diff options
author | Adam Bard <github@adambard.com> | 2013-12-16 12:47:36 -0800 |
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committer | Adam Bard <github@adambard.com> | 2013-12-16 12:47:36 -0800 |
commit | b6e73eeb3a5308804b07454dff9d2974e19e8477 (patch) | |
tree | 2cf82babfbf1b3cb4cd955ae2b6ecc7b3ffec0c3 | |
parent | 4bf5bbc2a3baa351b0e987c7a6ed7338ebea1f21 (diff) | |
parent | bf659f14cf55e815cae22230c100e31a96b7d1c4 (diff) |
Merge pull request #453 from sshine/master
[standard-ml/en-en] Format fixing, variable renaming, some more about exceptions
-rw-r--r-- | standard-ml.html.markdown | 99 |
1 files changed, 60 insertions, 39 deletions
diff --git a/standard-ml.html.markdown b/standard-ml.html.markdown index bd26709c..b545f3e1 100644 --- a/standard-ml.html.markdown +++ b/standard-ml.html.markdown @@ -13,21 +13,21 @@ to update variables can feel severely inhibiting. ```ocaml (* Comments in Standard ML begin with (* and end with *). Comments can be - nested which means that all (* tags must end with a *) tag. This comment - contains two nested comments. *) + nested which means that all (* tags must end with a *) tag. This comment, + for example, contains two nested comments. *) (* A Standard ML program consists of declarations, e.g. value declarations: *) val rent = 1200 val phone_no = 5551337 val pi = 3.14159 -val negative_number = ~15 (* Yeah, unary minus is a so-called 'tilde' *) +val negative_number = ~15 (* Yeah, unary minus uses the 'tilde' symbol *) (* And just as importantly, functions: *) fun is_large(x : int) = if x > 37 then true else false (* Floating-point numbers are called "reals". *) -val tau = 2.0 * pi (* You can multiply reals *) -val twice_rent = 2 * rent (* You can multiply ints *) +val tau = 2.0 * pi (* You can multiply two reals *) +val twice_rent = 2 * rent (* You can multiply two ints *) (* val meh = 1.25 * 10 *) (* But you can't multiply an int and a real *) (* +, - and * are overloaded so they work for both int and real. *) @@ -42,16 +42,16 @@ val negative_rent = ~(rent) (* Would also have worked if rent were a "real" *) (* There are also booleans and boolean operators *) val got_milk = true val got_bread = false -val has_breakfast = got_milk andalso got_bread (* Yes, it's called andalso *) -val has_something = got_milk orelse got_bread (* Yes, it's called orelse *) +val has_breakfast = got_milk andalso got_bread (* 'andalso' is the operator *) +val has_something = got_milk orelse got_bread (* 'orelse' is the operator *) val is_sad = not(has_something) (* not is a function *) (* Many values can be compared using equality operators: = and <> *) val pays_same_rent = (rent = 1300) (* false *) val is_wrong_phone_no = (phone_no <> 5551337) (* false *) -(* The operator <> is what most other languages call != *) - +(* The operator <> is what most other languages call !=. *) +(* 'andalso' and 'orelse' are called && and || in many other languages. *) (* Actually, most of the parentheses above are unnecessary. Here are some different ways to say some of the things mentioned above: *) @@ -61,7 +61,7 @@ val pays_same_rent = rent = 1300 (* Looks confusing, but works *) val is_wrong_phone_no = phone_no <> 5551337 val negative_rent = ~rent (* ~ rent (notice the space) would also work *) -(* Parens are mostly necessary when grouping things: *) +(* Parentheses are mostly necessary when grouping things: *) val some_answer = is_large (5 + 5) (* Without parens, this would break! *) (* val some_answer = is_large 5 + 5 *) (* Read as: (is_large 5) + 5. Bad! *) @@ -84,32 +84,37 @@ val bar = [ #"H", #"e", #"l", #"l", #"o" ] (* SML also has lists! *) are functions available in that library that take strings as argument. *) val bob = String.implode bar (* gives "Hello" *) val bob_char_count = String.size bob (* gives 5 *) -val _ = print (bob ^ "\n") (* For good measure, add a linebreak *) +val _ = print (bob ^ "\n") (* For good measure, add a linebreak *) (* You can have lists of any kind *) val numbers = [1, 3, 3, 7, 229, 230, 248] (* : int list *) val names = [ "Fred", "Jane", "Alice" ] (* : string list *) + +(* Even lists of lists of things *) val groups = [ [ "Alice", "Bob" ], [ "Huey", "Dewey", "Louie" ], [ "Bonnie", "Clyde" ] ] (* : string list list *) val number_count = List.length numbers (* gives 7 *) -(* You can put single values in front of lists of the same kind - using the :: ("cons") operator *) +(* You can put single values in front of lists of the same kind using + the :: operator, called "the cons operator" (known from Lisp). *) val more_numbers = 13 :: numbers (* gives [13, 1, 3, 3, 7, ...] *) val more_groups = ["Batman","Superman"] :: groups (* Lists of the same kind can be appended using the @ ("append") operator *) val guest_list = [ "Mom", "Dad" ] @ [ "Aunt", "Uncle" ] -(* This could have been done with the "cons" operator *) +(* This could have been done with the "cons" operator. It is tricky because the + left-hand-side must be an element whereas the right-hand-side must be a list + of those elements. *) val guest_list = "Mom" :: "Dad" :: [ "Aunt", "Uncle" ] +val guest_list = "Mom" :: ("Dad" :: ("Aunt" :: ("Uncle" :: []))) (* If you have many lists of the same kind, you can concatenate them all *) val everyone = List.concat groups (* [ "Alice", "Bob", "Huey", ... ] *) -(* A list can contain any (finite) amount of values *) +(* A list can contain any (finite) number of values *) val lots = [ 5, 5, 5, 6, 4, 5, 6, 5, 4, 5, 7, 3 ] (* still just an int list *) (* Lists can only contain one kind of thing... *) @@ -264,21 +269,23 @@ fun map f [] = [] (* 'a is called a type variable. *) -(* We can define functions as infix *) -fun plus (x, y) = x + y -infix plus -(* We can now call plus like "2 plus 5" *) +(* We can declare functions as infix *) +val plus = add_them (* plus is now equal to the same function as add_them *) +infix plus (* plus is now an infix operator *) +val seven = 2 plus 5 (* seven is now bound to 7 *) -(* Functions can also be made infix before they are defined *) +(* Functions can also be made infix before they are declared *) infix minus -fun x minus y = x - y +fun x minus y = x - y (* It becomes a little hard to see what's the argument *) +val four = 8 minus 4 (* four is now bound to 4 *) -(* An infix function/operator can be made prefix with "op" *) -val n = op + (5, 5) -(* n is now 10 *) +(* An infix function/operator can be made prefix with 'op' *) +val n = op + (5, 5) (* n is now 10 *) -(* op is useful when combined with high order functions *) -val listSum = foldl op + 0 [1,2,3,4,5] +(* 'op' is useful when combined with high order functions because they expect + functions and not operators as arguments. Most operators are really just + infix functions. *) +val sum_of_numbers = foldl op+ 0 [1,2,3,4,5] (* Datatypes are useful for creating both simple and complex structures *) @@ -291,6 +298,8 @@ fun say(col) = if col = Blue then "You are blue!" else raise Fail "Unknown color" +val _ = print (say(Red) ^ "\n") + (* Datatypes are very often used in combination with pattern matching *) fun say Red = "You are red!" | say Green = "You are green!" @@ -318,28 +327,40 @@ val myTree = Node (Leaf 9, 8, Node (Leaf 3, 5, Leaf 7)) fun count (Leaf n) = n | count (Node (leftTree, n, rightTree)) = count leftTree + n + count rightTree +val myTreeCount = count myTree (* myTreeCount is now bound to 32 *) -(* Exceptions! *) -(* Exceptions can be raised using "raise" *) -fun raiseException msg = raise Fail msg -(* This raises exception `Fail "hello from exception"` *) -(* val _ = raiseException "hello from exception" *) +(* Exceptions! *) +(* Exceptions can be raised/thrown using the reserved word 'raise' *) +fun calculate_interest(n) = if n < 0.0 + then raise Domain + else n * 1.04 (* Exceptions can be caught using "handle" *) -val x = raiseException "hello" handle Fail msg => msg -(* x now has the value "hello" *) +val balance = calculate_interest ~180.0 + handle Domain => ~180.0 (* x now has the value ~180.0 *) -(* We can pattern match in "handle" to make sure +(* Some exceptions carry extra information with them *) +(* Here are some examples of built-in exceptions *) +fun failing_function [] = raise Empty (* used for empty lists *) + | failing_function [x] = raise Fail "This list is too short!" + | failing_function [x,y] = raise Overflow (* used for arithmetic *) + | failing_function xs = raise Fail "This list is too long!" + +(* We can pattern match in 'handle' to make sure a specfic exception was raised, or grab the message *) -val y = raiseException "..." handle Fail _ => "Fail was raised" - | Domain => "Domain was raised" -(* y now has the value "Fail was raised" *) +val err_msg = failing_function [1,2] handle Fail _ => "Fail was raised" + | Domain => "Domain was raised" + | Empty => "Empty was raised" + | _ => "Unknown exception" + +(* err_msg now has the value "Unknown exception" because Overflow isn't + listed as one of the patterns -- thus, the catch-all pattern _ is used. *) (* We can define our own exceptions like this *) exception MyException exception MyExceptionWithMessage of string - +exception SyntaxError of string * (int * int) (* File I/O! *) (* Write a nice poem to a file *) @@ -372,4 +393,4 @@ val test_poem = readPoem "roses.txt" (* gives [ "Roses are red,", [SML/NJ](http://smlnj.org/). * Follow the Coursera course [Programming Languages](https://www.coursera.org/course/proglang). * Get the book *ML for the Working Programmer* by Larry C. Paulson. - +* Use [StackOverflow's sml tag](http://stackoverflow.com/questions/tagged/sml). |