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preprocess.py
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preprocess.py
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#!/usr/bin/env python
# -*- coding: utf-8 -*-
"""Create data files
"""
import os
import sys
import argparse
import numpy as np
import pickle
import itertools
from collections import defaultdict
import utils
import re
class Indexer:
def __init__(self, symbols = ["<pad>","<unk>","<s>","</s>"]):
self.vocab = defaultdict(int)
self.PAD = symbols[0]
self.UNK = symbols[1]
self.BOS = symbols[2]
self.EOS = symbols[3]
self.d = {self.PAD: 0, self.UNK: 1, self.BOS: 2, self.EOS: 3}
self.idx2word = {}
def add_w(self, ws):
for w in ws:
if w not in self.d:
self.d[w] = len(self.d)
def convert(self, w):
return self.d[w] if w in self.d else self.d[self.UNK]
def convert_sequence(self, ls):
return [self.convert(l) for l in ls]
def write(self, outfile):
out = open(outfile, "w")
items = [(v, k) for k, v in self.d.items()]
items.sort()
for v, k in items:
out.write(" ".join([k, str(v)]) + "\n")
out.close()
def prune_vocab(self, k, cnt = False):
vocab_list = [(word, count) for word, count in self.vocab.items()]
if cnt:
self.pruned_vocab = {pair[0]:pair[1] for pair in vocab_list if pair[1] > k}
else:
vocab_list.sort(key = lambda x: x[1], reverse=True)
k = min(k, len(vocab_list))
self.pruned_vocab = {pair[0]:pair[1] for pair in vocab_list[:k]}
for word in self.pruned_vocab:
if word not in self.d:
self.d[word] = len(self.d)
for word, idx in self.d.items():
self.idx2word[idx] = word
def load_vocab(self, vocab_file):
self.d = {}
for line in open(vocab_file, 'r'):
v, k = line.strip().split()
self.d[v] = int(k)
for word, idx in self.d.items():
self.idx2word[idx] = word
def is_next_open_bracket(line, start_idx):
for char in line[(start_idx + 1):]:
if char == '(':
return True
elif char == ')':
return False
raise IndexError('Bracket possibly not balanced, open bracket not followed by closed bracket')
def get_between_brackets(line, start_idx):
output = []
for char in line[(start_idx + 1):]:
if char == ')':
break
assert not(char == '(')
output.append(char)
return ''.join(output)
def get_tags_tokens_lowercase(line):
output = []
line_strip = line.rstrip()
for i in range(len(line_strip)):
if i == 0:
assert line_strip[i] == '('
if line_strip[i] == '(' and not(is_next_open_bracket(line_strip, i)): # fulfilling this condition means this is a terminal symbol
output.append(get_between_brackets(line_strip, i))
#print 'output:',output
output_tags = []
output_tokens = []
output_lowercase = []
for terminal in output:
terminal_split = terminal.split()
# print(terminal, terminal_split)
assert len(terminal_split) == 2 # each terminal contains a POS tag and word
output_tags.append(terminal_split[0])
output_tokens.append(terminal_split[1])
output_lowercase.append(terminal_split[1].lower())
return [output_tags, output_tokens, output_lowercase]
def get_nonterminal(line, start_idx):
assert line[start_idx] == '(' # make sure it's an open bracket
output = []
for char in line[(start_idx + 1):]:
if char == ' ':
break
assert not(char == '(') and not(char == ')')
output.append(char)
return ''.join(output)
def get_actions(line):
output_actions = []
line_strip = line.rstrip()
i = 0
max_idx = (len(line_strip) - 1)
while i <= max_idx:
assert line_strip[i] == '(' or line_strip[i] == ')'
if line_strip[i] == '(':
if is_next_open_bracket(line_strip, i): # open non-terminal
curr_NT = get_nonterminal(line_strip, i)
output_actions.append('NT(' + curr_NT + ')')
i += 1
while line_strip[i] != '(': # get the next open bracket, which may be a terminal or another non-terminal
i += 1
else: # it's a terminal symbol
output_actions.append('SHIFT')
while line_strip[i] != ')':
i += 1
i += 1
while line_strip[i] != ')' and line_strip[i] != '(':
i += 1
else:
output_actions.append('REDUCE')
if i == max_idx:
break
i += 1
while line_strip[i] != ')' and line_strip[i] != '(':
i += 1
assert i == max_idx
