(size)nı yazdırır. +// Output: 0 + +// NOTE: Aynı elemanlari içerebilen kümle için multiset kullanırız + +// Map(Harita) +// Map, elemanları anahtar değer, haritalanmış değer şeklinde özel bir sırada saklar. +// anahtar_değer -> haritalanmış_değer + +#include<map> +map<char, int> mymap; // Anahtar char ve değer int olacak şekilde map tanımlar + +mymap.insert(pair<char,int>('A',1)); +// 1 değeri için A anahtar değerini ekler +mymap.insert(pair<char,int>('Z',26)); +// 26 değeri için Z anahtar değerini ekler + +// Map'te dolaşma +map<char,int>::iterator it; +for (it=mymap.begin(); it!=mymap.end(); ++it) + std::cout << it->first << "->" << it->second << '\n'; +// Output: +// A->1 +// Z->26 + +// Anahtar'a atanmış değeri bulmak için +it = mymap.find('Z'); +cout << it->second; + +// Output: 26 + + +///////////////////////////////////////////// +// Mantıksal ve Bit seviyesindeki operatörler +///////////////////////////////////////////// + +// Pek çok C++ operatörleri diğer dillerdekiyle aynıdır + +// Mantıksal operatörler + +// C++, bool ifadelerinde Kısa-devre değerlendirmesini kullanır yani ikinci argüman yalnızca ilk argüman +// ifadenin değerine karar vermek için yeterli değilse çalıştırılır + +true && false // **mantıksal ve** işlemi yapılır ve yanlış sonucu üretilir +true || false // **mantıksal veya** işlemi yapılır ve true sonucu üretilir +! true // **mantıksal değil** işlemi yapılır ve yalnış sonucu üretilir + +// Sembolleri kullanmak yerine onlara karşılık gelen anahtar kelimeler kullanılabilir +true and false // **mantıksal ve** işlemi yapılır ve yanlış sonucu üretilir +true or false // **mantıksal veya** işlemi yapılır ve true sonucu üretilir +not true // **mantıksal değil** işlemi yapılır ve yalnış sonucu üretilir + +// Bit seviyesindeki operatörler + +// **<<** Sola kaydırma operatörü +// << bitleri sola kaydırır +4 << 1 // 4'ün bitlerini 1 sola kaydırır ve 8 sonucunu verir +// x << n, x * 2^n olarak düşünülebilir + + +// **>>** Sağa kaydırma operatörü +// >> bitleri sağa kaydırır +4 >> 1 // 4'ün bitlerini 1 sağa kaydırır ve 2 sonucunu verir +// x >> n, x / 2^n olarak düşünülebilir + +~4 // Bit seviyesinde değil işlemini gerçekleştirir +4 | 3 // Bit seviyesinde veya işlemini gerçekleştirir +4 & 3 // Bit seviyesinde ve işlemini gerçekleştirir +4 ^ 3 // Bit seviyesinde xor işlemini gerçekleştirir + +// Eşdeğer anahtar kelimeler +compl 4 // Bit seviyesinde değil işlemini gerçekleştirir +4 bitor 3 // Bit seviyesinde veya işlemini gerçekleştiri +4 bitand 3 // Bit seviyesinde ve işlemini gerçekleştirir +4 xor 3 // Bit seviyesinde xor işlemini gerçekleştirir + + +``` +İleri okuma: + +Güncel bir referans +<http://cppreference.com/w/cpp> adresinde bulunabilir + +Ek kaynaklar <http://cplusplus.com> adresinde bulunabilir diff --git a/tr-tr/css-tr.html.markdown b/tr-tr/css-tr.html.markdown new file mode 100644 index 00000000..d13dadcc --- /dev/null +++ b/tr-tr/css-tr.html.markdown @@ -0,0 +1,304 @@ +--- +language: css +contributors: + - ["Mohammad Valipour", "https://github.com/mvalipour"] + - ["Marco Scannadinari", "https://github.com/marcoms"] + - ["Geoffrey Liu", "https://github.com/g-liu"] + - ["Connor Shea", "https://github.com/connorshea"] + - ["Deepanshu Utkarsh", "https://github.com/duci9y"] + - ["Brett Taylor", "https://github.com/glutnix"] + - ["Tyler Mumford", "https://tylermumford.com"] +filename: learncss-tr.css +translators: + - ["Fatih Turan", "http://fatihturan.com"] +lang: tr-tr +--- + +Web sayfaları bir sayfanın içeriğini belirleyen HTML ile inşa edilirler. CSS (Basamaklı Biçim Sayfaları) ise bir sayfanın **görünümünü** belirleyen ayrı bir dildir. + +CSS kodu statik *kurallardan* oluşur. Her kural bir ya da daha fazla *seçici* alır ve görsel *özelliklere* belirli *değerleri* verir. Sonrasında bu özellikler seçiciler tarafından belirlenen sayfa unsurlarına uygulanır. + +Bu rehber, CSS 3'ün yeni özellikleri ile genişletilen CSS 2 ile dikkate alınarak yazılmıştır. + +**NOT:** CSS görsel sonuçlar ürettiğinden dolayı, öğrenmek için herşeyi bir CSS oyun alanı içinde ([dabblet](http://dabblet.com) gibi) denemeniz gerekmektedir. Bu makale sözdizimi kuralları ve genel ipuçları üzerine odaklanmaktadır. + +## Sözdizimi + +```css +/* yorumlar bu satırdaki gibi taksim-yıldız içinde görünür +CSS'te "tek satırlık yorumlar" bulunmamaktadır; bu sadece tek bir yorum yazma stilidir */ + +/* #################### + ## SEÇİCİLER + #################### */ + +/* seçici bir sayfadaki unsuru hedeflemek için kullanılır. */ +seçici { özellik: değer; /* daha fazla özellikler...*/ } + +/* +İşte bir örnek: + +<div class='class1 class2' id='anID' attr='value' otherAttr='en-us foo bar' /> +*/ + +/* */ + +/* CSS sınıflarının birini kullanarak hedefleyebilirsiniz */ +.class1 { } + +/* veya her iki sınıfı birden!*/ +.class1.class2 { } + +/* veya sadece ögenin adını yazarak */ +div { } + +/* veya onun ID adını */ +#anID { } + +/* veya onun aldığı bir özelliği kullanarak! */ +[attr] { font-size:smaller; } + +/* veya onun aldığı özelliğin belirli bir değeri varsa */ +[attr='value'] { font-size:smaller; } + +/* bir değer ile başlıyorsa (CSS 3) */ +[attr^='val'] { font-size:smaller; } + +/* veya bir değer ile bitiyorsa (CSS 3)*/ +[attr$='ue'] { font-size:smaller; } + +/* veya boşlukla ayrılmış liste içinde bir değer içeriyorsa */ +[otherAttr~='foo'] { } +[otherAttr~='bar'] { } + +/* veya tire ile ayrılmış bir liste içinde bir değer içeriyorsa, örneğin: "-" (U+002D) */ +[otherAttr|='en'] { font-size:smaller; } + +/* Farklı seçicileri birleştirerek daha fazla odaklanmış bir seçici oluşturabilirsiniz. Seçiciler arasında boşluk bırakmayın. */ +div.some-class[attr$='ue'] { } + +/* Başka bir ögenin alt ögesi olan bir ögeyi seçebilirsiniz. */ +div.some-parent > .class-name { } + +/* veya bir başka ögeden türeyeni seçebilirsiniz. Alt ögeler onların ebeveynlerinin direkt türünden gelir, sadece ağacın bir alt ögeleridirler. Soyundan gelenler ağacın herhangi bir alt seviyesinde olabilir. */ + +div.some-parent .class-name { } + +/* Uyarı: Seçiciler arasında bir boşluk bırakmazsanız aynı seçicinin başka bir anlamı olur. +Ne olduğunu tahmin edebilir misiniz? */ + +div.some-parent.class-name { } + +/* Ayrıca bir ögenin bitişik kardeşini temel alarak bir ögeyi seçebilirsiniz. */ +.i-am-just-before + .this-element { } + +/* veya kendisinden önce gelen herhangi bir kardeş ögeyi */ +.i-am-any-element-before ~ .this-element { } + +/* Yalnızca belli bir durumda bir öge seçmek için kullanılan sahte sınıflar adı verilen bazı seçiciler vardır. */ + +/* Örneğin, imleç bir ögenin üzerine geldiğinde */ +selector:hover { } + +/* veya bir bağlantı ziyaret edildiğinde */ +selector:visited { } + +/* veya ziyaret edilmediğinde */ +selected:link { } + +/* veya bir ögeye odaklanıldığında */ +selected:focus { } + +/* Ebeveyninin ilk alt ögesi olan herhangi bir öge */ +selector:first-child {} + +/* Ebeveyninin son alt ögesi olan herhangi bir öge */ +selector:last-child {} + +/* Sahte sınıflar gibi sahte elementler de bir dokümanın belirli bir parçasına stil vermenize izin verir. */ + +/* Seçilen ögenin sanal ilk alt ögesiyle eşleşir. */ +selector::before {} + +/* Seçilen ögenin sanal son alt ögesiyle eşleşir. */ +selector::after {} + +/* Uygun yerlerde yıldız karakteri ile bütün ögeleri seçmek için joker olarak kullanılabilir. */ + +* { } /* Bütün ögeler */ +.parent * { } /* Tüm alt ögeler */ +.parent > * { } /* Tüm çocuk ögeler */ + +/* #################### + ## ÖZELLİKLER + #################### */ + +selector { + + /* Ölçü birimleri kesin veya göreceli olabilir.*/ + + /* Göreceli birimler */ + width: 50%; /* Ebeveyn elementin yüzdesel olarak genişliği */ + font-size: 2em; /* Öğenin özgün yazı tipi boyutunda katları */ + font-size: 2rem; /* veya kök ögenin yazı tipi boyutu */ + font-size: 2vw; /* Görüntüleme çerçevesinin genişliğinin %1 olarak katları (CSS 3) */ + font-size: 2vh; /* veya onun yüksekliğinin */ + font-size: 2vmin; /* Bir vh veya vw'nin hangisi küçükse */ + font-size: 2vmax; /* veya daha büyük... */ + + /* Kesin birimler */ + width: 200px; /* Piksel */ + font-size: 20pt; /* Nokta */ + width: 5cm; /* Santimetre */ + min-width: 50mm; /* Milimetre */ + max-width: 5in; /* İnç */ + + /* Renkler */ + color: #F6E; /* Kısa onaltılık (HEX) biçimi */ + color: #FF66EE; /* Uzun onaltılık (HEX) biçimi */ + color: tomato; /* Bir isim verilen renk */ + color: rgb(255, 255, 255); /* RGB değerleri verilen türde */ + color: rgb(10%, 20%, 50%); /* RGB yüzdeleri verilen türde */ + color: rgba(255, 0, 0, 0.3); /* RGBA değerleri verilen türde (CSS 3) Not: 0 <= a <= 1 */ + color: transparent; /* Şeffaflık değerinin sıfır olması ile eşdeğer */ + color: hsl(0, 100%, 50%); /* HSL yüzdeleri verilen türde (CSS 3) */ + color: hsla(0, 100%, 50%, 0.3); /* HSL ile beraber şeffaflık değeri verilen türde */ + + /* Kenarlıklar */ + border-width:5px; + border-style:solid; + border-color:red; /* background-color'ın ayarlanışına benzer şekilde */ + border: 5px solid red; /* Bu aynı şeyin kısayol ile yazılışıdır */ + border-radius:20px; /* Bu bir CSS3 özelliğidir */ + + /* Görseller ve Ögelerin Arkaplanları */ + background-image: url(/img-path/img.jpg); /* url() içindeki tırnak işaretleri isteğe bağlı */ + + /* Yazı tipleri */ + font-family: Arial; + /* Eğer yazı tipi ailesi isminde bir boşluk var ise tırnak işareti içine alınmalıdır. */ + font-family: "Courier New"; + /* Eğer ilk sıradaki bulunamazsa, tarayıcı bir sonrakini kullanır */ + font-family: "Courier New", Trebuchet, Arial, sans-serif; +} +``` + +## Kullanım + +CSS dosyasınızı `.css`uzantısı ile kaydedin. + +```html +<!-- CSS dosyanızı sayfanın içindeki <head> alanına dahil etmeniz gerekiyor. Bu önerilen yöntemdir. Bakın: http://stackoverflow.com/questions/8284365 --> +<link rel='stylesheet' type='text/css' href='path/to/style.css'> + +<!-- Bazı CSS kodları satır içi olarak yazabilirsiniz. --> +<style> + a { color: purple; } +</style> + +<!-- Veya ögenin üzerinde CSS özelliklerini direkt ayarlayabilirsiniz. --> +<div style="border: 1px solid red;"> +</div> +``` + +## Öncelik veya Basamak + +Bir öge birden çok seçici tarafından hedef alınabilir ve bir özellik kümesine birden fazla kez sahip olabilir. Bunun gibi durumlarda, kurallardan biri diğerlerine göre önceliklidir. Daha spesifik bir seçiciye sahip kurallar, daha az spesifik bir seçicinin önceliğini alır ve kural daha sonra stil sayfasında bir önceki kuralın üzerine yazar. + +Bu işleme geçiş denir ve olayısıyla Geçişli/Basamaklı Stil Sayfaları adı da buradan gelmiştir. + +Aşağıdaki CSS göz önüne alındığında: + +```css +/* A */ +p.class1[attr='değer'] + +/* B */ +p.class1 { } + +/* C */ +p.class2 { } + +/* D */ +p { } + +/* E */ +p { özellik: değer !important; } +``` + +ve aşağıdaki biçimlendirmeyi: + +```html +<p style='/*F*/ özellik:değer;' class='class1 class2' attr='değer'> +``` + +Stilin önceliği ise aşağıdaki gibidir. Unutmayın, öncelik **her bir özellik için ayrı ayrı geçerlidir**, tüm blok için geçerli değildir. + +* `E` `!important` kelimesi yüzünden en yüksek önceliğe sahiptir. Kullanımından kaçınmanız önerilir. +* `F` satıriçi stil olduğu için bir sonraki önceliğe sahiptir. +* `A` bir sonraki önceliğe sahiptir. Çünkü her şeyden daha "özgüdür". 3 belirteci vardır: `p` ögesinin adı, sınıf` class1`, bir öznitelik `attr = 'değer'. +* `C`, `B` ile aynı özdeşliğe sahip olsa da, bundan sonra geldiğinden dolayı öncelik hakkına sahiptir. +* `B` bir sonraki önceliğe sahiptir. +* Sonuncu önceliğe sahip olan`D`'dir. + +## Medya Sorguları + +CSS Medya Sorguları, CSS 3'te belirli CSS kurallarının ne zaman uygulanması gerektiğini (örneğin basılan zaman veya belirli boyutlar veya piksel yoğunluğu olan bir ekranda olduğunda) belirlemenize izin veren bir özelliktir. Medya Sorguları, seçicilere önceliğk eklemez. + +```css +/* Tüm cihazlarda kullanılacak olan bir kural */ +h1 { + font-size: 2em; + color: white; + background-color: black; +} + +/* h1 ögesini değiştirip bir yazıcıda daha az mürekkep kullanın*/ +@media print { + h1 { + color: black; + background-color: white; + } +} + +/* En az 480 piksel genişliğinde bir ekran gösterildiğinde font yüksekliğini daha büyük yap */ +@media screen and (min-width: 480px) { + h1 { + font-size: 3em; + font-weight: normal; + } +} +``` + +Medya sorguları aşağıdaki bu özellikleri içerebilir: +`width`, `height`, `device-width`, `device-height`, `orientation`, `aspect-ratio`, `device-aspect-ratio`, `color`, `color-index`, `monochrome`, `resolution`, `scan`, `grid`. Bu özelliklerin birçoğunu `min-` veya `max-` öneki ile kullanabilirsiniz. + +`resolution` özelliği eski cihazlarda desteklenmediğinden ötürü `device-pixel-ratio` kullanın. + +Eğer `viewport` meta etiketi sağlanmadıkça birçok akıllı telefon ve tabletler, sayfayı masaüstü bilgisayardaymış gibi göstermeye çalışacaktır. + +```html +<head> + <meta name="viewport" content="width=device-width; initial-scale=1.0"> +</head> +``` + +## Uyumluluk + +CSS 2'deki çoğu özellik (ve CSS 3'deki birçoğu) bütün tarayıcılar ve cihazlar için bulunmaktadır. Ancak yeni bir özelliği kullanmadan önce kontrol etmek her zaman iyi bir uygulamadır. + +## Kaynaklar + +* [CanIUse](http://caniuse.com) (Detaylı uyumluluk bilgileri) +* [Dabblet](http://dabblet.com/) (CSS oyun alanı) +* [Mozilla Geliştirici Ağının CSS belgelendirmesi](https://developer.mozilla.org/en-US/docs/Web/CSS) (Eğitseller ve referanslar) +* [Codrops' CSS Referansı](http://tympanus.net/codrops/css_reference/) (Referans) + +## Daha Fazla Okuma + +* [Understanding Style Precedence in CSS: Specificity, Inheritance, and the Cascade](http://www.vanseodesign.com/css/css-specificity-inheritance-cascaade/) +* [Selecting elements using attributes](https://css-tricks.com/almanac/selectors/a/attribute/) +* [QuirksMode CSS](http://www.quirksmode.org/css/) +* [Z-Index - The stacking context](https://developer.mozilla.org/en-US/docs/Web/Guide/CSS/Understanding_z_index/The_stacking_context) +* [SASS](http://sass-lang.com/) and [LESS](http://lesscss.org/) for CSS pre-processing +* [CSS-Tricks](https://css-tricks.com) diff --git a/tr-tr/git-tr.html.markdown b/tr-tr/git-tr.html.markdown new file mode 100644 index 00000000..87c1820c --- /dev/null +++ b/tr-tr/git-tr.html.markdown @@ -0,0 +1,596 @@ +--- +category: tool +lang: tr-tr +tool: git +contributors: + - ["Jake Prather", "http://github.com/JakeHP"] + - ["Leo Rudberg" , "http://github.com/LOZORD"] + - ["Betsy Lorton" , "http://github.com/schbetsy"] + - ["Bruno Volcov", "http://github.com/volcov"] + - ["Andrew Taylor", "http://github.com/andrewjt71"] + - ["Jason Stathopulos", "http://github.com/SpiritBreaker226"] + - ["Milo Gilad", "http://github.com/Myl0g"] + - ["Adem Budak", "https://github.com/p1v0t"] + +filename: LearnGit-tr.txt +--- + +Git dağınık versiyon kontrol ve kaynak kod yönetim sistemidir. + +Bunu projenin bir seri anlık durumunu kaydederek yapar ve bu anlık durumları +kullanarak versiyon ve kaynak kodu yönetmeni sağlar. + +## Versiyonlama Konseptleri + +### Versiyon kontrol nedir? + +Versiyon kontrol, zaman içerisinde dosya(lar)daki değişikliği kaydeden sistemdir. + +### Merkezi Versiyonlama vs. Dağınık Versiyonlama + +* Merkezi versiyon kontrolü dosyaların eşitlenmesine, takibine ve yedeklenmesine odaklanır. +* Dağınık versiyon kontrolü değişimin paylaşılmasına odaklanır. Her değişiminin benzersiz bir adı vardır. +* Dağınık sistemlerin belirlenmiş bir yapısı yoktur. Git ile kolayca SVN'deki gibi merkezi bir sistem elde edebilirsin. + +[Daha fazla bilgi](http://git-scm.com/book/en/Getting-Started-About-Version-Control) + +### Neden Git? + +* Çevrimdışı çalışabilir +* Diğerleriyle beraber çalışmak kolaydır! +* Dallanma kolaydır! +* Dallanma hızlıdır! +* Git hızlıdır +* Git esnektir + +## Git Mimarisi + +### Repository + +Bir grup dosya, dizin, geriye dönük kayıt, commit, head. Bunları kaynak kodun veri +yapısı gibi düşünebilirsin, herbir kaynak kod "elemanı" seni kendi revizyon geçmişine +eriştirir. + +Bir git repo'su .git dizini ve çalışma ağacından oluşur. + +### .git Dizini (repository bileşeni) + +.git dizini bütün konfigrasyon, log, dallanma, HEAD ve daha fazlasını tutar. +[detaylı liste](http://gitready.com/advanced/2009/03/23/whats-inside-your-git-directory.html) + +### Çalışma Ağacı (repository bileşeni) + +Temelde repo'daki dizinlerin ve dosyalarındır. Sıkça çalışma ağacın olarak anılır. + +### Index (.git dizininin birleşeni) + +Index git'in evreleme alanıdır (staging area). Temelde çalışma ağacını Git repo'sundan +ayıran bir katmandır. Bu geliştiricilere neyin Git repo'suna gönderileceği hakkında daha +fazla güç verir. + +### Commit + +Bir git commit'i Çalışma Ağacındaki bir takım değişiklerdir. Mesela 5 tane dosya +eklemişsindir ve diğer 2 tanesini silmişindir, bu değişikler commit'te (anlık kayıtta) +tutulacaktır. Bu commit daha sonra diğer repo'lara bastırılabilir (pushed) ve bastırılmaz! + +### Branch + +Bir branch esasen yaptığın son commit'e göstericidir(pointer). Commit'lemeye devam ettiğinde, +bu gösterici otomatik olarak son commit'e güncellenir. + +### Tag + +Bir tag, tarihteki belirli bir noktanın işaretidir. İnsanlar bunu genelde +sürüm notları için kullanır (v1.0 vs.) + +### HEAD ve head (.git dizininin birleşenleri) + +HEAD mevcut branch'a bir göstericidir. Bir repository yalnızca 1 *aktif* +HEAD'e sahiptir. +head, commit'e bir göstericidir. Bir repository herhangi bir sayıda head'e sahip olabilir. + +### Git'in Stage'leri +* Modified - Dosyada değişikler yapıldı ama henüz Git Veritabanına commit yapılmadı. +* Staged - Modified edilmiş bir dosyayı, sonraki commit'e gitmek üzere işaretler. +* Committed - Dosyalar Git Veritabanına commit'lendi. + +### Kavramsal Kaynaklar + +* [Bilgisayar Bilimciler için Git](http://eagain.net/articles/git-for-computer-scientists/) +* [Tasarımcılar için Git](http://hoth.entp.com/output/git_for_designers.html) + +## Komutlar + +### init + +Boş bir Git repository'si oluştur. Git repository'sinin ayarları, depolanmış +bilgileri ve daha fazlası ".git" adlı dizinde (bir klasör) tutulur. + +```bash +$ git init +``` + +### config + +Ayarları yapılandırmak için. Repository, sistemin kendisi veya global yapılandırmalar +için olarabilir. (global yapılandırma dosyası `~/.gitconfig`). + +```bash +# Print & Set Some Basic Config Variables (Global) +$ git config --global user.email "MyEmail@Zoho.com" +$ git config --global