antlr-3.4/runtime/Ruby/test/functional/parser/nuances.rb - platform/external/antlr - Git at Google

 #!/usr/bin/ruby
 # encoding: utf-8

 require 'antlr3/test/functional'

 class TestEmptyAlternative < ANTLR3::Test::Functional

   inline_grammar( <<-'END' )
     grammar EmptyAlt;
     options {
       language = Ruby;
     }

     r
       : NAME
         ( WS+ NAME
         |
         )
         EOF
       ;

     NAME: ('a'..'z') ('a'..'z' | '0'..'9')+;
     NUMBER: ('0'..'9')+;
     WS: ' '+;
   END

   example "rule with empty alternative" do
     lexer = EmptyAlt::Lexer.new( 'foo' )
     parser = EmptyAlt::Parser.new lexer
     events = parser.r
   end

 end

 class TestSubrulePrediction < ANTLR3::Test::Functional

   inline_grammar( <<-'END' )
     grammar Subrule;
     options {
       language = Ruby;
     }

     @parser::members {
       def emit_error_message(msg)
         # do nothing
       end
       def report_error(error)
         raise error
       end
     }

     a: 'BEGIN' b WS+ 'END';
     b: ( WS+ 'A' )+;
     WS: ' ';
   END

   example "make correct predictions involving subrules" do
     lexer = Subrule::Lexer.new( 'BEGIN A END' )
     parser = Subrule::Parser.new lexer
     events = parser.a
   end

 end


 class TestSpecialStates < ANTLR3::Test::Functional

   inline_grammar( <<-'END' )
     grammar SpecialStates;
     options { language = Ruby; }

     @init { @cond = true }

     @members {
       attr_accessor :cond
       def recover(re)
         raise re
       end
     }

     r
       : ( { @cond }? NAME
         | {!@cond }? NAME WS+ NAME
         )
         ( WS+ NAME )?
         EOF
       ;

     NAME: ('a'..'z') ('a'..'z' | '0'..'9')+;
     NUMBER: ('0'..'9')+;
     WS: ' '+;
   END

   example "parsing 'foo'" do
     lexer  = SpecialStates::Lexer.new 'foo'
     parser = SpecialStates::Parser.new lexer
     parser.r
   end

   example "parsing 'foo name1'"  do
     lexer = SpecialStates::Lexer.new 'foo name1'
     parser = SpecialStates::Parser.new lexer
     parser.r
   end

   example "parsing 'bar name1'"  do
     lexer = SpecialStates::Lexer.new 'bar name1'
     parser = SpecialStates::Parser.new lexer
     parser.cond = false
     parser.r
   end

   example "parsing 'bar name1 name2'" do
     lexer = SpecialStates::Lexer.new 'bar name1 name2'
     parser = SpecialStates::Parser.new lexer
     parser.cond = false
     parser.r
   end
 end


 class TestDFABug < ANTLR3::Test::Functional

   inline_grammar( <<-'END' )
     grammar DFABug;
     options {
         language = Ruby;
         output = AST;
     }


     // this rule used to generate an infinite loop in DFA.predict
     r
     options { backtrack=true; }
         : (modifier+ INT)=> modifier+ expression
         | modifier+ statement
         ;

     expression
         : INT '+' INT
         ;

     statement
         : 'fooze'
         | 'fooze2'
         ;

     modifier
         : 'public'
         | 'private'
         ;

     ID : 'a'..'z' + ;
     INT : '0'..'9' +;
     WS: (' ' | '\n' | '\t')+ {$channel = HIDDEN;};
   END

   example "testing for DFA-based decision bug" do
     lexer = DFABug::Lexer.new 'public fooze'
     parser = DFABug::Parser.new lexer
     parser.r
   end

 end
	#!/usr/bin/ruby
	# encoding: utf-8

	require 'antlr3/test/functional'

	class TestEmptyAlternative < ANTLR3::Test::Functional

	inline_grammar( <<-'END' )
	grammar EmptyAlt;
	options {
	language = Ruby;
	}

	r
	: NAME
	( WS+ NAME
	\|
	)
	EOF
	;

	NAME: ('a'..'z') ('a'..'z' \| '0'..'9')+;
	NUMBER: ('0'..'9')+;
	WS: ' '+;
	END

	example "rule with empty alternative" do
	lexer = EmptyAlt::Lexer.new( 'foo' )
	parser = EmptyAlt::Parser.new lexer
	events = parser.r
	end

	end

	class TestSubrulePrediction < ANTLR3::Test::Functional

	inline_grammar( <<-'END' )
	grammar Subrule;
	options {
	language = Ruby;
	}

	@parser::members {
	def emit_error_message(msg)
	# do nothing
	end
	def report_error(error)
	raise error
	end
	}

	a: 'BEGIN' b WS+ 'END';
	b: ( WS+ 'A' )+;
	WS: ' ';
	END

	example "make correct predictions involving subrules" do
	lexer = Subrule::Lexer.new( 'BEGIN A END' )
	parser = Subrule::Parser.new lexer
	events = parser.a
	end

	end


	class TestSpecialStates < ANTLR3::Test::Functional

	inline_grammar( <<-'END' )
	grammar SpecialStates;
	options { language = Ruby; }

	@init { @cond = true }

	@members {
	attr_accessor :cond
	def recover(re)
	raise re
	end
	}

	r
	: ( { @cond }? NAME
	\| {!@cond }? NAME WS+ NAME
	)
	( WS+ NAME )?
	EOF
	;

	NAME: ('a'..'z') ('a'..'z' \| '0'..'9')+;
	NUMBER: ('0'..'9')+;
	WS: ' '+;
	END

	example "parsing 'foo'" do
	lexer = SpecialStates::Lexer.new 'foo'
	parser = SpecialStates::Parser.new lexer
	parser.r
	end

	example "parsing 'foo name1'" do
	lexer = SpecialStates::Lexer.new 'foo name1'
	parser = SpecialStates::Parser.new lexer
	parser.r
	end

	example "parsing 'bar name1'" do
	lexer = SpecialStates::Lexer.new 'bar name1'
	parser = SpecialStates::Parser.new lexer
	parser.cond = false
	parser.r
	end

	example "parsing 'bar name1 name2'" do
	lexer = SpecialStates::Lexer.new 'bar name1 name2'
	parser = SpecialStates::Parser.new lexer
	parser.cond = false
	parser.r
	end
	end


	class TestDFABug < ANTLR3::Test::Functional

	inline_grammar( <<-'END' )
	grammar DFABug;
	options {
	language = Ruby;
	output = AST;
	}


	// this rule used to generate an infinite loop in DFA.predict
	r
	options { backtrack=true; }
	: (modifier+ INT)=> modifier+ expression
	\| modifier+ statement
	;

	expression
	: INT '+' INT
	;

	statement
	: 'fooze'
	\| 'fooze2'
	;

	modifier
	: 'public'
	\| 'private'
	;

	ID : 'a'..'z' + ;
	INT : '0'..'9' +;
	WS: (' ' \| '\n' \| '\t')+ {$channel = HIDDEN;};
	END

	example "testing for DFA-based decision bug" do
	lexer = DFABug::Lexer.new 'public fooze'
	parser = DFABug::Parser.new lexer
	parser.r
	end

	end