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AST_FORMAT.md

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AST and Source Location

Literals

Singletons

Format:

(true)
"true"
 ~~~~ expression

(false)
"false"
 ~~~~~ expression

(nil)
"nil"
 ~~~ expression

Integer

Format:

(int 123)
"123"
 ~~~ expression

(int -123)
"-123"
 ^ operator
 ~~~ expression

(int 1)
"__LINE__"
 ~~~~~~~~ expression

Float

Format:

(float 1.0)
"1.0"
 ~~~ expression

(float -1.0)
"-1.0"
 ^ operator
 ~~~~ expression

Complex

Format:

(complex (0+1i))
"1i"
 ~~ expression

(complex (0+(1/1)*i))
"1ri"
 ~~~ expression

Rational

Format:

(rational (2/1))
"2.0r"
 ~~~~ expression

String

Plain

Format:

(str "foo")
"'foo'"
 ^ begin
     ^ end
 ~~~~~ expresion

(string "foo.rb")
"__FILE__"
 ~~~~~~~~ expression

With interpolation

Format:

(dstr (str "foo") (begin (lvar bar)) (str "baz"))
'"foo#{bar}baz"'
 ^ begin      ^ end
 ~~~~~~~~~~~~~~ expression
     ^^ begin (begin)
          ^ end (begin)
     ^^^^^^ expression (begin)

Here document

Format:

(str "foo\nbar\n")
'<<HERE␊foo␊bar␊HERE'
 ~~~~~~ expression
        ~~~~~~~~ heredoc_body
                ~~~~ heredoc_end

Symbol

Plain

Format:

(sym :foo)
":foo"
 ~~~~ expresion

":'foo'"
  ^ begin
      ^ end
 ~~~~~~ expression

With interpolation

Format:

(dsym (str "foo") (lvar bar) (str "baz"))
':"foo#{bar}baz"'
  ^ begin      ^ end
 ~~~~~~~~~~~~~~~ expression

Execute-string

Plain

Format:

(xstr (str "foo") (lvar bar))
"`foo#{bar}`"
 ^ begin   ^ end
 ~~~~~~~~~~~ expression

Here document

Format:

(xstr (str "foo\nbar\n"))
"<<`HERE`␊foo␊bar␊HERE"
 ~~~~~~~~ expression
          ~~~~~~~~ heredoc_body
                  ~~~~ heredoc_end

Regexp

Options

Format:

(regopt :i :m)
"im"
 ~~ expression

Regexp

Format:

(regexp (str "foo") (lvar :bar) (regopt :i))
"/foo#{bar}/i"
 ^ begin   ^ end
 ~~~~~~~~~~~ expression

Array

Plain

Format:

(array (int 1) (int 2))

"[1, 2]"
 ^ begin
      ^ end
 ~~~~~~ expression

Splat

Can also be used in argument lists: foo(bar, *baz)

Format:

(splat (lvar :foo))
"*foo"
 ^ operator
 ~~~~ expression

With interpolation

Format:

(array (int 1) (splat (lvar :foo)) (int 2))

"[1, *foo, 2]"
 ^ begin    ^ end
 ~~~~~~~~~~~~ expression

Hash

Pair

With hashrocket

Format:

(pair (int 1) (int 2))
"1 => 2"
   ~~ operator
 ~~~~~~ expression
With label (1.9)

Format:

(pair (sym :answer) (int 42))
"answer: 42"
       ^ operator (pair)
 ~~~~~~ expression (sym)
 ~~~~~~~~~~ expression (pair)

Plain

Format:

(hash (pair (int 1) (int 2)) (pair (int 3) (int 4)))
"{1 => 2, 3 => 4}"
 ^ begin        ^ end
 ~~~~~~~~~~~~~~~~ expression

Keyword splat (2.0)

Can also be used in argument lists: foo(bar, **baz)

Format:

(kwsplat (lvar :foo))
"**foo"
 ~~ operator
 ~~~~~ expression

With interpolation (2.0)

Format:

(hash (pair (sym :foo) (int 2)) (kwsplat (lvar :bar)))
"{ foo: 2, **bar }"
 ^ begin         ^ end
 ~~~~~~~~~~~~~~~~~ expression

Range

Inclusive

Format:

(irange (int 1) (int 2))
"1..2"
  ~~ operator
 ~~~~ expression

Exclusive

Format:

(erange (int 1) (int 2))
"1...2"
  ~~~ operator
 ~~~~~ expression

Endless (2.6)

Format:

