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-rw-r--r--perl6.html.markdown358
1 files changed, 181 insertions, 177 deletions
diff --git a/perl6.html.markdown b/perl6.html.markdown
index b178de1e..b10e04bf 100644
--- a/perl6.html.markdown
+++ b/perl6.html.markdown
@@ -35,7 +35,8 @@ my $variable;
## * Scalars. They represent a single value. They start with a `$`
my $str = 'String';
-my $str2 = "String"; # double quotes allow for interpolation
+# double quotes allow for interpolation (which we'll see later):
+my $str2 = "String";
# variable names can contain but not end with simple quotes and dashes,
# and can contain (and end with) underscores :
@@ -66,23 +67,13 @@ my @keys = 0, 2;
@array[@keys] = @letters; # Assign using an array
say @array; #=> a 6 b
-# There are two more kinds of lists: Parcel and Arrays.
-# Parcels are immutable lists (you can't modify a list that's not assigned).
-# This is a parcel:
-(1, 2, 3); # Not assigned to anything. Changing an element would provoke an error
-# This is a list:
-my @a = (1, 2, 3); # Assigned to `@a`. Changing elements is okay!
-
-# Lists flatten (in list context). You'll see below how to apply item context
-# or use arrays to have real nested lists.
-
-
-## * Hashes. Key-Value Pairs.
-# Hashes are actually arrays of Pairs (`Key => Value`),
-# except they get "flattened", removing duplicated keys.
+## * Hashes, or key-value Pairs.
+# Hashes are actually arrays of Pairs
+# (you can construct a Pair object using the syntax `Key => Value`),
+# except they get "flattened" (hash context), removing duplicated keys.
my %hash = 1 => 2,
3 => 4;
-my %hash = autoquoted => "key", # keys *can* get auto-quoted
+my %hash = autoquoted => "key", # keys get auto-quoted
"some other" => "value", # trailing commas are okay
;
my %hash = <key1 value1 key2 value2>; # you can also create a hash
@@ -112,30 +103,6 @@ sub say-hello-to(Str $name) { # You can provide the type of an argument
say "Hello, $name !";
}
-# Since you can omit parenthesis to call a function with no arguments,
-# you need "&" in the name to capture `say-hello`.
-my &s = &say-hello;
-my &other-s = sub { say "Anonymous function !" }
-
-# A sub can have a "slurpy" parameter, or "doesn't-matter-how-many"
-sub as-many($head, *@rest) { # `*@` (slurpy) will basically "take everything else".
- # Note: you can have parameters *before* (like here)
- # a slurpy one, but not *after*.
- say @rest.join(' / ') ~ " !";
-}
-say as-many('Happy', 'Happy', 'Birthday'); #=> Happy / Birthday !
- # Note that the splat did not consume
- # the parameter before.
-
-## You can call a function with an array using the
-# "argument list flattening" operator `|`
-# (it's not actually the only role of this operator, but it's one of them)
-sub concat3($a, $b, $c) {
- say "$a, $b, $c";
-}
-concat3(|@array); #=> a, b, c
- # `@array` got "flattened" as a part of the argument list
-
## It can also have optional arguments:
sub with-optional($arg?) { # the "?" marks the argument optional
say "I might return `(Any)` if I don't have an argument passed,
@@ -154,23 +121,20 @@ hello-to; #=> Hello, World !
hello-to(); #=> Hello, World !
hello-to('You'); #=> Hello, You !
-## You can also, by using a syntax akin to the one of hashes (yay unification !),
+## You can also, by using a syntax akin to the one of hashes (yay unified syntax !),
## pass *named* arguments to a `sub`.
+# They're optional, and will default to "Any" (Perl's "null"-like value).
sub with-named($normal-arg, :$named) {
say $normal-arg + $named;
}
with-named(1, named => 6); #=> 7
# There's one gotcha to be aware of, here:
# If you quote your key, Perl 6 won't be able to see it at compile time,
-# and you'll have a single Pair object as a positional paramater.
