I have a dataset with Russian text, which looks like this:
I am trying to pre-process this dataset and split it to train,dev and testing datasets by using the following code:
# coding=utf-8
import os
import argparse
import xml.etree.ElementTree as ET
import random
import math
from collections import Counter
from utils import semeval2014term_to_aspectsentiment_hr
from copy import copy, deepcopy
parser = argparse.ArgumentParser(description='Generate finetuning corpus for restaurants.')
parser.add_argument('--noconfl',
action='store_true',
default=False,
help='Remove conflicting sentiments from labels')
parser.add_argument('--istrain',
action='store_true',
default=False,
help='If is a training set we split of 10% and output train_full, train_split, dev. Default is testset creating no split')
parser.add_argument("--files",
type=str,
nargs='+',
action="store",
help="File that contains the data used for training. Multiple paths will mix the datasets.")
parser.add_argument("--output_dir",
type=str,
action="store",
default="data/transformed/untitled",
help="output dir of the dataset(s)")
parser.add_argument("--upsample",
type=str,
action="store",
default=None,
help="please add a string with 3 numbers like '0.5 0.3 0.2' representing relative numbers of 'POS NEG NEU' adding to 1"
" which represents target distribution - only valid in non-confl case")
parser.add_argument("--seed",
type=int,
action="store",
default=41,
help="random seed, effects on upsampling and validationset")
args = parser.parse_args()
# 1. Load The Dataset
# 2. Create Bert-Pair Style Format
# 3. Save Train, Validation and so on
def split_shuffle_array(ratio, array, rseed):
# split_ratio_restaurant = .076 # for 150 sentence in conflicting case
# split_ratio_laptops = .101 # for 150 sentences in conflicting case
random.Random(rseed).shuffle(array)
m = math.floor(ratio * len(array))
return array[0:m], array[m::]
def create_sentence_pairs(sents, aspect_term_sentiments):
# create sentence_pairs
all_sentiments = []
sentence_pairs = []
labels = []
for ix, ats in enumerate(aspect_term_sentiments):
s = sents[ix]
for k, v in ats:
all_sentiments.append(v)
sentence_pairs.append((s, k))
labels.append(v)
counts = Counter(all_sentiments)
return sentence_pairs, labels, counts
def upsample_data(sentence_pairs, labels, target_ratios={'POS': 0.53, 'NEG': 0.21, 'NEU': 0.26}):
# one question: should we upsample sentencepairs, where the sentence only occurs once?!
print('Upsampling data ...')
# print(sentence_pairs, labels) # is list of pairs -> decide which pair to upsample ...
# 0. compute indeex subsets for every example
# 1. compute how many samples to sample ->
ix_subsets = {
'POS': [],
'NEG': [],
'NEU': []
}
ratios_subsets = {
'POS': 0,
'NEG': 0,
'NEU': 0
}
examples_to_add = {
'POS': 0,
'NEG': 0,
'NEU': 0
}
n = float(len(labels))
for ix, l in enumerate(labels):
ix_subsets[l].append(ix)
ratios_subsets[l] += (1.0 / n)
t_keys = target_ratios.keys()
tmp = [math.floor(target_ratios[k] * n) - len(ix_subsets[k]) for k in t_keys]
class_nothing_to_add = list(t_keys)[tmp.index(min(tmp))]
print(t_keys)
print(ratios_subsets)
print(tmp)
print(class_nothing_to_add)
# print(ix_subsets)
m = len(ix_subsets[class_nothing_to_add]) / target_ratios[class_nothing_to_add]
total_to_add = m - n
print(n, math.floor(m))
examples_to_add = {k: math.floor(target_ratios[k] * m - len(ix_subsets[k])) for k in t_keys}
print(examples_to_add) # so we need to add more neutral examples and more positiev ones
# downsampling would be set 0 the maximum amount of negative ones
# now select all the indices, with replacement because it can be more than double
new_samples = []
for k in t_keys:
new_samples.extend(random.Random(args.seed).choices(ix_subsets[k], k=examples_to_add[k]))
print(len(new_samples))
# now add all new samples to the dataset and shuffle it
new_sentence_pairs = copy(sentence_pairs)
new_labels = labels.copy()
for ix in new_samples:
new_sentence_pairs.append(copy(sentence_pairs[ix]))
new_labels.append(labels[ix])
random.Random(args.seed).shuffle(new_sentence_pairs)
random.Random(args.seed).shuffle(new_labels)
print(len(set(new_sentence_pairs)))
print(len(set(sentence_pairs)))
return new_sentence_pairs, new_labels
def export_dataset_to_xml(fn, sentence_pairs, labels):
# export in format semeval 2014, incomplete though! just for loading with existing dataloaders for ATSC
sentences_el = ET.Element('sentences')
sentimap_reverse = {
'POS': 'positive',
'NEU': 'neutral',
'NEG': 'negative',