(irange (int 1) nil)
"1.."
  ~~ operator
 ~~~ expression

(erange (int 1) nil)
"1..."
  ~~~ operator
 ~~~~ expression

Beginless (2.7)

Format:

(irange nil (int 1))
"..1"
 ~~ operator
 ~~~ expression

(erange nil (int 1))
"...1"
 ~~~ operator
 ~~~~ expression

Access

Self

Format:

(self)
"self"
 ~~~~ expression

Local variable

Format:

(lvar :foo)
"foo"
 ~~~ expression

Instance variable

Format:

(ivar :@foo)
"@foo"
 ~~~~ expression

Class variable

Format:

(cvar :@@foo)
"@@foo"
 ~~~~~ expression

Global variable

Regular global variable

Format:

(gvar :$foo)
"$foo"
 ~~~~ expression

Regular expression capture groups

Format:

(nth-ref 1)
"$1"
 ~~ expression

Regular expression back-references

Format:

(back-ref :$&)
"$&"
 ~~ expression
(back-ref :$`)
"$`"
(back-ref :$')
"$'"
(back-ref :$+)
"$+"

Constant

Top-level constant

Format:

(const (cbase) :Foo)
"::Foo"
   ~~~ name
 ~~ double_colon
 ~~~~~ expression

Scoped constant

Format:

(const (lvar :a) :Foo)
"a::Foo"
    ~~~ name
  ~~ double_colon
 ~~~~~~ expression

Unscoped constant

Format:

(const nil :Foo)
"Foo"
 ~~~ name
 ~~~ expression

defined?

Format:

(defined? (lvar :a))
"defined? a"
 ~~~~~~~~ keyword
 ~~~~~~~~~~ expression

"defined?(a)"
 ~~~~~~~~ keyword
         ^ begin
           ^ end
 ~~~~~~~~~~~ expression

Assignment

To local variable

Format:

(lvasgn :foo (lvar :bar))
"foo = bar"
     ^ operator
 ~~~~~~~~~ expression

To instance variable

Format:

(ivasgn :@foo (lvar :bar))
"@foo = bar"
      ^ operator
 ~~~~~~~~~~ expression

To class variable

Format:

(cvasgn :@@foo (lvar :bar))
"@@foo = bar"
       ^ operator
 ~~~~~~~~~~~ expression

To global variable

Format:

(gvasgn :$foo (lvar :bar))
"$foo = bar"
      ^ operator
 ~~~~~~~~~~ expression

To constant

Top-level constant

Format:

(casgn (cbase) :Foo (int 1))
"::Foo = 1"
   ~~~ name
       ~ operator
 ~~~~~~~ expression

Scoped constant

Format:

(casgn (lvar :a) :Foo (int 1))
"a::Foo = 1"
    ~~~ name
        ~ operator
 ~~~~~~~~ expression

Unscoped constant

Format:

(casgn nil :Foo (int 1))
"Foo = 1"
 ~~~ name
     ~ operator
 ~~~~~~~ expression

To attribute

Format:

(send (self) :foo= (int 1))
"self.foo = 1"
     ^ dot
      ~~~ selector
          ^ operator
 ~~~~~~~~~~~~ expression

To attribute, using "safe navigation operator"

Format:

(csend (self) :foo= (int 1))
"self&.foo = 1"
     ^^ dot
       ~~~ selector
           ^ operator
 ~~~~~~~~~~~~~ expression

Multiple assignment

Multiple left hand side

Format:

(mlhs (lvasgn :a) (lvasgn :b))
"a, b"
 ~~~~ expression
"(a, b)"
 ^ begin
      ^ end
 ~~~~~~ expression

Assignment

Rule of thumb: every node inside (mlhs) is "incomplete"; to make it "complete", one could imagine that a corresponding node from the mrhs is "appended" to the node in question. This applies both to side-effect free assignments (lvasgn, etc) and side-effectful assignments (send).

Format:

(masgn (mlhs (lvasgn :foo) (lvasgn :bar)) (array (int 1) (int 2)))
"foo, bar = 1, 2"
          ^ operator
 ~~~~~~~~~~~~~~~ expression

(masgn (mlhs (ivasgn :@a) (cvasgn :@@b)) (array (splat (lvar :c))))
"@a, @@b = *c"

(masgn (mlhs (mlhs (lvasgn :a) (lvasgn :b)) (lvasgn :c)) (lvar :d))
"a, (b, c) = d"

(masgn (mlhs (send (self) :a=) (send (self) :[]= (int 1))) (lvar :a))
"self.a, self[1] = a"

Binary operator-assignment

Binary operator-assignment features the same "incomplete assignments" and "incomplete calls" as multiple assignment.