user.name "My Name" +``` + +[git config hakkında daha fazla bilgi için.](http://git-scm.com/docs/git-config) + +### help + +Her bir komutun detaylı kılavuzuna hızlı bir erişim için. Ya da sadece bazı şeylerin +anlamı için hızlı bir hatırlatıcı için. + +```bash +# Quickly check available commands +$ git help + +# Check all available commands +$ git help -a + +# Command specific help - user manual +# git help <command_here> +$ git help add +$ git help commit +$ git help init +# or git <command_here> --help +$ git add --help +$ git commit --help +$ git init --help +``` + +### dosyaları ignore etme + +git'in bazı dosya(ları) ve klasör(leri) kasıtlı olarak takip etmemesi için. Genel +olarak,repository'de ne de olsa paylaşılacak, private ve temp dosyaları için. + +```bash +$ echo "temp/" >> .gitignore +$ echo "private_key" >> .gitignore +``` + +### status + +index dosyası(temelde çalıştığın repo) ve mevcut HEAD commit arasındaki farkı göstermek için. + +```bash +# Will display the branch, untracked files, changes and other differences +$ git status + +# To learn other "tid bits" about git status +$ git help status +``` + +### add + +Dosyaları staging area'ya eklemek için. Eğer yeni dosyaları staging area'ya `git add` +yapmazsanız, commit'lere eklenmez! + +```bash +# add a file in your current working directory +$ git add HelloWorld.java + +# add a file in a nested dir +$ git add /path/to/file/HelloWorld.c + +# Regular Expression support! +$ git add ./*.java + +# You can also add everything in your working directory to the staging area. +$ git add -A +``` +Bu yalnızca dosyayı staging area'a/index'e ekler, çalışılan dizine/repo'ya commit etmez. + +### branch + +Branch'ları yönetir. Bu komutu kullanarak, branch'ları görebilir, düzenleyebilir, oluşturabilir, silebilirsin. + +```bash +# list existing branches & remotes +$ git branch -a + +# create a new branch +$ git branch myNewBranch + +# delete a branch +$ git branch -d myBranch + +# rename a branch +# git branch -m <oldname> <newname> +$ git branch -m myBranchName myNewBranchName + +# edit a branch's description +$ git branch myBranchName --edit-description +``` + +### tag + +tag'leri yönetir + +```bash +# List tags +$ git tag + +# Create a annotated tag +# The -m specifies a tagging message, which is stored with the tag. +# If you don’t specify a message for an annotated tag, +# Git launches your editor so you can type it in. +$ git tag -a v2.0 -m 'my version 2.0' + +# Show info about tag +# That shows the tagger information, the date the commit was tagged, +# and the annotation message before showing the commit information. +$ git show v2.0 + +# Push a single tag to remote +$ git push origin v2.0 + +# Push a lot of tags to remote +$ git push origin --tags +``` + +### checkout + +index'in versiyonun eşlemek için çalışma ağacındaki,veya belirtilen ağactaki, tüm dosyaları günceller. + +```bash +# Checkout a repo - defaults to master branch +$ git checkout + +# Checkout a specified branch +$ git checkout branchName + +# Create a new branch & switch to it +# equivalent to "git branch <name>; git checkout <name>" + +$ git checkout -b newBranch +``` + +### clone + +Varolan bir repository'i yeni bir dizine clone'lar veya kopyalar. +Ayrıca clone'lanmış repodaki her bir branch için, uzak branch'a bastırmana izin veren, +uzak takip branch'ları ekler. + +```bash +# Clone learnxinyminutes-docs +$ git clone https://github.com/adambard/learnxinyminutes-docs.git + +# shallow clone - faster cloning that pulls only latest snapshot +$ git clone --depth 1 https://github.com/adambard/learnxinyminutes-docs.git + +# clone only a specific branch +$ git clone -b master-cn https://github.com/adambard/learnxinyminutes-docs.git --single-branch +``` + +### commit + +index'in mevcut içeriğini yeni bir "commit"te saklar. Bu commit, kullanıcının oluşturduğu +bir mesajı ve yapılan değişiklikleri saklar. + +```bash +# commit with a message +$ git commit -m "Added multiplyNumbers() function to HelloWorld.c" + +# signed commit with a message (user.signingkey must have been set +# with your GPG key e.g. git config --global user.signingkey 5173AAD5) +$ git commit -S -m "signed commit message" + +# automatically stage modified or deleted files, except new files, and then commit +$ git commit -a -m "Modified foo.php and removed bar.php" + +# change last commit (this deletes previous commit with a fresh commit) +$ git commit --amend -m "Correct message" +``` + +### diff + +Shows differences between a file in the working directory, index and commits. +Bir dosyanın, çalışma ağacı, index ve commit'ler arasındaki farklarını göster. + +```bash +# Show difference between your working dir and the index +$ git diff + +# Show differences between the index and the most recent commit. +$ git diff --cached + +# Show differences between your working dir and the most recent commit +$ git diff HEAD +``` + +### grep + +Bir repository'de hızlıca arama yapmana izin verir. + +İsteğe Bağlı Yapılandırmalar: + +```bash +# Thanks to Travis Jeffery for these +# Set line numbers to be shown in grep search results +$ git config --global grep.lineNumber true + +# Make search results more readable, including grouping +$ git config --global alias.g "grep --break --heading --line-number" +``` + +```bash +# Search for "variableName" in all java files +$ git grep 'variableName' -- '*.java' + +# Search for a line that contains "arrayListName" and, "add" or "remove" +$ git grep -e 'arrayListName' --and \( -e add -e remove \) +``` + +Daha fazla örnek için +[Git Grep Ninja](http://travisjeffery.com/b/2012/02/search-a-git-repo-like-a-ninja) + +### log + +Repository'deki commitleri gösterir. + +```bash +# Show all commits +$ git log + +# Show only commit message & ref +$ git log --oneline + +# Show merge commits only +$ git log --merges + +# Show all commits represented by an ASCII graph +$ git log --graph +``` + +### merge + +Dış commit'lerdeki değişiklikleri mevcut branch'a "merge" et (birleştir). + +```bash +# Merge the specified branch into the current. +$ git merge branchName + +# Always generate a merge commit when merging +$ git merge --no-ff branchName +``` + +### mv + +Bir dosyayı yeniden taşı veya yeniden adlandır + +```bash +# Renaming a file +$ git mv HelloWorld.c HelloNewWorld.c + +# Moving a file +$ git mv HelloWorld.c ./new/path/HelloWorld.c + +# Force rename or move +# "existingFile" already exists in the directory, will be overwritten +$ git mv -f myFile existingFile +``` + +### pull + +Bir repository'den çeker ve diğer branch'a merge eder. + +```bash +# Update your local repo, by merging in new changes +# from the remote "origin" and "master" branch. +# git pull <remote> <branch> +$ git pull origin master + +# By default, git pull will update your current branch +# by merging in new changes from its remote-tracking branch +$ git pull + +# Merge in changes from remote branch and rebase +# branch commits onto your local repo, like: "git fetch <remote> <branch>, git +# rebase <remote>/<branch>" +$ git pull origin master --rebase +``` + +### push + +Bir branch'taki değişikleri, uzak branch'a bastır ve birleştir. + +```bash +# Push and merge changes from a local repo to a +# remote named "origin" and "master" branch. +# git push <remote> <branch> +$ git push origin master + +# By default, git push will push and merge changes from +# the current branch to its remote-tracking branch +$ git push + +# To link up current local branch with a remote branch, add -u flag: +$ git push -u origin master +# Now, anytime you want to push from that same local branch, use shortcut: +$ git push +``` + +### stash + +Stash'leme çalışma dizinindeki kirli durumu alır ve bitmemiş değişiklikler +yığınına kaydeder. Bu değişikleri istediğin zaman tekrar uygulayabilirsin. + +Mesela git repo'nda bazı işler yaptın ama remote'dan pull yapmak istiyorsun. +Bazı dosyalarında kirli (commit'lenmemiş) değişiklikler olduğundan `git pull` +yapamazsın. Onun yerine önce `git stash` ile değişikliklerini yığına kaydet! + +(stash, sözlük anlamı: bir şeyi, özel bir yere güvenli biçimde saklamak) + +```bash +$ git stash +Saved working directory and index state \ + "WIP on master: 049d078 added the index file" + HEAD is now at 049d078 added the index file + (To restore them type "git stash apply") +``` + +Şimdi pull yapabilirsin! + +```bash +git pull +``` +`...changes apply...` + +Herşeyin tamam olduğunu kontrol et + +```bash +$ git status +# On branch master +nothing to commit, working directory clean +``` +Şu ana kadar neleri stash'lediğini `git stash list` kullanarak görebilirsin. +Stash'lenen şeyler Son-Giren-İlk-Çıkar şeklinde tutulduğundan en son değişim +en üste olacaktır. + +```bash +$ git stash list +stash@{0}: WIP on master: 049d078 added the index file +stash@{1}: WIP on master: c264051 Revert "added file_size" +stash@{2}: WIP on master: 21d80a5 added number to log +``` +Şimdi de kirli değişiklileri yığından çıkarıp uygulayalım. + +```bash +$ git stash pop +# On branch master +# Changes not staged for commit: +# (use "git add <file>..." to update what will be committed) +# +# modified: index.html +# modified: lib/simplegit.rb +# +``` + +`git stash apply` da aynı şeyi yapar + +Şimdi kendi işine dönmeye hazırsın! + +[Ek Okuma.](http://git-scm.com/book/en/v1/Git-Tools-Stashing) + +### rebase (dikkat) + +Branch'ta commit'lenen tüm değişimleri al ve onları başka bir branch'ta tekrar oynat +*Public repo'ya push edilmiş commit'leri rebase etme* + +```bash +# Rebase experimentBranch onto master +# git rebase <basebranch> <topicbranch> +$ git rebase master experimentBranch +``` + +[Ek Okuma.](http://git-scm.com/book/en/Git-Branching-Rebasing) + +### reset (dikkat) + +Reset the current HEAD to the specified state. This allows you to undo merges, +pulls, commits, adds, and more. It's a great command but also dangerous if you +don't know what you are doing. + +HEAD'i belirtilen duruma resetle. Bu merge'leri, pull'ları, commit'leri, add'leri +ve daha fazlasını geriye almanı sağlar. Muhteşem bir komuttur ama aynı zamanda, ne +yaptığını bilmiyorsan, tehlikelidir. + +```bash +# Reset the staging area, to match the latest commit (leaves dir unchanged) +$ git reset + +# Reset the staging area, to match the latest commit, and overwrite working dir +$ git reset --hard + +# Moves the current branch tip to the specified commit (leaves dir unchanged) +# all changes still exist in the directory. +$ git reset 31f2bb1 + +# Moves the current branch tip backward to the specified commit +# and makes the working dir match (deletes uncommitted changes and all commits +# after the specified commit). +$ git reset --hard 31f2bb1 +``` + +### reflog (dikkat) + +Reflog, verilen zaman içinde,default olarak 90 gündür, yaptığın git komutlarını listeler. + +Bu sana beklemediğin şekilde yanlış giden komutları geriye çevirme şansı verir. +(mesela, eğer bir rebase uygulamanı kırdıysa) + +Şu şekilde yapıbilirsin: + +1. `git reflog` rebase için tüm git komutlarını listele + +``` +38b323f HEAD@{0}: rebase -i (finish): returning to refs/heads/feature/add_git_reflog +38b323f HEAD@{1}: rebase -i (pick): Clarify inc/dec operators +4fff859 HEAD@{2}: rebase -i (pick): Update java.html.markdown +34ed963 HEAD@{3}: rebase -i (pick): [yaml/en] Add more resources (#1666) +ed8ddf2 HEAD@{4}: rebase -i (pick): pythonstatcomp spanish translation (#1748) +2e6c386 HEAD@{5}: rebase -i (start): checkout 02fb96d +``` +2. Nereye reset'leyeceğini seç, şu durumda `2e6c386` veya `HEAD@{5}` +3. 'git reset --hard HEAD@{5}' bu repo'nu seçilen head'e eşitler +4. Rebase'e yeniden başlayabilir veya onu yalnız bırakabilirsin. + +[Ek Okuma.](https://git-scm.com/docs/git-reflog) + +### revert + +Revert commit'leri geri almada kullanılır. Projenin durumunu önceki bir noktaya +alan reset ile karıştırılmamalıdır. Revert, belirtilen commit'in tersine yeni bir +commit ekleyecektir. + +```bash +# Revert a specified commit +$ git revert <commit> +``` + +### rm + +git add'in tersine, git rm çalışma ağacından dosyaları kaldırır. + +```bash +# remove HelloWorld.c +$ git rm HelloWorld.c + +# Remove a file from a nested dir +$ git rm /pather/to/the/file/HelloWorld.c +``` + +## Daha Fazla Bilgi + +* [tryGit - Git'i öğrenmek için eğlenceli interaktif bir yol](http://try.github.io/levels/1/challenges/1) + +* [Git Dallanmayı Öğren - Git'i web üzerinde öğrenmek için en görsel ve interaktif yol](http://learngitbranching.js.org/) + +* [Udemy Git Tutorial: Kapsayıcı bir kılavuz](https://blog.udemy.com/git-tutorial-a-comprehensive-guide/) + +* [Git Immersion - Git'in temelinden başlayan bir tur](http://gitimmersion.com/) + +* [git-scm - Video Tutorial](http://git-scm.com/videos) + +* [git-scm - Dökümantasyon](http://git-scm.com/docs) + +* [Atlassian Git - Tutorial & Workflow](https://www.atlassian.com/git/) + +* [SalesForce Kopya Kağıdı](http://res.cloudinary.com/hy4kyit2a/image/upload/SF_git_cheatsheet.pdf) + +* [GitGuys](http://www.gitguys.com/) + +* [Git - Basit bir kılavuz](http://rogerdudler.github.io/git-guide/index.html) + +* [Pro Git](http://www.git-scm.com/book/en/v2) + +* [Yeni başlayanlar için Git ve Github](http://product.hubspot.com/blog/git-and-github-tutorial-for-beginners) diff --git a/tr-tr/markdown-tr.html.markdown b/tr-tr/markdown-tr.html.markdown index b8f11e39..6caba1da 100644 --- a/tr-tr/markdown-tr.html.markdown +++ b/tr-tr/markdown-tr.html.markdown @@ -11,7 +11,7 @@ filename: markdown-tr.md Markdown, 2004 yılında John Gruber tarafından oluşturuldu. Asıl amacı kolay okuma ve yazmayı sağlamakla beraber kolayca HTML (artık bir çok diğer formatlara) dönüşüm sağlamaktır. -```markdown +```md <!-- Markdown, HTML'i kapsar, yani her HTML dosyası geçerli bir Markdown dosyasıdır, bu demektir ki Markdown içerisinde HTML etiketleri kullanabiliriz, örneğin bu yorum elementi, ve markdown işleyicisinde etki etmezler. Fakat, markdown dosyası içerisinde HTML elementi oluşturursanız, diff --git a/typescript.html.markdown b/typescript.html.markdown index 44fd791a..acc258b4 100644 --- a/typescript.html.markdown +++ b/typescript.html.markdown @@ -9,7 +9,7 @@ TypeScript is a language that aims at easing development of large scale applicat TypeScript adds common concepts such as classes, modules, interfaces, generics and (optional) static typing to JavaScript. It is a superset of JavaScript: all JavaScript code is valid TypeScript code so it can be added seamlessly to any project. The TypeScript compiler emits JavaScript. -This article will focus only on TypeScript extra syntax, as opposed to [JavaScript](javascript.html.markdown). +This article will focus only on TypeScript extra syntax, as opposed to [JavaScript](/docs/javascript). To test TypeScript's compiler, head to the [Playground] (http://www.typescriptlang.org/Playground) where you will be able to type code, have auto completion and directly see the emitted JavaScript. @@ -29,7 +29,7 @@ let notSure: any = 4; notSure = "maybe a string instead"; notSure = false; // okay, definitely a boolean -// Use const keyword for constant variables +// Use const keyword for constants const numLivesForCat = 9; numLivesForCat = 1; // Error diff --git a/uk-ua/java-ua.html.markdown b/uk-ua/java-ua.html.markdown index 1d600400..df642f73 100644 --- a/uk-ua/java-ua.html.markdown +++ b/uk-ua/java-ua.html.markdown @@ -30,7 +30,7 @@ JavaDoc-коментар виглядає так. Використовуєтьс // Імпорт класу ArrayList з пакета java.util import java.util.ArrayList; -// Імпорт усіх класів з пакета java.security +// Імпорт усіх класів з пакета java.security import java.security.*; // Кожний .java файл містить один зовнішній публічний клас, ім’я якого співпадає @@ -99,13 +99,13 @@ public class LearnJava { // Примітка: Java не має беззнакових типів. - // Float — 32-бітне число з рухомою комою одиничної точності за стандартом IEEE 754 + // Float — 32-бітне число з рухомою комою одиничної точності за стандартом IEEE 754 // 2^-149 <= float <= (2-2^-23) * 2^127 float fooFloat = 234.5f; // f або F використовується для позначення того, що змінна має тип float; // інакше трактується як double. - // Double — 64-бітне число з рухомою комою подвійної точності за стандартом IEEE 754 + // Double — 64-бітне число з рухомою комою подвійної точності за стандартом IEEE 754 // 2^-1074 <= x <= (2-2^-52) * 2^1023 double fooDouble = 123.4; @@ -130,13 +130,13 @@ public class LearnJava { // байтів, операції над ними виконуються функціями, які мають клас BigInteger // // BigInteger можна ініціалізувати, використовуючи масив байтів чи рядок. - + BigInteger fooBigInteger = new BigInteger(fooByteArray); // BigDecimal — Незмінні знакові дробові числа довільної точності // - // BigDecimal складається з двох частин: цілого числа довільної точності + // BigDecimal складається з двох частин: цілого числа довільної точності // з немасштабованим значенням та 32-бітного масштабованого цілого числа // // BigDecimal дозволяє розробникам контролювати десяткове округлення. @@ -147,10 +147,10 @@ public class LearnJava { // чи немасштабованим значенням (BigInteger) і масштабованим значенням (int). BigDecimal fooBigDecimal = new BigDecimal(fooBigInteger, fooInt); - + // Для дотримання заданої точності рекомендується використовувати - // конструктор, який приймає String - + // конструктор, який приймає String + BigDecimal tenCents = new BigDecimal("0.1"); @@ -295,7 +295,7 @@ public class LearnJava { // Виконається 10 разів, fooFor 0->9 } System.out.println("Значення fooFor: " + fooFor); - + // Вихід із вкладеного циклу через мітку outer: for (int i = 0; i < 10; i++) { @@ -306,7 +306,7 @@ public class LearnJava { } } } - + // Цикл For Each // Призначений для перебору масивів та колекцій int[] fooList = {1, 2, 3, 4, 5, 6, 7, 8, 9}; @@ -318,7 +318,7 @@ public class LearnJava { // Оператор вибору Switch Case // Оператор вибору працює з типами даних byte, short, char, int. - // Також працює з переліками Enum, + // Також працює з переліками Enum, // класом String та класами-обгортками примітивних типів: // Character, Byte, Short та Integer. int month = 3; @@ -334,7 +334,7 @@ public class LearnJava { break; } System.out.println("Результат Switch Case: " + monthString); - + // Починаючи з Java 7 і далі, вибір рядкових змінних здійснюється так: String myAnswer = "можливо"; switch(myAnswer) { @@ -398,7 +398,7 @@ public class LearnJava { // toString повертає рядкове представлення об’єкту. System.out.println("Інформація про об’єкт trek: " + trek.toString()); - + // У Java немає синтаксису для явного створення статичних колекцій. // Це можна зробити так: @@ -554,7 +554,7 @@ public interface Digestible { // Можна створити клас, що реалізує обидва інтерфейси. public class Fruit implements Edible, Digestible { - + @Override public void eat() { // ... @@ -694,41 +694,41 @@ public abstract class Mammal() public enum Day { SUNDAY, MONDAY, TUESDAY, WEDNESDAY, - THURSDAY, FRIDAY, SATURDAY + THURSDAY, FRIDAY, SATURDAY } // Перелік Day можна використовувати так: public class EnumTest { - + // Змінна того же типу, що й перелік Day day; - + public EnumTest(Day day) { this.day = day; } - + public void tellItLikeItIs() { switch (day) { case MONDAY: - System.out.println("Понеділкі важкі."); + System.out.println("Понеділки важкі."); break; - + case FRIDAY: System.out.println("П’ятниці краще."); break; - - case SATURDAY: + + case SATURDAY: case SUNDAY: System.out.println("Вихідні найліпші."); break; - + default: System.out.println("Середина тижня так собі."); break; } } - + public static void main(String[] args) { EnumTest firstDay = new EnumTest(Day.MONDAY); firstDay.tellItLikeItIs(); // => Понеділки важкі. @@ -737,7 +737,7 @@ public class EnumTest { } } -// Переліки набагато потужніші, ніж тут показано. +// Переліки набагато потужніші, ніж тут показано. // Тіло переліків може містити методи та інші змінні. // Дивіться більше тут: https://docs.oracle.com/javase/tutorial/java/javaOO/enum.html diff --git a/uk-ua/javascript-ua.html.markdown b/uk-ua/javascript-ua.html.markdown index 397b1c5e..6a64a623 100644 --- a/uk-ua/javascript-ua.html.markdown +++ b/uk-ua/javascript-ua.html.markdown @@ -45,7 +45,7 @@ doStuff() 3; // = 3 1.5; // = 1.5 -// Деякі прості арифметичні операції працють так, як ми очікуємо. +// Деякі прості арифметичні операції працюють так, як ми очікуємо. 