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""" | |
Preprocess a raw json dataset into hdf5/json files for use in data_loader.py | |
Input: json file that has the form | |
[{ file_path: 'path/img.jpg', captions: ['a caption', ...] }, ...] | |
example element in this list would look like | |
{'captions': [u'A man with a red helmet on a small moped on a dirt road. ', u'Man riding a motor bike on a dirt road on the countryside.', u'A man riding on the back of a motorcycle.', u'A dirt path with a young person on a motor bike rests to the foreground of a verdant area with a bridge and a background of cloud-wreathed mountains. ', u'A man in a red shirt and a red hat is on a motorcycle on a hill side.'], 'file_path': u'val2014/COCO_val2014_000000391895.jpg', 'id': 391895} | |
This script reads this json, does some basic preprocessing on the captions | |
(e.g. lowercase, etc.), creates a special UNK token, and encodes everything to arrays | |
Output: a json file and an hdf5 file | |
The hdf5 file contains several fields: | |
/labels is (M,max_length) uint32 array of encoded labels, zero padded | |
/label_start_ix and /label_end_ix are (N,) uint32 arrays of pointers to the | |
first and last indices (in range 1..M) of labels for each image | |
/label_length stores the length of the sequence for each of the M sequences | |
The json file has a dict that contains: | |
- an 'ix_to_word' field storing the vocab in form {ix:'word'}, where ix is 1-indexed | |
- an 'images' field that is a list holding auxiliary information for each image, | |
such as in particular the 'split' it was assigned to. | |
""" | |
from __future__ import absolute_import | |
from __future__ import division | |
from __future__ import print_function | |
import os | |
import json | |
import argparse | |
from random import shuffle, seed | |
import string | |
# non-standard dependencies: | |
import h5py | |
import numpy as np | |
import torch | |
import torchvision.models as models | |
import skimage.io | |
from PIL import Image | |
def build_vocab(imgs, params): | |
count_thr = params['word_count_threshold'] | |
# count up the number of words | |
counts = {} | |
for img in imgs: | |
for sent in img['sentences']: | |
for w in sent['tokens']: | |
counts[w] = counts.get(w, 0) + 1 | |
cw = sorted([(count,w) for w,count in counts.items()], reverse=True) | |
print('top words and their counts:') | |
print('\n'.join(map(str,cw[:20]))) | |
# print some stats | |
total_words = sum(counts.values()) | |
print('total words:', total_words) | |
bad_words = [w for w,n in counts.items() if n <= count_thr] | |
vocab = [w for w,n in counts.items() if n > count_thr] | |
bad_count = sum(counts[w] for w in bad_words) | |
print('number of bad words: %d/%d = %.2f%%' % (len(bad_words), len(counts), len(bad_words)*100.0/len(counts))) | |
print('number of words in vocab would be %d' % (len(vocab), )) | |
print('number of UNKs: %d/%d = %.2f%%' % (bad_count, total_words, bad_count*100.0/total_words)) | |
# lets look at the distribution of lengths as well | |
sent_lengths = {} | |
for img in imgs: | |
for sent in img['sentences']: | |
txt = sent['tokens'] | |
nw = len(txt) | |
sent_lengths[nw] = sent_lengths.get(nw, 0) + 1 | |
max_len = max(sent_lengths.keys()) | |
print('max length sentence in raw data: ', max_len) | |
print('sentence length distribution (count, number of words):') | |
sum_len = sum(sent_lengths.values()) | |
for i in range(max_len+1): | |
print('%2d: %10d %f%%' % (i, sent_lengths.get(i,0), sent_lengths.get(i,0)*100.0/sum_len)) | |
# lets now produce the final annotations | |
if bad_count > 0: | |
# additional special UNK token we will use below to map infrequent words to | |
print('inserting the special UNK token') | |
vocab.append('UNK') | |
for img in imgs: | |
img['final_captions'] = [] | |
for sent in img['sentences']: | |
txt = sent['tokens'] | |
caption = [w if counts.get(w,0) > count_thr else 'UNK' for w in txt] | |
img['final_captions'].append(caption) | |
return vocab | |
def encode_captions(imgs, params, wtoi): | |
""" | |
encode all captions into one large array, which will be 1-indexed. | |
also produces label_start_ix and label_end_ix which store 1-indexed | |