Variable binary operator-assignment

Format:

(op-asgn (lvasgn :a) :+ (int 1))
"a += 1"
   ~~ operator
 ~~~~~~ expression

(op-asgn (ivasgn :a) :+ (int 1))
"@a += 1"

Method binary operator-assignment

Format:

(op-asgn (send (ivar :@a) :b) :+ (int 1))
"@a.b += 1"
    ~ selector (send)
 ~~~~ expression (send)
      ~~ operator (op-asgn)
 ~~~~~~~~~ expression (op-asgn)

(op-asgn (send (ivar :@a) :[] (int 0) (int 1))) :+ (int 1))
"@a[0, 1] += 1"
   ~~~~~~ selector (send)
 ~~~~~~~~ expression (send)
          ~~ operator (op-asgn)
 ~~~~~~~~~~~~~ expression (op-asgn)

Logical operator-assignment

Logical operator-assignment features the same "incomplete assignments" and "incomplete calls" as multiple assignment.

Variable logical operator-assignment

Format:

(or-asgn (ivasgn :@a) (int 1))
"@a ||= 1"
    ~~~ operator
 ~~~~~~~~ expression

(and-asgn (lvasgn :a) (int 1))
"a &&= 1"
   ~~~ operator
 ~~~~~~~ expression

Method logical operator-assignment

Format:

(or-asgn (send (ivar :@foo) :bar) (int 1))
"@foo.bar ||= 1"
      ~~~ selector (send)
 ~~~~~~~~ expr (send)
          ~~~ operator (or-asgn)
 ~~~~~~~~~~~~~~ expression (or-asgn)

(and-asgn (send (lvar :@foo) :bar) (int 1))
"foo.bar &&= 1"
     ~~~ selector (send)
 ~~~~~~~ expr (send)
         ~~~ operator (and-asgn)
 ~~~~~~~~~~~~~ expression (and-asgn)

(or-asgn (send (ivar :@foo) :[] (int 1) (int 2)) (int 1))
"@foo[1, 2] ||= 1"
     ~~~~~~ selector (send)
 ~~~~~~~~~~ expr (send)
            ~~~ operator (or-asgn)
 ~~~~~~~~~~~~~~~~ expression (or-asgn)

Class and module definition

Module

Format:

(module (const nil :Foo) (nil))
"module Foo; end"
 ~~~~~~ keyword
             ~~~ end

Class

Format:

(class (const nil :Foo) (const nil :Bar) (nil))
"class Foo < Bar; end"
 ~~~~~ keyword    ~~~ end
           ~ operator
 ~~~~~~~~~~~~~~~~~~~~ expression

(class (const nil :Foo) nil (nil))
"class Foo; end"
 ~~~~~ keyword
            ~~~ end
 ~~~~~~~~~~~~~~ expression

Singleton class

Format:

(sclass (lvar :a) (nil))
"class << a; end"
 ~~~~~ keyword
       ~~ operator
             ~~~ end
 ~~~~~~~~~~~~~~~ expression

Method (un)definition

Instance methods

Format:

(def :foo (args) nil)
"def foo; end"
 ~~~ keyword
     ~~~ name
          ~~~ end
 ~~~~~~~~~~~~ expression

Singleton methods

Format:

(defs (self) :foo (args) nil)
"def self.foo; end"
 ~~~ keyword
          ~~~ name
               ~~~ end
 ~~~~~~~~~~~~~~~~~ expression

Undefinition

Format:

(undef (sym :foo) (sym :bar) (dsym (str "foo") (int 1)))
"undef foo :bar :"foo#{1}""
 ~~~~~ keyword
 ~~~~~~~~~~~~~~~~~~~~~~~~~ expression

Aliasing

Method aliasing

Format:

(alias (sym :foo) (dsym (str "foo") (int 1)))
"alias foo :"foo#{1}""
 ~~~~~ keyword
 ~~~~~~~~~~~~~~~~~~~~ expression

Global variable aliasing

Format:

(alias (gvar :$foo) (gvar :$bar))
"alias $foo $bar"
 ~~~~~ keyword
 ~~~~~~~~~~~~~~~ expression

(alias (gvar :$foo) (back-ref :$&))
"alias $foo $&"
 ~~~~~ keyword
 ~~~~~~~~~~~~~~~ expression

Formal arguments

Format:

