#!/usr/bin/ruby # encoding: utf-8 require 'antlr3/test/functional' class TestASTConstructingParser < ANTLR3::Test::Functional compile inline_grammar( <<-'END' ) grammar ASTBuilder; options { language = Ruby; output = AST; } tokens { VARDEF; FLOAT; EXPR; BLOCK; VARIABLE; FIELD; CALL; INDEX; FIELDACCESS; } @init { @flag = false } @members { attr_accessor :flag def report_error(e) # do nothing end } r1 : INT ('+'^ INT)* ; r2 : 'assert'^ x=expression (':'! y=expression)? ';'! ; r3 : 'if'^ expression s1=statement ('else'! s2=statement)? ; r4 : 'while'^ expression statement ; r5 : 'return'^ expression? ';'! ; r6 : (INT|ID)+ ; r7 : INT -> ; r8 : 'var' ID ':' type -> ^('var' type ID) ; r9 : type ID ';' -> ^(VARDEF type ID) ; r10 : INT -> { ANTLR3::AST::CommonTree.new(ANTLR3::CommonToken.create(:type => FLOAT, :text => ($INT.text + ".0")))} ; r11 : expression -> ^(EXPR expression) | -> EXPR ; r12 : ID (',' ID)* -> ID+ ; r13 : type ID (',' ID)* ';' -> ^(type ID+) ; r14 : expression? statement* type+ -> ^(EXPR expression? statement* type+) ; r15 : INT -> INT INT ; r16 : 'int' ID (',' ID)* -> ^('int' ID)+ ; r17 : 'for' '(' start=statement ';' expression ';' next=statement ')' statement -> ^('for' $start expression $next statement) ; r18 : t='for' -> ^(BLOCK) ; r19 : t='for' -> ^(BLOCK[$t]) ; r20 : t='for' -> ^(BLOCK[$t,"FOR"]) ; r21 : t='for' -> BLOCK ; r22 : t='for' -> BLOCK[$t] ; r23 : t='for' -> BLOCK[$t,"FOR"] ; r24 : r=statement expression -> ^($r expression) ; r25 : r+=statement (',' r+=statement)+ expression -> ^($r expression) ; r26 : r+=statement (',' r+=statement)+ -> ^(BLOCK $r+) ; r27 : r=statement expression -> ^($r ^($r expression)) ; r28 : ('foo28a'|'foo28b') -> ; r29 : (r+=statement)* -> ^(BLOCK $r+) ; r30 : statement* -> ^(BLOCK statement?) ; r31 : modifier type ID ('=' expression)? ';' -> {@flag == 0}? ^(VARDEF ID modifier* type expression?) -> {@flag == 1}? ^(VARIABLE ID modifier* type expression?) -> ^(FIELD ID modifier* type expression?) ; r32[which] : ID INT -> {which==1}? ID -> {which==2}? INT -> // yield nothing as else-clause ; r33 : modifiers! statement ; r34 : modifiers! r34a[$modifiers.tree] //| modifiers! r33b[$modifiers.tree] ; r34a[mod] : 'class' ID ('extends' sup=type)? ( 'implements' i+=type (',' i+=type)*)? '{' statement* '}' -> ^('class' ID {$mod} ^('extends' $sup)? ^('implements' $i+)? statement* ) ; r35 : '{' 'extends' (sup=type)? '}' -> ^('extends' $sup)? ; r36 : 'if' '(' expression ')' s1=statement ( 'else' s2=statement -> ^('if' ^(EXPR expression) $s1 $s2) | -> ^('if' ^(EXPR expression) $s1) ) ; r37 : (INT -> INT) ('+' i=INT -> ^('+' $r37 $i) )* ; r38 : INT ('+'^ INT)* ; r39 : (primary->primary) // set return tree to just primary ( '(' arg=expression ')' -> ^(CALL $r39 $arg) | '[' ie=expression ']' -> ^(INDEX $r39 $ie) | '.' p=primary -> ^(FIELDACCESS $r39 $p) )* ; r40 : (INT -> INT) ( ('+' i+=INT)* -> ^('+' $r40 $i*) ) ';' ; r41 : (INT -> INT) ( ('+' i=INT) -> ^($i $r41) )* ';' ; r42 : ids+=ID (','! ids+=ID)* ; r43 returns [res] : ids+=ID! (','! ids+=ID!)* {$res = $ids.map { |id| id.text }} ; r44 : ids+=ID^ (','! ids+=ID^)* ; r45 : primary^ ; r46 returns [res] : ids+=primary! (','! ids+=primary!)* {$res = $ids.map { |id| id.text }} ; r47 : ids+=primary (','! ids+=primary)* ; r48 : ids+=. (','! ids+=.)* ; r49 : .