module Cucumber module Parser # TIP: When you hack on the grammar, just delete feature.rb in this directory. # Also make sure you have uninstalled all cucumber gems (don't forget xxx-cucumber # github gems). # # Treetop will then generate the parser in-memory. When you're happy, just generate # the rb file with tt feature.tt module Feature include Treetop::Runtime def root @root || :feature end include I18n include Table module Feature0 end module Feature1 def white elements[0] end def comment elements[1] end def white elements[2] end def tags elements[3] end def white elements[4] end def header elements[5] end def bg elements[6] end def feature_elements elements[7] end end module Feature2 def build(filter) background = bg.respond_to?(:build) ? bg.build : nil Ast::Feature.new( background, comment.build, tags.build, header.text_value, feature_elements.build(background, filter) ) end end def _nt_feature start_index = index if node_cache[:feature].has_key?(index) cached = node_cache[:feature][index] @index = cached.interval.end if cached return cached end i0, s0 = index, [] r1 = _nt_white s0 << r1 if r1 r2 = _nt_comment s0 << r2 if r2 r3 = _nt_white s0 << r3 if r3 r4 = _nt_tags s0 << r4 if r4 r5 = _nt_white s0 << r5 if r5 s6, i6 = [], index loop do i7, s7 = index, [] i8 = index i9 = index r10 = _nt_scenario_outline if r10 r9 = r10 else r11 = _nt_scenario if r11 r9 = r11 else r12 = _nt_background if r12 r9 = r12 else self.index = i9 r9 = nil end end end if r9 r8 = nil else self.index = i8 r8 = instantiate_node(SyntaxNode,input, index...index) end s7 << r8 if r8 if index < input_length r13 = instantiate_node(SyntaxNode,input, index...(index + 1)) @index += 1 else terminal_parse_failure("any character") r13 = nil end s7 << r13 end if s7.last r7 = instantiate_node(SyntaxNode,input, i7...index, s7) r7.extend(Feature0) else self.index = i7 r7 = nil end if r7 s6 << r7 else break end end r6 = instantiate_node(SyntaxNode,input, i6...index, s6) s0 << r6 if r6 r15 = _nt_background if r15 r14 = r15 else r14 = instantiate_node(SyntaxNode,input, index...index) end s0 << r14 if r14 r16 = _nt_feature_elements s0 << r16 if r16 r18 = _nt_comment if r18 r17 = r18 else r17 = instantiate_node(SyntaxNode,input, index...index) end s0 << r17 end end end end end end end end if s0.last r0 = instantiate_node(SyntaxNode,input, i0...index, s0) r0.extend(Feature1) r0.extend(Feature2) else self.index = i0 r0 = nil end node_cache[:feature][start_index] = r0 return r0 end module Tags0 def tag elements[0] end end module Tags1 def white elements[0] end def ts elements[1] end end module Tags2 def at_line?(line) ts.elements.detect{|e| e.tag.line == line} end def build tag_names = ts.elements.map{|e| e.tag.tag_name.text_value} Ast::Tags.new(ts.line, tag_names) end end def _nt_tags start_index = index if node_cache[:tags].has_key?(index) cached = node_cache[:tags][index] @index = cached.interval.end if cached return cached end i0, s0 = index, [] r1 = _nt_white s0 << r1 if r1 s2, i2 = [], index loop do i3, s3 = index, [] r4 = _nt_tag s3 << r4 if r4 s5, i5 = [], index loop do i6 = index r7 = _nt_space if r7 r6 = r7 else r8 = _nt_eol if r8 r6 = r8 else self.index = i6 r6 = nil end end if r6 s5 << r6 else break end end if s5.empty? self.index = i5 r5 = nil else r5 = instantiate_node(SyntaxNode,input, i5...index, s5) end s3 << r5 end if s3.last r3 = instantiate_node(SyntaxNode,input, i3...index, s3) r3.extend(Tags0) else self.index = i3 r3 = nil end if r3 s2 << r3 else break end end r2 = instantiate_node(SyntaxNode,input, i2...index, s2) s0 << r2 end if s0.last r0 = instantiate_node(SyntaxNode,input, i0...index, s0) r0.extend(Tags1) r0.extend(Tags2) else self.index = i0 r0 = nil end node_cache[:tags][start_index] = r0 return r0 end module Tag0 def tag_name elements[1] end end def _nt_tag start_index = index if node_cache[:tag].has_key?(index) cached = node_cache[:tag][index] @index = cached.interval.end if cached return cached end i0, s0 = index, [] if input.index('@', index) == index r1 = instantiate_node(SyntaxNode,input, index...