+# and you'll have a single Pair object as a positional paramater,
+# which means this fails:
+with-named(1, 'named' => 6);
with-named(2, :named(5)); #=> 7
-with-named(3, :4named); #=> 7
- # (special colon pair syntax for numbers,
- # to be used with s// and such, see later)
-
-with-named(3); # warns, because we tried to use the undefined $named in a `+`:
- # by default, named arguments are *optional*
# To make a named argument mandatory, you can use `?`'s inverse, `!`
sub with-mandatory-named(:$str!) {
@@ -187,11 +151,6 @@ sub takes-a-bool($name, :$bool) {
# ... you can use the same "short boolean" hash syntax:
takes-a-bool('config', :bool); # config takes True
takes-a-bool('config', :!bool); # config takes False
-# or you can use the "adverb" form:
-takes-a-bool('config'):bool; #=> config takes True
-takes-a-bool('config'):!bool; #=> config takes False
-# You'll learn to love (or maybe hate, eh) that syntax later.
-
## You can also provide your named arguments with defaults:
sub named-def(:$def = 5) {
@@ -201,8 +160,29 @@ named-def; #=> 5
named-def(:10def); #=> 10
named-def(def => 15); #=> 15
-# -- Note: we're going to learn *more* on subs really soon,
-# but we need to grasp a few more things to understand their real power. Ready?
+# Since you can omit parenthesis to call a function with no arguments,
+# you need "&" in the name to capture `say-hello`.
+my &s = &say-hello;
+my &other-s = sub { say "Anonymous function !" }
+
+# A sub can have a "slurpy" parameter, or "doesn't-matter-how-many"
+sub as-many($head, *@rest) { # `*@` (slurpy) will basically "take everything else".
+ # Note: you can have parameters *before* (like here)
+ # a slurpy one, but not *after*.
+ say @rest.join(' / ') ~ " !";
+}
+say as-many('Happy', 'Happy', 'Birthday'); #=> Happy / Birthday !
+ # Note that the splat did not consume
+ # the parameter before.
+
+## You can call a function with an array using the
+# "argument list flattening" operator `|`
+# (it's not actually the only role of this operator, but it's one of them)
+sub concat3($a, $b, $c) {
+ say "$a, $b, $c";
+}
+concat3(|@array); #=> a, b, c
+ # `@array` got "flattened" as a part of the argument list
### Containers
# In Perl 6, values are actually stored in "containers".
@@ -220,23 +200,19 @@ sub mutate($n is rw) {
# A sub itself returns a container, which means it can be marked as rw:
my $x = 42;
-sub mod() is rw { $x }
-mod() = 52; # in this case, the parentheses are mandatory
- # (else Perl 6 thinks `mod` is a "term")
+sub x-store() is rw { $x }
+x-store() = 52; # in this case, the parentheses are mandatory
+ # (else Perl 6 thinks `mod` is an identifier)
say $x; #=> 52
### Control Flow Structures
-
-# You don't need to put parenthesis around the condition,
-# but that also means you always have to use brackets (`{ }`) for their body:
-
## Conditionals
# - `if`
# Before talking about `if`, we need to know which values are "Truthy"
# (represent True), and which are "Falsey" (or "Falsy") -- represent False.
-# Only these values are Falsey: (), 0, "0", Nil, A type (like `Str` or `Int`),
+# Only these values are Falsey: (), 0, "0", "", Nil, A type (like `Str` or `Int`),
# and of course False itself.
# Every other value is Truthy.
if True {
@@ -247,30 +223,38 @@ unless False {
say "It's not false !";
}
+# As you can see, you don't need parentheses around conditions.
+# However, you do need the brackets around the "body" block:
+# if (true) say; # This doesn't work !
