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|
#!/usr/bin/env ruby
require 'zipf'
module PhrasePhraseExtraction
DEBUG = false
MAX_NT = 1 # Chiang: 2
MAX_SEED_NUM_WORDS = 3 # Chiang: 10 words, -> phrases!
MAX_SRC_SZ = 8 # Chiang: 5 words, -> words!
FORBID_SRC_ADJACENT_SRC_NT = true # Chiang:true
class Rule
attr_accessor :source, :target, :arity, :source_context, :target_context, :alignment
def initialize source_range=nil, target_range=nil, source_context=nil, target_context=nil, alignment=[]
if source_context && target_range && source_context && target_context
@source = [source_range]
@target = [target_range]
@source_context = source_context
@target_context = target_context
@alignment = alignment
else
@source = []
@target = []
@source_context = []
@target_context = []
@alignment = []
end
@arity = 0
end
def hash
self.as_trule_string.hash
end
def eql? other
self.as_trule_string == other.as_trule_string
end
def len_src
src_len = 0
@source.each { |i|
if i.is_a? String
src_len += 1
else
src_len += i.last-i.first+1
end
}
return src_len
end
def len_src_w
src_len = 0
@source.each { |i|
if i.is_a? String
src_len += i.split.size #1
else
i.each { |j|
src_len += source_context[j].split.size
}
end
}
return src_len
end
def len_tgt
tgt_len = 0
@target.each { |i|
if i.is_a? String
tgt_len += 1
else
tgt_len += i.last-i.first+1
end
}
return tgt_len
end
def len_tgt_w
tgt_len = 0
@target.each { |i|
if i.is_a? String
tgt_len += i.split.size
else
i.each { |j|
tgt_len += target_context[j].split.size
}
end
}
return tgt_len
end
def to_s
source_string = ""
@source.each { |i|
if i.is_a? Range
source_string += @source_context[i].to_s
else
source_string += " #{i} "
end
}
target_string = ""
@target.each { |i|
if i.is_a? Range
target_string += @target_context[i].to_s
else
target_string += " #{i} "
end
}
astr = ""
@alignment.each { |p|
astr += " #{p.first}-#{p.last}"
}
astr.strip!
return "#{source_string.gsub(/\s+/, " ").strip} -> #{target_string.gsub(/\s+/, " ").strip} | #{astr}"
end
def rebase_alignment offset_src, offset_tgt
STDERR.write "a before rebasing #{@alignment.to_s}\n" if DEBUG
@alignment.each_with_index { |p,j|
@alignment[j] = [p.first-offset_src, p.last-offset_tgt]
}
STDERR.write "a after rebasing #{@alignment.to_s}\n" if DEBUG
end
def rebase_alignment1 correct_src, correct_tgt, start_source, start_target
@alignment.each_with_index { |p,j|
if p[0] > start_source
@alignment[j][0] = [0,p.first-correct_src].max
end
if p[1] > start_target
@alignment[j][1] = [0,p.last-correct_tgt].max
end
}
end
def get_source_string
source_string = ""
@source.each { |i|
if i.is_a? Range
source_string += @source_context[i].join(" ").strip
else
source_string += " #{i} "
end
}
source_string = source_string.lstrip.strip
return source_string
end
def get_target_string
target_string = ""
@target.each { |i|
if i.is_a? Range
target_string += @target_context[i].join(" ").strip
else
target_string += " #{i} "
end
}
target_string = target_string.lstrip.strip
return target_string
end
def as_trule_string
source_string = get_source_string
target_string = get_target_string
astr = ""
@alignment.each { |p|
astr += " #{p.first}-#{p.last}"
}
astr.strip!
#a = []
#source_string.strip.lstrip.split.each_with_index { |s,i|
# target_string.strip.lstrip.split.each_with_index { |t,j|
# if !s.match /\[X,\d+\]/ and !t.match /\[X,\d+\]/
# a << "#{i}-#{j}"
# end
# }
#}
#astr = a.join ' '
return "[X] ||| #{source_string} ||| #{target_string} ||| NewRule=1 ||| #{astr}"
end
def is_terminal?