1 + 1; // = 2 0.1 + 0.2; // = 0.30000000000000004 (а деякі - ні) 8 - 1; // = 7 @@ -106,7 +106,7 @@ null == undefined; // = true // ... але приведення не виконується при === "5" === 5; // = false -null === undefined; // = false +null === undefined; // = false // ... приведення типів може призвести до дивних результатів 13 + !0; // 14 @@ -171,7 +171,7 @@ myArray[3] = "світ"; // Об’єкти в JavaScript схожі на словники або асоціативні масиви в інших мовах var myObj = {key1: "Hello", key2: "World"}; -// Ключі - це рядки, але лапки не обов’язкі, якщо ключ задовольняє +// Ключі - це рядки, але лапки не обов’язкові, якщо ключ задовольняє // правилам формування назв змінних. Значення можуть бути будь-яких типів. var myObj = {myKey: "myValue", "my other key": 4}; @@ -258,7 +258,7 @@ function myFunction(thing) { return thing.toUpperCase(); } myFunction("foo"); // = "FOO" - + // Зверніть увагу, що значення яке буде повернено, повинно починатися на тому ж // рядку, що і ключове слово return, інакше завжди буде повертатися значення undefined // через автоматичну вставку крапки з комою @@ -332,7 +332,7 @@ var myObj = { }; myObj.myFunc(); // = "Hello, world!" -// Функції, що прикріплені до об’єктів мають доступ до поточного об’єкта за +// Функції, що прикріплені до об’єктів мають доступ до поточного об’єкта за // допомогою ключового слова this. myObj = { myString: "Hello, world!", @@ -348,7 +348,7 @@ myObj.myFunc(); // = "Hello, world!" var myFunc = myObj.myFunc; myFunc(); // = undefined -// Функція може бути присвоєна іншому об’єкту. Тоді вона матиме доступ до +// Функція може бути присвоєна іншому об’єкту. Тоді вона матиме доступ до // цього об’єкта через this var myOtherFunc = function() { return this.myString.toUpperCase(); @@ -371,7 +371,7 @@ Math.min(42, 6, 27); // = 6 Math.min([42, 6, 27]); // = NaN (Ой-ой!) Math.min.apply(Math, [42, 6, 27]); // = 6 -// Але call і apply — тимчасові. Коли ми хочемо зв’язати функцію і об’єкт +// Але call і apply — тимчасові. Коли ми хочемо зв’язати функцію і об’єкт // використовують bind var boundFunc = anotherFunc.bind(myObj); boundFunc(" Hello!"); // = "Hello world, Hello!" @@ -475,7 +475,7 @@ if (Object.create === undefined) { // не перезаписуємо метод // Створюємо правильний конструктор з правильним прототипом var Constructor = function(){}; Constructor.prototype = proto; - + return new Constructor(); } } diff --git a/uk-ua/python-ua.html.markdown b/uk-ua/python-ua.html.markdown new file mode 100644 index 00000000..2406678d --- /dev/null +++ b/uk-ua/python-ua.html.markdown @@ -0,0 +1,818 @@ +--- +language: python +lang: uk-ua +contributors: + - ["Louie Dinh", "http://ldinh.ca"] + - ["Amin Bandali", "https://aminb.org"] + - ["Andre Polykanine", "https://github.com/Oire"] + - ["evuez", "http://github.com/evuez"] + - ["asyne", "https://github.com/justblah"] + - ["habi", "http://github.com/habi"] +translators: + - ["Oleg Gromyak", "https://github.com/ogroleg"] +filename: learnpython-ua.py +--- + +Мову Python створив Гвідо ван Россум на початку 90-х. Наразі це одна з +найбільш популярних мов. Я закохався у Python завдяки простому і зрозумілому +синтаксису. Це майже як виконуваний псевдокод. + +З вдячністю чекаю ваших відгуків: [@louiedinh](http://twitter.com/louiedinh) +або louiedinh [at] [поштовий сервіс від Google] + +Примітка: Ця стаття стосується Python 2.7, проте має працювати і +у інших версіях Python 2.x. Python 2.7 підходить до кінця свого терміну, +його підтримку припинять у 2020, тож наразі краще починати вивчення Python +з версії 3.x. +Аби вивчити Python 3.x, звертайтесь до статті по Python 3. + +```python +# Однорядкові коментарі починаються з символу решітки. + +""" Текст, що займає декілька рядків, + може бути записаний з використанням 3 знаків " і + зазвичай використовується у якості + вбудованої документації +""" + +#################################################### +## 1. Примітивні типи даних та оператори +#################################################### + +# У вас є числа +3 # => 3 + +# Математика працює досить передбачувано +1 + 1 # => 2 +8 - 1 # => 7 +10 * 2 # => 20 +35 / 5 # => 7 + +# А ось з діленням все трохи складніше. Воно цілочисельне і результат +# автоматично округлюється у меншу сторону. +5 / 2 # => 2 + +# Аби правильно ділити, спершу варто дізнатися про числа +# з плаваючою комою. +2.0 # Це число з плаваючою комою +11.0 / 4.0 # => 2.75 ох... Так набагато краще + +# Результат цілочисельного ділення округлюється у меншу сторону +# як для додатніх, так і для від'ємних чисел. +5 // 3 # => 1 +5.0 // 3.0 # => 1.0 # Працює і для чисел з плаваючою комою +-5 // 3 # => -2 +-5.0 // 3.0 # => -2.0 + +# Зверніть увагу, що ми також можемо імпортувати модуль для ділення, +# див. розділ Модулі +# аби звичне ділення працювало при використанні лише '/'. +from __future__ import division + +11 / 4 # => 2.75 ...звичне ділення +11 // 4 # => 2 ...цілочисельне ділення + +# Залишок від ділення +7 % 3 # => 1 + +# Піднесення до степеня +2 ** 4 # => 16 + +# Приорітет операцій вказується дужками +(1 + 3) * 2 # => 8 + +# Логічні оператори +# Зверніть увагу: ключові слова «and» і «or» чутливі до регістру букв +True and False # => False +False or True # => True + +# Завважте, що логічні оператори також використовуються і з цілими числами +0 and 2 # => 0 +-5 or 0 # => -5 +0 == False # => True +2 == True # => False +1 == True # => True + +# Для заперечення використовується not +not True # => False +not False # => True + +# Рівність — це == +1 == 1 # => True +2 == 1 # => False + +# Нерівність — це != +1 != 1 # => False +2 != 1 # => True + +# Ще трохи порівнянь +1 < 10 # => True +1 > 10 # => False +2 <= 2 # => True +2 >= 2 # => True + +# Порівняння можуть бути записані ланцюжком! +1 < 2 < 3 # => True +2 < 3 < 2 # => False + +# Рядки позначаються символом " або ' +"Це рядок." +'Це теж рядок.' + +# І рядки також можна додавати! +"Привіт " + "світ!" # => "Привіт світ!" +# Рядки можна додавати і без '+' +"Привіт " "світ!" # => "Привіт світ!" + +# ... або множити +"Привіт" * 3 # => "ПривітПривітПривіт" + +# З рядком можна працювати як зі списком символів +"Це рядок"[0] # => 'Ц' + +# Ви можете дізнатися довжину рядка +len("Це рядок") # => 8 + +# Символ % використовується для форматування рядків, наприклад: +"%s можуть бути %s" % ("рядки", "інтерпольовані") + +# Новий спосіб форматування рядків — використання методу format. +# Це бажаний спосіб. +"{} є {}".format("Це", "заповнювач") +"{0} можуть бути {1}".format("рядки", "форматовані") +# Якщо ви не хочете рахувати, то можете скористатися ключовими словами. +"{name} хоче з'істи {food}".format(name="Боб", food="лазанью") + +# None - це об'єкт +None # => None + +# Не використовуйте оператор рівності '=='' для порівняння +# об'єктів з None. Використовуйте для цього «is» +"etc" is None # => False +None is None # => True + +# Оператор 'is' перевіряє ідентичність об'єктів. Він не +# дуже корисний при роботі з примітивними типами, проте +# незамінний при роботі з об'єктами. + +# None, 0 і порожні рядки/списки рівні False. +# Всі інші значення рівні True +bool(0) # => False +bool("") # => False + + +#################################################### +## 2. Змінні та колекції +#################################################### + +# В Python є оператор print +print "Я Python. Приємно познайомитись!" # => Я Python. Приємно познайомитись! + +# Отримати дані з консолі просто +input_string_var = raw_input( + "Введіть щось: ") # Повертає дані у вигляді рядка +input_var = input("Введіть щось: ") # Працює з даними як з кодом на python +# Застереження: будьте обережні при використанні методу input() + +# Оголошувати змінні перед ініціалізацією не потрібно. +some_var = 5 # За угодою використовується нижній_регістр_з_підкресленнями +some_var # => 5 + +# При спробі доступу до неініціалізованої змінної +# виникне виняткова ситуація. +# Див. розділ Потік управління, аби дізнатись про винятки більше. +some_other_var # Помилка в імені + +# if може використовуватися як вираз +# Такий запис еквівалентний тернарному оператору '?:' у мові С +"yahoo!" if 3 > 2 else 2 # => "yahoo!" + +# Списки зберігають послідовності +li = [] +# Можна одразу створити заповнений список +other_li = [4, 5, 6] + +# Об'єкти додаються у кінець списку за допомогою методу append +li.append(1) # li тепер дорівнює [1] +li.append(2) # li тепер дорівнює [1, 2] +li.append(4) # li тепер дорівнює [1, 2, 4] +li.append(3) # li тепер дорівнює [1, 2, 4, 3] +# І видаляються з кінця методом pop +li.pop() # => повертає 3 і li стає рівним [1, 2, 4] +# Повернемо елемент назад +li.append(3) # li тепер знову дорівнює [1, 2, 4, 3] + +# Поводьтесь зі списком як зі звичайним масивом +li[0] # => 1 +# Присвоюйте нові значення вже ініціалізованим індексам за допомогою = +li[0] = 42 +li[0] # => 42 +li[0] = 1 # Зверніть увагу: повертаємось до попереднього значення +# Звертаємось до останнього елементу +li[-1] # => 3 + +# Спроба вийти за границі масиву призводить до помилки в індексі +li[4] # помилка в індексі + +# Можна звертатися до діапазону, використовуючи так звані зрізи +# (Для тих, хто любить математику: це називається замкнуто-відкритий інтервал). +li[1:3] # => [2, 4] +# Опускаємо початок +li[2:] # => [4, 3] +# Опускаємо кінець +li[:3] # => [1, 2, 4] +# Вибираємо кожен другий елемент +li[::2] # => [1, 4] +# Перевертаємо список +li[::-1] # => [3, 4, 2, 1] +# Використовуйте суміш вищеназваного для більш складних зрізів +# li[початок:кінець:крок] + +# Видаляємо довільні елементи зі списку оператором del +del li[2] # li тепер [1, 2, 3] + +# Ви можете додавати списки +li + other_li # => [1, 2, 3, 4, 5, 6] +# Зверніть увагу: значення li та other_li при цьому не змінились. + +# Поєднувати списки можна за допомогою методу extend +li.extend(other_li) # Тепер li дорівнює [1, 2, 3, 4, 5, 6] + +# Видалити перше входження значення +li.remove(2) # Тепер li дорівнює [1, 3, 4, 5, 6] +li.remove(2) # Помилка значення, оскільки у списку li немає 2 + +# Вставити елемент за вказаним індексом +li.insert(1, 2) # li знову дорівнює [1, 2, 3, 4, 5, 6] + +# Отримати індекс першого знайденого елементу +li.index(2) # => 1 +li.index(7) # Помилка значення, оскільки у списку li немає 7 + +# Перевірити елемент на входження у список можна оператором in +1 in li # => True + +# Довжина списку обчислюється за допомогою функції len +len(li) # => 6 + +# Кортежі схожі на списки, лише незмінні +tup = (1, 2, 3) +tup[0] # => 1 +tup[0] = 3 # Виникає помилка типу + +# Все те ж саме можна робити і з кортежами +len(tup) # => 3 +tup + (4, 5, 6) # => (1, 2, 3, 4, 5, 6) +tup[:2] # => (1, 2) +2 in tup # => True + +# Ви можете розпаковувати кортежі (або списки) у змінні +a, b, c = (1, 2, 3) # a == 1, b == 2 и c == 3 +d, e, f = 4, 5, 6 # дужки можна опустити +# Кортежі створюються за замовчуванням, якщо дужки опущено +g = 4, 5, 6 # => (4, 5, 6) +# Дивіться, як легко обміняти значення двох змінних +e, d = d, e # тепер d дорівнює 5, а e дорівнює 4 + +# Словники містять асоціативні масиви +empty_dict = {} +# Ось так описується попередньо заповнений словник +filled_dict = {"one": 1, "two": 2, "three": 3} + +# Значення можна отримати так само, як і зі списку +filled_dict["one"] # => 1 + +# Можна отримати всі ключі у виді списку за допомогою методу keys +filled_dict.keys() # => ["three", "two", "one"] +# Примітка: збереження порядку ключів у словників не гарантується +# Ваші результати можуть не співпадати з цими. + +# Можна отримати і всі значення у вигляді списку, використовуйте метод values +filled_dict.values() # => [3, 2, 1] +# Те ж зауваження щодо порядку ключів діє і тут + +# Отримуйте всі пари ключ-значення у вигляді списку кортежів +# за допомогою "items()" +filled_dict.items() # => [("one", 1), ("two", 2), ("three", 3)] + +# За допомогою оператору in можна перевіряти ключі на входження у словник +"one" in filled_dict # => True +1 in filled_dict # => False + +# Спроба отримати значення за неіснуючим ключем викине помилку ключа +filled_dict["four"] # помилка ключа + +# Аби уникнути цього, використовуйте метод get() +filled_dict.get("one") # => 1 +filled_dict.get("four") # => None +# Метод get також приймає аргумент за замовчуванням, значення якого буде +# повернуто при відсутності вказаного ключа +filled_dict.get("one", 4) # => 1 +filled_dict.get("four", 4) # => 4 +# Зверніть увагу, що filled_dict.get("four") все ще => None +# (get не встановлює значення елементу словника) + +# Присвоюйте значення ключам так само, як і в списках +filled_dict["four"] = 4 # тепер filled_dict["four"] => 4 + +# Метод setdefault() вставляє пару ключ-значення лише +# за відсутності такого ключа +filled_dict.setdefault("five", 5) # filled_dict["five"] повертає 5 +filled_dict.setdefault("five", 6) # filled_dict["five"] все ще повертає 5 + + +# Множини містять... ну, загалом, множини +# (які схожі на списки, проте в них не може бути елементів, які повторюються) +empty_set = set() +# Ініціалізація множини набором значень +some_set = set([1,2,2,3,4]) # some_set тепер дорівнює set([1, 2, 3, 4]) + +# Порядок не гарантовано, хоча інколи множини виглядають відсортованими +another_set = set([4, 3, 2, 2, 1]) # another_set тепер set([1, 2, 3, 4]) + +# Починаючи з Python 2.7, ви можете використовувати {}, аби створити множину +filled_set = {1, 2, 2, 3, 4} # => {1, 2, 3, 4} + +# Додавання нових елементів у множину +filled_set.add(5) # filled_set тепер дорівнює {1, 2, 3, 4, 5} + +# Перетин множин: & +other_set = {3, 4, 5, 6} +filled_set & other_set # => {3, 4, 5} + +# Об'єднання множин: | +filled_set | other_set # => {1, 2, 3, 4, 5, 6} + +# Різниця множин: - +{1,2,3,4} - {2,3,5} # => {1, 4} + +# Симетрична різниця множин: ^ +{1, 2, 3, 4} ^ {2, 3, 5} # => {1, 4, 5} + +# Перевіряємо чи множина зліва є надмножиною множини справа +{1, 2} >= {1, 2, 3} # => False + +# Перевіряємо чи множина зліва є підмножиною множини справа +{1, 2} <= {1, 2, 3} # => True + +# Перевірка на входження у множину: in +2 in filled_set # => True +10 in filled_set # => False + + +#################################################### +## 3. Потік управління +#################################################### + +# Для початку створимо змінну +some_var = 5 + +# Так виглядає вираз if. Відступи у python дуже важливі! +# результат: «some_var менше, ніж 10» +if some_var > 10: + print("some_var набагато більше, ніж 10.") +elif some_var < 10: # Вираз elif є необов'язковим. + print("some_var менше, ніж 10.") +else: # Це теж необов'язково. + print("some_var дорівнює 10.") + + +""" +Цикли For проходять по спискам + +Результат: + собака — це ссавець + кішка — це ссавець + миша — це ссавець +""" +for animal in ["собака", "кішка", "миша"]: + # Можете використовувати оператор {0} для інтерполяції форматованих рядків + print "{0} — це ссавець".format(animal) + +""" +"range(число)" повертає список чисел +від нуля до заданого числа +Друкує: + 0 + 1 + 2 + 3 +""" +for i in range(4): + print(i) +""" +"range(нижня_границя, верхня_границя)" повертає список чисел +від нижньої границі до верхньої +Друкує: + 4 + 5 + 6 + 7 +""" +for i in range(4, 8): + print i + +""" +Цикли while продовжуються до тих пір, поки вказана умова не стане хибною. +Друкує: + 0 + 1 + 2 + 3 +""" +x = 0 +while x < 4: + print(x) + x += 1 # Короткий запис для x = x + 1 + +# Обробляйте винятки блоками try/except + +# Працює у Python 2.6 і вище: +try: + # Аби створити виняток, використовується raise + raise IndexError("Помилка у індексі!") +except IndexError as e: + pass # pass — оператор, який нічого не робить. Зазвичай тут відбувається + # відновлення після помилки. +except (TypeError, NameError): + pass # Винятки можна обробляти групами, якщо потрібно. +else: # Необов'язковий вираз. Має слідувати за останнім блоком except + print("Все добре!") # Виконається лише якщо не було ніяких винятків +finally: # Виконується у будь-якому випадку + print "Тут ми можемо звільнити ресурси" + +# Замість try/finally для звільнення ресурсів +# ви можете використовувати вираз with +with open("myfile.txt") as f: + for line in f: + print line + + +#################################################### +## 4. Функції +#################################################### + +# Використовуйте def для створення нових функцій +def add(x, y): + print "x дорівнює {0}, а y дорівнює {1}".format(x, y) + return x + y # Повертайте результат за допомогою ключового слова return + + +# Виклик функції з аргументами +add(5, 6) # => друкує «x дорівнює 5, а y дорівнює 6» і повертає 