(index + 1)) @index += 1 else terminal_parse_failure('@') r1 = nil end s0 << r1 if r1 s2, i2 = [], index loop do if input.index(Regexp.new('[^@\\r\\n\\t ]'), index) == index r3 = instantiate_node(SyntaxNode,input, index...(index + 1)) @index += 1 else r3 = nil end if r3 s2 << r3 else break end end if s2.empty? self.index = i2 r2 = nil else r2 = instantiate_node(SyntaxNode,input, i2...index, s2) end s0 << r2 end if s0.last r0 = instantiate_node(SyntaxNode,input, i0...index, s0) r0.extend(Tag0) else self.index = i0 r0 = nil end node_cache[:tag][start_index] = r0 return r0 end module Comment0 def comment_line elements[0] end def white elements[1] end end module Comment1 def build Ast::Comment.new(text_value) end end def _nt_comment start_index = index if node_cache[:comment].has_key?(index) cached = node_cache[:comment][index] @index = cached.interval.end if cached return cached end s0, i0 = [], index loop do i1, s1 = index, [] r2 = _nt_comment_line s1 << r2 if r2 r3 = _nt_white s1 << r3 end if s1.last r1 = instantiate_node(SyntaxNode,input, i1...index, s1) r1.extend(Comment0) else self.index = i1 r1 = nil end if r1 s0 << r1 else break end end r0 = instantiate_node(SyntaxNode,input, i0...index, s0) r0.extend(Comment1) node_cache[:comment][start_index] = r0 return r0 end module CommentLine0 def line_to_eol elements[1] end end def _nt_comment_line start_index = index if node_cache[:comment_line].has_key?(index) cached = node_cache[:comment_line][index] @index = cached.interval.end if cached return cached end i0, s0 = index, [] if input.index('#', index) == index r1 = instantiate_node(SyntaxNode,input, index...(index + 1)) @index += 1 else terminal_parse_failure('#') r1 = nil end s0 << r1 if r1 r2 = _nt_line_to_eol s0 << r2 end if s0.last r0 = instantiate_node(SyntaxNode,input, i0...index, s0) r0.extend(CommentLine0) else self.index = i0 r0 = nil end node_cache[:comment_line][start_index] = r0 return r0 end module Background0 def comment elements[0] end def white elements[1] end def background_keyword elements[2] end def name elements[4] end def steps elements[6] end end module Background1 def build Ast::Background.new( comment.build, background_keyword.line, background_keyword.text_value, name.text_value, steps.build ) end end def _nt_background start_index = index if node_cache[:background].has_key?(index) cached = node_cache[:background][index] @index = cached.interval.end if cached return cached end i0, s0 = index, [] r1 = _nt_comment s0 << r1 if r1 r2 = _nt_white s0 << r2 if r2 r3 = _nt_background_keyword s0 << r3 if r3 s4, i4 = [], index loop do r5 = _nt_space if r5 s4 << r5 else break end end r4 = instantiate_node(SyntaxNode,input, i4...index, s4) s0 << r4 if r4 r7 = _nt_line_to_eol if r7 r6 = r7 else r6 = instantiate_node(SyntaxNode,input, index...index) end s0 << r6 if r6 i8 = index s9, i9 = [], index loop do r10 = _nt_eol if r10 s9 << r10 else break end end if s9.empty? self.index = i9 r9 = nil else r9 = instantiate_node(SyntaxNode,input, i9...index, s9) end if r9 r8 = r9 else r11 = _nt_eof if r11 r8 = r11 else self.index = i8 r8 = nil end end s0 << r8 if r8 r12 = _nt_steps s0 << r12 end end end end end end if s0.last r0 = instantiate_node(SyntaxNode,input, i0...index, s0) r0.extend(Background0) r0.extend(Background1) else self.index = i0 r0 = nil end node_cache[:background][start_index] = r0 return r0 end module FeatureElements0 def build(background, filter) elements.map do |feature_element| if filter.nil? || filter.accept?(feature_element) feature_element.build(background, filter) end end.compact end end def _nt_feature_elements start_index = index if node_cache[:feature_elements].has_key?(index) cached = node_cache[:feature_elements][index] @index = cached.interval.end if cached return cached end s0, i0 = [], index loop do i1 = index r2 = _nt_scenario if r2 r1 = r2 else r3 = _nt_scenario_outline if r3 r1 = r3 else self.index = i1 r1 = nil end end if r1 s0 << r1 else break end end r0 = instantiate_node(SyntaxNode,input, i0...index, s0) r0.extend(FeatureElements0) node_cache[:feature_elements][start_index] = r0 return r0 end module Scenario0 def comment elements[0] end def tags elements[1] end def white elements[2] end def scenario_keyword elements[3] end def name elements[5] end def white elements[6] end def steps elements[7] end def white elements[8] end end module Scenario1 def at_line?