antlr-3.4/runtime/Ruby/test/unit/test-tree-wizard.rb - platform/external/antlr - Git at Google

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

 require 'antlr3'
 require 'antlr3/tree/wizard'
 require 'test/unit'
 require 'spec'

 include ANTLR3
 include ANTLR3::AST

 class TestPatternLexer < Test::Unit::TestCase

   # vvvvvvvv tests vvvvvvvvv

   def test_open
     lexer = Wizard::PatternLexer.new( '(' )
     type = lexer.next_token
     assert_equal( type, :open )
     assert_equal( lexer.text, '' )
     assert_equal( lexer.error, false )
   end

   def test_close
     lexer = Wizard::PatternLexer.new(')')
     type = lexer.next_token
     assert_equal(type, :close)
     assert_equal(lexer.text, '')
     assert_equal(lexer.error, false)
   end

   def test_percent
     lexer = Wizard::PatternLexer.new('%')
     type = lexer.next_token
     assert_equal(type, :percent)
     assert_equal(lexer.text, '')
     assert_equal(lexer.error, false)
   end

   def test_dot
     lexer = Wizard::PatternLexer.new('.')
     type = lexer.next_token
     assert_equal(type, :dot)
     assert_equal(lexer.text, '')
     assert_equal(lexer.error, false)
   end

   def test_eof
     lexer = Wizard::PatternLexer.new(" \n \r \t ")
     type = lexer.next_token
     assert_equal(type, EOF)
     assert_equal(lexer.text, '')
     assert_equal(lexer.error, false)
   end

   def test_id
     lexer = Wizard::PatternLexer.new('__whatever_1__')
     type = lexer.next_token
     assert_equal(:identifier, type)
     assert_equal('__whatever_1__', lexer.text)
     assert( !(lexer.error) )
   end

   def test_arg
     lexer = Wizard::PatternLexer.new('[ \]bla\n]')
     type = lexer.next_token
     assert_equal(type, :argument)
     assert_equal(' ]bla\n', lexer.text)
     assert( !(lexer.error) )
   end

   def test_error
     lexer = Wizard::PatternLexer.new("1")
     type = lexer.next_token
     assert_equal(type, EOF)
     assert_equal(lexer.text, '')
     assert_equal(lexer.error, true)
   end

 end


 class TestPatternParser < Test::Unit::TestCase
   Tokens = TokenScheme.build %w(A B C D E ID VAR)
   include Tokens

   def setup
     @adaptor = CommonTreeAdaptor.new( Tokens.token_class )
     @pattern_adaptor = Wizard::PatternAdaptor.new( Tokens.token_class )
     @wizard = Wizard.new( :adaptor => @adaptor, :token_scheme => Tokens )
   end

   # vvvvvvvv tests vvvvvvvvv
   def test_single_node
     tree = Wizard::PatternParser.parse( 'ID', Tokens, @adaptor )

     assert_instance_of(CommonTree, tree)
     assert_equal( ID, tree.type )
     assert_equal( 'ID', tree.text )
   end

   def test_single_node_with_arg
     tree = Wizard::PatternParser.parse( 'ID[foo]', Tokens, @adaptor )

     assert_instance_of( CommonTree, tree )
     assert_equal( ID, tree.type )
     assert_equal( 'foo', tree.text )
   end

   def test_single_level_tree
     tree = Wizard::PatternParser.parse( '(A B)', Tokens, @adaptor )

     assert_instance_of( CommonTree, tree )
     assert_equal(A, tree.type)
     assert_equal('A', tree.text)
     assert_equal(tree.child_count, 1)
     assert_equal(tree.child(0).type, B)
     assert_equal(tree.child(0).text, 'B')
   end

   def test_nil
     tree = Wizard::PatternParser.parse( 'nil', Tokens, @adaptor )

     assert_instance_of(CommonTree, tree)
     assert_equal(0, tree.type)
     assert_nil tree.text
   end

   def test_wildcard
     tree = Wizard::PatternParser.parse( '(.)', Tokens, @adaptor )
     assert_instance_of( Wizard::WildcardPattern, tree )
   end

   def test_label
     tree = Wizard::PatternParser.parse( '(%a:A)', Tokens, @pattern_adaptor )
     assert_instance_of(Wizard::Pattern, tree)
     assert_equal('a', tree.label)
   end