+
# You can also use their postfix versions, with the keyword after:
say "Quite truthy" if True;
-# if (true) say; # This doesn't work !
-
# - Ternary conditional, "?? !!" (like `x ? y : z` in some other languages)
my $a = $condition ?? $value-if-true !! $value-if-false;
# - `given`-`when` looks like other languages `switch`, but much more
# powerful thanks to smart matching and thanks to Perl 6's "topic variable", $_.
+#
# This variable contains the default argument of a block,
# a loop's current iteration (unless explicitly named), etc.
+#
# `given` simply puts its argument into `$_` (like a block would do),
# and `when` compares it using the "smart matching" (`~~`) operator.
+#
# Since other Perl 6 constructs use this variable (as said before, like `for`,
# blocks, etc), this means the powerful `when` is not only applicable along with
# a `given`, but instead anywhere a `$_` exists.
given "foo bar" {
- when /foo/ { # Don't worry about smart matching -- just know `when` uses it.
+ say $_; #=> foo bar
+ when /foo/ { # Don't worry about smart matching yet – just know `when` uses it.
# This is equivalent to `if $_ ~~ /foo/`.
say "Yay !";
}
when $_.chars > 50 { # smart matching anything with True (`$a ~~ True`) is True,
# so you can also put "normal" conditionals.
+ # This when is equivalent to this `if`:
+ # if ($_.chars > 50) ~~ True {...}
say "Quite a long string !";
}
default { # same as `when *` (using the Whatever Star)
@@ -281,7 +265,7 @@ given "foo bar" {
## Looping constructs
# - `loop` is an infinite loop if you don't pass it arguments,
-# but can also be a c-style `for`:
+# but can also be a C-style `for` loop:
loop {
say "This is an infinite loop !";
last; # last breaks out of the loop, like the `break` keyword in other languages
@@ -296,7 +280,7 @@ loop (my $i = 0; $i < 5; $i++) {
# - `for` - Passes through an array
for @array -> $variable {
- say "I've found $variable !";
+ say "I've got $variable !";
}
# As we saw with given, for's default "current iteration" variable is `$_`.
@@ -316,22 +300,15 @@ for @array {
last if $_ == 5; # Or break out of a loop (like `break` in C-like languages).
}
-# Note - the "lambda" `->` syntax isn't reserved to `for`:
+# The "pointy block" syntax isn't specific to for.
+# It's just a way to express a block in Perl6.
if long-computation() -> $result {
say "The result is $result";
}
-## Loops can also have a label, and be jumped to through these.
-OUTER: while 1 {
- say "hey";
- while 1 {
- OUTER.last; # All the control keywords must be called on the label itself
- }
-}
-
# Now that you've seen how to traverse a list, you need to be aware of something:
# List context (@) flattens. If you traverse nested lists, you'll actually be traversing a
-# shallow list (except if some sub-list were put in item context ($)).
+# shallow list.
for 1, 2, (3, (4, ((5)))) {
say "Got $_.";
} #=> Got 1. Got 2. Got 3. Got 4. Got 5.
@@ -348,9 +325,14 @@ for [1, 2, 3, 4] {
say "Got $_.";
} #=> Got 1 2 3 4.
-# The other difference between `$()` and `[]` is that `[]` always returns a mutable Array
-# whereas `$()` will return a Parcel when given a Parcel.
+# You need to be aware of when flattening happens exactly.
+# The general guideline is that argument lists flatten, but not method calls.
+# Also note that `.list` and array assignment flatten (`@ary = ...`) flatten.