@source.each { |i| return false if !i.is_a? Range }
@target.each { |i| return false if !i.is_a? Range }
return true
end
def mergeable_with? other_rule # check if other_rule is a part of self
return false if !other_rule.is_terminal?
other_source_begin = other_rule.source.first.first
other_source_end = other_rule.source.first.last
other_target_begin = other_rule.target.first.first
other_target_end = other_rule.target.first.last
b = false
@source.each { |i|
next if !i.is_a? Range
if ( other_source_begin >= i.first \
&& other_source_end <= i.last \
&& (!(other_source_begin==i.first && other_source_end==i.last)))
b = true
break
end
}
return false if !b
bb = false
@target.each { |i|
next if !i.is_a? Range
if ( other_target_begin >= i.first \
&& other_target_end <= i.last \
&& (!(other_target_begin==i.first && other_target_end==i.last)))
bb = true
break
end
}
return b&&bb
end
def self.split a, b, index=0, p="target"
return "[NEWX,#{index}]"if (a==b)
aa = a.to_a
begin_split = b.first
end_split = b.last
p1 = aa[0..aa.index([begin_split-1,aa.first].max)]
p2 = aa[aa.index([end_split+1, aa.last].min)..aa.last]
nt = "[NEWX,#{index}]"
ret = nil
if begin_split > a.first && end_split < a.last
ret = [(p1.first..p1.last), nt, (p2.first..p2.last)]
elsif begin_split == a.first
ret = [nt, (p2.first..p2.last)]
elsif end_split == a.last
ret = [(p1.first..p1.last), nt]
end
return ret
end
def self.merge r, s
if DEBUG
STDERR.write "#{r.to_s}"
STDERR.write "#{s.to_s}"
end
return nil if !r.mergeable_with? s
return nil if !s.is_terminal?
other_source_begin = s.source.first.first
other_source_end = s.source.first.last
other_target_begin = s.target.first.first
other_target_end = s.target.first.last
new_rule = Rule.new
new_rule.source_context = r.source_context
new_rule.target_context = r.target_context
new_rule.arity = r.arity+1
new_rule.alignment = Array.new
r.alignment.each { |p| new_rule.alignment << Array.new(p) } # deep copy
c = new_rule.arity
done = false
correct_src = 0
r.source.each_with_index { |i,j|
if i.is_a? Range
if ( !done \
&& other_source_begin >= i.first \
&& other_source_end <= i.last)
new_rule.source << Rule.split(i, (other_source_begin..other_source_end), c, "source")
new_rule.source.flatten!
done = true
else
new_rule.source << i
end
else
new_rule.source << i
end
}
# relabel Xs (linear on source side)
switch = false
k = 1
new_rule.source.each_with_index { |i,j|
if i.is_a? String
m = i.match(/\[(X|NEWX),(\d+)\]/)
n = m[1]
l = m[2].to_i
if k != l
switch = true
end
new_rule.source[j] = "[#{n},#{k}]"
k += 1
end
}
STDERR.write "switch #{switch}\n" if DEBUG
done = false
correct_tgt = 0
r.target.each_with_index { |i,j|
if i.is_a? Range
if ( !done \
&& other_target_begin >= i.first \
&& other_target_end <= i.last)
new_rule.target << Rule.split(i, (other_target_begin..other_target_end), c)
new_rule.target.flatten!
done = true
else
new_rule.target << i
end
else
new_rule.target << i
reorder = true
end
}
correct_src = r.len_src-new_rule.len_src
correct_tgt = r.len_tgt-new_rule.len_tgt
if DEBUG
STDERR.write "correct_src #{correct_src}\n"
STDERR.write "correct_tgt #{correct_tgt}\n"
end
start_correct_source = nil
j = 0
fl = []
new_rule.source.each { |i|
if i.is_a? Range
fl << new_rule.source_context[i]
else
if i.match(/\[NEWX,\d+\]/)
STDERR.write "j = #{j}\n" if DEBUG
start_correct_source = j
end
fl << i
end
j += 1
}
fl.flatten!