   def test_error_1
     tree = Wizard::PatternParser.parse( ')', Tokens, @adaptor )
     assert_nil tree
   end

   def test_error_2
     tree = Wizard::PatternParser.parse( '()', Tokens, @adaptor )
     assert_nil tree
   end

   def test_error_3
     tree = Wizard::PatternParser.parse( '(A ])', Tokens, @adaptor )
     assert_nil tree
   end

 end


 class TestTreeWizard < Test::Unit::TestCase
   Tokens = TokenScheme.build %w(A B C D E ID VAR)
   include Tokens

   def setup
     @adaptor = CommonTreeAdaptor.new( Tokens.token_class )
     @wizard = Wizard.new( :adaptor => @adaptor, :token_scheme => Tokens )
   end

   def create_wizard( tokens )
     Wizard.new( :tokens => tokens )
   end

   # vvvvvvvv tests vvvvvvvvv
   def test_init
     @wizard = Wizard.new( :tokens => %w(A B), :adaptor => @adaptor )

     assert_equal( @wizard.adaptor, @adaptor )
     assert_kind_of( ANTLR3::TokenScheme, @wizard.token_scheme )
   end

   def test_single_node
     t = @wizard.create("ID")
     assert_equal(t.inspect, 'ID')
   end

   def test_single_node_with_arg
     t = @wizard.create("ID[foo]")

     assert_equal(t.inspect, 'foo')
   end

   def test_single_node_tree
     t = @wizard.create("(A)")
     assert_equal(t.inspect, 'A')
   end

   def test_single_level_tree
     t = @wizard.create("(A B C D)")
     assert_equal(t.inspect, '(A B C D)')
   end

   def test_list_tree
     t = @wizard.create("(nil A B C)")
     assert_equal(t.inspect, 'A B C')
   end

   def test_invalid_list_tree
     t = @wizard.create("A B C")
     assert_nil t
   end

   def test_double_level_tree
     t = @wizard.create("(A (B C) (B D) E)")
     assert_equal(t.inspect, "(A (B C) (B D) E)")
   end

   SIMPLIFY_MAP = lambda do |imap|
     Hash[
       imap.map { |type, nodes| [type, nodes.map { |n| n.to_s }] }
     ]
   end

   def test_single_node_index
     tree = @wizard.create("ID")
     index_map = SIMPLIFY_MAP[@wizard.index(tree)]

     assert_equal(index_map, ID => %w(ID))
   end


   def test_no_repeats_index
     tree = @wizard.create("(A B C D)")
     index_map = SIMPLIFY_MAP[@wizard.index(tree)]

     assert_equal(index_map,
         D => %w(D), B => %w(B),
         C => %w(C), A => %w(A)
     )
   end

   def test_repeats_index
     tree = @wizard.create("(A B (A C B) B D D)")
     index_map = SIMPLIFY_MAP[@wizard.index(tree)]

     assert_equal(index_map,
         D => %w(D D), B => %w(B B B),
         C => %w(C), A => %w(A A)
     )
   end


   def test_no_repeats_visit
     tree = @wizard.create("(A B C D)")

     elements = []
     @wizard.visit( tree, B ) do |node, parent, child_index, labels|
       elements << node.to_s
     end

     assert_equal( %w(B), elements )
   end


   def test_no_repeats_visit2
     tree = @wizard.create("(A B (A C B) B D D)")

     elements = []
     @wizard.visit( tree, C ) do |node, parent, child_index, labels|
       elements << node.to_s
     end

     assert_equal(%w(C), elements)
   end


   def test_repeats_visit
     tree = @wizard.create("(A B (A C B) B D D)")

     elements = []
     @wizard.visit( tree, B ) do |node, parent, child_index, labels|
       elements << node.to_s
     end

     assert_equal(%w(B B B), elements)
   end


   def test_repeats_visit2
     tree = @wizard.create("(A B (A C B) B D D)")

     elements = []
     @wizard.visit( tree, A ) do |node, parent, child_index, labels|
       elements << node.to_s
     end

     assert_equal(%w(A A), elements)
   end

   def context(node, parent, index)
     '%s@%s[%d]' % [node.to_s, (parent || 'nil').to_s, index]
   end