11 + +# Інший спосіб виклику функції — виклик з іменованими аргументами +add(y=6, x=5) # Іменовані аргументи можна вказувати у будь-якому порядку + + +# Ви можете визначити функцію, яка приймає змінну кількість аргументів, +# які будуть інтерпретовані як кортеж, за допомогою * +def varargs(*args): + return args + + +varargs(1, 2, 3) # => (1,2,3) + + +# А також можете визначити функцію, яка приймає змінне число +# іменованих аргументів, котрі будуть інтерпретовані як словник, за допомогою ** +def keyword_args(**kwargs): + return kwargs + + +# Давайте подивимось що з цього вийде +keyword_args(big="foot", loch="ness") # => {"big": "foot", "loch": "ness"} + +# Якщо хочете, можете використовувати обидва способи одночасно +def all_the_args(*args, **kwargs): + print(args) + print(kwargs) + + +""" +all_the_args(1, 2, a=3, b=4) друкує: + (1, 2) + {"a": 3, "b": 4} +""" + +# Коли викликаєте функції, то можете зробити навпаки! +# Використовуйте символ * аби розпакувати позиційні аргументи і +# ** для іменованих аргументів +args = (1, 2, 3, 4) +kwargs = {"a": 3, "b": 4} +all_the_args(*args) # еквівалентно foo(1, 2, 3, 4) +all_the_args(**kwargs) # еквівалентно foo(a=3, b=4) +all_the_args(*args, **kwargs) # еквівалентно foo(1, 2, 3, 4, a=3, b=4) + +# ви можете передавати довільне число позиційних або іменованих аргументів +# іншим функціям, які їх приймають, розпаковуючи за допомогою +# * або ** відповідно +def pass_all_the_args(*args, **kwargs): + all_the_args(*args, **kwargs) + print varargs(*args) + print keyword_args(**kwargs) + + +# Область визначення функцій +x = 5 + + +def set_x(num): + # Локальна змінна x - не те ж саме, що глобальна змінна x + x = num # => 43 + print x # => 43 + + +def set_global_x(num): + global x + print x # => 5 + x = num # глобальна змінна x тепер дорівнює 6 + print x # => 6 + + +set_x(43) +set_global_x(6) + +# В Python функції є об'єктами першого класу +def create_adder(x): + def adder(y): + return x + y + + return adder + + +add_10 = create_adder(10) +add_10(3) # => 13 + +# Також є і анонімні функції +(lambda x: x > 2)(3) # => True +(lambda x, y: x ** 2 + y ** 2)(2, 1) # => 5 + +# Присутні вбудовані функції вищого порядку +map(add_10, [1, 2, 3]) # => [11, 12, 13] +map(max, [1, 2, 3], [4, 2, 1]) # => [4, 2, 3] + +filter(lambda x: x > 5, [3, 4, 5, 6, 7]) # => [6, 7] + +# Для зручного відображення і фільтрації можна використовувати +# включення у вигляді списків +[add_10(i) for i in [1, 2, 3]] # => [11, 12, 13] +[x for x in [3, 4, 5, 6, 7] if x > 5] # => [6, 7] + +# Ви також можете скористатися включеннями множин та словників +{x for x in 'abcddeef' if x in 'abc'} # => {'a', 'b', 'c'} +{x: x ** 2 for x in range(5)} # => {0: 0, 1: 1, 2: 4, 3: 9, 4: 16} + + +#################################################### +## 5. Класи +#################################################### + +# Аби отримати клас, ми наслідуємо object. +class Human(object): + # Атрибут класу. Він розділяється всіма екземплярами цього класу. + species = "H. sapiens" + + # Звичайний конструктор, буде викликаний при ініціалізації екземпляру класу + # Зверніть увагу, що подвійне підкреслення на початку та наприкінці імені + # використовується для позначення об'єктів та атрибутів, + # які використовуються Python, але знаходяться у просторах імен, + # якими керує користувач. Не варто вигадувати для них імена самостійно. + def __init__(self, name): + # Присвоєння значення аргумента атрибуту класу name + self.name = name + + # Ініціалізуємо властивість + self.age = 0 + + # Метод екземпляру. Всі методи приймають self у якості першого аргументу + def say(self, msg): + return "%s: %s" % (self.name, msg) + + # Методи класу розділяються між усіма екземплярами + # Вони викликаються з вказанням викликаючого класу + # у якості першого аргументу + @classmethod + def get_species(cls): + return cls.species + + # Статичний метод викликається без посилання на клас або екземпляр + @staticmethod + def grunt(): + return "*grunt*" + + # Властивість. + # Перетворює метод age() в атрибут тільки для читання + # з таким же ім'ям. + @property + def age(self): + return self._age + + # Це дозволяє змінювати значення властивості + @age.setter + def age(self, age): + self._age = age + + # Це дозволяє видаляти властивість + @age.deleter + def age(self): + del self._age + + +# Створюємо екземпляр класу +i = Human(name="Данило") +print(i.say("привіт")) # Друкує: «Данило: привіт» + +j = Human("Меланка") +print(j.say("Привіт")) # Друкує: «Меланка: привіт» + +# Виклик методу класу +i.get_species() # => "H. sapiens" + +# Зміна розділюваного атрибуту +Human.species = "H. neanderthalensis" +i.get_species() # => "H. neanderthalensis" +j.get_species() # => "H. neanderthalensis" + +# Виклик статичного методу +Human.grunt() # => "*grunt*" + +# Оновлюємо властивість +i.age = 42 + +# Отримуємо значення +i.age # => 42 + +# Видаляємо властивість +del i.age +i.age # => виникає помилка атрибуту + +#################################################### +## 6. Модулі +#################################################### + +# Ви можете імпортувати модулі +import math + +print(math.sqrt(16)) # => 4 + +# Ви можете імпортувати окремі функції з модуля +from math import ceil, floor + +print(ceil(3.7)) # => 4.0 +print(floor(3.7)) # => 3.0 + +# Можете імпортувати всі функції модуля. +# Попередження: краще так не робіть +from math import * + +# Можете скорочувати імена модулів +import math as m + +math.sqrt(16) == m.sqrt(16) # => True +# Ви також можете переконатися, що функції еквівалентні +from math import sqrt + +math.sqrt == m.sqrt == sqrt # => True + +# Модулі в Python — це звичайні Python-файли. Ви +# можете писати свої модулі та імпортувати їх. Назва +# модуля співпадає з назвою файлу. + +# Ви можете дізнатися, які функції та атрибути визначені +# в модулі +import math + +dir(math) + + +# Якщо у вас є Python скрипт з назвою math.py у тій же папці, що +# і ваш поточний скрипт, то файл math.py +# може бути завантажено замість вбудованого у Python модуля. +# Так трапляється, оскільки локальна папка має перевагу +# над вбудованими у Python бібліотеками. + +#################################################### +## 7. Додатково +#################################################### + +# Генератори +# Генератор "генерує" значення тоді, коли вони запитуються, замість того, +# щоб зберігати все одразу + +# Метод нижче (*НЕ* генератор) подвоює всі значення і зберігає їх +# в `double_arr`. При великих розмірах може знадобитися багато ресурсів! +def double_numbers(iterable): + double_arr = [] + for i in iterable: + double_arr.append(i + i) + return double_arr + + +# Тут ми спочатку подвоюємо всі значення, потім повертаємо їх, +# аби перевірити умову +for value in double_numbers(range(1000000)): # `test_non_generator` + print value + if value > 5: + break + + +# Натомість ми можемо скористатися генератором, аби "згенерувати" +# подвійне значення, як тільки воно буде запитане +def double_numbers_generator(iterable): + for i in iterable: + yield i + i + + +# Той самий код, але вже з генератором, тепер дозволяє нам пройтися по +# значенням і подвоювати їх одне за одним якраз тоді, коли вони обробляються +# за нашою логікою, одне за одним. А як тільки ми бачимо, що value > 5, ми +# виходимо з циклу і більше не подвоюємо більшість значень, +# які отримали на вхід (НАБАГАТО ШВИДШЕ!) +for value in double_numbers_generator(xrange(1000000)): # `test_generator` + print value + if value > 5: + break + +# Між іншим: ви помітили використання `range` у `test_non_generator` і +# `xrange` у `test_generator`? +# Як `double_numbers_generator` є версією-генератором `double_numbers`, так +# і `xrange` є аналогом `range`, але у вигляді генератора. +# `range` поверне нам масив з 1000000 значень +# `xrange`, у свою чергу, згенерує 1000000 значень для нас тоді, +# коли ми їх запитуємо / будемо проходитись по ним. + +# Аналогічно включенням у вигляді списків, ви можете створювати включення +# у вигляді генераторів. +values = (-x for x in [1, 2, 3, 4, 5]) +for x in values: + print(x) # друкує -1 -2 -3 -4 -5 + +# Включення у вигляді генератора можна явно перетворити у список +values = (-x for x in [1, 2, 3, 4, 5]) +gen_to_list = list(values) +print(gen_to_list) # => [-1, -2, -3, -4, -5] + +# Декоратори +# Декоратор – це функція вищого порядку, яка приймає та повертає функцію. +# Простий приклад використання – декоратор add_apples додає елемент 'Apple' в +# список fruits, який повертає цільова функція get_fruits. +def add_apples(func): + def get_fruits(): + fruits = func() + fruits.append('Apple') + return fruits + return get_fruits + +@add_apples +def get_fruits(): + return ['Banana', 'Mango', 'Orange'] + +# Друкуємо список разом з елементом 'Apple', який знаходиться в ньому: +# Banana, Mango, Orange, Apple +print ', '.join(get_fruits()) + +# У цьому прикладі beg обертає say +# Beg викличе say. Якщо say_please дорівнюватиме True, то повідомлення, +# що повертається, буде змінено. +from functools import wraps + + +def beg(target_function): + @wraps(target_function) + def wrapper(*args, **kwargs): + msg, say_please = target_function(*args, **kwargs) + if say_please: + return "{} {}".format(msg, "Будь ласка! Я бідний :(") + return msg + + return wrapper + + +@beg +def say(say_please=False): + msg = "Ви можете купити мені пива?" + return msg, say_please + + +print say() # Ви можете купити мені пива? +print say(say_please=True) # Ви можете купити мені пива? Будь ласка! Я бідний :( +``` + +## Готові до більшого? + +### Безкоштовні онлайн-матеріали + +* [Learn Python The Hard Way](http://learnpythonthehardway.org/book/) +* [Dive Into Python](http://www.diveintopython.net/) +* [Официальная документация](http://docs.python.org/2.6/) +* [Hitchhiker's Guide to Python](http://docs.python-guide.org/en/latest/) +* [Python Module of the Week](http://pymotw.com/2/) +* [A Crash Course in Python for Scientists](http://nbviewer.ipython.org/5920182) + +### Платні + +* [Programming Python](http://www.amazon.com/gp/product/0596158106/ref=as_li_qf_sp_asin_tl?ie=UTF8&camp=1789&creative=9325&creativeASIN=0596158106&linkCode=as2&tag=homebits04-20) +* [Dive Into Python](http://www.amazon.com/gp/product/1441413022/ref=as_li_tf_tl?ie=UTF8&camp=1789&creative=9325&creativeASIN=1441413022&linkCode=as2&tag=homebits04-20) +* [Python Essential Reference](http://www.amazon.com/gp/product/0672329786/ref=as_li_tf_tl?ie=UTF8&camp=1789&creative=9325&creativeASIN=0672329786&linkCode=as2&tag=homebits04-20) + diff --git a/vi-vn/less-vi.html.markdown b/vi-vn/less-vi.html.markdown new file mode 100644 index 00000000..594ccc31 --- /dev/null +++ b/vi-vn/less-vi.html.markdown @@ -0,0 +1,395 @@ +--- +language: less +contributors: + - ["Saravanan Ganesh", "http://srrvnn.me"] +translators: + - ["Thanh Duy Phan", "https://github.com/thanhpd"] +filename: learnless-vi.less +lang: vi-vn +--- + +Less là một CSS pre-processor (bộ tiền xử lí CSS), nó thêm các tính năng như biến (variable), lồng (nesting), mixin và nhiều thứ khác. Less cùng với các CSS pre-processor khác như [Sass](http://sass-lang.com/) giúp lập trình viên viết được các đoạn CSS bảo trì được và không bị lặp lại (DRY - Don't Repeat Yourself). + +```css + + +// Comment (chú thích) một dòng sẽ bị xóa khi Less được biên dịch thành CSS + +/* Comment trên nhiều dòng sẽ được giữ lại */ + + + +/* Biến +==============================*/ + + +/* Ta có thể lưu giá trị CSS (ví dụ như color) vào một biến. + Sử dụng ký hiệu '@' để khai báo một biến. */ + +@primary-color: #a3a4ff; +@secondary-color: #51527f; +@body-font: 'Roboto', sans-serif; + +/* Sau khi khai báo biến, ta có thể sử dụng nó ở trong tệp stylesheet. + Nhờ sử dụng biến ta chỉ cần thay đổi một lần + tại 1 nơi để thay đổi tất cả những đoạn sử dụng biến */ + +body { + background-color: @primary-color; + color: @secondary-color; + font-family: @body-font; +} + +/* Đoạn code trên sẽ được biên dịch thành: */ + +body { + background-color: #a3a4ff; + color: #51527F; + font-family: 'Roboto', sans-serif; +} + + +/* Cách sử dụng này giúp ta dễ dàng bảo trì hơn + việc phải đổi giá trị mỗi lần nó xuất hiện + trong tệp stylesheet. */ + + + +/* Mixins +==============================*/ + + +/* Nếu đang viết một đoạn code cho nhiều hơn một + element, ta có thể sử dụng lại nó dễ dàng. */ + +.center { + display: block; + margin-left: auto; + margin-right: auto; + left: 0; + right: 0; +} + +/* Ta có thể dùng mixin chỉ bằng việc thêm selector + vào trong nội dung style của element khác */ + +div { + .center; + background-color: @primary-color; +} + +/* Đoạn code trên sẽ được biên dịch thành: */ + +.center { + display: block; + margin-left: auto; + margin-right: auto; + left: 0; + right: 0; +} +div { + display: block; + margin-left: auto; + margin-right: auto; + left: 0; + right: 0; + background-color: #a3a4ff; +} + +/* Ta có thể ngăn không cho code mixin được biên dịch + bằng cách thêm cặp ngoặc tròn đằng sau selector */ + +.center() { + display: block; + margin-left: auto; + margin-right: auto; + left: 0; + right: 0; +} + +div { + .center; + background-color: @primary-color; +} + +/* Đoạn code trên sẽ được biên dịch thành: */ +div { + display: block; + margin-left: auto; + margin-right: auto; + left: 0; + right: 0; + background-color: #a3a4ff; +} + + + +/* Nesting - Lồng +==============================*/ + + +/* Less cho phép ta có thể lồng selector bên trong selector */ + +ul { + list-style-type: none; + margin-top: 2em; + + li { + background-color: #f00; + } +} + +/* Selector bắt đầu bằng ký tự '&' sẽ thay thế ký tự '&' + với selector cha. */ +/* Ta cũng có thể lồng các pseudo-class với nhau */ +/* Nên lưu ý không nên lồng quá nhiều lần sẽ làm code kém tính bảo trì. + Kinh nghiệm cho thấy không nên lồng quá 3 lần. + Ví dụ: */ + +ul { + list-style-type: none; + margin-top: 2em; + + li { + background-color: red; + + &:hover { + background-color: blue; + } + + a { + color: white; + } + } +} + +/* Biên dịch thành: */ + +ul { + list-style-type: none; + margin-top: 2em; +} + +ul li { + background-color: red; +} + +ul li:hover { + background-color: blue; +} + +ul li a { + color: white; +} + + + +/* Function +==============================*/ + + +/* Less cung cấp các function có thể được dùng để hoàn thành + các công việc khác nhau. */ + +/* Function được gọi sử dụng tên của nó và truyền vào + các tham số được yêu cầu. */ + +body { + width: round(10.25px); +} + +.header { + background-color: lighten(#000, 0.5); +} + +.footer { + background-color: fadeout(#000, 0.25) +} + +/* Biên dịch thành: */ + +body { + width: 10px; +} + +.header { + background-color: #010101; +} + +.footer { + background-color: rgba(0, 0, 0, 0.75); +} + +/* Ta có thể định nghĩa function mới. + Function khá tương tự với mixin bởi chúng đều có thể được tái + sử dụng. Khi lựa chọn giữa việc sử dụng function hay mixin, + hãy nhớ mixin được tối ưu cho việc tạo ra CSS trong khi + function sẽ được sử dụng tốt hơn cho logic sẽ được sử dụng + xuyên suốt Less code. Các ví dụ trong phần 'Toán tử' là ứng cử viên + sáng giá cho việc dùng function có thể tái sử dụng được. +*/ + +/* Function này tính giá trị trung bình của hai số: */ +.average(@x, @y) { + @average-result: ((@x + @y) / 2); +} + +div { + .average(16px, 50px); // gọi mixin + padding: @average-result; // sử dụng giá trị trả về của mixin +} + +/* Biên dịch thành: */ + +div { + padding: 33px; +} + + + +/* Mở rộng (Thừa kế) +==============================*/ + + +/* Mở rộng là cách để chia sẻ thuộc tính của một selector cho selector khác */ + +.display { + height: 50px; +} + +.display-success { + &:extend(.display); + border-color: #22df56; +} + +/* Biên dịch thành: */ +.display, +.display-success { + height: 50px; +} +.display-success { + border-color: #22df56; +} + +/* Nên mở rộng một khai báo CSS có trước thay vì tạo một mixin mới + bởi cách nó nhóm các lớp có chung một style gốc. + Nếu thực hiện với mixin, các thuộc tính sẽ bị trùng lặp + cho mỗi khai báo có sử dụng mixin. Mặc dù không ảnh hưởng đến luồng công việc nhưng nó + tạo ra các đoạn code CSS thừa sau khi được biên dịch. +*/ + + +/* Partials and Imports - Chia nhỏ và nhập vào +==============================*/ + + +/* Less cho phép ta tạo các partial file (tệp con). + Sử dụng nó giúp ta có thể tổ chức code Less theo mô-đun có hệ thống. + Các tệp con thường bắt đầu với ký tự gạch dưới '_', vd: _reset.less + và được nhập vào file Less chính để được biên dịch thành CSS */ + +/* Quan sát ví dụ sau, ta sẽ đặt đoạn code dưới đây vào tệp tên là _reset.less */ + +html, +body, +ul, +ol { + margin: 0; + padding: 0; +} + +/* Less cung cấp cú pháp @import cho phép nhập các partial vào một file. + Cú pháp này trong Less sẽ nhập các file và kết hợp chúng lại với + code CSS được sinh ra. Nó khác với cú pháp @import của CSS, + bản chất là tạo một HTTP request mới để tải về tệp tin được yêu cầu. */ + +@import 'reset'; + +body { + font-size: 16px; + font-family: Helvetica, Arial, Sans-serif; +} + +/* Biên dịch thành: */ + +html, body, ul, ol { + margin: 0; + padding: 0; +} + +body { + font-size: 16px; + font-family: Helvetica, Arial, Sans-serif; +} + + + +/* Toán học +==============================*/ + + +/* Less cung cấp các toán tử sau: +, -, *, / và %. + Điều này rất có ích cho việc tính toán giá trị trực tiếp + trong tệp Less thay vì phải tính toán thủ công. + Dưới đây là ví dụ về việc tạo một khung thiết kế đơn giản có hai cột. */ + +@content-area: 960px; +@main-content: 600px; +@sidebar-content: 300px; + +@main-size: @main-content / @content-area * 100%; +@sidebar-size: @sidebar-content / @content-area * 100%; +@gutter: 100% - (@main-size + @sidebar-size); + +body { + width: 100%; +} + +.main-content { + width: @main-size; +} + +.sidebar { + width: @sidebar-size; +} + +.gutter { + width: @gutter; +} + +/* Biên dịch thành: */ + +body { + width: 100%; +} + +.main-content { + width: 62.5%; +} + +.sidebar { + width: 31.25%; +} + +.gutter { + width: 6.25%; +} + + +``` + +## Tập sử dụng Less + +Nếu bạn cần xài thử Less trên trình duyệt, hãy ghé qua: +* [Codepen](http://codepen.io/) +* [LESS2CSS](http://lesscss.org/less-preview/) + +## Tính tương thích + +Less có thể được dùng trong bất kì dự án nào miễn là ta có chương trình để biên dịch nó thành CSS. Ta cần chắc chắn rằng đoạn CSS đang dùng tương thích với các phiên bản trình duyệt mong muốn. + +[QuirksMode CSS](http://www.quirksmode.org/css/) và [CanIUse](http://caniuse.com) là nguồn thông tin tin cậy để kiểm tra tính tương thích của mã CSS. + +## Tìm hiểu thêm +* [Tài liệu chính thức](http://lesscss.org/features/) +* [Less CSS - Hướng dẫn cho người mới bắt đầu](http://www.hongkiat.com/blog/less-basic/)