(line) scenario_keyword.line == line || steps.at_line?(line) || tags.at_line?(line) end def build(background, filter) Ast::Scenario.new( background, comment.build, tags.build, scenario_keyword.line, scenario_keyword.text_value, name.text_value, steps.build ) end end def _nt_scenario start_index = index if node_cache[:scenario].has_key?(index) cached = node_cache[:scenario][index] @index = cached.interval.end if cached return cached end i0, s0 = index, [] r1 = _nt_comment s0 << r1 if r1 r2 = _nt_tags s0 << r2 if r2 r3 = _nt_white s0 << r3 if r3 r4 = _nt_scenario_keyword s0 << r4 if r4 s5, i5 = [], index loop do r6 = _nt_space if r6 s5 << r6 else break end end r5 = instantiate_node(SyntaxNode,input, i5...index, s5) s0 << r5 if r5 r7 = _nt_line_to_eol s0 << r7 if r7 r8 = _nt_white s0 << r8 if r8 r9 = _nt_steps s0 << r9 if r9 r10 = _nt_white s0 << r10 end end end end end end end end if s0.last r0 = instantiate_node(SyntaxNode,input, i0...index, s0) r0.extend(Scenario0) r0.extend(Scenario1) else self.index = i0 r0 = nil end node_cache[:scenario][start_index] = r0 return r0 end module ScenarioOutline0 def comment elements[0] end def tags elements[1] end def white elements[2] end def scenario_outline_keyword elements[3] end def name elements[5] end def white elements[6] end def steps elements[7] end def examples_sections elements[8] end def white elements[9] end end module ScenarioOutline1 def at_line?(line) outline_at_line?(line) || examples_sections.at_line?(line) || tags.at_line?(line) end def outline_at_line?(line) scenario_outline_keyword.line == line || steps.at_line?(line) end def build(background, filter) Ast::ScenarioOutline.new( background, comment.build, tags.build, scenario_outline_keyword.line, scenario_outline_keyword.text_value, name.text_value, steps.build, examples_sections.build(filter, self) ) end end def _nt_scenario_outline start_index = index if node_cache[:scenario_outline].has_key?(index) cached = node_cache[:scenario_outline][index] @index = cached.interval.end if cached return cached end i0, s0 = index, [] r1 = _nt_comment s0 << r1 if r1 r2 = _nt_tags s0 << r2 if r2 r3 = _nt_white s0 << r3 if r3 r4 = _nt_scenario_outline_keyword s0 << r4 if r4 s5, i5 = [], index loop do r6 = _nt_space if r6 s5 << r6 else break end end r5 = instantiate_node(SyntaxNode,input, i5...index, s5) s0 << r5 if r5 r7 = _nt_line_to_eol s0 << r7 if r7 r8 = _nt_white s0 << r8 if r8 r9 = _nt_steps s0 << r9 if r9 r10 = _nt_examples_sections s0 << r10 if r10 r11 = _nt_white s0 << r11 end end end end end end end end end if s0.last r0 = instantiate_node(SyntaxNode,input, i0...index, s0) r0.extend(ScenarioOutline0) r0.extend(ScenarioOutline1) else self.index = i0 r0 = nil end node_cache[:scenario_outline][start_index] = r0 return r0 end module Steps0 def at_line?(line) elements.detect{|e| e.at_line?(line)} end def build elements.map{|e| e.build} end end def _nt_steps start_index = index if node_cache[:steps].has_key?(index) cached = node_cache[:steps][index] @index = cached.interval.end if cached return cached end s0, i0 = [], index loop do r1 = _nt_step if r1 s0 << r1 else break end end r0 = instantiate_node(SyntaxNode,input, i0...index, s0) r0.extend(Steps0) node_cache[:steps][start_index] = r0 return r0 end module Step0 def comment elements[0] end def step_keyword elements[2] end def keyword_space elements[3] end def name elements[4] end def multi elements[6] end def white elements[7] end end module Step1 def at_line?(line) step_keyword.line == line || (multi.respond_to?(:at_line?) && multi.at_line?(line)) end def build if multi.respond_to?(:build) Ast::Step.new(step_keyword.line, step_keyword.text_value, name.text_value.strip, multi.build) else Ast::Step.new(step_keyword.line, step_keyword.text_value, name.text_value.strip) end end end def _nt_step start_index = index if node_cache[:step].has_key?