start_correct_target = nil
j = 0
fl.each { |i|
if i.match(/\[NEWX,\d+\]/)
STDERR.write "j = #{j}\n" if DEBUG
start_correct_source = j
break
end
j += 1
}
el = []
new_rule.target.each { |i|
if i.is_a? Range
el << new_rule.target_context[i]
else
el << i
end
j += 1
}
el.flatten!
start_correct_target = nil
j = 0
el.each { |i|
if i.match(/\[NEWX,\d+\]/)
STDERR.write "j = #{j}\n" if DEBUG
start_correct_target = j
break
end
j += 1
}
if DEBUG
STDERR.write "start_correct_source = #{start_correct_source}\n"
STDERR.write "start_correct_target = #{start_correct_target}\n"
end
new_rule.rebase_alignment1 correct_src, correct_tgt, start_correct_source, start_correct_target
STDERR.write "not uniq'ed #{new_rule.alignment.to_s}\n" if DEBUG
new_rule.alignment.uniq!
if DEBUG
STDERR.write "a before: #{new_rule.alignment.to_s}\n"
STDERR.write "#{fl.to_s}\n"
end
new_rule.alignment.reject! { |p|
!fl[p.first] || !el[p.last] || fl[p.first].match(/\[(NEWX|X),\d+\]/) || el[p.last].match(/\[(NEWX|X),\d+\]/)
}
if DEBUG
STDERR.write "a after: #{new_rule.alignment.to_s}\n"
STDERR.write "old len_src #{r.len_src}\n"
STDERR.write "new len_src #{new_rule.len_src}\n"
STDERR.write "old len_tgt #{r.len_tgt}\n"
STDERR.write "new len_tgt #{new_rule.len_tgt}\n"
end
if switch
new_rule.target.each_with_index { |i,j|
if i.is_a? String
m = i.match(/\[(X|NEWX),(\d+)\]/)
n = m[1]
k = m[2].to_i
l = nil
if k == 1
l = 2
else # 2
l = 1
end
new_rule.target[j] = "[#{n},#{l}]"
end
}
end
new_rule.source.each_with_index { |i,j|
if i.is_a?(String) && i.match(/\[NEWX,\d\]/)
i.gsub!(/NEWX/, "X")
end
}
new_rule.target.each_with_index { |i,j|
if i.is_a?(String) && i.match(/\[NEWX,\d\]/)
i.gsub!(/NEWX/, "X")
end
}
return new_rule
end
def expand_fake_alignment
new_alignment = []
if DEBUG
STDERR.write "#{@alignment.to_s}\n"
STDERR.write "#{@source.to_s}\n"
STDERR.write "#{@target.to_s}\n"
end
fl = @source.map { |i|
if i.is_a? Range
@source_context[i].map{|x|x.split}
else
i
end
}.flatten 1
el = @target.map { |i|
if i.is_a? Range
@target_context[i].map{|x|x.split}
else
i
end
}.flatten 1
if DEBUG
STDERR.write "#{fl.to_s}\n"
STDERR.write "#{el.to_s}\n"
STDERR.write "->\n"
end
offsets_src = {}
o = 0
fl.each_with_index { |i,j|
if i.is_a? Array
o += i.size-1
end
offsets_src[j] = o
}
offsets_tgt = {}
o = 0
el.each_with_index { |i,j|
if i.is_a? Array
o += i.size-1
end
offsets_tgt[j] = o
}
@alignment.each { |p|
if DEBUG
STDERR.write "#{p.to_s}\n"
STDERR.write "#{offsets_src[p.first]} -- #{offsets_tgt[p.last]}\n"
end
new_alignment << [ p.first+offsets_src[p.first], p.last+offsets_tgt[p.last] ]
if DEBUG
STDERR.write "#{new_alignment.last.to_s}\n"
STDERR.write "---\n"
STDERR.write "\n"
end
}
@alignment = new_alignment
end
end
def PhrasePhraseExtraction.make_gappy_rules rules, seed_rules
MAX_NT.times {
new_rules = []
rules.each { |r|
seed_rules.each { |s|
if r.mergeable_with? s
new = Rule.merge r, s
new_rules << new
STDERR.write "#{r.to_s} <<< #{s.to_s}\n" if DEBUG
STDERR.write " = #{new.to_s}\n\n" if DEBUG
end
}
}
rules += new_rules
}