\ No newline at end of file diff --git a/vi-vn/markdown-vi.html.markdown b/vi-vn/markdown-vi.html.markdown new file mode 100644 index 00000000..89b59253 --- /dev/null +++ b/vi-vn/markdown-vi.html.markdown @@ -0,0 +1,325 @@ +--- +language: markdown +contributors: + - ["Dan Turkel", "http://danturkel.com/"] + - ["Jacob Ward", "http://github.com/JacobCWard/"] +translators: + - ["Thanh Duy Phan", "https://github.com/thanhpd"] +filename: markdown-vi.md +lang: vi-vn +--- + + +Ngôn ngữ Markdown được sáng lập bởi John Gruber vào năm 2004. Nó được tạo ra với mục đích dễ đọc với cú pháp có thể được dễ dàng chuyển đổi qua HTML và các ngôn ngữ khác + +Markdown có sự khác biệt trong cách cài đặt giữa các trình phân tích cú pháp. Hướng dẫn này sẽ đề cập, giải thích tới nếu tính năng có thể được sử dụng chung hay nó chỉ áp dụng cho một trình phân tích riêng biệt. + +- [Phần tử HTML](#html-elements) +- [Đầu mục](#headings) +- [Định dạng văn bản](#simple-text-styles) +- [Đoạn văn](#paragraphs) +- [Danh sách](#lists) +- [Khối code](#code-blocks) +- [Đường kẻ ngang](#horizontal-rule) +- [Liên kết](#links) +- [Ảnh](#images) +- [Khác](#miscellany) + +## Phần tử HTML +Markdown là tập cha của HTML, vì vậy bất cứ file HTML nào đều là Markdown đúng. + +```md +<!-- Điều này đồng nghĩa ta có thể sử dụng các phần tử HTML +trong Markdown, ví dụ như phần tử chú thích/comment. +Tuy nhiên, nếu sử dụng một phần tử HTML trong file Markdown, +ta không thể sử dụng cú pháp Markdown cho nội dung bên trong phần tử đó. --> +``` + +## Đầu mục + +Ta có thể tạo các phần tử đầu mục HTML từ `<h1>` cho đến `<h6>` dễ dàng +bằng cách thêm số lượng dấu thăng (#) đằng trước chuỗi cần tạo đầu mục. + +```md +# Đây là đầu mục <h1> +## Đây là đầu mục <h2> +### Đây là đầu mục <h3> +#### Đây là đầu mục <h4> +##### Đây là đầu mục <h5> +###### Đây là đầu mục <h6> +``` +Markdown còn cung cấp cách khác để tạo đầu mục hạng nhất h1 và hạng nhì h2. + +```md +Đây là đầu mục h1 +============= + +Đây là đầu mục h2 +------------- +``` + +## Định dạng văn bản + +Văn bản có thể được định dạng dễ dàng như in nghiêng hay làm đậm sử dụng Markdown. + +```md +*Đoạn văn bản này được in nghiêng.* +_Và đoạn này cũng như vậy._ + +**Đoạn văn bản này được in đậm.** +__Và đoạn này cũng vậy.__ + +***Đoạn văn bản này được in nghiêng và đậm.*** +**_Cách này cũng tương tự_** +*__Và cách này nữa__* +``` + +Trong cài đặt Markdown để hiển thị file của GitHub,ta còn có gạch ngang: + +```md +~~Đoạn văn bản này được gạch ngang.~~ +``` +## Đoạn văn + +Đoạn văn bao gồm một hay nhiều dòng văn bản liên tiếp nhau được phân cách +bởi một hay nhiều dòng trống. + +```md +Đây là đoạn văn thứ nhất. + +Đây là đoạn văn thứ hai. +Dòng này vẫn thuộc đoạn văn thứ hai, do không có cách dòng. + + +Đây là đoạn văn thứ ba. +``` + +Nếu cần chèn thêm thẻ ngắt dòng `<br />` của HTML, ta có thể kết thúc đoạn văn bản +bằng cách thêm vào từ 2 dấu cách (space) trở lên và bắt đầu đoạn văn bản mới. + +```md +Dòng này kết thúc với 2 dấu cách (highlight để nhìn thấy). + +Có phần tử <br /> ở bên trên. +``` + +Khối trích dẫn được sử dụng với kí tự > + +```md +> Đây là khối trích dẫn. Ta có thể +> ngắt dòng thủ công và thêm kí tự `>` trước mỗi dòng hoặc ta có thể để dòng tự ngắt nếu cần thiệt khi quá dài. +> Không có sự khác biệt nào, chỉ cần nó bắt đầu với kí tự `>` + +> Ta còn có thể dùng nhiều mức +>> của khối trích dẫn. +> Như vậy có tốt không? + +``` + +## Danh sách + +Danh sách không có thứ tự có thể được tạo sử dụng dấu sao, dấu cộng hay dấu trừ đầu dòng. + +```md +* Một mục +* Một mục +* Một mục nữa + +hoặc + ++ Một mục ++ Một mục ++ Một mục khác + +hay + +- Một mục +- Một mục +- Một mục sau +``` + +Danh sách có thứ tự được tạo bởi một số theo sau bằng một dấu chấm. + +```md +1. Mục thứ nhất +2. Mục thứ hai +3. Mục thứ ba +``` + +Ta không nhất thiết phải điền số thứ thự cho chỉ mục đúng mà Markdown sẽ tự hiển thị danh sách theo thứ tự đã được sắp xếp, tuy nhiên cách làm này không tốt! + +```md +1. Mục thứ nhất +1. Mục thứ hai +1. Mục thứ ba +``` +(Sẽ hiển thị như ví dụ trước đó) + +Ta còn có thể sử dụng danh sách con + +```md +1. Mục thứ nhất +2. Mục thứ hai +3. Mục thứ ba + * Mục nhỏ + * Mục nhỏ +4. Mục thứ tư +``` + +Markdown còn cung cấp danh mục (checklist). Nó sẽ hiển thị ra hộp đánh dấu dạng HTML. + +```md +Boxes below without the 'x' are unchecked HTML checkboxes. +- [ ] First task to complete. +- [ ] Second task that needs done +This checkbox below will be a checked HTML checkbox. +- [x] This task has been completed +``` + +## Khối code + +Ta có thể đánh dấu một đoạn code (tương tự sử dụng phần tử HTML `<code>`) bằng việc thụt đầu dòng sử dụng bốn dấu cách (space) hoặc một dấu nhảy (tab) + +```md + This is code + So is this +``` + +Ta còn có thể thêm dấu nhảy (hoặc thêm vào bốn dấu cách nữa) để căn chỉnh phần bên trong đoạn code + +```md + my_array.each do |item| + puts item + end +``` + +Code hiển thị cùng dòng có thể được đánh dấu sử dụng cặp ``. + +```md +John didn't even know what the `go_to()` function did! +``` + +Trong Markdown của GitHub, ta còn có thêm cách để hiển thị code: + +<pre> +<code class="highlight">```ruby +def foobar + puts "Hello world!" +end +```</code></pre> + +The above text doesn't require indenting, plus GitHub will use syntax +highlighting of the language you specify after the \`\`\` +Đoạn trên không cần sử dụng thụt đầu dòng, và GitHub sẽ tô sáng cú pháp sử dụng ngôn ngữ mà ta cung cấp sau đoạn kí tự \`\`\` + +## Kẻ ngang + +Dòng kẻ ngang (`<hr />`) có thể được thêm vào dễ dàng sử dụng từ 3 kí tự sao (*) hoặc gạch ngang (-), không quan trọng có khoảng cách giữa các kí tự hay không. + + +```md +*** +--- +- - - +**************** +``` + +## Liên kết + +Một trong những thứ tốt nhất khi làm việc với Markdown là khả năng tạo liên kết hết sức dễ dàng. Đoạn text hiển thị được đóng trong cặp ngoặc vuông [] kèm theo đường dẫn url trong cặp ngoặc tròn (). + +```md +[Click me!](http://test.com/) +``` +Ta còn có thể tạo tiêu đề cho liên kết sử dụng cặp ngoặc nháy bên trong cặp ngoặc tròn + +```md +[Click me!](http://test.com/ "Link to Test.com") +``` +Đường dẫn tương đối cũng hoạt động. + +```md +[Go to music](/music/). +``` + +Markdown còn hỗ trợ liên kết kiểu tham chiếu. + +<pre><code class="highlight">[<span class="nv">Nhấn vào đây</span>][<span class="ss">link1</span>] để xem thêm! +[<span class="nv">Ngoài ra nhấn vào đây</span>][<span class="ss">foobar</span>] nếu bạn muốn xem qua. + +[<span class="nv">link1</span>]: <span class="sx">http://test.com/</span> <span class="nn">"Tuyệt!"</span> +[<span class="nv">foobar</span>]: <span class="sx">http://foobar.biz/</span> <span class="nn">"Tốt!"</span></code></pre> + +Tiêu đề có thể được đóng trong dấu nháy hay ngoặc đơn, hoặc có thể được bỏ qua. Tham chiếu có thể được đặt bất kì đâu trong văn bản và ID của tham chiếu có thể là bất kì gì miễn là nó độc nhất. + +Ngoài ra còn có kiểu đặt tên ngầm cho phép ta sử dụng đường dẫn làm ID. + +<pre><code class="highlight">[<span class="nv">This</span>][] is a link. + +[<span class="nv">this</span>]: <span class="sx">http://thisisalink.com/</span></code></pre> + +Nhưng nó không được sử dụng rộng rãi. + +## Ảnh + +Hiển thị ảnh tương tự như liên kết nhưng có thêm dấu chấm than đằng trước + +```md + +``` + +Và kiểu tham chiếu cũng hoạt động như vậy. + +<pre><code class="highlight">![<span class="nv">Đây là thuộc tính alt.</span>][<span class="ss">myimage</span>] + +[<span class="nv">myimage</span>]: <span class="sx">relative/urls/cool/image.jpg</span> <span class="nn">"Đây là tiêu đề"</span></code></pre> + +## Khác + +### Tự động đặt liên kết + +```md +<http://testwebsite.com/> tương đương với +[http://testwebsite.com/](http://testwebsite.com/) +``` + +### Tự động đặt liên kết cho email + +```md +<foo@bar.com> +``` + +### Hiển thị Kí tự đặc biệt + +```md +Khi ta muốn viết *đoạn văn bản này có dấu sao bao quanh* nhưng ta không muốn nó bị in nghiêng, ta có thể sử dụng: \*đoạn văn bản này có dấu sao bao quanh\*. +``` + +### Phím bàn phím + +Trong Markdown của Github, ta có thể sử dụng thẻ `<kbd>` để thay cho phím trên bàn phím. + +```md +Máy treo? Thử bấm tổ hợp +<kbd>Ctrl</kbd>+<kbd>Alt</kbd>+<kbd>Del</kbd> +``` +### Bảng biểu + +Bảng biểu được hỗ trợ trên Markdown của GitHub, Jira, Trello, v.v và khá khó viết: + +```md +| Cột 1 | Cột2 | Cột 3 | +| :----------- | :------: | ------------: | +| Căn trái | Căn giữa | Căn phải | +| blah | blah | blah | +``` +Hoặc có thể sử dụng kết quả dưới đây + +```md +Cột 1 | Cột 2 | Cột 3 +:-- | :-: | --: +blah | blah | blah +``` + +--- +Để biết thêm thông tin, hãy ghé qua hướng dẫn chính thức về cú pháp của John Gruber [tại đây](http://daringfireball.net/projects/markdown/syntax) và cheatsheet của Adam Pritchard [tại đây](https://github.com/adam-p/markdown-here/wiki/Markdown-Cheatsheet). diff --git a/vi-vn/sass-vi.html.markdown b/vi-vn/sass-vi.html.markdown new file mode 100644 index 00000000..313890d4 --- /dev/null +++ b/vi-vn/sass-vi.html.markdown @@ -0,0 +1,590 @@ +--- +language: sass +filename: learnsass-vi.scss +contributors: + - ["Laura Kyle", "https://github.com/LauraNK"] + - ["Sean Corrales", "https://github.com/droidenator"] + - ["Kyle Mendes", "https://github.com/pink401k"] + - ["Keith Miyake", "https://github.com/kaymmm"] +translators: + - ["Thanh Duy Phan", "https://github.com/thanhpd"] +lang: vi-vn +--- + +Less là một ngôn ngữ mở rộng CSS/ CSS pre-processor, thêm các tính năng như biến (variable), lồng (nesting), mixin và nhiều thứ khác. Sass cùng với các CSS pre-processor khác như [Less](http://lesscss.org/) giúp lập trình viên viết được các đoạn CSS bảo trì được và không bị lặp lại (DRY - Don't Repeat Yourself). + +Sass có hai lựa chọn sử dụng cú pháp khác nhau. Một là SCSS, sử dụng cú pháp giống như CSS nhưng bổ sung thêm các tính năng của Sass. Hai là Sass (cú pháp nguyên bản), sử dụng thụt đầu dòng - indention thay vì ngoặc nhọn và dấu chấm phẩy. +Bài hướng dẫn này sử dụng SCSS. + +Nếu bạn đọc đã quen thuộc với CSS3 thì sẽ tương đối nhanh chóng để nắm được Sass. Nó không cung cấp thuộc tính để style CSS mới nhưng đưa ra những công cụ để có thể viết CSS hiệu quả hơn và có thể bảo trì dễ dàng hơn. + +```sass + + +// Comment (chú thích) một dòng sẽ bị xóa khi Less được biên dịch thành CSS + +/* Comment trên nhiều dòng sẽ được giữ lại */ + + + +/* Variable - Biến +============================== */ + + + +/* Ta có thể lưu giá trị CSS (ví dụ như color) vào một biến. + Sử dụng ký hiệu '$' để khai báo một biến. */ + +$primary-color: #A3A4FF; +$secondary-color: #51527F; +$body-font: 'Roboto', sans-serif; + +/* Sau khi khai báo biến, ta có thể sử dụng nó ở trong tệp stylesheet. + Nhờ sử dụng biến ta chỉ cần thay đổi một lần + tại 1 nơi để thay đổi tất cả những đoạn sử dụng biến */ + +body { + background-color: $primary-color; + color: $secondary-color; + font-family: $body-font; +} + +/* Đoạn code trên sẽ được biên dịch thành: */ +body { + background-color: #A3A4FF; + color: #51527F; + font-family: 'Roboto', sans-serif; +} + +/* Cách sử dụng này giúp ta dễ dàng bảo trì hơn + việc phải đổi giá trị mỗi lần nó xuất hiện + trong tệp stylesheet. */ + + + +/* Control Directive - Chỉ thị +============================== */ + + +/* Sass cho phép sử dụng @if, @else, @for, @while và @each để quản lý luồng code sinh ra CSS */ + +/* Khối điều kiện @if/@else hoạt động như các ngôn ngữ khác */ + +$debug: true !default; + +@mixin debugmode { + @if $debug { + @debug "Debug mode enabled"; + + display: inline-block; + } + @else { + display: none; + } +} + +.info { + @include debugmode; +} + +/* Trong đoạn code trên, nếu $debug được đặt là true thì class .info sẽ được sinh ra và ngược lại. + Lưu ý: @debug sẽ sinh ra thông tin debug trên dòng lệnh (command line). + Chế độ này rất có ích khi thực hiện debug trên file SCSS. */ + +.info { + display: inline-block; +} + +/* @for là khối vòng lặp trên một khoảng các giá trị. + Nó rất có ích cho việc đặt style của một tập hợp các phần tử. + Có hai cách để lặp, "through" sẽ lặp tới kể cả giá trị cuối cùng, "to" sẽ lặp tới và dừng khi đến giá trị cuối cùng. */ + +// Lặp 3 lần (không kể 4) +@for $c from 1 to 4 { + div:nth-of-type(#{$c}) { + left: ($c - 1) * 900 / 3; + } +} + +// Lặp 3 lần (kể cả 3) +@for $c from 1 through 3 { + .myclass-#{$c} { + color: rgb($c * 255 / 3, $c * 255 / 3, $c * 255 / 3); + } +} + +/* Biên dịch thành */ + +div:nth-of-type(1) { + left: 0; +} + +div:nth-of-type(2) { + left: 300; +} + +div:nth-of-type(3) { + left: 600; +} + +.myclass-1 { + color: #555555; +} + +.myclass-2 { + color: #aaaaaa; +} + +.myclass-3 { + color: white; +// SASS tự động chuyển mã #FFFFFF thành white (trắng) +} + +/* Khối lặp @while rất cơ bản: */ + +$columns: 4; +$column-width: 80px; + +@while $columns > 0 { + .col-#{$columns} { + width: $column-width; + left: $column-width * ($columns - 1); + } + + $columns: $columns - 1; +} + +/* Sẽ được biên dịch thành: */ + +.col-4 { + width: 80px; + left: 240px; +} + +.col-3 { + width: 80px; + left: 160px; +} + +.col-2 { + width: 80px; + left: 80px; +} + +.col-1 { + width: 80px; + left: 0px; +} + +/* @each hoạt động giống như @for, nhưng sử dụng một danh sách (list) thay vì thứ tự số đếm. + List được khai báo như những biến khác, sử dụng dấu cách để làm dấu phân cách. */ + +$social-links: facebook twitter linkedin reddit; + +.social-links { + @each $sm in $social-links { + .icon-#{$sm} { + background-image: url("images/#{$sm}.png"); + } + } +} + +/* Sẽ sinh ra: */ + +.social-links .icon-facebook { + background-image: url("images/facebook.png"); +} + +.social-links .icon-twitter { + background-image: url("images/twitter.png"); +} + +.social-links .icon-linkedin { + background-image: url("images/linkedin.png"); +} + +.social-links .icon-reddit { + background-image: url("images/reddit.png"); +} + + +/* Mixin +==============================*/ + +/* Nếu đang viết một đoạn code cho nhiều hơn một + element, ta có thể sử dụng lại nó dễ dàng. + Sử dụng cú pháp '@mixin' kèm theo tên để tạo một mixin. */ + +@mixin center { + display: block; + margin-left: auto; + margin-right: auto; + left: 0; + right: 0; +} + +/* Ta có thể dùng mixin bằng cú pháp '@include' kèm theo tên của mixin. */ + +div { + @include center; + background-color: $primary-color; +} + +/* Được biên dịch thành: */ +div { + display: block; + margin-left: auto; + margin-right: auto; + left: 0; + right: 0; + background-color: #A3A4FF; +} + +/* Ta có thể dùng mixin để tạo nhanh các thuộc tính. */ + +@mixin size($width, $height) { + width: $width; + height: $height; +} + +/* Trong ví dụ này ta có thể tạo nhanh 2 thuộc tính width và height + bằng cách sử dụng mixin size và truyền vào tham số cho width và height. */ + +.rectangle { + @include size(100px, 60px); +} + +.square { + @include size(40px, 40px); +} + +/* Biên dịch thành: */ +.rectangle { + width: 100px; + height: 60px; +} + +.square { + width: 40px; + height: 40px; +} + + + +/* Function - Hàm +============================== */ + + + +/* Less cung cấp các hàm có thể được dùng để hoàn thành + các công việc khác nhau. */ + +/* Hàm được gọi sử dụng tên của nó và truyền vào + các tham số được yêu cầu. */ +body { + width: round(10.25px); +} + +.footer { + background-color: fade_out(#000000, 0.25); +} + +/* Biên dịch thành: */ + +body { + width: 10px; +} + +.footer { + background-color: rgba(0, 0, 0, 0.75); +} + +/* Ta có thể định nghĩa hàm mới. + hàm khá tương tự với mixin bởi chúng đều có thể được tái + sử dụng. Khi lựa chọn giữa việc sử dụng hàm hay mixin, + hãy nhớ mixin được tối ưu cho việc tạo ra CSS trong khi + hàm sẽ được sử dụng tốt hơn cho logic sẽ được sử dụng + xuyên suốt Less code. Các ví dụ trong phần 'Toán tử toán học' là ứng cử viên + sáng giá cho việc dùng hàm có thể tái sử dụng được. +*/ + +/* Hàm này sẽ tính độ tương đối giữa hai giá trị kích thước. */ + +@function calculate-percentage($target-size, $parent-size) { + @return $target-size / $parent-size * 100%; +} + +$main-content: calculate-percentage(600px, 960px); + +.main-content { + width: $main-content; +} + +.sidebar { + width: calculate-percentage(300px, 960px); +} + +/* Biên dịch thành: */ + +.main-content { + width: 62.5%; +} + +.sidebar { + width: 31.25%; +} + + + +/* Mở rộng (Thừa kế) +============================== */ + + + +/* Mở rộng là cách để chia sẻ thuộc tính của một selector cho selector khác */ + +.display { + @include size(5em, 5em); + border: 5px solid $secondary-color; +} + +.display-success { + @extend .display; + border-color: #22df56; +} + +/* Biên dịch thành: */ +.display, .display-success { + width: 5em; + height: 5em; + border: 5px solid #51527F; +} + +.display-success { + border-color: #22df56; +} + +/* Nên mở rộng một khai báo CSS có trước thay vì tạo một mixin mới + bởi cách nó nhóm các lớp có chung một style gốc. + Nếu thực hiện với mixin, các thuộc tính sẽ bị trùng lặp + cho mỗi khai báo có sử dụng mixin. Mặc dù không ảnh hưởng đến luồng công việc nhưng nó + tạo ra các đoạn code CSS thừa sau khi được biên dịch. +*/ + + + +/* Nesting - Lồng +============================== */ + + + +/* Sass cho phép ta có thể lồng selector bên trong selector */ + +ul { + list-style-type: none; + margin-top: 2em; + + li { + background-color: #FF0000; + } +} + +/* Selector bắt đầu bằng ký tự '&' sẽ thay thế ký tự '&' + với selector cha. */ +/* Ta cũng có thể lồng các pseudo-class với nhau */ +/* Nên lưu ý không nên lồng quá nhiều lần sẽ làm code kém tính bảo trì. + Kinh nghiệm cho thấy không nên lồng quá 3 lần. + Ví dụ: */ + +ul { + list-style-type: none; + margin-top: 2em; + + li { + background-color: red; + + &:hover { + background-color: blue; + } + + a { + color: white; + } + } +} + +/* Biên dịch thành: */ + +ul { + list-style-type: none; + margin-top: 2em; +} + +ul li { + background-color: red; +} + +ul li:hover { + background-color: blue; +} + +ul li a { + color: white; +} + + + +/* Partials and Imports - Chia nhỏ thành tệp con và nhập vào +============================== */ + + +/* Less cho phép ta tạo các partial file (tệp con). + Sử dụng nó giúp ta có thể tổ chức code Less theo mô-đun có hệ thống. + Các tệp con