(index) cached = node_cache[:step][index] @index = cached.interval.end if cached return cached end i0, s0 = index, [] r1 = _nt_comment s0 << r1 if r1 s2, i2 = [], index loop do r3 = _nt_space if r3 s2 << r3 else break end end r2 = instantiate_node(SyntaxNode,input, i2...index, s2) s0 << r2 if r2 r4 = _nt_step_keyword s0 << r4 if r4 r5 = _nt_keyword_space s0 << r5 if r5 r6 = _nt_line_to_eol s0 << r6 if r6 i7 = index s8, i8 = [], index loop do r9 = _nt_eol if r9 s8 << r9 else break end end if s8.empty? self.index = i8 r8 = nil else r8 = instantiate_node(SyntaxNode,input, i8...index, s8) end if r8 r7 = r8 else r10 = _nt_eof if r10 r7 = r10 else self.index = i7 r7 = nil end end s0 << r7 if r7 r12 = _nt_multiline_arg if r12 r11 = r12 else r11 = instantiate_node(SyntaxNode,input, index...index) end s0 << r11 if r11 r13 = _nt_white s0 << r13 end end end end end end end if s0.last r0 = instantiate_node(SyntaxNode,input, i0...index, s0) r0.extend(Step0) r0.extend(Step1) else self.index = i0 r0 = nil end node_cache[:step][start_index] = r0 return r0 end module ExamplesSections0 def at_line?(line) elements.detect { |e| e.at_line?(line) } end def build(filter, scenario_outline) elements.map do |e| if(filter.nil? || filter.accept?(e) || filter.outline_at_line?(scenario_outline)) e.build(filter, scenario_outline) end end.compact end end def _nt_examples_sections start_index = index if node_cache[:examples_sections].has_key?(index) cached = node_cache[:examples_sections][index] @index = cached.interval.end if cached return cached end s0, i0 = [], index loop do r1 = _nt_examples if r1 s0 << r1 else break end end r0 = instantiate_node(SyntaxNode,input, i0...index, s0) r0.extend(ExamplesSections0) node_cache[:examples_sections][start_index] = r0 return r0 end module Examples0 def examples_keyword elements[1] end def name elements[3] end def eol elements[4] end def table elements[5] end def white elements[6] end end module Examples1 def at_line?(line) examples_keyword.line == line || table.at_line?(line) end def build(filter, scenario_outline) [examples_keyword.line, examples_keyword.text_value, name.text_value, table.raw(filter, scenario_outline)] end end def _nt_examples start_index = index if node_cache[:examples].has_key?(index) cached = node_cache[:examples][index] @index = cached.interval.end if cached return cached end i0, s0 = index, [] s1, i1 = [], index loop do r2 = _nt_space if r2 s1 << r2 else break end end r1 = instantiate_node(SyntaxNode,input, i1...index, s1) s0 << r1 if r1 r3 = _nt_examples_keyword s0 << r3 if r3 s4, i4 = [], index loop do r5 = _nt_space if r5 s4 << r5 else break end end r4 = instantiate_node(SyntaxNode,input, i4...index, s4) s0 << r4 if r4 r7 = _nt_line_to_eol if r7 r6 = r7 else r6 = instantiate_node(SyntaxNode,input, index...index) end s0 << r6 if r6 r8 = _nt_eol s0 << r8 if r8 r9 = _nt_table s0 << r9 if r9 r10 = _nt_white s0 << r10 end end end end end end if s0.last r0 = instantiate_node(SyntaxNode,input, i0...index, s0) r0.extend(Examples0) r0.extend(Examples1) else self.index = i0 r0 = nil end node_cache[:examples][start_index] = r0 return r0 end def _nt_multiline_arg start_index = index if node_cache[:multiline_arg].has_key?(index) cached = node_cache[:multiline_arg][index] @index = cached.interval.end if cached return cached end i0 = index r1 = _nt_table if r1 r0 = r1 else r2 = _nt_py_string if r2 r0 = r2 else self.index = i0 r0 = nil end end node_cache[:multiline_arg][start_index] = r0 return r0 end module LineToEol0 end def _nt_line_to_eol start_index = index if node_cache[:line_to_eol].has_key?(index) cached = node_cache[:line_to_eol][index] @index = cached.interval.end if cached return cached end s0, i0 = [], index loop do i1, s1 = index, [] i2 = index r3 = _nt_eol if r3 r2 = nil else self.index = i2 r2 = instantiate_node(SyntaxNode,input, index...index) end s1 << r2 if r2 if index < input_length r4 = instantiate_node(SyntaxNode,input, index...