+((1,2), 3, (4,5)).map({...}); # iterates over three elements (method call)
+map {...}, ((1,2),3,(4,5)); # iterates over five elements (argument list is flattened)
+(@a, @b, @c).pick(1); # picks one of three arrays (method call)
+pick 1, @a, @b, @c; # flattens argument list and pick one element
### Operators
@@ -394,9 +376,6 @@ $arg ~~ &bool-returning-function; # `True` if the function, passed `$arg`
1 ~~ True; # smart-matching against a boolean always returns that boolean
# (and will warn).
-# - `===` is value identity and uses `.WHICH` on the objects to compare them
-# - `=:=` is container identity and uses `VAR()` on the objects to compare them
-
# You also, of course, have `<`, `<=`, `>`, `>=`.
# Their string equivalent are also avaiable : `lt`, `le`, `gt`, `ge`.
3 > 4;
@@ -559,6 +538,21 @@ map(sub ($a, $b) { $a + $b + 3 }, @array); # (here with `sub`)
# Note : those are sorted lexicographically.
# `{ $^b / $^a }` is like `-> $a, $b { $b / $a }`
+## About types...
+# Perl6 is gradually typed. This means you can specify the type
+# of your variables/arguments/return types, or you can omit them
+# and they'll default to "Any".
+# You obviously get access to a few base types, like Int and Str.
+# The constructs for declaring types are "class", "role",
+# which you'll see later.
+
+# For now, let us examinate "subset":
+# a "subset" is a "sub-type" with additional checks.
+# For example: "a very big integer is an Int that's greater than 500"
+# You can specify the type you're subtyping (by default, Any),
+# and add additional checks with the "where" keyword:
+subset VeryBigInteger of Int where * > 500;
+
## Multiple Dispatch
# Perl 6 can decide which variant of a `sub` to call based on the type of the
# arguments, or on arbitrary preconditions, like with a type or a `where`:
@@ -567,20 +561,19 @@ map(sub ($a, $b) { $a + $b + 3 }, @array); # (here with `sub`)
multi sub sayit(Int $n) { # note the `multi` keyword here
say "Number: $n";
}
-multi sayit(Str $s) } # the `sub` is the default
+multi sayit(Str $s) } # a multi is a `sub` by default
say "String: $s";
}
sayit("foo"); # prints "String: foo"
sayit(True); # fails at *compile time* with
# "calling 'sayit' will never work with arguments of types ..."
-# with arbitrary precondition:
+# with arbitrary precondition (remember subsets?):
multi is-big(Int $n where * > 50) { "Yes !" } # using a closure
multi is-big(Int $ where 10..50) { "Quite." } # Using smart-matching
# (could use a regexp, etc)
multi is-big(Int $) { "No" }
-# You can also name these checks, by creating "subsets":
subset Even of Int where * %% 2;
multi odd-or-even(Even) { "Even" } # The main case using the type.
@@ -724,7 +717,7 @@ role PrintableVal {
}
}
-# you "use" a mixin with "does" :
+# you "import" a mixin (a "role") with "does":
class Item does PrintableVal {
has $.val;
@@ -1083,9 +1076,7 @@ postcircumfix:<{ }>(%h, $key, :delete); # (you can call operators like that)
# It's a prefix meta-operator that takes a binary functions and
# one or many lists. If it doesn't get passed any argument,
# it either return a "default value" for this operator
-# (a value that wouldn't change the result if passed as one
-# of the element of the list to be passed to the operator),
-# or `Any` if there's none (examples below).
+# (a meaningless value) or `Any` if there's none (examples below).
#
# Otherwise, it pops an element from the list(s) one at a time, and applies
# the binary function to the last result (or the list's first element)
@@ -1107,9 +1098,7 @@ say [//] Nil, Any, False, 1, 5; #=> False
# Default value examples:
say [*] (); #=> 1
say [+] (); #=> 0
- # In both cases, they're results that, were they in the lists,
- # wouldn't have any impact on the final value
- # (since N*1=N and N+0=N).
+ # meaningless values, since N*1=N and N+0=N.
say [//]; #=> (Any)
# There's no "default value" for `//`.
@@ -1163,90 +1152,6 @@ say @fib[^10]; #=> 1 1 2 3 5 8 13 21 34 55
# That's why `@primes[^100]` will take a long time the first time you print
# it, then be instant.
-
-## * Sort comparison
-# They return one value of the `Order` enum : `Less`, `Same` and `More`
-# (which numerify to -1, 0 or +1).