return rules
end
def PhrasePhraseExtraction.has_alignment a, i, dir="src"
index = 0
index = 1 if dir=="tgt"
a.each { |p|
return true if p[index]==i
}
return false
end
def PhrasePhraseExtraction.extract fstart, fend, estart, eend, f, e, a, flen, elen
a.each { |p|
fi=p[0]; ei=p[1]
if (fstart..fend).include? fi
if ei<estart || ei>eend
return []
end
end
if (estart..eend).include? ei
if fi<fstart || fi>fend
return []
end
end
}
rules = []
fs = fstart
loop do
fe = fend
loop do
rules << Rule.new(fs..fe, estart..eend, f, e)
a.each { |p|
if (fs..fe).include?(p.first)
rules.last.alignment << p
end
}
rules.last.rebase_alignment fs, estart
fe += 1
break if has_alignment(a, fe, "src")||fe>=flen
end
fs -= 1
break has_alignment(a, fs, "src")||fs<0
end
return rules
end
def PhrasePhraseExtraction.make_seed_rules a, e, f
rules = []
(0..e.size-1).each { |estart|
(estart..e.size-1).each { |eend|
fstart = f.size-1
fend = 0
a.each { |p|
fi=p[0]; ei=p[1]
if estart<=ei && ei<=eend
fstart = [fi, fstart].min
fend = [fi, fend].max
end
}
next if fstart>fend
STDERR.write "fstart #{fstart}, fend #{fend}, estart #{estart}, eend #{eend}, fsize #{f.size}, esize #{e.size}\n" if DEBUG
new_rules = extract fstart, fend, estart, eend, f, e, a, f.size, e.size
new_rules.each { |r|
STDERR.write "#{r.to_s}\n" if DEBUG
}
rules += new_rules
}
}
return rules
end
def PhrasePhraseExtraction.extract_rules f, e, as, expand=false
if DEBUG
STDERR.write "----------\n"
STDERR.write "#{f.to_s}\n"
STDERR.write "#{e.to_s}\n"
STDERR.write "#{as.to_s}\n"
STDERR.write "----------\n"
end
a = []
as.each { |p|
x,y = p.split "-"
x = x.to_i; y = y.to_i
a << [x,y]
}
rules = PhrasePhraseExtraction.make_seed_rules a, e,f
seed_rules = PhrasePhraseExtraction.remove_too_large_seed_phrases rules
seed_rules.uniq! { |r| "#{r.get_source_string} ||| #{r.get_target_string}" }
if DEBUG
STDERR.write "seed rules:\n"
seed_rules.each { |r|
STDERR.write "#{r.to_s}"
}
end
rules = PhrasePhraseExtraction.make_gappy_rules rules, seed_rules
if PhrasePhraseExtraction::FORBID_SRC_ADJACENT_SRC_NT
rules = PhrasePhraseExtraction.remove_adjacent_nt rules
end
rules = PhrasePhraseExtraction.remove_too_long_src_sides rules
if expand
rules.each { |r| r.expand_fake_alignment }
end
rules.reject! { |r|
r.alignment.size == 0
}
return rules
end
def PhrasePhraseExtraction.remove_too_large_seed_phrases rules
return rules.reject { |r|
STDERR.write "#{r}\n" if DEBUG
src_len = r.len_src
tgt_len = r.len_tgt
src_len>PhrasePhraseExtraction::MAX_SEED_NUM_WORDS \
|| tgt_len>PhrasePhraseExtraction::MAX_SEED_NUM_WORDS }
end
def PhrasePhraseExtraction.remove_adjacent_nt rules
return rules.reject { |r|
b = false
prev = false
r.source.each { |i|
if i.is_a? String
if prev
b = true
break
end
prev = true
else
prev = false
end
}
b
=begin
c = false
prev = false
r.target.each { |i|
if i.is_a? String
if prev
c = true
break
end
prev = true
else
prev = false
end
}
b || c
=end
}
end
def PhrasePhraseExtraction.remove_too_long_src_sides rules
return rules.reject { |r|