(args (arg :foo))
"(foo)"
 ~~~~~ expression

Required argument

Format:

(arg :foo)
"foo"
 ~~~ expression
 ~~~ name

Optional argument

Format:

(optarg :foo (int 1))
"foo = 1"
 ~~~~~~~ expression
     ^ operator
 ~~~ name

Named splat argument

Format:

(restarg :foo)
"*foo"
 ~~~~ expression
  ~~~ name

Begin of the expression points to *.

Unnamed splat argument

Format:

(restarg)
"*"
 ^ expression

Block argument

Format:

(blockarg :foo)
"&foo"
  ~~~ name
 ~~~~ expression

Begin of the expression points to &.

Auto-expanding proc argument (1.9)

In Ruby 1.9 and later, when a proc-like closure (i.e. a closure created by capturing a block or with the proc method, but not with the ->{} syntax or the lambda method) has exactly one argument, and it is called with more than one argument, the behavior is as if the array of all arguments was instead passed as the sole argument. This behavior can be prevented by adding a comma after the sole argument (e.g. |foo,|).

Format:

(procarg0 (arg :foo))
"|foo|"
  ~~~ expression

(procarg0 (arg :foo) (arg :bar))
"|(foo, bar)|"
  ~ begin
           ~ end
  ~~~~~~~~~~ expression

Expression arguments

Ruby 1.8 allows to use arbitrary expressions as block arguments, such as @var or foo.bar. Such expressions should be treated as if they were on the lhs of a multiple assignment.

Format:

(args (arg_expr (ivasgn :@bar)))
"|@bar|"

(args (arg_expr (send (send nil :foo) :a=)))
"|foo.a|"

(args (restarg_expr (ivasgn :@bar)))
"|*@bar|"

(args (blockarg_expr (ivasgn :@bar)))
"|&@bar|"

Block shadow arguments

Format:

(args (shadowarg :foo) (shadowarg :bar))
"|; foo, bar|"

Decomposition

Format:

(def :f (args (arg :a) (mlhs (arg :foo) (restarg :bar))))
"def f(a, (foo, *bar)); end"
          ^ begin   ^ end
          ~~~~~~~~~~~ expression

Required keyword argument

Format:

(kwarg :foo)
"foo:"
 ~~~~ expression
 ~~~~ name

Optional keyword argument

Format:

(kwoptarg :foo (int 1))
"foo: 1"
 ~~~~~~ expression
 ~~~~ name

Named keyword splat argument

Format:

(kwrestarg :foo)
"**foo"
 ~~~~~ expression
   ~~~ name

Unnamed keyword splat argument

Format:

(kwrestarg)
"**"
 ~~ expression

Keyword nil argument

Format:

(kwnilarg)
"**nil"
   ~~~ name
 ~~~~~ expression

Objective-C arguments

MacRuby includes a few more syntactic "arguments" whose name becomes the part of the Objective-C method name, despite looking like Ruby 2.0 keyword arguments, and are thus treated differently.

Objective-C label-like keyword argument

Format:

(objc-kwarg :a :b)
"a: b"
 ~ keyword
  ~ operator
    ~ argument
 ~~~~ expression

Objective-C pair-like keyword argument

Format:

(objc-kwarg :a :b)
"a => b"
 ~ keyword
   ~~ operator
      ~ argument
 ~~~~~~ expression

Objective-C keyword splat argument

Format:

(objc-restarg (objc-kwarg :foo))
"(*a: b)"
   ~ objc-kwarg.keyword
    ~ objc-kwarg.operator
      ~ objc-kwarg.argument
  ~ operator
  ~~~~~ expression

Note that these splat arguments will only be parsed inside parentheses, e.g. in the following code:

def f((*a: b)); end

However, the following code results in a parse error:

def f(*a: b); end

Numbered parameters

Block with numbered parameters

Ruby 2.7 introduced a feature called "numbered parameters". Numbered and ordinal parameters are mutually exclusive, so if the block has only numbered parameters it also has a different AST node.

Note that the second child represents a total number of numbered parameters.

Format:

s(:numblock,
  s(:send, nil, :proc), 3,
  s(:send,
    s(:lvar, :_1), :+,
    s(:lvar, :_3)))
"proc { _1 + _3 }"
      ~ begin   ~ end
 ~~~~~~~~~~~~~~~~ expression

Forward arguments

Method definition accepting forwarding arguments

Ruby 2.7 introduced a feature called "arguments forwarding". When a method takes any arguments for forwarding them in the future the whole args node gets replaced with forward-args node.

Format:

(def :foo
  (forward-args) nil)
"def foo(...); end"
            ~ end
        ~ begin
        ~~~~~ expression

Method call taking arguments of the currently forwarding method

Format:

(send nil :foo
  (forwarded-args))
"foo(...)"
     ~~~ expression

Send

To self

Format:

(send nil :foo (lvar :bar))
"foo(bar)"
 ~~~ selector
    ^ begin
        ^ end
 ~~~~~~~~ expression

To receiver

Format:

(send (lvar :foo) :bar (int 1))
"foo.bar(1)"
    ^ dot
     ~~~ selector
        ^ begin
          ^ end
 ~~~~~~~~~~ expression