thường bắt đầu với ký tự gạch dưới '_', vd: _reset.less + và được nhập vào file Less chính để được biên dịch thành CSS. + File con không được biên dịch thành file CSS riêng. */ + +/* Quan sát ví dụ sau, ta sẽ đặt đoạn code dưới đây vào tệp tên là _reset.less */ + +html, +body, +ul, +ol { + margin: 0; + padding: 0; +} + +/* Sass cung cấp cú pháp @import cho phép nhập các partial vào một file. + Cú pháp này trong Sass sẽ nhập các file và kết hợp chúng lại với + code CSS được sinh ra. Nó khác với cú pháp @import của CSS, + bản chất là tạo một HTTP request mới để tải về tệp tin được yêu cầu. */ + +@import 'reset'; + +body { + font-size: 16px; + font-family: Helvetica, Arial, Sans-serif; +} + +/* Biên dịch thành: */ + +html, body, ul, ol { + margin: 0; + padding: 0; +} + +body { + font-size: 16px; + font-family: Helvetica, Arial, Sans-serif; +} + + + +/* Placeholder Selectors - Selector trống +============================== */ + + + +/* Khai báo trống rất hữu dụng khi ta cần tạo một khai báo CSS cần được mở rộng. + Nếu bạn cần tạo một khai báo CSS gốc cho các lần mở rộng sau ta có thể + sử dụng một khai báo trống. Khai báo trống bắt đầu với kí tự '$' thay vì + sử dụng '.' hay '#'. Khai báo trống sẽ không xuất hiện trong code CSS được biên dịch. */ + +%content-window { + font-size: 14px; + padding: 10px; + color: #000; + border-radius: 4px; +} + +.message-window { + @extend %content-window; + background-color: #0000ff; +} + +/* Biên dịch thành: */ + +.message-window { + font-size: 14px; + padding: 10px; + color: #000; + border-radius: 4px; +} + +.message-window { + background-color: #0000ff; +} + + + +/* Toán tử toán học +============================== */ + + + +/* Sass cung cấp các toán tử sau: +, -, *, / và %. + Điều này rất có ích cho việc tính toán giá trị trực tiếp + trong tệp Sass thay vì phải tính toán thủ công. + Dưới đây là ví dụ về việc tạo một khung thiết kế đơn giản có hai cột. */ + +$content-area: 960px; +$main-content: 600px; +$sidebar-content: 300px; + +$main-size: $main-content / $content-area * 100%; +$sidebar-size: $sidebar-content / $content-area * 100%; +$gutter: 100% - ($main-size + $sidebar-size); + +body { + width: 100%; +} + +.main-content { + width: $main-size; +} + +.sidebar { + width: $sidebar-size; +} + +.gutter { + width: $gutter; +} + +/* Biên dịch thành: */ + +body { + width: 100%; +} + +.main-content { + width: 62.5%; +} + +.sidebar { + width: 31.25%; +} + +.gutter { + width: 6.25%; +} + +``` + +## SASS hay Sass? +Bạn đã bao giờ thắc mắc liệu Sass có phải là từ viết tắt hay không? Nhiều nguwòi lầm tưởng nó là từ viết tắt nhưng thực chất tên của ngôn ngữ này lại là một từ - Sass. +Do sự lầm tưởng như vậy và mọi người thường xuyên viết nó là "SASS", người sáng lập ra ngôn ngữ này đã đặt một cái tên hài hước cho nó là "Syntactically Awesome StyleSheets" (Thiết lập style có cú pháp một cách tuyệt vời đáng kinh ngạc). + + +## Tập sử dụng Sass +Nếu bạn muốn thử dùng Sass trên trình duyệt, hãy ghé qua [SassMeister](http://sassmeister.com/). Bạn có thể dùng cả hai cú pháp, hoặc mở cài đặt và chọn Sass hoặc SCSS. + +## Tính tương thích +Sass có thể được dùng trong bất kì dự án nào miễn là ta có chương trình để biên dịch nó thành CSS. Ta cần chắc chắn rằng đoạn CSS đang dùng tương thích với các phiên bản trình duyệt mong muốn. + +[QuirksMode CSS](http://www.quirksmode.org/css/) và [CanIUse](http://caniuse.com) là nguồn thông tin tin cậy để kiểm tra tính tương thích của mã CSS. + + +## Tìm hiểu thêm +* [Tài liệu chính thức](http://sass-lang.com/documentation/file.SASS_REFERENCE.html) +* [The Sass Way](http://thesassway.com/) cung cấp các hướng dẫn từ cơ bản đến nâng cao cùng với các tin tức. diff --git a/vi-vn/typescript-vi.html.markdown b/vi-vn/typescript-vi.html.markdown new file mode 100644 index 00000000..ba459c11 --- /dev/null +++ b/vi-vn/typescript-vi.html.markdown @@ -0,0 +1,193 @@ +--- +language: TypeScript +contributors: + - ["Philippe Vlérick", "https://github.com/pvlerick"] +translators: + - ["Thanh Duy Phan", "https://github.com/thanhpd"] +filename: learntypescript-vi.ts +lang: vi-vn +--- + +TypeScript là ngôn ngữ được viết nhằm tinh giản quá trình phát triển ứng dụng quy mô lớn được viết bằng JavaScript. +TypeScript bổ sung thêm các khái niệm phổ biến như Class, Module, Interface, Generic và Static typing (tùy chọn) vào JavaScript. +Ngôn ngữ này là tập lớn hơn của JavaScript: tất cả code JavaScript đều là code TypeScript đúng nên nó có thể được thêm vào các dự án một cách nhanh chóng. Trình biên dịch TypeScript sẽ sinh ra JavaScript. + +Bài viết này sẽ chỉ tập trung tới các cú pháp bổ sung mà TypeScript thêm vào thay vì nói đến cả các cú pháp [JavaScript](javascript-vi.html.markdown). + +Để thử dùng TypeScript với trình biên dịch, đi đến [Sân chơi TypeScript](http://www.typescriptlang.org/play) nơi mà bạn có thể nhập code, sử dụng chức năng hỗ trợ tự hoàn thành code - autocompletion và trực tiếp quan sát mã JavaScript được sinh ra. + +```ts +// Đây là 3 khai báo kiểu biến cơ bản trong TypeScript +// (JavaScript chỉ có kiểu của giá trị, không có kiểu của biến) +let isDone: boolean = false; +let lines: number = 42; +let name: string = "Anders"; + +// Bạn có thể bỏ khai báo kiểu của biến nếu như nó đã được suy ra từ kiểu giá trị cơ bản +let isDone = false; +let lines = 42; +let name = "Anders"; + +// Có kiểu biến "any" tương thích với mọi kiểu của biến, +// được dùng khi ta không chắc chắn về kiểu của biến khi được khai báo +let notSure: any = 4; +notSure = "có thể là một biến kiểu string"; +notSure = false; // cũng có thể là biến kiểu boolean + +// Dùng từ khóa const cho khái báo biến không thay đổi (constant variable) +const numLivesForCat = 9; +numLivesForCat = 1; // Có lỗi! + +// Khi khai báo tập hợp ta có thể dùng mảng có kiểu được khai báo trước - typed array +let list: number[] = [1, 2, 3]; +// Ta cũng có thể sử dụng mảng kiểu chung - generic array +let list: Array<number> = [1, 2, 3]; + +// Để dùng enumeration - danh sách của một tập hợp: +enum Color { Red, Green, Blue }; +let c: Color = Color.Green; + +// Nếu function không trả về kết quả, sử dụng "void" cho kết quả trả về +function bigHorribleAlert(): void { + alert("I'm a little annoying box!"); +} + +// Function trong TypeScript là first-class citizen (tạm dịch: phần tử hạng nhất), hỗ trợ thao tác tới các thực thể khác +// (vd: truyền vào như tham số, được trả về từ function, chỉnh sửa, gán vào một biến) +// TypeScript hỗ trợ sử dụng function với cú pháp lambda (mũi tên) và suy luận kiểu trả về + +// Các cú pháp dưới đây tương đương với nhau, +// trình biên dịch sẽ tự nhận biết và sinh ra mã JavaScript giống nhau +let f1 = function (i: number): number { return i * i; } +// Kiểu trả về nếu không khai báo được tự suy diễn +let f2 = function (i: number) { return i * i; } +// Cú pháp mũi tên (arrow syntax) +let f3 = (i: number): number => { return i * i; } +// Cú pháp mũi tên với kiểu trả về được suy diễn +let f4 = (i: number) => { return i * i; } +// Cú pháp mũi tên với kiểu trả về được suy diễn +// khi không sử dụng dấu ngoặc nhọn {} thì không cần sử dụng return +let f5 = (i: number) => i * i; + +// Interface mang tính cấu trúc, mọi thứ có các đặc điểm (property) đều tương thích +interface IPerson { + name: string; + // Đặc điểm có thể tùy chọn bằng sử dụng dấu "?" + age?: number; + // Có thể sử dụng function + move(): void; +} + +// Object sử dụng interface IPerson nói trên +// có thể được coi là 1 thực thể Person vì nó có đặc điểm name và chức năng move +let p: Person = { name: "Bobby", move: () => { } }; +// Object sử dụng property tùy chọn +let validPerson: Person = { name: "Bobby", age: 42, move: () => { } }; +// Khai báo dưới đây gây lỗi vì giá trị đặc điểm age không mang kiểu number +let invalidPerson: Person = { name: "Bobby", age: true }; + +// Interface cũng có thể mô tả đặc tả của function +interface SearchFunc { + (source: string, subString: string): boolean; +} +// Chỉ có kiểu của tham số là quan trọng còn tên không quan trọng +let mySearch: SearchFunc; +mySearch = function (src: string, sub: string) { + return src.search(sub) != -1; +} + +// Class - các khai báo mặc định là public +class Point { + // Property + x: number; + + // Constructor - sử dụng tham số với từ khóa public/private + // sẽ tạo ra property tương ứng (ví dụ với property y) + // Có thể khai báo giá trị mặc định + + constructor(x: number, public y: number = 0) { + this.x = x; + } + + // Function + dist() { return Math.sqrt(this.x * this.x + this.y * this.y); } + + // Biến Static + static origin = new Point(0, 0); +} + +let p1 = new Point(10, 20); +let p2 = new Point(25); // y sử dụng giá trị mặc định là 0 + +// Thừa kế - Inheritance +class Point3D extends Point { + constructor(x: number, y: number, public z: number = 0) { + super(x, y); // Bắt buộc phải gọi constructor của class cha + } + + // Overwrite/Polymorphism - Ghi đè/Đa hình + dist() { + let d = super.dist(); + return Math.sqrt(d * d + this.z * this.z); + } +} + +// module, "." có thể được dùng như những module con +module Geometry { + export class Square { + constructor(public sideLength: number = 0) { + } + area() { + return Math.pow(this.sideLength, 2); + } + } +} + +let s1 = new Geometry.Square(5); + +// Bí danh (alias) có thể được sử dụng để tham vấn module khác +import G = Geometry; + +let s2 = new G.Square(10); + +// Generic +// Class +class Tuple<T1, T2> { + constructor(public item1: T1, public item2: T2) { + } +} + +// Interface +interface Pair<T> { + item1: T; + item2: T; +} + +// Function +let pairToTuple = function <T>(p: Pair<T>) { + return new Tuple(p.item1, p.item2); +}; + +let tuple = pairToTuple({ item1: "hello", item2: "world" }); + +// Các thư viện viết bằng JavaScript thường đi kèm file định nghĩa kiểu để có thể sử dụng cho TypeScript +// Thêm vào tham vấn tới file định nghĩa: +/// <reference path="jquery.d.ts" /> + +// Template Strings - Chuỗi dạng mẫu (string sử dụng dấu `) +// String Interpolation - Nội suy chuỗi with với template string +let name = 'Tyrone'; +let greeting = `Chào ${name}, bạn khỏe không?` +// Chuỗi nhiều dòng với template string +let multiline = `Đây là ví dụ +cho chuỗi nhiều dòng`; + +``` + +## Tìm hiểu thêm + +* [Website TypeScript chính thức](http://www.typescriptlang.org/) +* [Đặc tả ngôn ngữ TypeScript] (https://github.com/Microsoft/TypeScript/blob/master/doc/spec.md) +* [Anders Hejlsberg - Introducing TypeScript on Channel 9] (http://channel9.msdn.com/posts/Anders-Hejlsberg-Introducing-TypeScript) +* [Mã nguồn trên GitHub] (https://github.com/Microsoft/TypeScript) +* [Definitely Typed - repository for type definitions] (http://definitelytyped.org/) diff --git a/vim.html.markdown b/vim.html.markdown index 7723136f..d5c4e865 100644 --- a/vim.html.markdown +++ b/vim.html.markdown @@ -8,18 +8,20 @@ filename: LearnVim.txt [Vim](http://www.vim.org) -(Vi IMproved) is a clone of the popular vi editor for Unix. It is a text -editor designed for speed and increased productivity, and is ubiquitous in most -unix-based systems. It has numerous keybindings for speedy navigation to +(Vi IMproved) is a clone of the popular vi editor for Unix. It is a text +editor designed for speed and increased productivity, and is ubiquitous in most +unix-based systems. It has numerous keybindings for speedy navigation to specific points in the file, and for fast editing. ## Basics of navigating Vim ``` vim <filename> # Open <filename> in vim + :help <topic> # Open up built-in help docs about <topic> if any exists :q # Quit vim :w # Save current file :wq # Save file and quit vim + ZZ # Save file and quit vim :q! # Quit vim without saving file # ! *forces* :q to execute, hence quiting vim without saving :x # Save file and quit vim, shorter version of :wq @@ -47,16 +49,17 @@ specific points in the file, and for fast editing. :%s/foo/bar/g # Change 'foo' to 'bar' on every line in the file :s/foo/bar/g # Change 'foo' to 'bar' on the current line + :%s/\n/\r/g # Replace new line characters with new line characters # Jumping to characters f<character> # Jump forward and land on <character> - t<character> # Jump forward and land right before <character> + t<character> # Jump forward and land right before <character> - # For example, + # For example, f< # Jump forward and land on < t< # Jump forward and land right before < - + # Moving by word w # Move forward by one word @@ -73,19 +76,28 @@ specific points in the file, and for fast editing. L # Move to the bottom of the screen ``` +## Help docs: + +Vim has built in help documentation that can accessed with `:help <topic>`. +For example `:help navigation` will pull up documentation about how to navigate +your workspace! + +`:help` can also be used without an option. This will bring up a default help dialog +that aims to make getting started with vim more approachable! + ## Modes: Vim is based on the concept on **modes**. -Command Mode - vim starts up in this mode, used to navigate and write commands -Insert Mode - used to make changes in your file -Visual Mode - used to highlight text and do operations to them +Command Mode - vim starts up in this mode, used to navigate and write commands +Insert Mode - used to make changes in your file +Visual Mode - used to highlight text and do operations to them Ex Mode - used to drop down to the bottom with the ':' prompt to enter commands ``` i # Puts vim into insert mode, before the cursor position a # Puts vim into insert mode, after the cursor position - v # Puts vim into visual mode + v # Puts vim into visual mode : # Puts vim into ex mode <esc> # 'Escapes' from whichever mode you're in, into Command mode @@ -102,18 +114,18 @@ Ex Mode - used to drop down to the bottom with the ':' prompt to enter comm ## The 'Grammar' of vim -Vim can be thought of as a set of commands in a +Vim can be thought of as a set of commands in a 'Verb-Modifier-Noun' format, where: -Verb - your action -Modifier - how you're doing your action +Verb - your action +Modifier - how you're doing your action Noun - the object on which your action acts on A few important examples of 'Verbs', 'Modifiers', and 'Nouns': ``` # 'Verbs' - + d # Delete c # Change y # Yank (copy) @@ -135,7 +147,7 @@ A few important examples of 'Verbs', 'Modifiers', and 'Nouns': s # Sentence p # Paragraph b # Block - + # Sample 'sentences' or commands d2w # Delete 2 words @@ -157,6 +169,20 @@ A few important examples of 'Verbs', 'Modifiers', and 'Nouns': ddp # Swap position of consecutive lines, dd then p . # Repeat previous action :w !sudo tee % # Save the current file as root + :set syntax=c # Set syntax highlighting to 'c' + :sort # Sort all lines + :sort! # Sort all lines in reverse + :sort u # Sort all lines and remove duplicates + ~ # Toggle letter case of selected text + u # Selected text to lower case + U # Selected text to upper case + + # Fold text + zf # Create fold from selected text + zo # Open current fold + zc # Close current fold + zR # Open all folds + zM # Close all folds ``` ## Macros @@ -180,7 +206,7 @@ Here's a sample ~/.vimrc file: ``` " Example ~/.vimrc -" 2015.10 +" 2015.10 " Required for vim to be iMproved set nocompatible diff --git a/visualbasic.html.markdown b/visualbasic.html.markdown index cbeb36b5..63f224b7 100644 --- a/visualbasic.html.markdown +++ b/visualbasic.html.markdown @@ -5,7 +5,7 @@ contributors: filename: learnvisualbasic.vb --- -```vb +``` Module Module1 Sub Main() diff --git a/whip.html.markdown b/whip.html.markdown index e7e5e427..c692714a 100644 --- a/whip.html.markdown +++ b/whip.html.markdown @@ -3,6 +3,7 @@ language: whip contributors: - ["Tenor Biel", "http://github.com/L8D"] - ["Saurabh Sandav", "http://github.com/SaurabhSandav"] + - ["Paulo Henrique Rodrigues Pinheiro", "https://github.com/paulohrpinheiro"] author: Tenor Biel author_url: http://github.com/L8D filename: whip.lisp @@ -232,6 +233,7 @@ undefined ; user to indicate a value that hasn't been set (words "foobar nachos cheese") ; => ("foobar" "nachos" "cheese") ; Join list of strings together. (unwords ("foo" "bar")) ; => "foobar" +; Successor and Predecessor (pred 21) ; => 20 (succ 20) ; => 21 ``` diff --git a/yaml.html.markdown b/yaml.html.markdown index 3b32a069..52658453 100644 --- a/yaml.html.markdown +++ b/yaml.html.markdown @@ -2,8 +2,8 @@ language: yaml filename: learnyaml.yaml contributors: - - ["Adam Brenecki", "https://github.com/adambrenecki"] - - ["Suhas SG", "https://github.com/jargnar"] +- [Adam Brenecki, 'https://github.com/adambrenecki'] +- [Suhas SG, 'https://github.com/jargnar'] --- YAML is a data serialisation language designed to be directly writable and @@ -11,7 +11,7 @@ readable by humans. It's a strict superset of JSON, with the addition of syntactically significant newlines and indentation, like Python. Unlike Python, however, -YAML doesn't allow literal tab characters at all. +YAML doesn't allow literal tab characters for indentation. ```yaml # Comments in YAML look like this. @@ -32,8 +32,10 @@ boolean: true null_value: null key with spaces: value # Notice that strings don't need to be quoted. However, they can be. -however: "A string, enclosed in quotes." -"Keys can be quoted too.": "Useful if you want to put a ':' in your key." +however: 'A string, enclosed in quotes.' +'Keys can be quoted too.': "Useful if you want to put a ':' in your key." +single quotes: 'have ''one'' escape pattern' +double quotes: "have many: \", \0, \t, \u263A, \x0d\x0a == \r\n, and more." # Multiple-line strings can be written either as a 'literal block' (using |), # or a 'folded block' (using '>'). @@ -59,12 +61,12 @@ folded_style: > # COLLECTION TYPES # #################### -# Nesting is achieved by indentation. +# Nesting uses indentation. 