r.len_src_w > PhrasePhraseExtraction::MAX_SRC_SZ
}
end
def PhrasePhraseExtraction.test
# 0 1 2 3
# a b c d
# w x y z
# 0-0
# 1-3
# 2-2
# 3-1
ra = Rule.new
rb = Rule.new
ra.source = [(0..2), "[X,1]"]
ra.target = [(0..0), "[X,1]", (2..3)]
ra.source_context = ["a", "b", "c", "d"]
ra.target_context = ["w", "x", "y", "z"]
ra.alignment = [[0,0],[1,3],[2,2]]
ra.arity = 1
rb.source = [(1..1)]
rb.target = [(3..3)]
rb.source_context = ["a", "b", "c", "d"]
rb.target_context = ["w", "x", "y", "z"]
rb.alignment = [[0,0]]
rb.arity = 0
puts ra.mergeable_with? rb
nr = Rule.merge ra, rb
puts ra.to_s
puts rb.to_s
puts nr.to_s
end
def PhrasePhraseExtraction.test_phrase
ra = Rule.new
rb = Rule.new
ra.source = [(0..2), "[X,1]"]
ra.target = [(0..0), "[X,1]", (2..3)]
ra.source_context = ["a a", "b b", "c c", "d d"]
ra.target_context = ["w w", "x x", "y y", "z z"]
ra.alignment = [[0,0],[1,3],[2,2]]
ra.expand_fake_alignment
ra.arity = 1
rb.source = [(1..1)]
rb.target = [(3..3)]
rb.source_context = ra.source_context
rb.target_context = rb.source_context
rb.alignment = [[0,0]]
rb.expand_fake_alignment
rb.arity = 0
puts ra.mergeable_with? rb
nr = Rule.merge ra, rb
puts ra.to_s
puts rb.to_s
nr.expand_fake_alignment
puts nr.to_s
end
def PhrasePhraseExtraction.test_phrase1
source_context = ["a", "b", "c", "Blechbänder", ", besteht", "der Spreizdorn im wesentlichen", "aus", "x"]
target_context = ["w", "x", "y", "the expansion", "mandrel consists", "essentially of expansion mandrel", "z", "xxx", "XXX"]
ra = Rule.new
ra.source = ["[X,1]", (3..6)]
ra.target = ["[X,1]", (3..5)]
ra.source_context = source_context
ra.target_context = target_context
ra.alignment = [[1,1],[2,2],[3,3],[4,2]]
ra.arity = 1
rb = Rule.new
rb.source = [(4..6)]
rb.target = [(4..5)]
rb.source_context = source_context
rb.target_context = target_context
rb.alignment = [[0,0],[1,1],[2,0]]
rb.arity = 0
puts ra.mergeable_with? rb
nr = Rule.merge ra, rb
puts ra.to_s
puts rb.to_s
nr.expand_fake_alignment
puts nr.to_s
end
def PhrasePhraseExtraction.test_phrase2
f = ["synergistische", "pharmazeutische"]
e = ["synergistic", "XXX", "pharmaceutical"]
a = ["0-0", "1-2"]
new_rules = extract_rules f, e, a, false
new_rules.each { |r|
puts r.to_s
}
end
end # module
def main
file = ReadFile.new ARGV[0]
f = file.gets.split
e = file.gets.split
a = []
file.gets.split.each { |p|
x,y = p.split "-"
x = x.to_i; y = y.to_i
a << [x,y]
}
rules = PhrasePhraseExtraction.make_seed_rules a, e, f
seed_rules = PhrasePhraseExtraction.remove_too_large_seed_phrases rules
rules = PhrasePhraseExtraction.make_gappy_rules rules, seed_rules
if PhrasePhraseExtraction::FORBID_SRC_ADJACENT_SRC_NT
rules = PhrasePhraseExtraction.remove_adjacent_nt rules
end
rules = PhrasePhraseExtraction.remove_too_long_src_sides rules
rules.uniq! { |r| "#{r.get_source_string} ||| #{r.get_target_string}" }
rules.each { |r|
puts r.as_trule_string
}
end
#main
def test
PhrasePhraseExtraction.test
PhrasePhraseExtraction.test_phrase
PhrasePhraseExtraction.test_phrase1
PhrasePhraseExtraction.test_phrase2
end
#test
|