(send (lvar :foo) :+ (int 1))
"foo + 1"
     ^ selector
 ~~~~~~~ expression

(send (lvar :foo) :-@)
"-foo"
 ^ selector
 ~~~~ expression

(send (lvar :foo) :a= (int 1))
"foo.a = 1"
     ~ selector
       ^ operator
 ~~~~~~~~~ expression

To superclass

Format of super with arguments:

(super (lvar :a))
"super a"
 ~~~~~ keyword
 ~~~~~~~ expression

(super)
"super()"
      ^ begin
       ^ end
 ~~~~~ keyword
 ~~~~~~~ expression

Format of super without arguments (zero-arity):

(zsuper)
"super"
 ~~~~~ keyword
 ~~~~~ expression

To block argument

Format:

(yield (lvar :foo))
"yield(foo)"
 ~~~~~ keyword
      ^ begin
          ^ end
 ~~~~~~~~~~ expression

Indexing

Format:

(index (lvar :foo) (int 1))
"foo[1]"
    ^ begin
      ^ end
 ~~~~~~ expression

(indexasgn (lvar :bar) (int 1) (int 2) (lvar :baz))
"bar[1, 2] = baz"
    ^ begin
         ^ end
           ^ operator
 ~~~~~~~~~~~~~~~ expression

Passing a literal block

(block (send nil :foo) (args (arg :bar)) (begin ...))
"foo do |bar|; end"
     ~~ begin
               ~~~ end
     ~~~~~~~~~~~~~ expression

Passing expression as block

Used when passing expression as block foo(&bar)

(send nil :foo (int 1) (block-pass (lvar :foo)))
"foo(1, &foo)"
        ^ operator
        ~~~~ expression

"Stabby lambda"

(block (lambda) (args) nil)
"-> {}"
 ~~ lambda.expression

"Safe navigation operator"

(csend (send nil :foo) :bar)
"foo&.bar"
    ~~ dot

Objective-C variadic send

MacRuby allows to pass a variadic amount of arguments via the last keyword "argument". Semantically, these, together with the pair value of the last pair in the hash implicitly passed as the last argument, form an array, which replaces the pair value. Despite that, the node is called objc-varargs to distinguish it from a literal array passed as a value.

(send nil :foo (int 1) (hash (pair (sym :bar) (objc-varargs (int 1) (int 2) (nil)))))
"foo(1, bar: 2, 3, nil)"
             ~~~~~~~~~ expression (array)

Control flow

Logical operators

Binary (and or && ||)

Format:

(and (lvar :foo) (lvar :bar))
"foo and bar"
     ~~~ operator
 ~~~~~~~~~~~ expression
(or (lvar :foo) (lvar :bar))
"foo or bar"
     ~~ operator
 ~~~~~~~~~~ expression

Unary (! not) (1.8)

Format:

(not (lvar :foo))
"!foo"
 ^ operator
"not foo"
 ~~~ operator

Branching

Without else

Format:

(if (lvar :cond) (lvar :iftrue) nil)
"if cond then iftrue; end"
 ~~ keyword
         ~~~~ begin
                      ~~~ end
 ~~~~~~~~~~~~~~~~~~~~~~~~ expression

"if cond; iftrue; end"
 ~~ keyword
                  ~~~ end
 ~~~~~~~~~~~~~~~~~~~~ expression

"iftrue if cond"
        ~~ keyword
 ~~~~~~~~~~~~~~ expression

(if (lvar :cond) nil (lvar :iftrue))
"unless cond then iftrue; end"
 ~~~~~~ keyword
             ~~~~ begin
                          ~~~ end
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~ expression

"unless cond; iftrue; end"
 ~~~~~~ keyword
                      ~~~ end
 ~~~~~~~~~~~~~~~~~~~~~~~~ expression

"iftrue unless cond"
        ~~~~~~ keyword
 ~~~~~~~~~~~~~~~~~~ expression

With else

Format:

(if (lvar :cond) (lvar :iftrue) (lvar :iffalse))
"if cond then iftrue; else; iffalse; end"
 ~~ keyword
         ~~~~ begin
                      ~~~~ else
                                 ~~~ end
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ expression

"if cond; iftrue; else; iffalse; end"
 ~~ keyword
                  ~~~~ else
                                 ~~~ end
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ expression

(if (lvar :cond) (lvar :iffalse) (lvar :iftrue))
"unless cond then iftrue; else; iffalse; end"
 ~~~~~~ keyword
             ~~~~ begin
                          ~~~~ else
                                         ~~~ end
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ expression