2 space indent is preferred (but not required). a_nested_map: - key: value - another_key: Another Value - another_nested_map: - hello: hello + key: value + another_key: Another Value + another_nested_map: + hello: hello # Maps don't have to have string keys. 0.25: a float key @@ -72,8 +74,8 @@ a_nested_map: # Keys can also be complex, like multi-line objects # We use ? followed by a space to indicate the start of a complex key. ? | - This is a key - that has multiple lines + This is a key + that has multiple lines : and this is its value # YAML also allows mapping between sequences with the complex key syntax @@ -83,22 +85,26 @@ a_nested_map: - Real Madrid : [ 2001-01-01, 2002-02-02 ] -# Sequences (equivalent to lists or arrays) look like this: +# Sequences (equivalent to lists or arrays) look like this +# (note that the '-' counts as indentation): a_sequence: - - Item 1 - - Item 2 - - 0.5 # sequences can contain disparate types. - - Item 4 - - key: value - another_key: another_value - - - - This is a sequence - - inside another sequence +- Item 1 +- Item 2 +- 0.5 # sequences can contain disparate types. +- Item 4 +- key: value + another_key: another_value +- + - This is a sequence + - inside another sequence +- - - Nested sequence indicators + - can be collapsed # Since YAML is a superset of JSON, you can also write JSON-style maps and # sequences: json_map: {"key": "value"} json_seq: [3, 2, 1, "takeoff"] +and quotes are optional: {key: [3, 2, 1, takeoff]} ####################### # EXTRA YAML FEATURES # @@ -111,15 +117,15 @@ other_anchor: *anchor_name # Anchors can be used to duplicate/inherit properties base: &base - name: Everyone has same name + name: Everyone has same name foo: &foo - <<: *base - age: 10 + <<: *base + age: 10 bar: &bar - <<: *base - age: 20 + <<: *base + age: 20 # foo and bar would also have name: Everyone has same name @@ -147,22 +153,23 @@ date: 2002-12-14 # The !!binary tag indicates that a string is actually a base64-encoded # representation of a binary blob. gif_file: !!binary | - R0lGODlhDAAMAIQAAP//9/X17unp5WZmZgAAAOfn515eXvPz7Y6OjuDg4J+fn5 - OTk6enp56enmlpaWNjY6Ojo4SEhP/++f/++f/++f/++f/++f/++f/++f/++f/+ - +f/++f/++f/++f/++f/++SH+Dk1hZGUgd2l0aCBHSU1QACwAAAAADAAMAAAFLC - AgjoEwnuNAFOhpEMTRiggcz4BNJHrv/zCFcLiwMWYNG84BwwEeECcgggoBADs= + R0lGODlhDAAMAIQAAP//9/X17unp5WZmZgAAAOfn515eXvPz7Y6OjuDg4J+fn5 + OTk6enp56enmlpaWNjY6Ojo4SEhP/++f/++f/++f/++f/++f/++f/++f/++f/+ + +f/++f/++f/++f/++f/++SH+Dk1hZGUgd2l0aCBHSU1QACwAAAAADAAMAAAFLC + AgjoEwnuNAFOhpEMTRiggcz4BNJHrv/zCFcLiwMWYNG84BwwEeECcgggoBADs= # YAML also has a set type, which looks like this: set: - ? item1 - ? item2 - ? item3 + ? item1 + ? item2 + ? item3 +or: {item1, item2, item3} # Like Python, sets are just maps with null values; the above is equivalent to: set2: - item1: null - item2: null - item3: null + item1: null + item2: null + item3: null ``` ### More Resources diff --git a/zh-cn/c-cn.html.markdown b/zh-cn/c-cn.html.markdown index 1e10416e..02ec7f7b 100644 --- a/zh-cn/c-cn.html.markdown +++ b/zh-cn/c-cn.html.markdown @@ -41,7 +41,7 @@ enum days {SUN = 1, MON, TUE, WED, THU, FRI, SAT}; void function_1(char c); void function_2(void); -// 如果函数出现在main()之后,那么必须在main()之前 +// 如果函数调用在main()之后,那么必须在main()之前 // 先声明一个函数原型 int add_two_ints(int x1, int x2); // 函数原型 diff --git a/zh-cn/crystal-cn.html.markdown b/zh-cn/crystal-cn.html.markdown new file mode 100644 index 00000000..14805114 --- /dev/null +++ b/zh-cn/crystal-cn.html.markdown @@ -0,0 +1,567 @@ +--- +language: crystal +filename: learncrystal-cn.cr +contributors: + - ["Vitalii Elenhaupt", "http://veelenga.com"] + - ["Arnaud Fernandés", "https://github.com/TechMagister/"] +translators: + - ["Xuty", "https://github.com/xtyxtyx"] +lang: zh-cn +--- + +```crystal + +# 这是一行注释 + +# 一切都是对象(object) +nil.class #=> Nil +100.class #=> Int32 +true.class #=> Bool + +# nil, false 以及空指针是假值(falsey values) +!nil #=> true : Bool +!false #=> true : Bool +!0 #=> false : Bool + +# 整数类型 + +1.class #=> Int32 + +# 四种有符号整数 +1_i8.class #=> Int8 +1_i16.class #=> Int16 +1_i32.class #=> Int32 +1_i64.class #=> Int64 + +# 四种无符号整数 +1_u8.class #=> UInt8 +1_u16.class #=> UInt16 +1_u32.class #=> UInt32 +1_u64.class #=> UInt64 + +2147483648.class #=> Int64 +9223372036854775808.class #=> UInt64 + +# 二进制数 +0b1101 #=> 13 : Int32 + +# 八进制数 +0o123 #=> 83 : Int32 + +# 十六进制数 +0xFE012D #=> 16646445 : Int32 +0xfe012d #=> 16646445 : Int32 + +# 浮点数类型 + +1.0.class #=> Float64 + +# Crystal中有两种浮点数 +1.0_f32.class #=> Float32 +1_f32.class #=> Float32 + +1e10.class #=> Float64 +1.5e10.class #=> Float64 +1.5e-7.class #=> Float64 + +# 字符类型 + +'a'.class #=> Char + +# 八进制字符 +'\101' #=> 'A' : Char + +# Unicode字符 +'\u0041' #=> 'A' : Char + +# 字符串 + +"s".class #=> String + +# 字符串不可变(immutable) +s = "hello, " #=> "hello, " : String +s.object_id #=> 134667712 : UInt64 +s += "Crystal" #=> "hello, Crystal" : String +s.object_id #=> 142528472 : UInt64 + +# 支持字符串插值(interpolation) +"sum = #{1 + 2}" #=> "sum = 3" : String + +# 多行字符串 +"这是一个 + 多行字符串" + +# 书写带有引号的字符串 +%(hello "world") #=> "hello \"world\"" + +# 符号类型 +# 符号是不可变的常量,本质上是Int32类型 +# 符号通常被用来代替字符串,来高效地传递特定的值 + +:symbol.class #=> Symbol + +sentence = :question? # :"question?" : Symbol + +sentence == :question? #=> true : Bool +sentence == :exclamation! #=> false : Bool +sentence == "question?" #=> false : Bool + +# 数组类型(Array) + +[1, 2, 3].class #=> Array(Int32) +[1, "hello", 'x'].class #=> Array(Int32 | String | Char) + +# 必须为空数组指定类型 +[] # Syntax error: for empty arrays use '[] of ElementType' +[] of Int32 #=> [] : Array(Int32) +Array(Int32).new #=> [] : Array(Int32) + +# 数组可以通过下标访问 +array = [1, 2, 3, 4, 5] #=> [1, 2, 3, 4, 5] : Array(Int32) +array[0] #=> 1 : Int32 +array[10] # raises IndexError +array[-6] # raises IndexError +array[10]? #=> nil : (Int32 | Nil) +array[-6]? #=> nil : (Int32 | Nil) + +# 使用负位置编号,从后往前访问数组 +array[-1] #=> 5 + +# With a start index and size +# 使用起始位置编号+大小 +array[2, 3] #=> [3, 4, 5] + +# 使用范围(range)访问数组 +array[1..3] #=> [2, 3, 4] + +# 向尾部添加元素 +array << 6 #=> [1, 2, 3, 4, 5, 6] + +# 删除尾部元素 +array.pop #=> 6 +array #=> [1, 2, 3, 4, 5] + +# 删除首部元素 +array.shift #=> 1 +array #=> [2, 3, 4, 5] + +# 检查元素是否存在与数组之中 +array.includes? 3 #=> true + +# 一种特殊语法,用来创建字符串数组或符号数组 +%w(one two three) #=> ["one", "two", "three"] : Array(String) +%i(one two three) #=> [:one, :two, :three] : Array(Symbol) + +# 对于定义了`new`和`#<<`方法的类,可以用以下语法创建新对象 +set = Set{1, 2, 3} #=> [1, 2, 3] +set.class #=> Set(Int32) + +# 以下代码与上方等同 +set = Set(typeof(1, 2, 3)).new +set << 1 +set << 2 +set << 3 + +# 哈希表类型(Hash) + +{1 => 2, 3 => 4}.class #=> Hash(Int32, Int32) +{1 => 2, 'a' => 3}.class #=> Hash(Int32 | Char, Int32) + +# 必须为空哈希表指定类型 +{} # Syntax error +{} of Int32 => Int32 # {} +Hash(Int32, Int32).new # {} + +# 可以使用键(key)快速查询哈希表 +hash = {"color" => "green", "number" => 5} +hash["color"] #=> "green" +hash["no_such_key"] #=> Missing hash key: "no_such_key" (KeyError) +hash["no_such_key"]? #=> nil + +# 检查某一键哈希表中是否存在 +hash.has_key? "color" #=> true + +# 对于定义了`#[]=`方法的类,可以使用以下语法创建对象 +class MyType + def []=(key, value) + puts "do stuff" + end +end + +MyType{"foo" => "bar"} + +# 以上与下列代码等同 +tmp = MyType.new +tmp["foo"] = "bar" +tmp + +# 范围类型(Range) + +1..10 #=> Range(Int32, Int32) +Range.new(1, 10).class #=> Range(Int32, Int32) + +# 包含或不包含端点 +(3..5).to_a #=> [3, 4, 5] +(3...5).to_a #=> [3, 4] + +# 检查某一值是否在范围内 +(1..8).includes? 2 #=> true + +# 元组类型(Tuple) + +# 元组类型尺寸固定,不可变,储存在栈中 +# 元组可以有不同类型的对象组成 +{1, "hello", 'x'}.class #=> Tuple(Int32, String, Char) + +# 使用下标访问元组 +tuple = {:key1, :key2} +tuple[1] #=> :key2 +tuple[2] #=> syntax error : Index out of bound + +# 将元组中的元素赋值给变量 +a, b, c = {:a, 'b', "c"} +a #=> :a +b #=> 'b' +c #=> "c" + +# 命名元组类型(NamedTuple) + +tuple = {name: "Crystal", year: 2011} # NamedTuple(name: String, year: Int32) +tuple[:name] # => "Crystal" (String) +tuple[:year] # => 2011 (Int32) + +# 命名元组的键可以是字符串常量 +{"this is a key": 1} # => NamedTuple("this is a key": Int32) + +# 过程类型(Proc) +# 过程代表一个函数指针,以及可选的上下文(闭包) +# 过程通常使用字面值创建 +proc = ->(x : Int32) { x.to_s } +proc.class # Proc(Int32, String) + +# 或者使用`new`方法创建 +Proc(Int32, String).new { |x| x.to_s } + +# 使用`call`方法调用过程 +proc.call 10 #=> "10" + +# 控制语句(Control statements) + +if true + "if 语句" +elsif false + "else-if, 可选" +else + "else, 同样可选" +end + +puts "可以将if后置" if true + +# 将if作为表达式 +a = if 2 > 1 + 3 + else + 4 + end + +a #=> 3 + +# 条件表达式 +a = 1 > 2 ? 3 : 4 #=> 4 + +# `case`语句 +cmd = "move" + +action = case cmd + when "create" + "Creating..." + when "copy" + "Copying..." + when "move" + "Moving..." + when "delete" + "Deleting..." +end + +action #=> "Moving..." + +# 循环 +index = 0 +while index <= 3 + puts "Index: #{index}" + index += 1 +end +# Index: 0 +# Index: 1 +# Index: 2 +# Index: 3 + +index = 0 +until index > 3 + puts "Index: #{index}" + index += 1 +end +# Index: 0 +# Index: 1 +# Index: 2 +# Index: 3 + +# 更好的做法是使用`each` +(0..3).each do |index| + puts "Index: #{index}" +end +# Index: 0 +# Index: 1 +# Index: 2 +# Index: 3 + +# 变量的类型取决于控制语句中表达式的类型 +if a < 3 + a = "hello" +else + a = true +end +typeof a #=> (Bool | String) + +if a && b + # 此处`a`与`b`均为Nil +end + +if a.is_a? String + a.class #=> String +end + +# 函数(Functions) + +def double(x) + x * 2 +end + +# 函数(以及所有代码块)均将最末尾表达式的值作为返回值 +double(2) #=> 4 + +# 在没有歧义的情况下,括号可以省略 +double 3 #=> 6 + +double double 3 #=> 12 + +def sum(x, y) + x + y +end + +# 使用逗号分隔参数 +sum 3, 4 #=> 7 + +sum sum(3, 4), 5 #=> 12 + +# yield +# 所有函数都有一个默认生成、可选的代码块(block)参数 +# 在函数中可以使用yield调用此代码块 + +def surround + puts '{' + yield + puts '}' +end + +surround { puts "hello world" } + +# { +# hello world +# } + + +# 可将代码块作为参数传给函数 +# "&" 表示对代码块参数的引用 +def guests(&block) + block.call "some_argument" +end + +# 使用星号"*"将参数转换成元组 +def guests(*array) + array.each { |guest| puts guest } +end + +# 如果函数返回数组,可以将其解构 +def foods + ["pancake", "sandwich", "quesadilla"] +end +breakfast, lunch, dinner = foods +breakfast #=> "pancake" +dinner #=> "quesadilla" + +# 按照约定,所有返回布尔值的方法都以问号结尾 +5.even? # false +5.odd? # true + +# 以感叹号结尾的方法,都有一些破坏性(destructive)行为,比如改变调用接收者(receiver) +# 对于某些方法,带有感叹号的版本将改变调用接收者,而不带有感叹号的版本返回新值 +company_name = "Dunder Mifflin" +company_name.gsub "Dunder", "Donald" #=> "Donald Mifflin" +company_name #=> "Dunder Mifflin" +company_name.gsub! "Dunder", "Donald" +company_name #=> "Donald Mifflin" + + +# 使用`class`关键字来定义类(class) +class Human + + # 类变量,由类的所有实例所共享 + @@species = "H. sapiens" + + # `name`的类型为`String` + @name : String + + # 构造器方法(initializer) + # 其中@name、@age为简写,相当于 + # + # def initialize(name, age = 0) + # @name = name + # @age = age + # end + # + # `age`为可选参数,如果未指定,则使用默认值0 + def initialize(@name, @age = 0) + end + + # @name的setter方法 + def name=(name) + @name = name + end + + # @name的getter方法 + def name + @name + end + + # 上述getter与setter的定义可以用property宏简化 + property :name + + # 也可用getter与setter宏独立创建getter与setter + getter :name + setter :name + + # 此处的`self.`使`say`成为类方法 + def self.say(msg) + puts msg + end + + def species + @@species + end +end + + +# 将类实例化 +jim = Human.new("Jim Halpert") + +dwight = Human.new("Dwight K. Schrute") + +# 调用一些实例方法 +jim.species #=> "H. sapiens" +jim.name #=> "Jim Halpert" +jim.name = "Jim Halpert II" #=> "Jim Halpert II" +jim.name #=> "Jim Halpert II" +dwight.species #=> "H. sapiens" +dwight.name #=> "Dwight K. Schrute" + +# 调用类方法 +Human.say("Hi") #=> 输出 Hi ,返回 nil + +# 带有`@`前缀的变量为实例变量 +class TestClass + @var = "I'm an instance var" +end + +# 带有`@@`前缀的变量为类变量 +class TestClass + @@var = "I'm a class var" +end +# 首字母大写的变量为常量 +Var = "这是一个常量" +Var = "无法再次被赋值" # 常量`Var`已经被初始化 + +# 在crystal中类也是对象(object),因此类也有实例变量(instance variable) +# 类变量的定义由类以及类的派生类所共有,但类变量的值是独立的 + +# 基类 +class Human + @@foo = 0 + + def self.foo + @@foo + end + + def self.foo=(value) + @@foo = value + end +end + +# 派生类 +class Worker < Human +end + +Human.foo #=> 0 +Worker.foo #=> 0 + +Human.foo = 2 #=> 2 +Worker.foo #=> 0 + +Worker.foo = 3 #=> 3 +Human.foo #=> 2 +Worker.foo #=> 3 + +module ModuleExample + def foo + "foo" + end +end + +# include <Module> 将模块(module)中的方法添加为实例方法 +# extend <Module> 将模块中的方法添加为类方法 + +class Person + include ModuleExample +end + +class Book + extend ModuleExample +end + +Person.foo # => undefined method 'foo' for Person:Class +Person.new.foo # => 'foo' +Book.foo # => 'foo' +Book.new.foo # => undefined method 'foo' for Book + + +# 异常处理 + +# 定义新的异常类(exception) +class MyException < Exception +end + +# 再定义一个异常类 +class MyAnotherException < Exception; end + +ex = begin + raise MyException.new +rescue ex1 : IndexError + "ex1" +rescue ex2 : MyException | MyAnotherException + "ex2" +rescue ex3 : Exception + "ex3" +rescue ex4 # 捕捉任何类型的异常 + "ex4" +end + +ex #=> "ex2" + +``` + +## 参考资料 + +- [官方网站](https://crystal-lang.org/) +- [官方文档](https://crystal-lang.org/docs/overview/) +- [在线运行代码](https://play.crystal-lang.org/#/cr) +- [Github仓库](https://github.com/crystal-lang/crystal) diff --git a/zh-cn/dart-cn.html.markdown b/zh-cn/dart-cn.html.markdown index 6a6562bc..b0287f0c 100644 --- a/zh-cn/dart-cn.html.markdown +++ b/zh-cn/dart-cn.html.markdown @@ -492,8 +492,8 @@ main() { Dart 有一个综合性网站。它涵盖了 API 参考、入门向导、文章以及更多, 还包括一个有用的在线试用 Dart 页面。 -http://www.dartlang.org/ -http://try.dartlang.org/ +* [https://www.dartlang.org](https://www.dartlang.org) +* [https://try.dartlang.org](https://try.dartlang.org) diff --git a/zh-cn/fortran95-cn.html.markdown b/zh-cn/fortran95-cn.html.markdown new file mode 100644 index 00000000..e28d309f --- /dev/null +++ b/zh-cn/fortran95-cn.html.markdown @@ -0,0 +1,435 @@ +--- +language: Fortran +filename: learnfortran-cn.f95 +contributors: + - ["Robert Steed", "https://github.com/robochat"] +translators: + - ["Corvusnest", "https://github.com/Corvusnest"] +lang: zh-cn +--- + +Fortran 是最古老的计算机语言之一。它由IBM开发于1950年用于数值运算(Fortran 为 "Formula +Translation" 的缩写)。虽然该语言已年代久远,但目前仍用于高性能计算,如天气预报。 +该语言仍在持续发展,并且基本保持向下兼容。知名的版本为 Fortran 77, Fortran 90, +Fortran 95, Fortran 2003, Fortran 2008 与 Fortran 2015。 + +这篇概要将讨论 Fortran 95 的一些特征。因为它是目前所广泛采用的标准版本,并且与最新版本的内容 +也基本相同(而 Fortran 77 则是一个非常不同的版本)。 + +```fortran + +! 这是一行注释 + + +program example !声明一个叫做 example 的程序 + + ! 代码只能放在程序、函数、子程序或者模块内部 + ! 推荐使用缩进,但不是必须的。 + + ! 声明变量 + ! =================== + + ! 所有的声明必须放在语句与表达式之前 + + implicit none !阻止变量的隐式声明 (推荐!) + ! Implicit none 必须在每一个 函数/程序/模块 中进行声明 + + ! 重要 - Fortran 对大小写不敏感 + real z + REAL Z2 + + real :: v,x ! 警告: 默认值取决于编译器! + real :: a = 3, b=2E12, c = 0.01 + integer :: i, j, k=1, m + real, parameter :: PI = 3.1415926535897931 !声明一个常量 + logical :: y = .TRUE. , n = .FALSE. !布尔值 + complex :: w = (0,1) !sqrt(-1) (译注: 定义复数,此为-1的平方根) + character (len=3) :: month !长度为3的字符串 + + real :: array(6) !声明长度为6的浮点数数组 + real, dimension(4) :: arrayb !声明数组的另一种方法 + integer :: arrayc(-10:10) !有着自定义索引的数组 + real :: array2d(3,2) !多维数组 + + ! 分隔符 '::' 并不总是必要的,但推荐使用 + + ! 还存在很多其他的变量特征: + real, pointer :: p !声明一个指针 + + integer, parameter :: LP = selected_real_kind(20) + real (kind = LP) :: d !长精度变量 + + ! 警告:在声明期间初始化变量将导致在函数内发生问题,因为这将自动具备了 “save” 属性, + ! 因此变量的值在函数的多次调用期间将被存储。一般来说,除了常量,应分开声明与初始化! + + ! 字符串 + ! ======= + + character :: a_char = 'i' + character (len = 6) :: a_str = "qwerty" + character (len = 30) :: str_b + character (len = *), parameter :: a_long_str = "This is a long string." + !可以通过使用 (len=*) 来自动判断长度,但只对常量有效 + + str_b = a_str // " keyboard" !通过 // 操作符来连接字符串 + + + ! 任务与计算 + ! ======================= + + Z = 1 !向之前声明的变量 z 赋值 (大小写不敏感). + j = 10 + 2 - 3 + a = 11.54 / (2.3 * 3.1) + b = 2**3 !幂 + + + ! 控制流程语句 与 操作符 + ! =================================== + + !单行 if 语句 + if (z == a) b = 4 !判别句永远需要放在圆括号内 + + if (z /= a) then !z 不等于 a + ! 其他的比较运算符: < > <= >= == /= + b = 4 + else if (z .GT. a) then !z 大于(Greater) a + ! 文本形式的比较运算符: .LT. .GT. .LE. .GE. .EQ. .NE. + b = 6 + else if (z < a) then !'then' 必须放在该行 + b = 5 !执行部分必须放在新的一行里 + else + b = 10 + end if !结束语句需要 'if' (也可以用 'endif'). + + + if (.NOT. (x < c .AND. v >= a .OR. z == z)) then !布尔操作符 + inner: if (.TRUE.) then !可以为 if 结构命名 + b = 1 + endif inner !接下来必须命名 endif 语句. + endif + + + i = 20 + select case (i) + case (0) !当 i == 0 + j=0 + case (1:10) !当 i 为 1 到 10 之内 ( 1 <= i <= 10 ) + j=1 + case (11:) !当 i>=11 + j=2 + case default + j=3 + end select + + + month = 'jan' + ! 状态值可以为整数、布尔值或者字符类型 + ! Select 结构同样可以被命名 + monthly: select case (month) + case ("jan") + j = 0 + case default + j = -1 + end select monthly + + do i=2,10,2 !从2到10(包含2和10)以2为步进值循环 + innerloop: do j=1,3 !循环同样可以被命名 + exit !跳出循环 + end do innerloop + cycle !重复跳入下一次循环 + enddo + + + ! Goto 语句是存在的,但强烈不建议使用 + goto 10 + stop 1 !立即停止程序 (返回一个设定的状态码). +10 j = 201 !这一行被标注为 10 行 (line 10) + + + ! 数组 + ! ====== + array = (/1,2,3,4,5,6/) + array = [1,2,3,4,5,6] !当使用 Fortran 2003 版本. + arrayb = [10.2,3e3,0.41,4e-5] + array2d = reshape([1.0,2.0,3.0,4.0,5.0,6.0], [3,2]) + + ! Fortran 数组索引起始于 1 + ! (默认下如此,也可以为数组定义不同的索引起始) + v = array(1) !获取数组的第一个元素 + v = array2d(2,2) + + print *, array(3:5) !打印从第3到第五5之内的所有元素 + print *, array2d(1,:) !打印2维数组的第一列 + + array = array*3 + 2 !可为数组设置数学表达式 + array = array*array !数组操作支持元素级(操作) (element-wise) + !array = array*array2d !这两类数组并不是同一个维度的 + + ! 有很多内置的数组操作函数 + c = dot_product(array,array) !点乘 (点积) + ! 用 matmul() 来进行矩阵运算. + c = sum(array) + c = maxval(array) + print *, minloc(array) + c = size(array) + print *, shape(array) + m = count(array > 0) + + ! 遍历一个数组 (一般使用 Product() 函数). + v = 1 + do i = 1, size(array) + v = v*array(i) + end do + + ! 有条件地执行元素级操作 + array = [1,2,3,4,5,6] + where (array > 3) + array = array + 1 + elsewhere (array == 2) + array = 1 + elsewhere + array = 0 + end where + + ! 隐式DO循环可以很方便地创建数组 + array = [ (i, i = 1,6) ] !创建数组 [1,2,3,4,5,6] + array = [ (i, i = 1,12,2) ] !创建数组 [1,3,5,7,9,11] + array = [ (i**2, i = 1,6) ] !创建数组 [1,4,9,16,25,36] + array = [ (4,5, i = 1,3) ] !创建数组 [4,5,4,5,4,5] + + + ! 输入/输出 + ! ============ + + print *, b !向命令行打印变量 'b' + + ! 我们可以格式化输出 + print "(I6)", 320 !打印 ' 320' + print "(I6.4)", 3 !打印 ' 0003' + print "(F6.3)", 4.32 !打印 ' 4.320' + + + ! 该字母与数值规定了给定的数值与字符所用于打印输出的类型与格式 + ! 字母可为 I (整数), F (浮点数), E (工程格式), + ! L (逻辑/布尔值), A (字符) ... + print "(I3)", 3200 !如果数值无法符合格式将打印 '***' + + ! 可以同时设定多种格式 + print "(I5,F6.2,E6.2)", 120, 43.41, 43.41 + print "(3I5)", 10, 20, 30 !连续打印3个整数 (字段宽度 = 5). + print "(2(I5,F6.2))", 120, 43.42, 340, 65.3 !连续分组格式 + + ! 我们也可以从终端读取输入 + read *, v + read "(2F6.2)", v, x !读取2个数值 + + ! 读取文件 + open(unit=11, file="records.txt", status="old") + ! 文件被引用带有一个单位数 'unit', 为一个取值范围在9-99的整数 + ! 'status' 可以为 {'old','replace','new'} 其中之一 + read(unit=11, fmt="(3F10.2)") a, b, c + close(11) + + ! 写入一个文件 + open(unit=12, file="records.txt", status="replace") + write(12, "(F10.2,F10.2,F10.2)") c, b, a + close(12) + ! 在讨论范围之外的还有更多的细节与可用功能,并于老版本的 Fortran 保持兼容 + + + ! 内置函数 + ! ================== + + ! Fortran 拥有大约 200 个内置函数/子程序 + ! 例子 + call cpu_time(v) !以秒为单位设置时间 + k = ior(i,j) !2个整数的位或运算 + v = log10(x) !以10为底的log运算 + i = floor(b) !返回一个最接近的整数小于或等于x (地板数) + v = aimag(w) !复数的虚数部分 + + + ! 函数与子程序 + ! ======================= + + ! 一个子程序会根据输入值运行一些代码并会导致副作用 (side-effects) 或修改输入值 + ! (译者注: 副作用是指对子程序/函数外的环境产生影响,如修改变量) + + call routine(a,c,v) !调用子程序 + + ! 一个函数会根据输入的一系列数值来返回一个单独的值 + ! 