From b5ca2bd7001a385594af8dc4b9206399c679f8c5 Mon Sep 17 00:00:00 2001 From: Chris Dyer Date: Wed, 22 Dec 2010 08:58:07 -0600 Subject: remove report --- report/viewer/alignment.py | 162 --------------------------------------------- 1 file changed, 162 deletions(-) delete mode 100644 report/viewer/alignment.py (limited to 'report/viewer/alignment.py') diff --git a/report/viewer/alignment.py b/report/viewer/alignment.py deleted file mode 100644 index 5fe03734..00000000 --- a/report/viewer/alignment.py +++ /dev/null @@ -1,162 +0,0 @@ -class Alignment: - SURE, POSSIBLE = 'S', 'P' - - def __init__(self, swords, twords, align): - self.swords = swords - self.twords = twords - self.align = align - - def reverse(self): - als = {} - for (frm, to), conf in self.align.items(): - als[to, frm] = conf - return Alignment(self.twords, self.swords, als) - - def merge(self, other): - assert self.swords == other.swords - assert self.twords == other.twords - - als = {} - for frm, to in self.align.keys(): - als[frm, to] = Alignment.POSSIBLE - - for frm, to in other.align.keys(): - if (frm, to) in als: - als[frm, to] = Alignment.SURE - else: - als[frm, to] = Alignment.POSSIBLE - - return Alignment(self.swords, self.twords, als) - - def __repr__(self): - return 'Alignment(swords=%s, twords=%s, align=%s)' % (self.swords, self.twords, self.align) - -def read_pharaoh_text(infile): - return infile.readline().strip().split() - -def parse_pharaoh_align(text): - als = {} - for part in text.strip().split(): - frm, to = map(int, part.split('-')) - als[frm, to] = Alignment.SURE - return als - -def read_pharaoh_align(infile): - als = {} - for part in infile.readline().strip().split(): - frm, to = map(int, part.split('-')) - als[frm, to] = Alignment.SURE - return als - -def read_pharaoh_alignment(swfile, twfile, afile): - sw = read_pharaoh_text(swfile) - tw = read_pharaoh_text(twfile) - als = read_pharaoh_align(afile) - return Alignment(sw, tw, als) - -def read_giza_alignment(infile): - infile.readline() # ignore - swords = infile.readline().strip().split() - twords = [] - als = {} - state = 0 - for token in infile.readline().strip().split(): - if state == 0: - if token != 'NULL': - if token != '({': - twords.append(token) - else: - state = 1 - elif state == 1: - if token != '})': - if twords: - als[int(token)-1, len(twords)-1] = Alignment.SURE - else: - state = 0 - return Alignment(swords, twords, als) - -def read_naacl_aligns(infile): - aligns = [] - last = None - for line in infile: - index, frm, to, conf = line.rstrip().split() - if int(index) != last: - aligns.append({}) - aligns[-1][int(frm)-1, int(to)-1] = conf - last = int(index) - return aligns - -# -# This phrase-extraction function largely mimics Pharaoh's phrase-extract -# code. It also supports the option to not advance over NULL alignments. -# - -def xextract_phrases(alignment, maxPhraseLength=None, advance=True): - T = len(alignment.twords) - S = len(alignment.swords) - if not maxPhraseLength: - maxPhraseLength = max(T, S) - - alignedCountS = [0 for s in alignment.swords] - alignedToT = [[] for t in alignment.twords] - alignedToS = [[] for s in alignment.swords] - for (s, t), conf in alignment.align.items(): - if conf == Alignment.SURE: - alignedCountS[s] += 1 - alignedToT[t].append(s) - alignedToS[s].append(t) - - # check alignments for english phrase startT...endT - for st in range(T): - for et in range(st, min(T, st + maxPhraseLength)): - minS = 9999 - maxS = -1 - usedS = alignedCountS[:] - for ti in range(st, et+1): - for si in alignedToT[ti]: - #print 'point (%d, %d)' % (si, ti) - if simaxS: maxS = si - usedS[si] -= 1 - - #print 's projected (%d-%d, %d, %d)' % (minS, maxS, st, et) - if (maxS >= 0 and # aligned to any foreign words at all - maxS-minS < maxPhraseLength): # foreign phrase within limits - # check if foreign words are aligned to out of bound english words - out_of_bounds = False - for si in range(minS, maxS): - if usedS[si] > 0: - #print 'out of bounds:', si - out_of_bounds = True - break - - # Pharoah doesn't use this check, but I think it's required - if not out_of_bounds: - for s in range(minS, maxS+1): - for t in alignedToS[s]: - if not (st <= t <= et): - #print 'out of bounds2:', t,s - out_of_bounds = True - break - - #print 'doing it for (%d-%d, %d, %d)' % (minS, maxS, st, et) - if not out_of_bounds: - if advance: - #print 'attempting to advance' - # start point of foreign phrase may advance over unaligned - ss = minS - while (ss>=0 and - ss>maxS-maxPhraseLength and # within length limit - (ss==minS or alignedCountS[ss]==0)): # unaligned - # end point of foreign phrase may advance over unaligned - es = maxS - while (es