   def test_repeats_visit_with_context
     tree = @wizard.create("(A B (A C B) B D D)")

     elements = []
     @wizard.visit( tree, B ) do |node, parent, child_index, labels|
       elements << context(node, parent, child_index)
     end

     assert_equal(['B@A[0]', 'B@A[1]', 'B@A[2]'], elements)
   end


   def test_repeats_visit_with_null_parent_and_context
     tree = @wizard.create("(A B (A C B) B D D)")

     elements = []
     @wizard.visit( tree, A ) do |node, parent, child_index, labels|
       elements << context(node, parent, child_index)
     end

     assert_equal(['A@nil[-1]', 'A@A[1]'], elements)
   end

   def test_visit_pattern
     tree = @wizard.create("(A B C (A B) D)")

     elements = []
     @wizard.visit(tree, '(A B)') do |node, parent, child_index, labels|
       elements << node.to_s
     end

     assert_equal(%w(A), elements)
   end


   def test_visit_pattern_multiple
     tree = @wizard.create("(A B C (A B) (D (A B)))")

     elements = []
     @wizard.visit(tree, '(A B)') do |node, parent, child_index, labels|
       elements << context(node, parent, child_index)
     end

     assert_equal( %w(A@A[2] A@D[0]) , elements )
   end

   def labeled_context(node, parent, index, labels, *names)
     suffix = names.map { |n| labels[n].to_s }.join('&')
     '%s@%s[%d]%s' % [node.to_s, (parent || 'nil').to_s, index, suffix]
   end

   def test_visit_pattern_multiple_with_labels
     tree = @wizard.create("(A B C (A[foo] B[bar]) (D (A[big] B[dog])))")

     elements = []
     @wizard.visit(tree, '(%a:A %b:B)') do |node, parent, child_index, labels|
       elements << labeled_context(node, parent, child_index, labels, 'a', 'b')
     end

     assert_equal( ['foo@A[2]foo&bar', 'big@D[0]big&dog'] , elements )
   end


   def test_match
     tree = @wizard.create("(A B C)")
     assert @wizard.match(tree, "(A B C)")
   end

   def test_match_single_node
     tree = @wizard.create('A')
     assert @wizard.match(tree, 'A')
   end

   def test_match_single_node_fails
     tree = @wizard.create('A')
     assert( !(@wizard.match(tree, 'B')) )
   end


   def test_match_flat_tree
     tree = @wizard.create('(nil A B C)')
     assert @wizard.match(tree, '(nil A B C)')
   end

   def test_match_flat_tree_fails
     tree = @wizard.create('(nil A B C)')
     assert( !(@wizard.match(tree, '(nil A B)')) )
   end

   def test_match_flat_tree_fails2
     tree = @wizard.create('(nil A B C)')
     assert( !(@wizard.match(tree, '(nil A B A)')) )
   end

   def test_wildcard
     tree = @wizard.create('(A B C)')
     assert @wizard.match(tree, '(A . .)')
   end

   def test_match_with_text
     tree = @wizard.create('(A B[foo] C[bar])')
     assert @wizard.match(tree, '(A B[foo] C)')
   end

   def test_match_with_text_fails
     tree = @wizard.create('(A B C)')
     assert( !(@wizard.match(tree, '(A[foo] B C)')) )
   end

   def test_match_labels
     tree = @wizard.create('(A B C)')
     labels = @wizard.match( tree, '(%a:A %b:B %c:C)' )

     assert_equal('A', labels['a'].to_s)
     assert_equal('B', labels['b'].to_s)
     assert_equal('C', labels['c'].to_s)
   end

   def test_match_with_wildcard_labels
     tree = @wizard.create('(A B C)')
     labels = @wizard.match(tree, '(A %b:. %c:.)')
     assert_kind_of( Hash, labels )
     assert_equal('B', labels['b'].to_s)
     assert_equal('C', labels['c'].to_s)
   end


   def test_match_labels_and_test_text
     tree = @wizard.create('(A B[foo] C)')
     labels = @wizard.match( tree, '(%a:A %b:B[foo] %c:C)' )
     assert_kind_of( Hash, labels )
     assert_equal('A', labels['a'].to_s)
     assert_equal('foo', labels['b'].to_s)
     assert_equal('C', labels['c'].to_s)
   end