"unless cond; iftrue; else; iffalse; end"
 ~~~~~~ keyword
                      ~~~~ else
                                     ~~~ end
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ expression

With elsif

Format:

(if (lvar :cond1) (int 1) (if (lvar :cond2 (int 2) (int 3))))
"if cond1; 1; elsif cond2; 2; else 3; end"
 ~~ keyword (left)
              ~~~~~ else (left)
                                      ~~~ end (left)
              ~~~~~ keyword (right)
                              ~~~~ else (right)
                                      ~~~ end (right)

Ternary

Format:

(if (lvar :cond) (lvar :iftrue) (lvar :iffalse))
"cond ? iftrue : iffalse"
      ^ question
               ^ colon
 ~~~~~~~~~~~~~~~~~~~~~~~ expression

Case matching

When clause

Format:

(when (regexp "foo" (regopt)) (begin (lvar :bar)))
"when /foo/ then bar"
 ~~~~ keyword
            ~~~~ begin
 ~~~~~~~~~~~~~~~~~~~ expression

(when (int 1) (int 2) (send nil :meth))
"when 1, 2; meth"

(when (int 1) (splat (lvar :foo)) (send nil :meth))
"when 1, *foo; meth"

(when (splat (lvar :foo)) (send nil :meth))
"when *foo; meth"

Case-expression clause

Without else

Format:

(case (lvar :foo) (when (str "bar") (lvar :bar)) nil)
"case foo; when "bar"; bar; end"
 ~~~~ keyword               ~~~ end
With else

Format:

(case (lvar :foo) (when (str "bar") (lvar :bar)) (lvar :baz))
"case foo; when "bar"; bar; else baz; end"
 ~~~~ keyword               ~~~~ else ~~~ end

Case-conditions clause

Without else

Format:

(case nil (when (lvar :bar) (lvar :bar)) nil)
"case; when bar; bar; end"
 ~~~~ keyword         ~~~ end
With else

Format:

(case nil (when (lvar :bar) (lvar :bar)) (lvar :baz))
"case; when bar; bar; else baz; end"
 ~~~~ keyword         ~~~~ else ~~~ end

(case nil (lvar :baz))
"case; else baz; end"
 ~~~~ keyword
       ~~~~ else
                 ~~~ end

Looping

With precondition

Format:

(while (lvar :condition) (send nil :foo))
"while condition do foo; end"
 ~~~~~ keyword
                 ~~ begin
                         ~~~ end
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~ expression

"while condition; foo; end"
 ~~~~~ keyword
                       ~~~ end
 ~~~~~~~~~~~~~~~~~~~~~~~~~ expression

"foo while condition"
     ~~~~~ keyword
 ~~~~~~~~~~~~~~~~~~~ expression

(until (lvar :condition) (send nil :foo))
"until condition do foo; end"
 ~~~~~ keyword
                 ~~ begin
                         ~~~ end
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~ expression

(until (lvar :condition) (send nil :foo))
"until condition; foo; end"
 ~~~~~ keyword
                       ~~~ end
~~~~~~~~~~~~~~~~~~~~~~~~~~ expression

"foo until condition"
     ~~~~~ keyword
 ~~~~~~~~~~~~~~~~~~~ expression

With postcondition

Format:

(while-post (lvar :condition) (kwbegin (send nil :foo)))
"begin; foo; end while condition"
 ~~~~~ begin (begin)
             ~~~ end (begin)
                 ~~~~~ keyword (while-post)

(until-post (lvar :condition) (kwbegin (send nil :foo)))
"begin; foo; end until condition"
 ~~~~~ begin (begin)
             ~~~ end (begin)
                 ~~~~~ keyword (until-post)

For-in

Format:

(for (lvasgn :a) (lvar :array) (send nil :p (lvar :a)))
"for a in array do p a; end"
 ~~~ keyword
       ~~ in
                ~~ begin
                        ~~~ end

"for a in array; p a; end"
 ~~~ keyword
       ~~ in
                      ~~~ end

(for
  (mlhs (lvasgn :a) (lvasgn :b)) (lvar :array)
  (send nil :p (lvar :a) (lvar :b)))
"for a, b in array; p a, b; end"

Break

Format:

(break (int 1))
"break 1"
 ~~~~~ keyword
 ~~~~~~~ expression

Next

Format:

(next (int 1))
"next 1"
 ~~~~ keyword
 ~~~~~~ expression

Redo

Format:

(redo)
"redo"
 ~~~~ keyword
 ~~~~ expression

Return

Format:

(return (lvar :foo))
"return(foo)"
 ~~~~~~ keyword
 ~~~~~~~~~~~ expression

Exception handling

Rescue body

Format:

(resbody (array (const nil :Exception) (const nil :A)) (lvasgn :bar) (int 1))
"rescue Exception, A => bar; 1"
 ~~~~~~ keyword      ~~ assoc
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ expression