-1 <=> 4; # sort comparison for numerics
-'a' leg 'b'; # sort comparison for string
-$obj eqv $obj2; # sort comparison using eqv semantics
-
-## * Generic ordering
-3 before 4; # True
-'b' after 'a'; # True
-
-## * Short-circuit default operator
-# Like `or` and `||`, but instead returns the first *defined* value :
-say Any // Nil // 0 // 5; #=> 0
-
-## * Short-circuit exclusive or (XOR)
-# Returns `True` if one (and only one) of its arguments is true
-say True ^^ False; #=> True
-
-## * Flip Flop
-# The flip flop operators (`ff` and `fff`, equivalent to P5's `..`/`...`).
-# are operators that take two predicates to test:
-# They are `False` until their left side returns `True`, then are `True` until
-# their right side returns `True`.
-# Like for ranges, you can exclude the iteration when it became `True`/`False`
-# by using `^` on either side.
-# Let's start with an example :
-for <well met young hero we shall meet later> {
- # by default, `ff`/`fff` smart-match (`~~`) against `$_`:
- if 'met' ^ff 'meet' { # Won't enter the if for "met"
- # (explained in details below).
- .say
- }
-
- if rand == 0 ff rand == 1 { # compare variables other than `$_`
- say "This ... probably will never run ...";
- }
-}
-# This will print "young hero we shall meet" (excluding "met"):
-# the flip-flop will start returning `True` when it first encounters "met"
-# (but will still return `False` for "met" itself, due to the leading `^`
-# on `ff`), until it sees "meet", which is when it'll start returning `False`.
-
-# The difference between `ff` (awk-style) and `fff` (sed-style) is that
-# `ff` will test its right side right when its left side changes to `True`,
-# and can get back to `False` right away
-# (*except* it'll be `True` for the iteration that matched) -
-# While `fff` will wait for the next iteration to
-# try its right side, once its left side changed:
-.say if 'B' ff 'B' for <A B C B A>; #=> B B
- # because the right-hand-side was tested
- # directly (and returned `True`).
- # "B"s are printed since it matched that time
- # (it just went back to `False` right away).
-.say if 'B' fff 'B' for <A B C B A>; #=> B C B
- # The right-hand-side wasn't tested until
- # `$_` became "C"
- # (and thus did not match instantly).
-
-# A flip-flop can change state as many times as needed:
-for <test start print it stop not printing start print again stop not anymore> {
- .say if $_ eq 'start' ^ff^ $_ eq 'stop'; # exclude both "start" and "stop",
- #=> "print this printing again"
-}
-
-# you might also use a Whatever Star,
-# which is equivalent to `True` for the left side or `False` for the right:
-for (1, 3, 60, 3, 40, 60) { # Note: the parenthesis are superfluous here
- # (sometimes called "superstitious parentheses")
- .say if $_ > 50 ff *; # Once the flip-flop reaches a number greater than 50,
- # it'll never go back to `False`
- #=> 60 3 40 60
-}
-
-# You can also use this property to create an `If`
-# that'll not go through the first time :
-for <a b c> {
- .say if * ^ff *; # the flip-flop is `True` and never goes back to `False`,
- # but the `^` makes it *not run* on the first iteration
- #=> b c
-}
-
-
### Regular Expressions
# I'm sure a lot of you have been waiting for this one.
# Well, now that you know a good deal of Perl 6 already, we can get started.
@@ -1470,6 +1375,105 @@ multi MAIN('import', File, Str :$as) { ... } # omitting parameter name
# As you can see, this is *very* powerful.
# It even went as far as to show inline the constants.
# (the type is only displayed if the argument is `$`/is named)
+
+###
+### APPENDIX A:
+###
+### List of things
+###
+
+# It's considered by now you know the Perl6 basics.