   def test_match_labels_in_nested_tree
     tree = @wizard.create('(A (B C) (D E))')
     labels = @wizard.match( tree, '(%a:A (%b:B %c:C) (%d:D %e:E))' )
     assert_kind_of( Hash, labels )
     assert_equal('A', labels['a'].to_s)
     assert_equal('B', labels['b'].to_s)
     assert_equal('C', labels['c'].to_s)
     assert_equal('D', labels['d'].to_s)
     assert_equal('E', labels['e'].to_s)
   end


   def test_equals
     tree1 = @wizard.create("(A B C)")
     tree2 = @wizard.create("(A B C)")
     assert @wizard.equals(tree1, tree2)
   end


   def test_equals_with_text
     tree1 = @wizard.create("(A B[foo] C)")
     tree2 = @wizard.create("(A B[foo] C)")
     assert @wizard.equals(tree1, tree2)
   end


   def test_equals_with_mismatched_text
     tree1 = @wizard.create("(A B[foo] C)")
     tree2 = @wizard.create("(A B C)")
     assert( !(@wizard.equals(tree1, tree2)) )
   end


   def test_equals_with_mismatched_list
     tree1 = @wizard.create("(A B C)")
     tree2 = @wizard.create("(A B A)")
     assert( !(@wizard.equals(tree1, tree2)) )
   end

   def test_equals_with_mismatched_list_length
     tree1 = @wizard.create("(A B C)")
     tree2 = @wizard.create("(A B)")
     assert( !(@wizard.equals(tree1, tree2)) )
   end

   def test_find_pattern
     tree = @wizard.create("(A B C (A[foo] B[bar]) (D (A[big] B[dog])))")
     subtrees = @wizard.find(tree, "(A B)").map { |t| t.to_s }
     assert_equal(%w(foo big), subtrees)
   end

   def test_find_token_type
     tree = @wizard.create("(A B C (A[foo] B[bar]) (D (A[big] B[dog])))")
     subtrees = @wizard.find( tree, A ).map { |t| t.to_s }
     assert_equal(%w(A foo big), subtrees)
   end
 end
	#!/usr/bin/ruby
	# encoding: utf-8

	require 'antlr3'
	require 'antlr3/tree/wizard'
	require 'test/unit'
	require 'spec'

	include ANTLR3
	include ANTLR3::AST

	class TestPatternLexer < Test::Unit::TestCase

	# vvvvvvvv tests vvvvvvvvv

	def test_open
	lexer = Wizard::PatternLexer.new( '(' )
	type = lexer.next_token
	assert_equal( type, :open )
	assert_equal( lexer.text, '' )
	assert_equal( lexer.error, false )
	end

	def test_close
	lexer = Wizard::PatternLexer.new(')')
	type = lexer.next_token
	assert_equal(type, :close)
	assert_equal(lexer.text, '')
	assert_equal(lexer.error, false)
	end

	def test_percent
	lexer = Wizard::PatternLexer.new('%')
	type = lexer.next_token
	assert_equal(type, :percent)
	assert_equal(lexer.text, '')
	assert_equal(lexer.error, false)
	end

	def test_dot
	lexer = Wizard::PatternLexer.new('.')
	type = lexer.next_token
	assert_equal(type, :dot)
	assert_equal(lexer.text, '')
	assert_equal(lexer.error, false)
	end

	def test_eof
	lexer = Wizard::PatternLexer.new(" \n \r \t ")
	type = lexer.next_token
	assert_equal(type, EOF)
	assert_equal(lexer.text, '')
	assert_equal(lexer.error, false)
	end

	def test_id
	lexer = Wizard::PatternLexer.new('__whatever_1__')
	type = lexer.next_token
	assert_equal(:identifier, type)
	assert_equal('__whatever_1__', lexer.text)
	assert( !(lexer.error) )
	end

	def test_arg
	lexer = Wizard::PatternLexer.new('[ \]bla\n]')
	type = lexer.next_token
	assert_equal(type, :argument)
	assert_equal(' ]bla\n', lexer.text)
	assert( !(lexer.error) )
	end

	def test_error
	lexer = Wizard::PatternLexer.new("1")
	type = lexer.next_token
	assert_equal(type, EOF)
	assert_equal(lexer.text, '')
	assert_equal(lexer.error, true)
	end

	end


	class TestPatternParser < Test::Unit::TestCase
	Tokens = TokenScheme.build %w(A B C D E ID VAR)
	include Tokens

	def setup
	@adaptor = CommonTreeAdaptor.new( Tokens.token_class )
	@pattern_adaptor = Wizard::PatternAdaptor.new( Tokens.token_class )
	@wizard = Wizard.new( :adaptor => @adaptor, :token_scheme => Tokens )
	end

