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231 lines
5.0 KiB
Ruby
231 lines
5.0 KiB
Ruby
# frozen_string_literal: true
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# Use "An O(NP) Sequence Comparison Algorithm" as described by Sun Wu, Udi Manber and Gene Myers
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# in https://publications.mpi-cbg.de/Wu_1990_6334.pdf
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class ONPDiff
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def initialize(a, b)
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@a, @b = a, b
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@m, @n = a.size, b.size
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@backtrack = []
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if @reverse = @m > @n
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@a, @b = @b, @a
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@m, @n = @n, @m
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end
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@offset = @m + 1
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@delta = @n - @m
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end
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def diff
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@diff ||= build_edit_script(compose)
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end
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def short_diff
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@short_diff ||= build_short_edit_script(compose)
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end
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def paragraph_diff
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@paragraph_diff ||= build_paragraph_edit_script(diff)
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end
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private
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def compose
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return @shortest_path if @shortest_path
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size = @m + @n + 3
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fp = Array.new(size, -1)
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@path = Array.new(size, -1)
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p = -1
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begin
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p += 1
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return (@shortest_path = []) if p >= 1000
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k = -p
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while k <= @delta - 1
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fp[k + @offset] = snake(k, fp[k - 1 + @offset] + 1, fp[k + 1 + @offset])
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k += 1
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end
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k = @delta + p
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while k >= @delta + 1
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fp[k + @offset] = snake(k, fp[k - 1 + @offset] + 1, fp[k + 1 + @offset])
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k -= 1
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end
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fp[@delta + @offset] = snake(@delta, fp[@delta - 1 + @offset] + 1, fp[@delta + 1 + @offset])
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end until fp[@delta + @offset] == @n
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r = @path[@delta + @offset]
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@shortest_path = []
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while r != -1
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@shortest_path << [@backtrack[r][0], @backtrack[r][1]]
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r = @backtrack[r][2]
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end
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@shortest_path
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end
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def snake(k, p, pp)
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r = p > pp ? @path[k - 1 + @offset] : @path[k + 1 + @offset]
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y = [p, pp].max
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x = y - k
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while x < @m && y < @n && @a[x] == @b[y]
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x += 1
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y += 1
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end
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@path[k + @offset] = @backtrack.size
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@backtrack << [x, y, r]
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y
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end
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def build_edit_script(shortest_path)
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ses = []
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x, y = 1, 1
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px, py = 0, 0
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i = shortest_path.size - 1
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while i >= 0
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while px < shortest_path[i][0] || py < shortest_path[i][1]
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if shortest_path[i][1] - shortest_path[i][0] > py - px
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t = @reverse ? :delete : :add
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ses << [@b[py], t]
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y += 1
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py += 1
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elsif shortest_path[i][1] - shortest_path[i][0] < py - px
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t = @reverse ? :add : :delete
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ses << [@a[px], t]
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x += 1
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px += 1
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else
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ses << [@a[px], :common]
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x += 1
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y += 1
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px += 1
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py += 1
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end
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end
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i -= 1
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end
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ses
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end
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def build_short_edit_script(shortest_path)
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ses = []
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x, y = 1, 1
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px, py = 0, 0
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i = shortest_path.size - 1
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while i >= 0
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while px < shortest_path[i][0] || py < shortest_path[i][1]
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if shortest_path[i][1] - shortest_path[i][0] > py - px
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t = @reverse ? :delete : :add
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if ses.size > 0 && ses[-1][1] == t
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ses[-1][0] << @b[py]
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else
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ses << [@b[py], t]
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end
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y += 1
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py += 1
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elsif shortest_path[i][1] - shortest_path[i][0] < py - px
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t = @reverse ? :add : :delete
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if ses.size > 0 && ses[-1][1] == t
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ses[-1][0] << @a[px]
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else
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ses << [@a[px], t]
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end
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x += 1
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px += 1
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else
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if ses.size > 0 && ses[-1][1] == :common
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ses[-1][0] << @a[px]
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else
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ses << [@a[px], :common]
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end
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x += 1
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y += 1
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px += 1
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py += 1
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end
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end
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i -= 1
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end
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ses
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end
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def build_paragraph_edit_script(ses)
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paragraph_ses = []
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i = 0
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while i < ses.size
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if ses[i][1] == :common
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paragraph_ses << ses[i]
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else
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if ses[i][1] == :add
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op_code = :add
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opposite_op_code = :delete
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else
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op_code = :delete
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opposite_op_code = :add
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end
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j = i + 1
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while j < ses.size && ses[j][1] == op_code
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j += 1
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end
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if j >= ses.size
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paragraph_ses = paragraph_ses.concat(ses[i..j])
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i = j
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else
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k = j
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j -= 1
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while k < ses.size && ses[k][1] == opposite_op_code
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k += 1
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end
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k -= 1
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num_before = j - i + 1
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num_after = k - j
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if num_after > 1
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if num_before > num_after
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i2 = i + num_before - num_after
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paragraph_ses = paragraph_ses.concat(ses[i..i2 - 1])
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i = i2
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elsif num_after > num_before
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k -= num_after - num_before
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end
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paragraph_ses = paragraph_ses.concat(pair_paragraphs(ses, i, j))
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else
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paragraph_ses = paragraph_ses.concat(ses[i..k])
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end
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i = k
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end
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end
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i += 1
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end
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paragraph_ses
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end
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def pair_paragraphs(ses, i, j)
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pairs = []
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num_pairs = j - i + 1
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num_pairs.times do
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pairs << ses[i]
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pairs << ses[i + num_pairs]
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i += 1
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end
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pairs
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end
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end
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