+# This section is just here to list some common operations,
+# but which are not in the "main part" of the tutorial to bloat it up
+
+## Operators
+
+
+## * Sort comparison
+# They return one value of the `Order` enum : `Less`, `Same` and `More`
+# (which numerify to -1, 0 or +1).
+1 <=> 4; # sort comparison for numerics
+'a' leg 'b'; # sort comparison for string
+$obj eqv $obj2; # sort comparison using eqv semantics
+
+## * Generic ordering
+3 before 4; # True
+'b' after 'a'; # True
+
+## * Short-circuit default operator
+# Like `or` and `||`, but instead returns the first *defined* value :
+say Any // Nil // 0 // 5; #=> 0
+
+## * Short-circuit exclusive or (XOR)
+# Returns `True` if one (and only one) of its arguments is true
+say True ^^ False; #=> True
+## * Flip Flop
+# The flip flop operators (`ff` and `fff`, equivalent to P5's `..`/`...`).
+# are operators that take two predicates to test:
+# They are `False` until their left side returns `True`, then are `True` until
+# their right side returns `True`.
+# Like for ranges, you can exclude the iteration when it became `True`/`False`
+# by using `^` on either side.
+# Let's start with an example :
+for <well met young hero we shall meet later> {
+ # by default, `ff`/`fff` smart-match (`~~`) against `$_`:
+ if 'met' ^ff 'meet' { # Won't enter the if for "met"
+ # (explained in details below).
+ .say
+ }
+
+ if rand == 0 ff rand == 1 { # compare variables other than `$_`
+ say "This ... probably will never run ...";
+ }
+}
+# This will print "young hero we shall meet" (excluding "met"):
+# the flip-flop will start returning `True` when it first encounters "met"
+# (but will still return `False` for "met" itself, due to the leading `^`
+# on `ff`), until it sees "meet", which is when it'll start returning `False`.
+
+# The difference between `ff` (awk-style) and `fff` (sed-style) is that
+# `ff` will test its right side right when its left side changes to `True`,
+# and can get back to `False` right away
+# (*except* it'll be `True` for the iteration that matched) -
+# While `fff` will wait for the next iteration to
+# try its right side, once its left side changed:
+.say if 'B' ff 'B' for <A B C B A>; #=> B B
+ # because the right-hand-side was tested
+ # directly (and returned `True`).
+ # "B"s are printed since it matched that time
+ # (it just went back to `False` right away).
+.say if 'B' fff 'B' for <A B C B A>; #=> B C B
+ # The right-hand-side wasn't tested until
+ # `$_` became "C"
+ # (and thus did not match instantly).
+
+# A flip-flop can change state as many times as needed:
+for <test start print it stop not printing start print again stop not anymore> {
+ .say if $_ eq 'start' ^ff^ $_ eq 'stop'; # exclude both "start" and "stop",
+ #=> "print this printing again"
+}
+
+# you might also use a Whatever Star,
+# which is equivalent to `True` for the left side or `False` for the right:
+for (1, 3, 60, 3, 40, 60) { # Note: the parenthesis are superfluous here
+ # (sometimes called "superstitious parentheses")
+ .say if $_ > 50 ff *; # Once the flip-flop reaches a number greater than 50,
+ # it'll never go back to `False`
+ #=> 60 3 40 60
+}
+
+# You can also use this property to create an `If`
+# that'll not go through the first time :
+for <a b c> {
+ .say if * ^ff *; # the flip-flop is `True` and never goes back to `False`,
+ # but the `^` makes it *not run* on the first iteration
+ #=> b c
+}
+
+
+# - `===` is value identity and uses `.WHICH` on the objects to compare them
+# - `=:=` is container identity and uses `VAR()` on the objects to compare them
+
```
If you want to go further, you can: