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Lines Matching refs:wizard

5 require 'antlr3/tree/wizard'
17     lexer = Wizard::PatternLexer.new( '(' )
25     lexer = Wizard::PatternLexer.new(')')
33     lexer = Wizard::PatternLexer.new('%')
41     lexer = Wizard::PatternLexer.new('.')
49     lexer = Wizard::PatternLexer.new(" \n \r \t ")
57     lexer = Wizard::PatternLexer.new('__whatever_1__')
65     lexer = Wizard::PatternLexer.new('[ \]bla\n]')
73     lexer = Wizard::PatternLexer.new("1")
89     @pattern_adaptor = Wizard::PatternAdaptor.new( Tokens.token_class )
90     @wizard = Wizard.new( :adaptor => @adaptor, :token_scheme => Tokens )
95     tree = Wizard::PatternParser.parse( 'ID', Tokens, @adaptor )
103     tree = Wizard::PatternParser.parse( 'ID[foo]', Tokens, @adaptor )
111     tree = Wizard::PatternParser.parse( '(A B)', Tokens, @adaptor )
122     tree = Wizard::PatternParser.parse( 'nil', Tokens, @adaptor )
130     tree = Wizard::PatternParser.parse( '(.)', Tokens, @adaptor )
131     assert_instance_of( Wizard::WildcardPattern, tree )
135     tree = Wizard::PatternParser.parse( '(%a:A)', Tokens, @pattern_adaptor )
136     assert_instance_of(Wizard::Pattern, tree)
141     tree = Wizard::PatternParser.parse( ')', Tokens, @adaptor )
146     tree = Wizard::PatternParser.parse( '()', Tokens, @adaptor )
151     tree = Wizard::PatternParser.parse( '(A ])', Tokens, @adaptor )
164     @wizard = Wizard.new( :adaptor => @adaptor, :token_scheme => Tokens )
168     Wizard.new( :tokens => tokens )
173     @wizard = Wizard.new( :tokens => %w(A B), :adaptor => @adaptor )
175     assert_equal( @wizard.adaptor, @adaptor )
176     assert_kind_of( ANTLR3::TokenScheme, @wizard.token_scheme )
180     t = @wizard.create("ID")
185     t = @wizard.create("ID[foo]")
191     t = @wizard.create("(A)")
196     t = @wizard.create("(A B C D)")
201     t = @wizard.create("(nil A B C)")
206     t = @wizard.create("A B C")
211     t = @wizard.create("(A (B C) (B D) E)")
222     tree = @wizard.create("ID")
223     index_map = SIMPLIFY_MAP[@wizard.index(tree)]
230     tree = @wizard.create("(A B C D)")
231     index_map = SIMPLIFY_MAP[@wizard.index(tree)]
240     tree = @wizard.create("(A B (A C B) B D D)")
241     index_map = SIMPLIFY_MAP[@wizard.index(tree)]
251     tree = @wizard.create("(A B C D)")
254     @wizard.visit( tree, B ) do |node, parent, child_index, labels|
263     tree = @wizard.create("(A B (A C B) B D D)")
266     @wizard.visit( tree, C ) do |node, parent, child_index, labels|
275     tree = @wizard.create("(A B (A C B) B D D)")
278     @wizard.visit( tree, B ) do |node, parent, child_index, labels|
287     tree = @wizard.create("(A B (A C B) B D D)")
290     @wizard.visit( tree, A ) do |node, parent, child_index, labels|
302     tree = @wizard.create("(A B (A C B) B D D)")
305     @wizard.visit( tree, B ) do |node, parent, child_index, labels|
314     tree = @wizard.create("(A B (A C B) B D D)")
317     @wizard.visit( tree, A ) do |node, parent, child_index, labels|
325     tree = @wizard.create("(A B C (A B) D)")
328     @wizard.visit(tree, '(A B)') do |node, parent, child_index, labels|
337     tree = @wizard.create("(A B C (A B) (D (A B)))")
340     @wizard.visit(tree, '(A B)') do |node, parent, child_index, labels|
353     tree = @wizard.create("(A B C (A[foo] B[bar]) (D (A[big] B[dog])))")
356     @wizard.visit(tree, '(%a:A %b:B)') do |node, parent, child_index, labels|
365     tree = @wizard.create("(A B C)")
366     assert @wizard.match(tree, "(A B C)")
370     tree = @wizard.create('A')
371     assert @wizard.match(tree, 'A')
375     tree = @wizard.create('A')
376     assert( !(@wizard.match(tree, 'B')) )
381     tree = @wizard.create('(nil A B C)')
382     assert @wizard.match(tree, '(nil A B C)')
386     tree = @wizard.create('(nil A B C)')
387     assert( !(@wizard.match(tree, '(nil A B)')) )
391     tree = @wizard.create('(nil A B C)')
392     assert( !(@wizard.match(tree, '(nil A B A)')) )
396     tree = @wizard.create('(A B C)')
397     assert @wizard.match(tree, '(A . .)')
401     tree = @wizard.create('(A B[foo] C[bar])')
402     assert @wizard.match(tree, '(A B[foo] C)')
406     tree = @wizard.create('(A B C)')
407     assert( !(@wizard.match(tree, '(A[foo] B C)')) )
411     tree = @wizard.create('(A B C)')
412     labels = @wizard.match( tree, '(%a:A %b:B %c:C)' )
420     tree = @wizard.create('(A B C)')
421     labels = @wizard.match(tree, '(A %b:. %c:.)')
429     tree = @wizard.create('(A B[foo] C)')
430     labels = @wizard.match( tree, '(%a:A %b:B[foo] %c:C)' )
438     tree = @wizard.create('(A (B C) (D E))')
439     labels = @wizard.match( tree, '(%a:A (%b:B %c:C) (%d:D %e:E))' )
450     tree1 = @wizard.create("(A B C)")
451     tree2 = @wizard.create("(A B C)")
452     assert @wizard.equals(tree1, tree2)
457     tree1 = @wizard.create("(A B[foo] C)")
458     tree2 = @wizard.create("(A B[foo] C)")
459     assert @wizard.equals(tree1, tree2)
464     tree1 = @wizard.create("(A B[foo] C)")
465     tree2 = @wizard.create("(A B C)")
466     assert( !(@wizard.equals(tree1, tree2)) )
471     tree1 = @wizard.create("(A B C)")
472     tree2 = @wizard.create("(A B A)")
473     assert( !(@wizard.equals(tree1, tree2)) )
477     tree1 = @wizard.create("(A B C)")
478     tree2 = @wizard.create("(A B)")
479     assert( !(@wizard.equals(tree1, tree2)) )
483     tree = @wizard.create("(A B C (A[foo] B[bar]) (D (A[big] B[dog])))")
484     subtrees = @wizard.find(tree, "(A B)").map { |t| t.to_s }
489     tree = @wizard.create("(A B C (A[foo] B[bar]) (D (A[big] B[dog])))")
490     subtrees = @wizard.find( tree, A ).map { |t| t.to_s }