return output_actions
def pad(ls, length, symbol):
if len(ls) >= length:
return ls[:length]
return ls + [symbol] * (length -len(ls))
def clean_number(w):
new_w = re.sub('[0-9]{1,}([,.]?[0-9]*)*', 'N', w)
return new_w
def get_data(args):
indexer = Indexer(["<pad>","<unk>","<s>","</s>"])
def make_vocab(textfile, seqlength, minseqlength, lowercase, replace_num,
train=1, apply_length_filter=1):
num_sents = 0
max_seqlength = 0
for tree in open(textfile, 'r'):
tree = tree.strip()
tags, sent, sent_lower = get_tags_tokens_lowercase(tree)
assert(len(tags) == len(sent))
if lowercase == 1:
sent = sent_lower
if replace_num == 1:
sent = [clean_number(w) for w in sent]
if (len(sent) > seqlength and apply_length_filter == 1) or len(sent) < minseqlength:
continue
num_sents += 1
max_seqlength = max(max_seqlength, len(sent))
if train == 1:
for word in sent:
indexer.vocab[word] += 1
return num_sents, max_seqlength
def convert(textfile, lowercase, replace_num,
batchsize, seqlength, minseqlength, outfile, num_sents, max_sent_l=0,
shuffle=0, include_boundary=1, apply_length_filter=1):
newseqlength = seqlength
if include_boundary == 1:
newseqlength += 2 #add 2 for EOS and BOS
sents = np.zeros((num_sents, newseqlength), dtype=int)
sent_lengths = np.zeros((num_sents,), dtype=int)
dropped = 0
sent_id = 0
other_data = []
for tree in open(textfile, 'r'):
tree = tree.strip()
action = get_actions(tree)
tags, sent, sent_lower = get_tags_tokens_lowercase(tree)
assert(len(tags) == len(sent))
if lowercase == 1:
sent = sent_lower
sent_str = " ".join(sent)
if replace_num == 1:
sent = [clean_number(w) for w in sent]
if (len(sent) > seqlength and apply_length_filter == 1) or len(sent) < minseqlength:
continue
if include_boundary == 1:
sent = [indexer.BOS] + sent + [indexer.EOS]
max_sent_l = max(len(sent), max_sent_l)
sent_pad = pad(sent, newseqlength, indexer.PAD)
sents[sent_id] = np.array(indexer.convert_sequence(sent_pad), dtype=int)
sent_lengths[sent_id] = (sents[sent_id] != 0).sum()
span, binary_actions, nonbinary_actions = utils.get_nonbinary_spans(action)
other_data.append([sent_str, tags, action,
binary_actions, nonbinary_actions, span, tree])
assert(2*(len(sent)- 2) - 1 == len(binary_actions))
assert(sum(binary_actions) + 1 == len(sent) - 2)
sent_id += 1
if sent_id % 100000 == 0:
print("{}/{} sentences processed".format(sent_id, num_sents))
print(sent_id, num_sents)
if shuffle == 1:
rand_idx = np.random.permutation(sent_id)
sents = sents[rand_idx]
sent_lengths = sent_lengths[rand_idx]
other_data = [other_data[idx] for idx in rand_idx]
print(len(sents), len(other_data))
#break up batches based on source lengths
sent_lengths = sent_lengths[:sent_id]
sent_sort = np.argsort(sent_lengths)
sents = sents[sent_sort]
other_data = [other_data[idx] for idx in sent_sort]
sent_l = sent_lengths[sent_sort]
curr_l = 1
l_location = [] #idx where sent length changes
for j,i in enumerate(sent_sort):
if sent_lengths[i] > curr_l:
curr_l = sent_lengths[i]
l_location.append(j)
l_location.append(len(sents))
#get batch sizes
curr_idx = 0
batch_idx = [0]
nonzeros = []
batch_l = []
batch_w = []
for i in range(len(l_location)-1):
while curr_idx < l_location[i+1]:
curr_idx = min(curr_idx + batchsize, l_location[i+1])
batch_idx.append(curr_idx)
for i in range(len(batch_idx)-1):
batch_l.append(batch_idx[i+1] - batch_idx[i])
batch_w.append(sent_l[batch_idx[i]])
# Write output
f = {}
f["source"] = sents
f["other_data"] = other_data
f["batch_l"] = np.array(batch_l, dtype=int)
f["source_l"] = np.array(batch_w, dtype=int)
f["sents_l"] = np.array(sent_l, dtype = int)
f["batch_idx"] = np.array(batch_idx[:-1], dtype=int)
f["vocab_size"] = np.array([len(indexer.d)])
f["idx2word"] = indexer.idx2word
f["word2idx"] = {word : idx for idx, word in indexer.idx2word.items()}
print("Saved {} sentences (dropped {} due to length/unk filter)".format(
len(f["source"]), dropped))
pickle.dump(f, open(outfile, 'wb'))
return max_sent_l
print("First pass through data to get vocab...")
