from __future__ import division import collections import gzip import itertools from cdec.sa._sa import gzip_or_text # Same as Cython implementation. Collisions with NULL in bitext? NULL_WORD = 'NULL' def learn_vocab(text_f): vocab = set() for line in gzip_or_text(text_f): for word in line.strip().split(): vocab.add(word) return vocab def write_vocab(vocab, out_f): with gzip.open(out_f, 'wb') as out: for word in sorted(vocab): out.write('{}\n'.format(word)) def read_vocab(in_f): return set(line.strip() for line in gzip_or_text(in_f)) class Bilex: def __init__(self, in_f=None): self.f = collections.defaultdict(int) self.e = collections.defaultdict(int) self.fe = collections.defaultdict(lambda: collections.defaultdict(int)) self.ef = collections.defaultdict(lambda: collections.defaultdict(int)) if in_f: self.read(in_f) def get_score(self, f, e, dir): if dir == 0: p = self.p_fe(f, e) elif dir == 1: p = self.p_ef(e, f) return p def p_fe(self, f, e): d = self.fe.get(f, None) if not d: return None val = d.get(e, None) if not val: return None return val / self.f.get(f) def p_ef(self, e, f): d = self.ef.get(e, None) if not d: return None val = d.get(f, None) if not val: return None return val / self.e.get(e) # Update counts from aligned sentence def update(self, f_words, e_words, links): covered_f = set() covered_e = set() for (i, j) in links: covered_f.add(i) covered_e.add(j) self.f[f_words[i]] += 1 self.e[e_words[j]] += 1 self.fe[f_words[i]][e_words[j]] += 1 self.ef[e_words[j]][f_words[i]] += 1 # e being covered corresponds to f->e for j in range(len(e_words)): if j not in covered_e: self.f[NULL_WORD] += 1 self.e[e_words[j]] += 1 self.fe[NULL_WORD][e_words[j]] += 1 self.ef[e_words[j]][NULL_WORD] += 1 # e->f for i in range(len(f_words)): if i not in covered_f: self.f[f_words[i]] += 1 self.e[NULL_WORD] += 1 self.ef[NULL_WORD][f_words[i]] += 1 self.fe[f_words[i]][NULL_WORD] += 1 # Update counts from alignd bitext def add_bitext(self, alignment_f, text_f, target_text_f=None): # Allow one or two args for bitext if target_text_f: t = itertools.izip((line.strip() for line in gzip_or_text(text_f)), (line.strip() for line in gzip_or_text(target_text_f))) else: t = (line.strip().split(' ||| ') for line in gzip_or_text(text_f)) a = (line.strip() for line in gzip_or_text(alignment_f)) for (source, target) in t: links = sorted(tuple(int(link) for link in link_str.split('-')) for link_str in a.next().split()) self.update(source.split(), target.split(), links) def write(self, out_f): fv = sorted(self.f) ev = sorted(self.e) with gzip.open(out_f, 'wb') as out: for f in fv: out.write('{} {}\n'.format(f, self.f[f])) out.write('\n') for e in ev: out.write('{} {}\n'.format(e, self.e[e])) out.write('\n') for f in fv: for (e, c) in sorted(self.fe[f].iteritems()): out.write('{} {} {}\n'.format(f, e, c)) out.write('\n') for e in ev: for (f, c) in sorted(self.ef[e].iteritems()): out.write('{} {} {}\n'.format(e, f, c)) out.write('\n') def read(self, in_f): with gzip_or_text(in_f) as inp: while True: line = inp.readline().strip() if not line: break (w, c) = line.split() self.f[w] = int(c) while True: line = inp.readline().strip() if not line: break (w, c) = line.split() self.e[w] = int(c) while True: line = inp.readline().strip() if not line: break (f, e, c) = line.split() self.fe[f][e] = float(c) while True: line = inp.readline().strip() if not line: break (e, f, c) = line.split() self.ef[e][f] = float(c)