(index + 1)) @index += 1 else terminal_parse_failure("any character") r4 = nil end s1 << r4 end if s1.last r1 = instantiate_node(SyntaxNode,input, i1...index, s1) r1.extend(LineToEol0) else self.index = i1 r1 = nil end if r1 s0 << r1 else break end end r0 = instantiate_node(SyntaxNode,input, i0...index, s0) node_cache[:line_to_eol][start_index] = r0 return r0 end module PyString0 end module PyString1 def open_py_string elements[0] end def s elements[1] end def close_py_string elements[2] end end module PyString2 def at_line?(line) line >= open_py_string.line && line <= close_py_string.line end def build Ast::PyString.new(open_py_string.line, close_py_string.line, s.text_value, open_py_string.indentation) end end def _nt_py_string start_index = index if node_cache[:py_string].has_key?(index) cached = node_cache[:py_string][index] @index = cached.interval.end if cached return cached end i0, s0 = index, [] r1 = _nt_open_py_string s0 << r1 if r1 s2, i2 = [], index loop do i3, s3 = index, [] i4 = index r5 = _nt_close_py_string if r5 r4 = nil else self.index = i4 r4 = instantiate_node(SyntaxNode,input, index...index) end s3 << r4 if r4 if index < input_length r6 = instantiate_node(SyntaxNode,input, index...(index + 1)) @index += 1 else terminal_parse_failure("any character") r6 = nil end s3 << r6 end if s3.last r3 = instantiate_node(SyntaxNode,input, i3...index, s3) r3.extend(PyString0) else self.index = i3 r3 = nil end if r3 s2 << r3 else break end end r2 = instantiate_node(SyntaxNode,input, i2...index, s2) s0 << r2 if r2 r7 = _nt_close_py_string s0 << r7 end end if s0.last r0 = instantiate_node(SyntaxNode,input, i0...index, s0) r0.extend(PyString1) r0.extend(PyString2) else self.index = i0 r0 = nil end node_cache[:py_string][start_index] = r0 return r0 end module OpenPyString0 def white elements[0] end def eol elements[3] end end module OpenPyString1 def indentation white.text_value.length end def line white.line end end def _nt_open_py_string start_index = index if node_cache[:open_py_string].has_key?(index) cached = node_cache[:open_py_string][index] @index = cached.interval.end if cached return cached end i0, s0 = index, [] r1 = _nt_white s0 << r1 if r1 if input.index('"""', index) == index r2 = instantiate_node(SyntaxNode,input, index...(index + 3)) @index += 3 else terminal_parse_failure('"""') r2 = nil end s0 << r2 if r2 s3, i3 = [], index loop do r4 = _nt_space if r4 s3 << r4 else break end end r3 = instantiate_node(SyntaxNode,input, i3...index, s3) s0 << r3 if r3 r5 = _nt_eol s0 << r5 end end end if s0.last r0 = instantiate_node(SyntaxNode,input, i0...index, s0) r0.extend(OpenPyString0) r0.extend(OpenPyString1) else self.index = i0 r0 = nil end node_cache[:open_py_string][start_index] = r0 return r0 end module ClosePyString0 def eol elements[0] end def quotes elements[2] end def white elements[3] end end module ClosePyString1 def line quotes.line end end def _nt_close_py_string start_index = index if node_cache[:close_py_string].has_key?(index) cached = node_cache[:close_py_string][index] @index = cached.interval.end if cached return cached end i0, s0 = index, [] r1 = _nt_eol s0 << r1 if r1 s2, i2 = [], index loop do r3 = _nt_space if r3 s2 << r3 else break end end r2 = instantiate_node(SyntaxNode,input, i2...index, s2) s0 << r2 if r2 if input.index('"""', index) == index r4 = instantiate_node(SyntaxNode,input, index...(index + 3)) @index += 3 else terminal_parse_failure('"""') r4 = nil end s0 << r4 if r4 r5 = _nt_white s0 << r5 end end end if s0.last r0 = instantiate_node(SyntaxNode,input, i0...index, s0) r0.extend(ClosePyString0) r0.extend(ClosePyString1) else self.index = i0 r0 = nil end node_cache[:close_py_string][start_index] = r0 return r0 end def _nt_white start_index = index if node_cache[:white].has_key?(index) cached = node_cache[:white][index] @index = cached.interval.end if cached return cached end s0, i0 = [], index loop do i1 = index r2 = _nt_space if r2 r1 = r2 else r3 = _nt_eol if r3 r1 = r3 else self.index = i1 r1 = nil end end if r1 s0 << r1 else break end end r0 = instantiate_node(SyntaxNode,input, i0...index, s0) node_cache[:white][start_index] = r0 return r0 end end class FeatureParser < Treetop::Runtime::CompiledParser include Feature end end end