	# vvvvvvvv tests vvvvvvvvv
	def test_single_node
	tree = Wizard::PatternParser.parse( 'ID', Tokens, @adaptor )

	assert_instance_of(CommonTree, tree)
	assert_equal( ID, tree.type )
	assert_equal( 'ID', tree.text )
	end

	def test_single_node_with_arg
	tree = Wizard::PatternParser.parse( 'ID[foo]', Tokens, @adaptor )

	assert_instance_of( CommonTree, tree )
	assert_equal( ID, tree.type )
	assert_equal( 'foo', tree.text )
	end

	def test_single_level_tree
	tree = Wizard::PatternParser.parse( '(A B)', Tokens, @adaptor )

	assert_instance_of( CommonTree, tree )
	assert_equal(A, tree.type)
	assert_equal('A', tree.text)
	assert_equal(tree.child_count, 1)
	assert_equal(tree.child(0).type, B)
	assert_equal(tree.child(0).text, 'B')
	end

	def test_nil
	tree = Wizard::PatternParser.parse( 'nil', Tokens, @adaptor )

	assert_instance_of(CommonTree, tree)
	assert_equal(0, tree.type)
	assert_nil tree.text
	end

	def test_wildcard
	tree = Wizard::PatternParser.parse( '(.)', Tokens, @adaptor )
	assert_instance_of( Wizard::WildcardPattern, tree )
	end

	def test_label
	tree = Wizard::PatternParser.parse( '(%a:A)', Tokens, @pattern_adaptor )
	assert_instance_of(Wizard::Pattern, tree)
	assert_equal('a', tree.label)
	end

	def test_error_1
	tree = Wizard::PatternParser.parse( ')', Tokens, @adaptor )
	assert_nil tree
	end

	def test_error_2
	tree = Wizard::PatternParser.parse( '()', Tokens, @adaptor )
	assert_nil tree
	end

	def test_error_3
	tree = Wizard::PatternParser.parse( '(A ])', Tokens, @adaptor )
	assert_nil tree
	end

	end


	class TestTreeWizard < Test::Unit::TestCase
	Tokens = TokenScheme.build %w(A B C D E ID VAR)
	include Tokens

	def setup
	@adaptor = CommonTreeAdaptor.new( Tokens.token_class )
	@wizard = Wizard.new( :adaptor => @adaptor, :token_scheme => Tokens )
	end

	def create_wizard( tokens )
	Wizard.new( :tokens => tokens )
	end

	# vvvvvvvv tests vvvvvvvvv
	def test_init
	@wizard = Wizard.new( :tokens => %w(A B), :adaptor => @adaptor )

	assert_equal( @wizard.adaptor, @adaptor )
	assert_kind_of( ANTLR3::TokenScheme, @wizard.token_scheme )
	end

	def test_single_node
	t = @wizard.create("ID")
	assert_equal(t.inspect, 'ID')
	end

	def test_single_node_with_arg
	t = @wizard.create("ID[foo]")

	assert_equal(t.inspect, 'foo')
	end

	def test_single_node_tree
	t = @wizard.create("(A)")
	assert_equal(t.inspect, 'A')
	end

	def test_single_level_tree
	t = @wizard.create("(A B C D)")
	assert_equal(t.inspect, '(A B C D)')
	end

	def test_list_tree
	t = @wizard.create("(nil A B C)")
	assert_equal(t.inspect, 'A B C')
	end

	def test_invalid_list_tree
	t = @wizard.create("A B C")
	assert_nil t
	end

	def test_double_level_tree
	t = @wizard.create("(A (B C) (B D) E)")
	assert_equal(t.inspect, "(A (B C) (B D) E)")
	end