但输入值仍然可能被修改以及产生副作用 + + m = func(3,2,k) !调用函数 + + ! 函数可以在表达式内被调用 + Print *, func2(3,2,k) + + ! 一个纯函数不会去修改输入值或产生副作用 + m = func3(3,2,k) + + +contains ! 用于定义程序内部的副程序(sub-programs)的区域 + + ! Fortran 拥有一些不同的方法去定义函数 + + integer function func(a,b,c) !一个返回一个整数的函数 + implicit none !最好也在函数内将含蓄模式关闭 (implicit none) + integer :: a,b,c !输入值类型定义在函数内部 + if (a >= 2) then + func = a + b + c !返回值默认为函数名 + return !可以在函数内任意时间返回当前值 + endif + func = a + c + ! 在函数的结尾不需要返回语句 + end function func + + + function func2(a,b,c) result(f) !将返回值声明为 'f' + implicit none + integer, intent(in) :: a,b !可以声明让变量无法被函数修改 + integer, intent(inout) :: c + integer :: f !函数的返回值类型在函数内声明 + integer :: cnt = 0 !注意 - 隐式的初始化变量将在函数的多次调用间被存储 + f = a + b - c + c = 4 !变动一个输入变量的值 + cnt = cnt + 1 !记录函数的被调用次数 + end function func2 + + + pure function func3(a,b,c) !一个没有副作用的纯函数 + implicit none + integer, intent(in) :: a,b,c + integer :: func3 + func3 = a*b*c + end function func3 + + + subroutine routine(d,e,f) + implicit none + real, intent(inout) :: f + real, intent(in) :: d,e + f = 2*d + 3*e + f + end subroutine routine + + +end program example ! 函数定义完毕 ----------------------- + +! 函数与子程序的外部声明对于生成程序清单来说,需要一个接口声明(即使它们在同一个源文件内)(见下) +! 使用 'contains' 可以很容易地在模块或程序内定义它们 + +elemental real function func4(a) result(res) +! 一个元函数(elemental function) 为一个纯函数使用一个标量输入值 +! 但同时也可以用在一个数组并对其中的元素分别处理,之后返回一个新的数组 + real, intent(in) :: a + res = a**2 + 1.0 +end function func4 + + +! 模块 +! ======= + +! 模块十分适合于存放与复用相关联的一组声明、函数与子程序 + +module fruit + real :: apple + real :: pear + real :: orange +end module fruit + + +module fruity + + ! 声明必须按照顺序: 模块、接口、变量 + ! (同样可在程序内声明模块和接口) + + use fruit, only: apple, pear ! 使用来自于 fruit 模块的 apple 和 pear + implicit none !在模块导入后声明 + + private !使得模块内容为私有(private)(默认为公共 public) + ! 显式声明一些变量/函数为公共 + public :: apple,mycar,create_mycar + ! 声明一些变量/函数为私有(在当前情况下没必要)(译注: 因为前面声明了模块全局 private) + private :: func4 + + ! 接口 + ! ========== + ! 在模块内显式声明一个外部函数/程序 + ! 一般最好将函数/程序放进 'contains' 部分内 + interface + elemental real function func4(a) result(res) + real, intent(in) :: a + end function func4 + end interface + + ! 重载函数可以通过已命名的接口来定义 + interface myabs + ! 可以通过使用 'module procedure' 关键词来包含一个已在模块内定义的函数 + module procedure real_abs, complex_abs + end interface + + ! 派生数据类型 + ! ================== + ! 可创建自定义数据结构 + type car + character (len=100) :: model + real :: weight !(公斤 kg) + real :: dimensions(3) !例: 长宽高(米) + character :: colour + end type car + + type(car) :: mycar !声明一个自定义类型的变量 + ! 用法具体查看 create_mycar() + + ! 注: 模块内没有可执行的语句 + +contains + + subroutine create_mycar(mycar) + ! 展示派生数据类型的使用 + implicit none + type(car),intent(out) :: mycar + + ! 通过 '%' 操作符来访问(派生数据)类型的元素 + mycar%model = "Ford Prefect" + mycar%colour = 'r' + mycar%weight = 1400 + mycar%dimensions(1) = 5.0 !索引默认起始值为 1 ! + mycar%dimensions(2) = 3.0 + mycar%dimensions(3) = 1.5 + + end subroutine + + real function real_abs(x) + real :: x + if (x<0) then + real_abs = -x + else + real_abs = x + end if + end function real_abs + + real function complex_abs(z) + complex :: z + ! 过长的一行代码可通过延续符 '&' 来换行 + complex_abs = sqrt(real(z)**2 + & + aimag(z)**2) + end function complex_abs + + +end module fruity + +``` + +### 更多资源 + +了解更多的 Fortran 信息: + ++ [wikipedia](https://en.wikipedia.org/wiki/Fortran) ++ [Fortran_95_language_features](https://en.wikipedia.org/wiki/Fortran_95_language_features) ++ [fortranwiki.org](http://fortranwiki.org) ++ [www.fortran90.org/](http://www.fortran90.org) ++ [list of Fortran 95 tutorials](http://www.dmoz.org/Computers/Programming/Languages/Fortran/FAQs%2C_Help%2C_and_Tutorials/Fortran_90_and_95/) ++ [Fortran wikibook](https://en.wikibooks.org/wiki/Fortran) ++ [Fortran resources](http://www.fortranplus.co.uk/resources/fortran_resources.pdf) ++ [Mistakes in Fortran 90 Programs That Might Surprise You](http://www.cs.rpi.edu/~szymansk/OOF90/bugs.html) diff --git a/zh-cn/go-cn.html.markdown b/zh-cn/go-cn.html.markdown index 75498367..37b4b137 100644 --- a/zh-cn/go-cn.html.markdown +++ b/zh-cn/go-cn.html.markdown @@ -142,6 +142,7 @@ func learnTypes() { func learnNamedReturns(x, y int) (z int) { z = x * y return // z is implicit here, because we named it earlier. +} // Go全面支持垃圾回收。Go有指针,但是不支持指针运算。 // 你会因为空指针而犯错,但是不会因为增加指针而犯错。 diff --git a/zh-cn/javascript-cn.html.markdown b/zh-cn/javascript-cn.html.markdown index bdef0099..360f7c65 100644 --- a/zh-cn/javascript-cn.html.markdown +++ b/zh-cn/javascript-cn.html.markdown @@ -12,12 +12,9 @@ translators: lang: zh-cn --- -Javascript于1995年由网景公司的Brendan Eich发明。 -最初发明的目的是作为一个简单的网站脚本语言,来作为 -复杂网站应用java的补充。但由于它与网页结合度很高并且由浏览器内置支持, -所以javascript变得比java在前端更为流行了。 +Javascript 于 1995 年由网景公司的 Brendan Eich 发明。最初它作为一种简单的,用于开发网站的脚本语言而被发明出来,是用于开发复杂网站的 Java 的补充。但由于它与网页结合度很高并且在浏览器中得到内置的支持,所以在网页前端领域 Javascript 变得比 Java 更流行了。 -不过 JavaScript 可不仅仅只用于浏览器: Node.js,一个基于Google Chrome V8引擎的独立运行时环境,也越来越流行。 +不过,Javascript 不仅用于网页浏览器,一个名为 Node.js 的项目提供了面向 Google Chrome V8 引擎的独立运行时环境,它正在变得越来越流行。 很欢迎来自您的反馈,您可以通过下列方式联系到我: [@adambrenecki](https://twitter.com/adambrenecki), 或者 diff --git a/zh-cn/kotlin-cn.html.markdown b/zh-cn/kotlin-cn.html.markdown index 5d655029..f6dcd847 100644 --- a/zh-cn/kotlin-cn.html.markdown +++ b/zh-cn/kotlin-cn.html.markdown @@ -22,7 +22,7 @@ package com.learnxinyminutes.kotlin /* Kotlin程序的入口点是一个"main"函数 -该函数传递一个包含任何命令行参数的数组。 +该函数传递一个包含所有命令行参数的数组。 */ fun main(args: Array<String>) { /* @@ -67,10 +67,10 @@ fun helloWorld(val name : String) { 模板表达式从一个美元符号($)开始。 */ val fooTemplateString = "$fooString has ${fooString.length} characters" - println(fooTemplateString) + println(fooTemplateString) // => 输出 My String Is Here! has 18 characters /* - 当某个变量的值可以为 null 的时候,我们必须被明确指定它是可为空的。 + 当某个变量的值可以为 null 的时候,我们必须明确指定它是可为空的。 在变量声明处的类型后面加上?来标识它是可为空的。 我们可以用?.操作符来访问可为空的变量。 我们可以用?:操作符来指定一个在变量为空时使用的替代值。 @@ -96,24 +96,24 @@ fun helloWorld(val name : String) { println(hello()) // => Hello, world! /* - 用"vararg"关键字来修饰一个函数的参数来允许可变参数传递给该函数 + 函数的可变参数可使用 "vararg" 关键字来修饰 */ fun varargExample(vararg names: Int) { println("Argument has ${names.size} elements") } - varargExample() // => Argument has 0 elements - varargExample(1) // => Argument has 1 elements - varargExample(1, 2, 3) // => Argument has 3 elements + varargExample() // => 传入 0 个参数 + varargExample(1) // => 传入 1 个参数 + varargExample(1, 2, 3) // => 传入 3 个参数 /* - 当函数只包含一个单独的表达式时,大括号可以被省略。 - 函数体可以被指定在一个=符号后面。 + 当函数只包含一个单独的表达式时,大括号可以省略。 + 函数体可以写在一个=符号后面。 */ fun odd(x: Int): Boolean = x % 2 == 1 println(odd(6)) // => false println(odd(7)) // => true - // 如果返回值类型可以被推断,那么我们不需要指定它。 + // 如果返回值类型可以推断,那么我们不需要指定它。 fun even(x: Int) = x % 2 == 0 println(even(6)) // => true println(even(7)) // => false @@ -122,15 +122,14 @@ fun helloWorld(val name : String) { fun not(f: (Int) -> Boolean) : (Int) -> Boolean { return {n -> !f.invoke(n)} } - // 命名函数可以用::运算符被指定为参数。 + // 普通函数可以用::运算符传入引用作为函数参数。 val notOdd = not(::odd) val notEven = not(::even) - // 匿名函数可以被指定为参数。 + // lambda 表达式可以直接作为参数传递。 val notZero = not {n -> n == 0} /* - 如果一个匿名函数只有一个参数 - 那么它的声明可以被省略(连同->)。 - 这个参数的名字是"it"。 + 如果一个 lambda 表达式只有一个参数 + 那么它的声明可以省略(连同->),内部以 "it" 引用。 */ val notPositive = not {it > 0} for (i in 0..4) { @@ -152,7 +151,7 @@ fun helloWorld(val name : String) { 注意,Kotlin没有"new"关键字。 */ val fooExampleClass = ExampleClass(7) - // 可以使用一个点号来调用成员函数。 + // 可以使用一个点号来调用成员方法。 println(fooExampleClass.memberFunction(4)) // => 11 /* 如果使用"infix"关键字来标记一个函数 @@ -162,7 +161,7 @@ fun helloWorld(val name : String) { /* 数据类是创建只包含数据的类的一个简洁的方法。 - "hashCode"、"equals"和"toString"方法将被自动生成。 + "hashCode"、"equals"和"toString"方法将自动生成。 */ data class DataClassExample (val x: Int, val y: Int, val z: Int) val fooData = DataClassExample(1, 2, 4) diff --git a/zh-cn/make-cn.html.markdown b/zh-cn/make-cn.html.markdown new file mode 100644 index 00000000..4cdf1e63 --- /dev/null +++ b/zh-cn/make-cn.html.markdown @@ -0,0 +1,262 @@ +--- +language: make +contributors: +- ["Robert Steed", "https://github.com/robochat"] +- ["Jichao Ouyang", "https://github.com/jcouyang"] +translators: +- ["Jichao Ouyang", "https://github.com/jcouyang"] +filename: Makefile-cn +lang: zh-cn +--- + +Makefile 用于定义如何创建目标文件, 比如如何从源码到可执行文件. 创建这一工具的目标是 +减少不必要的编译或者任务.是传说中的 Stuart Feldman 在 1976 年花了一个周末写出来的, +而今仍然使用广泛, 特别是在 Unix 和 Linux 系统上. + +虽然每个语言可能都有相应的或多或少提供 make 的功能, 比如 ruby 的 rake, node 的 gulp, broccoli +, scala 的 sbt 等等. 但是 make 的简洁与高效, 和只做一件事并做到极致的风格, 使其至今仍是无可替代的, +甚至与其他构建工具一起使用也并无冲突. + +尽管有许多的分支和变体, 这篇文章针对是标准的 GNU make. + +```make +# 这行表示注释 + +# 文件名一定要交 Makefile, 大小写区分, 使用 `make <target>` 生成 target +# 如果想要取别的名字, 可以用 `make -f "filename" <target>`. + +# 重要的事情 - 只认识 TAB, 空格是不认的, 但是在 GNU Make 3.82 之后, 可以通过 +# 设置参数 .RECIPEPREFIX 进行修改 + +#----------------------------------------------------------------------- +# 初级 +#----------------------------------------------------------------------- + +# 创建一个 target 的规则非常简单 +# targets : prerequisites +# recipe +# … +# prerequisites(依赖) 是可选的, recipe(做法) 也可以多个或者不给. + +# 下面这个任务没有给 prerequisites, 只会在目标文件 file0.txt 文件不存在是跑 +file0.txt: + echo "foo" > file0.txt + # 试试 `make file0.txt` + # 或者直接 `make`, 因为第一个任务是默认任务. + # 注意: 即使是这些注释, 如果前面有 TAB, 也会发送给 shell, 注意看 `make file0.txt` 输出 + +# 如果提供 prerequisites, 则只有 prerequisites 比 target 新时会执行 +# 比如下面这个任务只有当 file1.txt 比 file0.txt 新时才会执行. +file1.txt: file0.txt + cat file0.txt > file1.txt + # 这里跟shell里的命令式一毛一样的. + @cat file0.txt >> file1.txt + # @ 不会把命令往 stdout 打印. + -@echo 'hello' + # - 意思是发生错误了也没关系. + # 试试 `make file1.txt` 吧. + +# targets 和 prerequisites 都可以是多个, 以空格分割 +file2.txt file3.txt: file0.txt file1.txt + touch file2.txt + touch file3.txt + +# 如果声明重复的 target, make 会给一个 warning, 后面会覆盖前面的 +# 比如重复定义 file2.txt 会得到这样的 warning +# Makefile:46: warning: overriding commands for target `file2.txt' +# Makefile:40: warning: ignoring old commands for target `file2.txt' +file2.txt: file0.txt + touch file2.txt + +# 但是如果不定义任何 recipe, 就不会冲突, 只是多了依赖关系 +file2.txt: file0.txt file3.txt + +#----------------------------------------------------------------------- +# Phony(假的) Targets +#----------------------------------------------------------------------- + +# phony targets 意思是 tagets 并不是文件, 可以想象成一个任务的名字而已. +# 因为不是文件, 无法比对是否有更新, 所以每次make都会执行. +all: maker process + +# 依赖于 phony target 的 target 也会每次 make 都执行, 即使 target 是文件 +ex0.txt ex1.txt: maker + +# target 的声明顺序并不重要, 比如上面的 all 的依赖 maker 现在才声明 +maker: + touch ex0.txt ex1.txt + +# 如果定义的 phony target 与文件名重名, 可以用 .PHONY 显示的指明哪些 targets 是 phony +.PHONY: all maker process +# This is a special target. There are several others. + +# 常用的 phony target 有: all clean install ... + +#----------------------------------------------------------------------- +# 变量与通配符 +#----------------------------------------------------------------------- + +process: file*.txt | dir/a.foo.b # 可以用通配符匹配多个文件作为prerequisites + @echo $^ # $^ 是 prerequisites + @echo $@ # $@ 代表 target, 如果 target 为多个, $@ 代表当前执行的那个 + @echo $< # $< prerequisite 中的第一个 + @echo $? # $? 需要更新的 prerequisite 文件列表 + @echo $+ # $+ 所有依赖, 包括重复的 + @echo $| # $| 竖线后面的 order-only prerequisites + +a.%.b: + @echo $* # $* match 的target % 那部分, 包括路径, 比如 `make dir/a.foo.b` 会打出 `dir/foo` + +# 即便分开定义依赖, $^ 依然能拿到 +process: ex1.txt file0.txt +# 非常智能的, ex1.txt 会被找到, file0.txt 会被去重. + +#----------------------------------------------------------------------- +# 模式匹配 +#----------------------------------------------------------------------- + +# 可以让 make 知道如何转换某些文件到别格式 +# 比如 从 svg 到 png +%.png: %.svg + inkscape --export-png $^ + +# 一旦有需要 foo.png 这个任务就会运行 + +# 路径会被忽略, 所以上面的 target 能匹配所有 png +# 但是如果加了路径, make 会找到最接近的匹配, 如果 +# make small/foo.png (在这之前要先有 small/foo.svg 这个文件) +# 则会匹配下面这个规则 +small/%.png: %.svg + inkscape --export-png --export-dpi 30 $^ + +%.png: %.svg + @echo 重复定义会覆盖前面的, 现在 inkscape 没用了 + +# make 已经有一些内置的规则, 比如从 *.c 到 *.o + +#----------------------------------------------------------------------- +# 变量 +#----------------------------------------------------------------------- +# 其实是宏 macro + +# 变量都是字符串类型, 下面这俩是一样一样的 + +name = Ted +name2="Sarah" + +echo: + @echo $(name) + @echo ${name2} + @echo $name # 这个会被蠢蠢的解析成 $(n)ame. + @echo \"$(name3)\" # 为声明的变量或扩展成空字符串. + @echo $(name4) + @echo $(name5) +# 你可以通过4种方式设置变量. +# 按以下顺序由高到低: +# 1: 命令行参数. 比如试试 `make echo name3=JICHAO` +# 2: Makefile 里面的 +# 3: shell 中的环境变量 +# 4: make 预设的一些变量 + +name4 ?= Jean +# 问号意思是如果 name4 被设置过了, 就不设置了. + +override name5 = David +# 用 override 可以防止命令行参数设置的覆盖 + +name4 +=grey +# 用加号可以连接 (中间用空格分割). + +# 在依赖的地方设置变量 +echo: name2 = Sara2 + +# 还有一些内置的变量 +echo_inbuilt: + echo $(CC) + echo ${CXX)} + echo $(FC) + echo ${CFLAGS)} + echo $(CPPFLAGS) + echo ${CXXFLAGS} + echo $(LDFLAGS) + echo ${LDLIBS} + +#----------------------------------------------------------------------- +# 变量 2 +#----------------------------------------------------------------------- + +# 加个冒号可以声明 Simply expanded variables 即时扩展变量, 即只在声明时扩展一次 +# 之前的等号声明时 recursively expanded 递归扩展 + +var := hello +var2 := $(var) hello + +# 这些变量会在其引用的顺序求值 +# 比如 var3 声明时找不到 var4, var3 会扩展成 `and good luck` +var3 := $(var4) and good luck +# 但是一般的变量会在调用时递归扩展, 先扩展 var5, 再扩展 var4, 所以是正常的 +var5 = $(var4) and good luck +var4 := good night + +echoSEV: + @echo $(var) + @echo $(var2) + @echo $(var3) + @echo $(var4) + @echo $(var5) + +#----------------------------------------------------------------------- +# 函数 +#----------------------------------------------------------------------- + +# make 自带了一些函数. +# wildcard 会将后面的通配符变成一串文件路径 +all_markdown: + @echo $(wildcard *.markdown) +# patsubst 可以做替换, 比如下面会把所有 markdown +# 后缀的文件重命名为 md 后缀 +substitue: * + @echo $(patsubst %.markdown,%.md,$* $^) + +# 函数调用格式是 $(func arg0,arg1,arg2...) + +# 试试 +ls: * + @echo $(filter %.txt, $^) + @echo $(notdir $^) + @echo $(join $(dir $^),$(notdir $^)) + +#----------------------------------------------------------------------- +# Directives +#----------------------------------------------------------------------- + +# 可以用 include 引入别的 Makefile 文件 +# include foo.mk + +sport = tennis +# 一些逻辑语句 if else 什么的, 顶个写 +report: +ifeq ($(sport),tennis) + @echo 'game, set, match' +else + @echo "They think it's all over; it is now" +endif + +# 还有 ifneq, ifdef, ifndef + +foo = true + +# 不只是 recipe, 还可以写在外面哟 +ifdef $(foo) +bar = 'bar' +endif + +hellobar: + @echo bar +``` + +### 资源 + ++ GNU Make 官方文档 [HTML](https://www.gnu.org/software/make/manual/) [PDF](https://www.gnu.org/software/make/manual/make.pdf) ++ [software carpentry tutorial](http://swcarpentry.github.io/make-novice/) ++ learn C the hard way [ex2](http://c.learncodethehardway.org/book/ex2.html) [ex28](http://c.learncodethehardway.org/book/ex28.html) diff --git a/zh-cn/markdown-cn.html.markdown b/zh-cn/markdown-cn.html.markdown index 87ed46ad..e9a8aeb2 100644 --- a/zh-cn/markdown-cn.html.markdown +++ b/zh-cn/markdown-cn.html.markdown @@ -13,7 +13,7 @@ Markdown 由 John Gruber 于 2004年创立. 它旨在成为一门容易读写的 欢迎您多多反馈以及分支和请求合并。 -```markdown +```md <!-- Markdown 是 HTML 的父集,所以任何 HTML 文件都是有效的 Markdown。 这意味着我们可以在 Markdown 里使用任何 HTML 元素,比如注释元素, 且不会被 Markdown 解析器所影响。不过如果你在 Markdown 文件内创建了 HTML 元素, diff --git a/zh-cn/python3-cn.html.markdown b/zh-cn/python3-cn.html.markdown index 76455a46..211ce0c5 100644 --- a/zh-cn/python3-cn.html.markdown +++ b/zh-cn/python3-cn.html.markdown @@ -568,13 +568,14 @@ def double_numbers(iterable): yield i + i # 生成器只有在需要时才计算下一个值。它们每一次循环只生成一个值,而不是把所有的 -# 值全部算好。这意味着double_numbers不会生成大于15的数字。 +# 值全部算好。 # # range的返回值也是一个生成器,不然一个1到900000000的列表会花很多时间和内存。 # # 如果你想用一个Python的关键字当作变量名,可以加一个下划线来区分。 range_ = range(1, 900000000) # 当找到一个 >=30 的结果就会停 +# 这意味着 `double_numbers` 不会生成大于30的数。 for i in double_numbers(range_): print(i) if i >= 30: diff --git a/zh-cn/typescript-cn.html.markdown b/zh-cn/typescript-cn.html.markdown index 2651b1cb..032f89e4 100644 --- a/zh-cn/typescript-cn.html.markdown +++ b/zh-cn/typescript-cn.html.markdown @@ -153,7 +153,7 @@ var pairToTuple = function<T>(p: Pair<T>) { var tuple = pairToTuple({ item1:"hello", item2:"world"}); // 引用定义文件 -// <reference path="jquery.d.ts" /> +/// <reference path="jquery.d.ts" /> // 模板字符串(使用反引号的字符串) // 嵌入变量的模板字符串 diff --git a/zh-cn/visualbasic-cn.html.markdown b/zh-cn/visualbasic-cn.html.markdown index 8bdfabc6..e30041b3 100644 --- a/zh-cn/visualbasic-cn.html.markdown +++ b/zh-cn/visualbasic-cn.html.markdown @@ -5,10 +5,10 @@ contributors: translators: - ["Abner Chou", "http://cn.abnerchou.me"] lang: zh-cn -filename: learnvisualbasic.vb-cn +filename: learnvisualbasic-cn.vb --- -```vb +``` Module Module1 Sub Main() diff --git a/zh-tw/pcre-tw.html.markdown b/zh-tw/pcre-tw.html.markdown new file mode 100644 index 00000000..c9cdc537 --- /dev/null +++ b/zh-tw/pcre-tw.html.markdown @@ -0,0 +1,83 @@ +--- +language: PCRE +filename: pcre-tw.txt +contributors: + - ["Sachin Divekar", "http://github.com/ssd532"] +translators: + - ["Michael Yeh", "https://hinet60613.github.io/"] +lang: zh-tw +--- + +正規表達式(regular expression,或縮寫為regex, regexp)是一種用來表示搜尋模式的特殊字串。例如,你可以用`/^[a-z]+:/`來從網址`http://github.com`中擷取出`http:`這段http協定名稱。 + +相容Perl正規表達式(Perl Compatible Regular Expressions, PCRE)是一個實作正規表達式的C語言函式庫。此函式庫在1997年被開發出來,在當時面對複雜字串處理時大多會選擇使用Perl。也因為如此,PCRE大多的正規表達式語法都很酷似Perl。PCRE語法被廣泛運用在許多大專案中,包括PHP、Apache、R等。 + +PCRE中的超字元(metacharacter)主要可以分為以下兩類: +* 在中括號外會被辨識的字元 +``` + \ 通用跳脫字元 + ^ 字串開頭 或 行首 + $ 字串結尾 或 行尾 + . 除了換行符號外的任何字元 + [ 字元集合定義開始 + | 支流開始 + ( 子串模式定義開始 + ) 子串模式定義結束 + ? extends the meaning of ( + 同時為數量0或1配對 + also quantifier minimizer + * 量詞 至少0個 至多無限個 + + 量詞 至少1個 至多無限個 + 同時為佔有型量詞 + { 最大/最小量詞開始 +``` + +* 在中括號內會被辨識的超字元,在中括號外會被視為字元集合使用 + +``` + + \ 通用跳脫字元 + ^ 非字元集合的字,但只會抓到第一個符合的字元 + - 字元範圍 + [ POSIX字元集合(若後面接POSIX格式) + ] 字元集合定義結束 + +``` + +PCRE提供了一些通用的字元類型,可被當作字元集合使用 +``` + \d 任何數字字元 + \D 任何非數字字元 + \h 任何水平空白字元 + \H 任何非水平空白字元 + \s 任何空白字元 + \S 任何非空白至元 + \v 任何垂直空白字元 + \V 任何非垂直空白字元 + \w 任何英文字 + \W 任何非英文字 +``` + +## 範例 + +我們以字串 `66.249.64.13 - - [18/Sep/2004:11:07:48 +1000] "GET /robots.txt HTTP/1.0" 200 468 "-" "Googlebot/2.1"` 作為範例,這是一個標準的Apache存取記錄。 + +| 正規表達式 | 結果 | 說明 | +| :---- | :-------------- | :------ | +| GET | GET | GET 抓取 GET 字串 (會分別大小寫) | +| \d+.\d+.\d+.\d+ | 66.249.64.13 | `\d+` 抓取數字字元,數量由 `+` 定義為至少一個至多無限個。 `\.` 抓取 `.` 字元 | +| (\d+\.){3}\d+ | 66.249.64.13 | `(\d+\.){3}` 會試著抓取剛好三次的 (`\d+\.`) | +| \[.+\] | [18/Sep/2004:11:07:48 +1000] | `.+` 抓取除了換行符號以外的任何字元, `.` 表示任意字元 | +| ^\S+ | 66.249.64.13 | `^` 為行首, `\S+` 抓取至少一個非空白字元 | +| \+[0-9]+ | +1000 | `\+` 抓取 `+` 字元。 `[0-9]` 字元集表示剛好一個數字字元。 可以用 `\+\d+` 達到相同效果。 | + +以上範例皆可在 https://regex101.com/ 測試,步驟如下: + +1. 複製範例字串到 `TEST STRING` 區域 +2. 複製正規表達式字串到 `Regular Expression` 區域 +3. 網頁會顯示自動表達式抓取結果 + + +## 更多資料 + + |