^ ID ; r50 : ID -> ^({ANTLR3::AST::CommonTree.new(ANTLR3::CommonToken.create(:type => FLOAT, :text => "1.0"))} ID) ; /** templates tested: tokenLabelPropertyRef_tree */ r51 returns [res] : ID t=ID ID { $res = $t.tree } ; /** templates tested: rulePropertyRef_tree */ r52 returns [res] @after { $res = $tree } : ID ; /** templates tested: ruleLabelPropertyRef_tree */ r53 returns [res] : t=primary { $res = $t.tree } ; /** templates tested: ruleSetPropertyRef_tree */ r54 returns [res] @after { $tree = $t.tree; } : ID t=expression ID ; /** backtracking */ r55 options { backtrack=true; k=1; } : (modifier+ INT)=> modifier+ expression | modifier+ statement ; /** templates tested: rewriteTokenRef with len(args)>0 */ r56 : t=ID* -> ID[$t,'foo'] ; /** templates tested: rewriteTokenRefRoot with len(args)>0 */ r57 : t=ID* -> ^(ID[$t,'foo']) ; /** templates tested: ??? */ r58 : ({CommonTree.new(CommonToken.create(:type => FLOAT, :text => "2.0"))})^ ; /** templates tested: rewriteTokenListLabelRefRoot */ r59 : (t+=ID)+ statement -> ^($t statement)+ ; primary : ID ; expression : r1 ; statement : 'fooze' | 'fooze2' ; modifiers : modifier+ ; modifier : 'public' | 'private' ; type : 'int' | 'bool' ; ID : 'a'..'z' + ; INT : '0'..'9' +; WS: (' ' | '\n' | '\t')+ {$channel = HIDDEN;}; END def self.ast_test( opts, &special_test ) input = opts[ :input ] rule = opts[ :rule ] expected_tree = opts[ :ast ] flag = opts[ :flag ] args = opts[ :arguments ] || [] message = opts[ :message ] || rule.to_s #"should parse %p with rule %s and make tree %s" % [input, rule, expected_tree] example( message ) do lexer = ASTBuilder::Lexer.new( input ) parser = ASTBuilder::Parser.new( lexer ) parser.flag = flag unless flag.nil? result = parser.send( rule, *args ) if special_test then instance_exec( result, &special_test ) elsif expected_tree then result.tree.inspect.should == expected_tree else result.tree.should be_nil end end end ast_test :input => "1 + 2", :rule => :r1, :ast => "(+ 1 2)" ast_test :input => "assert 2+3", :rule => :r2, :ast => "(assert (+ 2 3))" ast_test :input => "assert 2+3 : 5", :rule => :r2, :ast => "(assert (+ 2 3) 5)" ast_test :input => "if 1 fooze", :rule => :r3, :ast => "(if 1 fooze)" ast_test :input => "if 1 fooze else fooze", :rule => :r3, :ast => "(if 1 fooze fooze)" ast_test :input => "while 2 fooze", :rule => :r4, :ast => "(while 2 fooze)" ast_test :input => "return;", :rule => :r5, :ast => "return" ast_test :input => "return 2+3;", :rule => :r5, :ast => "(return (+ 2 3))" ast_test :input => "3", :rule => :r6, :ast => "3" ast_test :input => "3 a", :rule => :r6, :ast => "3 a" ast_test :input => "3", :rule => :r7, :ast => nil ast_test :input => "var foo:bool", :rule => :r8, :ast => "(var bool foo)" ast_test :input => "int foo;", :rule => :r9, :ast => "(VARDEF int foo)" ast_test :input => "10", :rule => :r10, :ast => "10.0" ast_test :input => "1+2", :rule => :r11, :ast => "(EXPR (+ 1 2))" ast_test :input => "", :rule => :r11, :ast => "EXPR" ast_test :input => "foo", :rule => :r12, :ast => "foo" ast_test :input => "foo, bar, gnurz", :rule => :r12, :ast => "foo bar gnurz" ast_test :input => "int foo;", :rule => :r13, :ast => "(int foo)" ast_test :input => "bool foo, bar, gnurz;", :rule => :r13, :ast => "(bool foo bar gnurz)" ast_test :input => "1+2 int", :rule => :r14, :ast => "(EXPR (+ 1 2) int)" ast_test :input => "1+2 int bool", :rule => :r14, :ast => "(EXPR (+ 1 2) int bool)" ast_test :input => "int bool", :rule => :r14, :ast => "(EXPR int bool)" ast_test :input => "fooze fooze int bool", :rule => :r14, :ast => "(EXPR fooze fooze int bool)" ast_test :input => "7+9 fooze fooze int bool", :rule => :r14, :ast => "(EXPR (+ 7 9) fooze fooze int bool)" ast_test :input => "7", :rule => :r15, :ast => "7 7" ast_test :input => "int foo", :rule => :r16, :ast => "(int foo)" ast_test :input => "int foo, bar, gnurz", :rule => :r16, :ast => "(int foo) (int bar) (int gnurz)" ast_test :input => "for ( fooze ; 1 + 2 ; fooze ) fooze", :rule => :r17, :ast => "(for fooze (+ 1 2) fooze fooze)" ast_test :input => "for", :rule => :r18, :ast => "BLOCK" ast_test :input => "for", :rule => :r19, :ast => "for" ast_test :input => "for", :rule => :r20, :ast => "FOR" ast_test :input => "for", :rule => :r21, :ast => "BLOCK" ast_test :input => "for", :rule => :r22, :ast => "for" ast_test :input => "for", :rule => :r23, :ast => "FOR" ast_test :input => "fooze 1 + 2", :rule => :r24, :ast => "(fooze (+ 1 2))" ast_test :input => "fooze, fooze2 1 + 2", :rule => :r25, :ast => "(fooze (+ 1 2))" ast_test :input => "fooze, fooze2", :rule => :r26, :ast => "(BLOCK fooze fooze2)" ast_test :input => "fooze 1 + 2", :rule => :r27, :ast => "(fooze (fooze (+ 1 2)))" ast_test :input => "foo28a", :rule => :r28, :ast => nil ast_test :input => "public int gnurz = 1 + 2;", :rule => :r31, :ast => "(VARDEF gnurz public int (+ 1 2))", :flag => 0 ast_test :input => "public int gnurz = 1 + 2;", :rule => :r31, :ast => "(VARIABLE gnurz public int (+ 1 2))", :flag => 1 ast_test :input => "public int gnurz = 1 + 2;", :rule => :r31, :ast => "(FIELD gnurz public int (+ 1 2))", :flag => 2 ast_test :input => 'gnurz 32', :rule => :r32, :arguments => [ 1 ], :flag => 2, :ast => 'gnurz' ast_test :input => 'gnurz 32', :rule => :r32, :arguments => [ 2 ], :flag => 2, :ast => '32' ast_test :input => 'gnurz', :rule => :r32, :arguments => [ 3 ], :flag => 2, :ast => nil ast_test :input => "public private fooze", :rule => :r33, :ast => "fooze" ast_test :input => "public class gnurz { fooze fooze2 }", :rule => :r34, :ast => "(class gnurz public fooze fooze2)" ast_test :input => "public class gnurz extends bool implements int, bool { fooze fooze2 }", :rule => :r34, :ast => "(class gnurz public (extends bool) (implements int bool) fooze fooze2)" ast_test :input => "if ( 1 + 2 ) fooze", :rule => :r36, :ast => "(if (EXPR (+ 1 2)) fooze)" ast_test :input => "1 + 2 + 3", :rule => :r37, :ast => "(+ (+ 1 2) 3)" ast_test :input => "1 + 2 + 3", :rule => :r38, :ast => "(+ (+ 1 2) 3)" ast_test :input => "gnurz[1]", :rule => :r39, :ast => "(INDEX gnurz 1)" ast_test :input => "gnurz(2)", :rule => :r39, :ast => "(CALL gnurz 2)" ast_test :input => "gnurz.gnarz", :rule => :r39, :ast => "(FIELDACCESS gnurz gnarz)" ast_test :input => "gnurz.gnarz.gnorz", :rule => :r39, :ast => "(FIELDACCESS (FIELDACCESS gnurz gnarz) gnorz)" ast_test :input => "1 + 2 + 3;", :rule => :r40, :ast => "(+ 1 2 3)" ast_test :input => "1 + 2 + 3;", :rule => :r41, :ast => "(3 (2 1))" ast_test :input => "gnurz, gnarz, gnorz", :rule => :r42, :ast => "gnurz gnarz gnorz" ast_test :input => "gnurz, gnarz, gnorz", :rule => :r43 do |result| result.tree.should be_nil result.res.should == %w(gnurz gnarz gnorz) end ast_test :input => 'gnurz, gnarz, gnorz', :rule => :r44, :ast => '(gnorz (gnarz gnurz))' ast_test :input => 'gnurz', :rule => :r45, :ast => 'gnurz' ast_test :input => 'gnurz, gnarz, gnorz', :rule => :r46 do |result| result.tree.should be_nil result.res.should == %w(gnurz gnarz gnorz) end ast_test :input => 'gnurz, gnarz, gnorz', :rule => :r47, :ast => 'gnurz gnarz gnorz' ast_test :input => 'gnurz, gnarz, gnorz', :rule => :r48, :ast => 'gnurz gnarz gnorz' ast_test :input => 'gnurz gnorz', :rule => :r49, :ast => '(gnurz gnorz)' ast_test :input => 'gnurz', :rule => :r50, :ast => '(1.0 gnurz)' ast_test :input => 'gnurza gnurzb gnurzc', :rule => :r51 do |result| result.res.inspect.should == 'gnurzb' end ast_test :input => 'gnurz', :rule => :r52, :ast => 'gnurz' ast_test :input => 'gnurz', :rule => :r53, :ast => 'gnurz' ast_test :input => 'gnurza 1 + 2 gnurzb', :rule => :r54, :ast => '(+ 1 2)' ast_test :input => 'public private 1 + 2', :rule => :r55, :ast => 'public private (+ 1 2)' ast_test :input => 'public fooze', :rule => :r55, :ast => 'public fooze' ast_test :input => 'a b c d', :rule => :r56, :ast => 'foo' ast_test :input => 'a b c d', :rule => :r57, :ast => 'foo' ast_test :input => 'a b c fooze', :rule => :r59, :ast => '(a fooze) (b fooze) (c fooze)' end