	SIMPLIFY_MAP = lambda do \|imap\|
	Hash[
	imap.map { \|type, nodes\| [type, nodes.map { \|n\| n.to_s }] }
	]
	end

	def test_single_node_index
	tree = @wizard.create("ID")
	index_map = SIMPLIFY_MAP[@wizard.index(tree)]

	assert_equal(index_map, ID => %w(ID))
	end


	def test_no_repeats_index
	tree = @wizard.create("(A B C D)")
	index_map = SIMPLIFY_MAP[@wizard.index(tree)]

	assert_equal(index_map,
	D => %w(D), B => %w(B),
	C => %w(C), A => %w(A)
	)
	end

	def test_repeats_index
	tree = @wizard.create("(A B (A C B) B D D)")
	index_map = SIMPLIFY_MAP[@wizard.index(tree)]

	assert_equal(index_map,
	D => %w(D D), B => %w(B B B),
	C => %w(C), A => %w(A A)
	)
	end


	def test_no_repeats_visit
	tree = @wizard.create("(A B C D)")

	elements = []
	@wizard.visit( tree, B ) do \|node, parent, child_index, labels\|
	elements << node.to_s
	end

	assert_equal( %w(B), elements )
	end


	def test_no_repeats_visit2
	tree = @wizard.create("(A B (A C B) B D D)")

	elements = []
	@wizard.visit( tree, C ) do \|node, parent, child_index, labels\|
	elements << node.to_s
	end

	assert_equal(%w(C), elements)
	end


	def test_repeats_visit
	tree = @wizard.create("(A B (A C B) B D D)")

	elements = []
	@wizard.visit( tree, B ) do \|node, parent, child_index, labels\|
	elements << node.to_s
	end

	assert_equal(%w(B B B), elements)
	end


	def test_repeats_visit2
	tree = @wizard.create("(A B (A C B) B D D)")

	elements = []
	@wizard.visit( tree, A ) do \|node, parent, child_index, labels\|
	elements << node.to_s
	end

	assert_equal(%w(A A), elements)
	end

	def context(node, parent, index)
	'%s@%s[%d]' % [node.to_s, (parent \|\| 'nil').to_s, index]
	end

	def test_repeats_visit_with_context
	tree = @wizard.create("(A B (A C B) B D D)")

	elements = []
	@wizard.visit( tree, B ) do \|node, parent, child_index, labels\|
	elements << context(node, parent, child_index)
	end

	assert_equal(['B@A[0]', 'B@A[1]', 'B@A[2]'], elements)
	end


	def test_repeats_visit_with_null_parent_and_context
	tree = @wizard.create("(A B (A C B) B D D)")

	elements = []
	@wizard.visit( tree, A ) do \|node, parent, child_index, labels\|
	elements << context(node, parent, child_index)
	end

	assert_equal(['A@nil[-1]', 'A@A[1]'], elements)
	end

	def test_visit_pattern
	tree = @wizard.create("(A B C (A B) D)")

	elements = []
	@wizard.visit(tree, '(A B)') do \|node, parent, child_index, labels\|
	elements << node.to_s
	end

	assert_equal(%w(A), elements)
	end


	def test_visit_pattern_multiple
	tree = @wizard.create("(A B C (A B) (D (A B)))")

	elements = []
	@wizard.visit(tree, '(A B)') do \|node, parent, child_index, labels\|
	elements << context(node, parent, child_index)
	end

	assert_equal( %w(A@A[2] A@D[0]) , elements )
	end

	def labeled_context(node, parent, index, labels, *names)
	suffix = names.map { \|n\| labels[n].to_s }.join('&')
	'%s@%s[%d]%s' % [node.to_s, (parent \|\| 'nil').to_s, index, suffix]
	end

	def test_visit_pattern_multiple_with_labels
	tree = @wizard.create("(A B C (A[foo] B[bar]) (D (A[big] B[dog])))")

	elements = []
	@wizard.visit(tree, '(%a:A %b:B)') do \|node, parent, child_index, labels\|
	elements << labeled_context(node, parent, child_index, labels, 'a', 'b')
	end

	assert_equal( ['foo@A[2]foo&bar', 'big@D[0]big&dog'] , elements )
	end


	def test_match
	tree = @wizard.create("(A B C)")
	assert @wizard.match(tree, "(A B C)")
	end