"rescue Exception, A => bar then 1"
 ~~~~~~ keyword      ~~ assoc
                            ~~~~ begin

(resbody (array (const nil :Exception)) (ivasgn :bar) (int 1))
"rescue Exception => @bar; 1"
 ~~~~~~ keyword   ~~ assoc

(resbody nil (lvasgn :bar) (int 1))
"rescue => bar; 1"
 ~~~~~~ keyword
        ~~ assoc

(resbody nil nil (int 1))
"rescue; 1"
 ~~~~~~ keyword

Rescue statement

Without else

Format:

(begin
  (rescue (send nil :foo) (resbody ...) (resbody ...) nil))
"begin; foo; rescue Exception; rescue; end"
 ~~~~~ begin                           ~~~ end
             ~~~~~~~~~~~~~~~~~ expression (rescue.resbody/1)
                               ~~~~~~~ expression (rescue.resbody/2)
        ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ expression (rescue)
With else

Format:

(begin
  (rescue (send nil :foo) (resbody ...) (resbody ...) (true)))
"begin; foo; rescue Exception; rescue; else true end"
 ~~~~~ begin                           ~~~~ else (rescue)
                                                 ~~~ end

Ensure statement

Format:

(begin
  (ensure (send nil :foo) (send nil :bar))
"begin; foo; ensure; bar; end"
 ~~~~~ begin ~~~~~~ keyword (ensure)
                          ~~~ end

Rescue with ensure

Format:

(begin
  (ensure
    (rescue (send nil :foo) (resbody ...) (int 1))
    (send nil :bar))
"begin; foo; rescue; nil; else; 1; ensure; bar; end"
 ~~~~~ begin
                          ~~~~ else (ensure.rescue)
             ~~~~~~~~~~~~~~~~~~~~~ expression (rescue)
                                   ~~~~~~ keyword (ensure)
             ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ expression (ensure)
                                                ~~~ end

Retry

Format:

(retry)
"retry"
 ~~~~~ keyword
 ~~~~~ expression

BEGIN and END

Format:

(preexe (send nil :puts (str "foo")))
"BEGIN { puts "foo" }"
 ~~~~~ keyword
       ^ begin      ^ end
 ~~~~~~~~~~~~~~~~~~~~ expression

(postexe (send nil :puts (str "bar")))
"END { puts "bar" }"
 ~~~ keyword
     ^ begin      ^ end
 ~~~~~~~~~~~~~~~~~~ expression

Miscellanea

Flip-flops

Format:

(iflipflop (lvar :a) (lvar :b))
"if a..b; end"
     ~~ operator
    ~~~~ expression

(eflipflop (lvar :a) (lvar :b))
"if a...b; end"
     ~~~ operator
    ~~~~~ expression

Implicit matches

Format:

(match-current-line (regexp (str "a") (regopt)))
"if /a/; end"
    ~~~ expression

Local variable injecting matches

Format:

(match-with-lvasgn (regexp (str "(?<match>bar)") (regopt)) (lvar :baz))
"/(?<match>bar)/ =~ baz"
                 ~~ selector
 ~~~~~~~~~~~~~~~~~~~~~~ expression

Special constants

File

Format:

(__FILE__)
"__FILE__"
 ~~~~~~~~ expression

Line

Format:

(__LINE__)
"__LINE__"
 ~~~~~~~~ expression

Encoding

Format:

(__ENCODING__)
"__ENCODING__"
 ~~~~~~~~~~~~ expression

Pattern matching

Using in modifier

Format:

(in-match
  (int 1)
  (match-var :a))
"1 in a"
   ~~ operator
 ~~~~~~ expression

Case with pattern matching

Without else

Format:

(case-match
  (str "str")
  (in-pattern
    (match-var :foo)
    (lvar :bar)) nil)
"case "str"; in foo; bar; end"
 ~~~~ keyword             ~~~ end
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~ expression

With else

Format:

(case-match,
  (str "str")
  (in-pattern
    (match-var :foo)
    (lvar :bar))
  (lvar :baz))
"case "str"; in foo; bar; else; baz; end"
 ~~~~ keyword             ~~~~ else  ~~~ end
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ expression

With empty else

Empty else differs from the missing (or implicit) else for pattern matching, since the latter one raises a NoMatchingPattern exception. Thus, we need a way to distinguish this two cases in the resulting AST.

Format:

(case-match,
  (str "str")
  (in-pattern
    (match-var :foo)
    (lvar :bar))
  (empty-else))
"case "str"; in foo; bar; else; end"
 ~~~~ keyword             ~~~~ else
                                ~~~ end
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ expression

In clause

Format:

(in-pattern
  (match-var :foo)
  (lvar :bar))
"in foo then bar"
 ~~ keyword
        ~~~~ begin
 ~~~~~~~~~~~~~~~ expression

If guard

This guard runs after matching, so it's not an if modifier.

Format:

(in-pattern
  (match-var :foo)
  (if-guard
    (lvar :bar)) nil)
"in foo if bar"
        ~~ keyword
        ~~~~~~ expression

Unless guard

This guard runs after matching, so it's not an unless modifier.

Format:

(in-pattern
  (match-var :foo)
  (unless-guard
    (lvar :bar)) nil)
"in foo unless bar"
        ~~~~~~ keyword
        ~~~~~~~~~~ expression

Match variable

Format:

(match-var :foo)
"in foo"
    ~~~ name
    ~~~ expression

Match rest

With name

Format:

(match-rest
  (match-var :foo))
"in *foo"
    ~ operator
    ~~~~ expression

Without name

Format:

(match-rest)
"in *"
    ~ operator
    ~ expression

Pin operator

Format:

(pin
  (lvar :foo))
"in ^foo"
    ~ selector
    ~~~~ expression

Match alternative

Format:

(match-alt
  (pin
    (lvar :foo))
  (int 1))
"in ^foo | 1"
         ~ operator
    ~~~~~~~~ expression

Match with alias

Format:

(match-as
  (int 1)
  (match-var :foo))
"in 1 => foo"
      ~~ operator
    ~~~~~~~~ expression

Match using array pattern

Explicit

Format:

(array-pattern
  (pin
    (lvar :foo))
  (match-var :bar))
"in [^foo, bar]"
    ~ begin   ~ end
    ~~~~~~~~~~~ expression

Explicit with tail

Adding a trailing comma in the end works as , *

Format:

(array-pattern-with-tail
  (pin
    (lvar :foo))
  (match-var :bar))
"in [^foo, bar,]"
    ~ begin    ~ end
    ~~~~~~~~~~~~ expression

Implicit

Format:

(array-pattern
  (pin
    (lvar :foo))
  (match-var :bar))
"in ^foo, bar"
    ~~~~~~~~~ expression

Implicit with tail

Format:

Adding a trailing comma in the end works as , *, so a single item match with comma gets interpreted as an array.

(array-pattern-with-tail
  (match-var :foo))
"in foo,"
    ~~~~ expression

Matching using hash pattern

Explicit

Format:

(hash-pattern
  (pair
    (sym :a)
    (int 10)))
"in { a: 10 }"
    ~ begin ~ end
    ~~~~~~~~~ expression

Implicit

Format:

(hash-pattern
  (pair
    (sym :a)
    (int 10)))
"in a: 10"
    ~~~~~ expression

Assignment using hash pattern

Format:

(hash-pattern
  (match-var :a))
"in a:"
    ~ name (match-var)
    ~~ expression (match-var)

Nil hash pattern

Format:

(hash-pattern
  (match-nil-pattern))
"in **nil"
    ~~~~~ expression (match-nil-pattern)
      ~~~ name (match-nil-pattern)

Matching using const pattern

With array pattern

Format:

(const-pattern
  (const nil :X)
  (array-pattern
    (pin
      (lvar :foo))
    (match-var :bar)))
"in X[^foo bar]"
     ~ begin (const-pattern)
               ~ end (const-pattern)
    ~~~~~~~~~~~~ expression (const-pattern)
    ~ name (const-pattern.const)
    ~ expression (const-pattern.const)

With hash pattern

Format:

(const-pattern
  (const nil :X)
  (hash-pattern
    (match-var :foo)
    (match-var :bar)))
"in X[foo:, bar:]"
     ~ begin (const-pattern)
                ~ end (const-pattern)
    ~~~~~~~~~~~~~ expression (const-pattern)
    ~ name (const-pattern.const)
    ~ expression (const-pattern.const)

With array pattern without elements

Format:

(const-pattern
  (const nil :X)
  (array-pattern))
"in X[]"
     ~ begin (const-pattern)
      ~ end (const-pattern)
    ~~~ expression (const-pattern)
    ~ name (const-pattern.const)
    ~ expression (const-pattern.const)
     ~~ expression (const-pattern.array_pattern)