num_sents_train, train_seqlength = make_vocab(args.trainfile, args.seqlength, args.minseqlength,
args.lowercase, args.replace_num, 1, 1)
print("Number of sentences in training: {}".format(num_sents_train))
num_sents_valid, valid_seqlength = make_vocab(args.valfile, args.seqlength, args.minseqlength,
args.lowercase, args.replace_num, 0, 0)
print("Number of sentences in valid: {}".format(num_sents_valid))
num_sents_test, test_seqlength = make_vocab(args.testfile, args.seqlength, args.minseqlength,
args.lowercase, args.replace_num, 0, 0)
print("Number of sentences in test: {}".format(num_sents_test))
if args.vocabminfreq >= 0:
indexer.prune_vocab(args.vocabminfreq, True)
else:
indexer.prune_vocab(args.vocabsize, False)
if args.vocabfile != '':
print('Loading pre-specified source vocab from ' + args.vocabfile)
indexer.load_vocab(args.vocabfile)
indexer.write(args.outputfile + ".dict")
print("Vocab size: Original = {}, Pruned = {}".format(len(indexer.vocab),
len(indexer.d)))
print(train_seqlength, valid_seqlength, test_seqlength)
max_sent_l = 0
max_sent_l = convert(args.testfile, args.lowercase, args.replace_num,
args.batchsize, test_seqlength, args.minseqlength,
args.outputfile + "-test.pkl", num_sents_test,
max_sent_l, args.shuffle, args.include_boundary, 0)
max_sent_l = convert(args.valfile, args.lowercase, args.replace_num,
args.batchsize, valid_seqlength, args.minseqlength,
args.outputfile + "-val.pkl", num_sents_valid,
max_sent_l, args.shuffle, args.include_boundary, 0)
max_sent_l = convert(args.trainfile, args.lowercase, args.replace_num,
args.batchsize, args.seqlength, args.minseqlength,
args.outputfile + "-train.pkl", num_sents_train,
max_sent_l, args.shuffle, args.include_boundary, 1)
print("Max sent length (before dropping): {}".format(max_sent_l))
def main(arguments):
parser = argparse.ArgumentParser(
description=__doc__,
formatter_class=argparse.ArgumentDefaultsHelpFormatter)
parser.add_argument('--vocabsize', help="Size of source vocabulary, constructed "
"by taking the top X most frequent words. "
" Rest are replaced with special UNK tokens.",
type=int, default=10000)
parser.add_argument('--vocabminfreq', help="Minimum frequency for vocab. Use this instead of "
"vocabsize if > 0",
type=int, default=-1)
parser.add_argument('--include_boundary', help="Add BOS/EOS tokens", type=int, default=1)
parser.add_argument('--lowercase', help="Lower case", type=int, default=1)
parser.add_argument('--replace_num', help="Replace numbers with N", type=int, default=1)
parser.add_argument('--trainfile', help="Path to training data.", required=True)
parser.add_argument('--valfile', help="Path to validation data.", required=True)
parser.add_argument('--testfile', help="Path to test validation data.", required=True)
parser.add_argument('--batchsize', help="Size of each minibatch.", type=int, default=4)
parser.add_argument('--seqlength', help="Maximum sequence length. Sequences longer "
"than this are dropped.", type=int, default=150)
parser.add_argument('--minseqlength', help="Minimum sequence length. Sequences shorter "
"than this are dropped.", type=int, default=0)
parser.add_argument('--outputfile', help="Prefix of the output file names. ", type=str,
required=True)
parser.add_argument('--vocabfile', help="If working with a preset vocab, "
"then including this will ignore srcvocabsize and use the"
"vocab provided here.",
type = str, default='')
parser.add_argument('--shuffle', help="If = 1, shuffle sentences before sorting (based on "
"source length).",
type = int, default = 0)
args = parser.parse_args(arguments)
np.random.seed(3435)
get_data(args)
if __name__ == '__main__':
sys.exit(main(sys.argv[1:]))