317 lines
10 KiB
Ruby
317 lines
10 KiB
Ruby
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module HTMLDiff
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Match = Struct.new(:start_in_old, :start_in_new, :size)
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class Match
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def end_in_old
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self.start_in_old + self.size
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end
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def end_in_new
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self.start_in_new + self.size
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end
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end
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Operation = Struct.new(:action, :start_in_old, :end_in_old, :start_in_new, :end_in_new)
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class DiffBuilder
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def initialize(old_version, new_version)
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@old_version, @new_version = old_version, new_version
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@content = []
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end
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def build
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split_inputs_to_words
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index_new_words
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operations.each { |op| perform_operation(op) }
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return @content.join
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end
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def split_inputs_to_words
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@old_words = convert_html_to_list_of_words(explode(@old_version))
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@new_words = convert_html_to_list_of_words(explode(@new_version))
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end
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def index_new_words
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@word_indices = Hash.new { |h, word| h[word] = [] }
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@new_words.each_with_index { |word, i| @word_indices[word] << i }
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end
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def operations
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position_in_old = position_in_new = 0
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operations = []
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matches = matching_blocks
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# an empty match at the end forces the loop below to handle the unmatched tails
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# I'm sure it can be done more gracefully, but not at 23:52
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matches << Match.new(@old_words.length, @new_words.length, 0)
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matches.each_with_index do |match, i|
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match_starts_at_current_position_in_old = (position_in_old == match.start_in_old)
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match_starts_at_current_position_in_new = (position_in_new == match.start_in_new)
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action_upto_match_positions =
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case [match_starts_at_current_position_in_old, match_starts_at_current_position_in_new]
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when [false, false]
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:replace
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when [true, false]
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:insert
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when [false, true]
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:delete
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else
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# this happens if the first few words are same in both versions
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:none
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end
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if action_upto_match_positions != :none
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operation_upto_match_positions =
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Operation.new(action_upto_match_positions,
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position_in_old, match.start_in_old,
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position_in_new, match.start_in_new)
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operations << operation_upto_match_positions
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end
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if match.size != 0
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match_operation = Operation.new(:equal,
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match.start_in_old, match.end_in_old,
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match.start_in_new, match.end_in_new)
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operations << match_operation
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end
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position_in_old = match.end_in_old
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position_in_new = match.end_in_new
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end
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operations
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end
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def matching_blocks
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matching_blocks = []
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recursively_find_matching_blocks(0, @old_words.size, 0, @new_words.size, matching_blocks)
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matching_blocks
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end
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def recursively_find_matching_blocks(start_in_old, end_in_old, start_in_new, end_in_new, matching_blocks)
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match = find_match(start_in_old, end_in_old, start_in_new, end_in_new)
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if match
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if start_in_old < match.start_in_old and start_in_new < match.start_in_new
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recursively_find_matching_blocks(
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start_in_old, match.start_in_old, start_in_new, match.start_in_new, matching_blocks)
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end
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matching_blocks << match
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if match.end_in_old < end_in_old and match.end_in_new < end_in_new
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recursively_find_matching_blocks(
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match.end_in_old, end_in_old, match.end_in_new, end_in_new, matching_blocks)
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end
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end
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end
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def find_match(start_in_old, end_in_old, start_in_new, end_in_new)
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best_match_in_old = start_in_old
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best_match_in_new = start_in_new
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best_match_size = 0
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match_length_at = Hash.new { |h, index| h[index] = 0 }
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start_in_old.upto(end_in_old - 1) do |index_in_old|
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new_match_length_at = Hash.new { |h, index| h[index] = 0 }
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@word_indices[@old_words[index_in_old]].each do |index_in_new|
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next if index_in_new < start_in_new
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break if index_in_new >= end_in_new
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new_match_length = match_length_at[index_in_new - 1] + 1
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new_match_length_at[index_in_new] = new_match_length
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if new_match_length > best_match_size
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best_match_in_old = index_in_old - new_match_length + 1
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best_match_in_new = index_in_new - new_match_length + 1
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best_match_size = new_match_length
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end
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end
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match_length_at = new_match_length_at
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end
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# best_match_in_old, best_match_in_new, best_match_size = add_matching_words_left(
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# best_match_in_old, best_match_in_new, best_match_size, start_in_old, start_in_new)
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# best_match_in_old, best_match_in_new, match_size = add_matching_words_right(
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# best_match_in_old, best_match_in_new, best_match_size, end_in_old, end_in_new)
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return (best_match_size != 0 ? Match.new(best_match_in_old, best_match_in_new, best_match_size) : nil)
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end
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def add_matching_words_left(match_in_old, match_in_new, match_size, start_in_old, start_in_new)
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while match_in_old > start_in_old and
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match_in_new > start_in_new and
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@old_words[match_in_old - 1] == @new_words[match_in_new - 1]
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match_in_old -= 1
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match_in_new -= 1
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match_size += 1
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end
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[match_in_old, match_in_new, match_size]
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end
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def add_matching_words_right(match_in_old, match_in_new, match_size, end_in_old, end_in_new)
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while match_in_old + match_size < end_in_old and
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match_in_new + match_size < end_in_new and
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@old_words[match_in_old + match_size] == @new_words[match_in_new + match_size]
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match_size += 1
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end
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[match_in_old, match_in_new, match_size]
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end
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VALID_METHODS = [:replace, :insert, :delete, :equal]
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def perform_operation(operation)
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@operation = operation
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self.send operation.action, operation
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end
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def replace(operation)
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delete(operation, 'diffmod')
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insert(operation, 'diffmod')
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end
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def insert(operation, tagclass = 'diffins')
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insert_tag('ins', tagclass, @new_words[operation.start_in_new...operation.end_in_new])
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end
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def delete(operation, tagclass = 'diffdel')
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insert_tag('del', tagclass, @old_words[operation.start_in_old...operation.end_in_old])
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end
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def equal(operation)
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# no tags to insert, simply copy the matching words from one of the versions
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@content += @new_words[operation.start_in_new...operation.end_in_new]
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end
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def opening_tag?(item)
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item =~ %r!^\s*<[^>]+>\s*$!
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end
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def closing_tag?(item)
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item =~ %r!^\s*</[^>]+>\s*$!
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end
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def tag?(item)
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opening_tag?(item) or closing_tag?(item)
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end
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def extract_consecutive_words(words, &condition)
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index_of_first_tag = nil
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words.each_with_index do |word, i|
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if !condition.call(word)
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index_of_first_tag = i
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break
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end
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end
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if index_of_first_tag
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return words.slice!(0...index_of_first_tag)
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else
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return words.slice!(0..words.length)
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end
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end
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# This method encloses words within a specified tag (ins or del), and adds this into @content,
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# with a twist: if there are words contain tags, it actually creates multiple ins or del,
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# so that they don't include any ins or del. This handles cases like
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# old: '<p>a</p>'
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# new: '<p>ab</p><p>c</b>'
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# diff result: '<p>a<ins>b</ins></p><p><ins>c</ins></p>'
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# this still doesn't guarantee valid HTML (hint: think about diffing a text containing ins or
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# del tags), but handles correctly more cases than the earlier version.
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#
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# P.S.: Spare a thought for people who write HTML browsers. They live in this ... every day.
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def insert_tag(tagname, cssclass, words)
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loop do
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break if words.empty?
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non_tags = extract_consecutive_words(words) { |word| not tag?(word) }
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@content << wrap_text(non_tags.join, tagname, cssclass) unless non_tags.empty?
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break if words.empty?
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@content += extract_consecutive_words(words) { |word| tag?(word) }
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end
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end
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def wrap_text(text, tagname, cssclass)
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%(<#{tagname} class="#{cssclass}">#{text}</#{tagname}>)
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end
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def explode(sequence)
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sequence.is_a?(String) ? sequence.split(//) : sequence
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end
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def end_of_tag?(char)
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char == '>'
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end
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def start_of_tag?(char)
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char == '<'
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end
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def whitespace?(char)
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char =~ /\s/
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end
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def convert_html_to_list_of_words(x, use_brackets = false)
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mode = :char
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current_word = ''
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words = []
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explode(x).each do |char|
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case mode
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when :tag
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if end_of_tag? char
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current_word << (use_brackets ? ']' : '>')
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words << current_word
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current_word = ''
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if whitespace?(char)
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mode = :whitespace
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else
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mode = :char
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end
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else
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current_word << char
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end
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when :char
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if start_of_tag? char
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words << current_word unless current_word.empty?
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current_word = (use_brackets ? '[' : '<')
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mode = :tag
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elsif /\s/.match char
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words << current_word unless current_word.empty?
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current_word = char
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mode = :whitespace
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else
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current_word << char
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end
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when :whitespace
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if start_of_tag? char
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words << current_word unless current_word.empty?
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current_word = (use_brackets ? '[' : '<')
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mode = :tag
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elsif /\s/.match char
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current_word << char
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else
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words << current_word unless current_word.empty?
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current_word = char
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mode = :char
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end
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else
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raise "Unknown mode #{mode.inspect}"
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end
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end
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words << current_word unless current_word.empty?
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words
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end
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end # of class Diff Builder
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def diff(a, b)
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DiffBuilder.new(a, b).build
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end
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end
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