	def test_match_single_node
	tree = @wizard.create('A')
	assert @wizard.match(tree, 'A')
	end

	def test_match_single_node_fails
	tree = @wizard.create('A')
	assert( !(@wizard.match(tree, 'B')) )
	end


	def test_match_flat_tree
	tree = @wizard.create('(nil A B C)')
	assert @wizard.match(tree, '(nil A B C)')
	end

	def test_match_flat_tree_fails
	tree = @wizard.create('(nil A B C)')
	assert( !(@wizard.match(tree, '(nil A B)')) )
	end

	def test_match_flat_tree_fails2
	tree = @wizard.create('(nil A B C)')
	assert( !(@wizard.match(tree, '(nil A B A)')) )
	end

	def test_wildcard
	tree = @wizard.create('(A B C)')
	assert @wizard.match(tree, '(A . .)')
	end

	def test_match_with_text
	tree = @wizard.create('(A B[foo] C[bar])')
	assert @wizard.match(tree, '(A B[foo] C)')
	end

	def test_match_with_text_fails
	tree = @wizard.create('(A B C)')
	assert( !(@wizard.match(tree, '(A[foo] B C)')) )
	end

	def test_match_labels
	tree = @wizard.create('(A B C)')
	labels = @wizard.match( tree, '(%a:A %b:B %c:C)' )

	assert_equal('A', labels['a'].to_s)
	assert_equal('B', labels['b'].to_s)
	assert_equal('C', labels['c'].to_s)
	end

	def test_match_with_wildcard_labels
	tree = @wizard.create('(A B C)')
	labels = @wizard.match(tree, '(A %b:. %c:.)')
	assert_kind_of( Hash, labels )
	assert_equal('B', labels['b'].to_s)
	assert_equal('C', labels['c'].to_s)
	end


	def test_match_labels_and_test_text
	tree = @wizard.create('(A B[foo] C)')
	labels = @wizard.match( tree, '(%a:A %b:B[foo] %c:C)' )
	assert_kind_of( Hash, labels )
	assert_equal('A', labels['a'].to_s)
	assert_equal('foo', labels['b'].to_s)
	assert_equal('C', labels['c'].to_s)
	end

	def test_match_labels_in_nested_tree
	tree = @wizard.create('(A (B C) (D E))')
	labels = @wizard.match( tree, '(%a:A (%b:B %c:C) (%d:D %e:E))' )
	assert_kind_of( Hash, labels )
	assert_equal('A', labels['a'].to_s)
	assert_equal('B', labels['b'].to_s)
	assert_equal('C', labels['c'].to_s)
	assert_equal('D', labels['d'].to_s)
	assert_equal('E', labels['e'].to_s)
	end


	def test_equals
	tree1 = @wizard.create("(A B C)")
	tree2 = @wizard.create("(A B C)")
	assert @wizard.equals(tree1, tree2)
	end


	def test_equals_with_text
	tree1 = @wizard.create("(A B[foo] C)")
	tree2 = @wizard.create("(A B[foo] C)")
	assert @wizard.equals(tree1, tree2)
	end


	def test_equals_with_mismatched_text
	tree1 = @wizard.create("(A B[foo] C)")
	tree2 = @wizard.create("(A B C)")
	assert( !(@wizard.equals(tree1, tree2)) )
	end


	def test_equals_with_mismatched_list
	tree1 = @wizard.create("(A B C)")
	tree2 = @wizard.create("(A B A)")
	assert( !(@wizard.equals(tree1, tree2)) )
	end

	def test_equals_with_mismatched_list_length
	tree1 = @wizard.create("(A B C)")
	tree2 = @wizard.create("(A B)")
	assert( !(@wizard.equals(tree1, tree2)) )
	end

	def test_find_pattern
	tree = @wizard.create("(A B C (A[foo] B[bar]) (D (A[big] B[dog])))")
	subtrees = @wizard.find(tree, "(A B)").map { \|t\| t.to_s }
	assert_equal(%w(foo big), subtrees)
	end

	def test_find_token_type
	tree = @wizard.create("(A B C (A[foo] B[bar]) (D (A[big] B[dog])))")
	subtrees = @wizard.find( tree, A ).map { \|t\| t.to_s }
	assert_equal(%w(A foo big), subtrees)
	end
	end