'CONF': 'conflict'
}
for ix, (sentence, aspectterm) in enumerate(sentence_pairs):
# print(sentence)
sentiment = labels[ix]
sentence_el = ET.SubElement(sentences_el, 'sentence')
sentence_el.set('id', str(ix))
text = ET.SubElement(sentence_el, 'text')
text.text = str(sentence).strip()
aspect_terms_el = ET.SubElement(sentence_el, 'aspectTerms')
aspect_term_el = ET.SubElement(aspect_terms_el, 'aspectTerm')
aspect_term_el.set('term', aspectterm)
aspect_term_el.set('polarity', sentimap_reverse[sentiment])
aspect_term_el.set('from', str('0'))
aspect_term_el.set('to', str('0'))
def indent(elem, level=0):
i = "\n" + level * " "
j = "\n" + (level - 1) * " "
if len(elem):
if not elem.text or not elem.text.strip():
elem.text = i + " "
if not elem.tail or not elem.tail.strip():
elem.tail = i
for subelem in elem:
indent(subelem, level + 1)
if not elem.tail or not elem.tail.strip():
elem.tail = j
else:
if level and (not elem.tail or not elem.tail.strip()):
elem.tail = j
return elem
indent(sentences_el)
# mydata = ET.dump(sentences_el)
mydata = ET.tostring(sentences_el)
with open(fn, "wb") as f:
# f.write('<?xml version="1.0" encoding="UTF-8" standalone="yes"?>')
f.write(mydata)
f.close()
def save_dataset_to_tsv(fn, data):
pass
sentence_pairs_train_mixed = []
sentence_pairs_trainsplit_mixed = []
sentence_pairs_dev_mixed = []
sentence_pairs_test_mixed = []
labels_train_mixed = []
labels_trainsplit_mixed = []
labels_dev_mixed = []
labels_test_mixed = []
for fn in args.files:
print(args.output_dir)
if not os.path.exists(args.output_dir):
os.makedirs(args.output_dir)
print(fn)
sents_train, ats_train, idx2labels = semeval2014term_to_aspectsentiment_hr(fn,
remove_conflicting=args.noconfl)
sentence_pairs_train, labels_train, counts_train = create_sentence_pairs(sents_train, ats_train)
if args.istrain:
sents_dev, sents_trainsplit = split_shuffle_array(.1, sents_train, 41)
ats_dev, ats_trainsplit = split_shuffle_array(.1, ats_train, 41)
sentence_pairs_dev, labels_dev, counts_dev = create_sentence_pairs(sents_dev, ats_dev)
sentence_pairs_trainsplit, labels_trainsplit, counts_trainsplit = create_sentence_pairs(sents_trainsplit,
ats_trainsplit)
print_dataset_stats('Train', sents_train, sentence_pairs_train, counts_train)
print_dataset_stats('Dev', sents_dev, sentence_pairs_dev, counts_dev)
print_dataset_stats('TrainSplit', sents_trainsplit, sentence_pairs_trainsplit, counts_trainsplit)
sentence_pairs_trainsplit_mixed += sentence_pairs_trainsplit
sentence_pairs_train_mixed += sentence_pairs_train
sentence_pairs_dev_mixed += sentence_pairs_dev
labels_trainsplit_mixed += labels_trainsplit
labels_train_mixed += labels_train
labels_dev_mixed += labels_dev
if len(args.files) == 1:
if args.upsample:
distro_arr = args.upsample.split(' ')
pos = float(distro_arr[0])
neg = float(distro_arr[1])
neu = float(distro_arr[2])
assert pos + neg + neu == 1.0, 'upsampling target distribution does not sum to 1'
target_distro = {'POS': pos, 'NEG': neg, 'NEU': neu}
print('Target Sampling Distribution for Training Set:', target_distro)
sentence_pairs_train, labels_train = upsample_data(sentence_pairs_train, labels_train, target_ratios=target_distro)
export_dataset_to_xml(args.output_dir + '/train.xml', sentence_pairs_train, labels_train)
export_dataset_to_xml(args.output_dir + '/dev.xml', sentence_pairs_dev, labels_dev)
export_dataset_to_xml(args.output_dir + '/train_split.xml', sentence_pairs_trainsplit, labels_trainsplit)
else:
sentence_pairs_test_mixed += sentence_pairs_train
labels_test_mixed += labels_train
print_dataset_stats('Test', sents_train, sentence_pairs_train, counts_train)
if len(args.files) == 1:
export_dataset_to_xml(args.output_dir + '/test.xml', sentence_pairs_train, labels_train)
if len(args.files) > 1:
if args.istrain:
export_dataset_to_xml(args.output_dir + '/train.xml', sentence_pairs_train_mixed, labels_train_mixed)
export_dataset_to_xml(args.output_dir + '/dev.xml', sentence_pairs_dev_mixed, labels_dev_mixed)
export_dataset_to_xml(args.output_dir + '/train_split.xml', sentence_pairs_trainsplit_mixed,
labels_trainsplit_mixed)
else:
export_dataset_to_xml(args.output_dir + '/test.xml', sentence_pairs_test_mixed, labels_test_mixed)
After running the code above I have this result:
For English text it works just fine. Could someone help me to fix this and get normal text?
ET.tostring(sentences_el, encoding='UTF-8')? Note: your output is valid XML with correctly encoded text, it's just not human-readable. XML isn't quite meant to be human-readable.