and inclusive (Lua-style) pointers to the first and last caption for | |
each image in the dataset. | |
""" | |
max_length = params['max_length'] | |
N = len(imgs) | |
M = sum(len(img['final_captions']) for img in imgs) # total number of captions | |
label_arrays = [] | |
label_start_ix = np.zeros(N, dtype='uint32') # note: these will be one-indexed | |
label_end_ix = np.zeros(N, dtype='uint32') | |
label_length = np.zeros(M, dtype='uint32') | |
caption_counter = 0 | |
counter = 1 | |
for i,img in enumerate(imgs): | |
n = len(img['final_captions']) | |
assert n > 0, 'error: some image has no captions' | |
Li = np.zeros((n, max_length), dtype='uint32') | |
for j,s in enumerate(img['final_captions']): | |
label_length[caption_counter] = min(max_length, len(s)) # record the length of this sequence | |
caption_counter += 1 | |
for k,w in enumerate(s): | |
if k < max_length: | |
Li[j,k] = wtoi[w] | |
# note: word indices are 1-indexed, and captions are padded with zeros | |
label_arrays.append(Li) | |
label_start_ix[i] = counter | |
label_end_ix[i] = counter + n - 1 | |
counter += n | |
L = np.concatenate(label_arrays, axis=0) # put all the labels together | |
assert L.shape[0] == M, 'lengths don\'t match? that\'s weird' | |
assert np.all(label_length > 0), 'error: some caption had no words?' | |
print('encoded captions to array of size ', L.shape) | |
return L, label_start_ix, label_end_ix, label_length | |
def main(params): | |
imgs = json.load(open(params['input_json'], 'r')) | |
imgs = imgs['images'] | |
seed(123) # make reproducible | |
# # create the vocab | |
# vocab = build_vocab(imgs, params) | |
# itow = {i+1:w for i,w in enumerate(vocab)} # a 1-indexed vocab translation table | |
# wtoi = {w:i+1 for i,w in enumerate(vocab)} # inverse table | |
itow = imgs['ix_to_word'] | |
wtoi = {w:i for i, w in itow.items()} | |
# encode captions in large arrays, ready to ship to hdf5 file | |
L, label_start_ix, label_end_ix, label_length = encode_captions(imgs, params, wtoi) | |
# create output h5 file | |
N = len(imgs) | |
f_lb = h5py.File(params['output_h5']+'_label.h5', "w") | |
f_lb.create_dataset("labels", dtype='uint32', data=L) | |
f_lb.create_dataset("label_start_ix", dtype='uint32', data=label_start_ix) | |
f_lb.create_dataset("label_end_ix", dtype='uint32', data=label_end_ix) | |
f_lb.create_dataset("label_length", dtype='uint32', data=label_length) | |
f_lb.close() | |
# create output json file | |
out = {} | |
out['ix_to_word'] = itow # encode the (1-indexed) vocab | |
out['images'] = [] | |
for i,img in enumerate(imgs): | |
jimg = {} | |
jimg['split'] = img['split'] | |
if 'filename' in img: jimg['file_path'] = os.path.join(img.get('filepath', ''), img['filename']) # copy it over, might need | |
if 'cocoid' in img: | |
jimg['id'] = img['cocoid'] # copy over & mantain an id, if present (e.g. coco ids, useful) | |
elif 'imgid' in img: | |
jimg['id'] = img['imgid'] | |
if params['images_root'] != '': | |
with Image.open(os.path.join(params['images_root'], img['filepath'], img['filename'])) as _img: | |
jimg['width'], jimg['height'] = _img.size | |
out['images'].append(jimg) | |
json.dump(out, open(params['output_json'], 'w')) | |
print('wrote ', params['output_json']) | |
if __name__ == "__main__": | |
parser = argparse.ArgumentParser() | |
# input json | |
parser.add_argument('--input_json', required=True, help='input json file to process into hdf5') | |
parser.add_argument('--output_json', default='data.json', help='output json file') | |
parser.add_argument('--output_h5', default='data', help='output h5 file') | |
parser.add_argument('--images_root', default='', help='root location in which images are stored, to be prepended to file_path in input json') | |
# options | |
parser.add_argument('--max_length', default=16, type=int, help='max length of a caption, in number of words. captions longer than this get clipped.') | |
parser.add_argument('--word_count_threshold', default=5, type=int, help='only words that occur more than this number of times will be put in vocab') | |
args = parser.parse_args() | |
params = vars(args) # convert to ordinary dict | |
print('parsed input parameters:') | |
print(json.dumps(params, indent = 2)) | |
main(params) | |