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dataloader_svo.py
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dataloader_svo.py
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from __future__ import print_function
import torch
import json
import h5py
import os
import numpy as np
import random
import time
from six.moves import cPickle
import logging
from datetime import datetime
logger = logging.getLogger(__name__)
class DataLoader():
"""Class to load video features and captions"""
def __init__(self, opt):
self.iterator = 0
self.epoch = 0
self.batch_size = opt.get('batch_size', 128)
self.seq_per_img = opt.get('seq_per_img', 1)
self.word_embedding_size = opt.get('word_embedding_size', 512)
self.num_chunks = opt.get('num_chunks', 1)
self.num_boxes = opt.get('num_boxes', 10)
self.mode = opt.get('mode', 'train')
self.cocofmt_file = opt.get('cocofmt_file', None)
self.bcmrscores_pkl = opt.get('bcmrscores_pkl', None)
# open the hdf5 info file
logger.info('DataLoader loading h5 file: %s', opt['label_h5'])
self.label_h5 = h5py.File(opt['label_h5'], 'r')
self.vocab = [i for i in self.label_h5['vocab']]
self.videos = [i for i in self.label_h5['videos']]
self.ix_to_word = {i: w for i, w in enumerate(self.vocab)}
self.num_videos = len(self.videos)
self.index = list(range(self.num_videos))
# load the json file which contains additional information about the
# dataset
feat_h5_files = opt['feat_h5']
logger.info('DataLoader loading h5 files: %s', feat_h5_files)
self.feat_h5 = []
self.feat_dims = []
for ii, feat_h5_file in enumerate(feat_h5_files):
self.feat_h5.append(h5py.File(feat_h5_files[ii], 'r'))
self.feat_dims.append(self.feat_h5[ii][self.videos[0]].shape[0])
self.num_feats = len(feat_h5_files)
# load the h5 file which contains of regional features
bfeat_h5_files = opt['bfeat_h5']
logger.info('DataLoader loading bh5 files: %s', bfeat_h5_files)
self.bfeat_h5 = []
self.bfeat_dims = []
for ii, bfeat_h5_file in enumerate(bfeat_h5_files):
self.bfeat_h5.append(h5py.File(bfeat_h5_files[ii], 'r'))
self.bfeat_dims.append(self.bfeat_h5[ii][self.videos[0]].shape[1])
self.num_bfeats = len(bfeat_h5_files)
self.fr_size = h5py.File(opt['fr_size_h5'], 'r')
# load in the sequence data
if 'labels' in self.label_h5.keys():
self.seq_length = self.label_h5['labels'].shape[1]
logger.info('max sequence length in data is: %d', self.seq_length)
# load the pointers in full to RAM (should be small enough)
self.label_start_ix = self.label_h5['label_start_ix']
self.label_end_ix = self.label_h5['label_end_ix']
assert(self.label_start_ix.shape[0] == self.label_end_ix.shape[0])
self.has_label = True
self.label_start_ix_svo = self.label_h5['label_start_ix_svo']
self.label_end_ix_svo = self.label_h5['label_end_ix_svo']
assert(self.label_start_ix_svo.shape[0] == self.label_end_ix_svo.shape[0])
else:
self.has_label = False
if self.bcmrscores_pkl is not None:
eval_metric = opt.get('eval_metric', 'CIDEr')
logger.info('Loading: %s, with metric: %s', self.bcmrscores_pkl, eval_metric)
self.bcmrscores = cPickle.load(open(self.bcmrscores_pkl, 'rb'))
if eval_metric == 'CIDEr' and eval_metric not in self.bcmrscores:
eval_metric = 'cider'
self.bcmrscores = self.bcmrscores[eval_metric]
if self.mode == 'train' or self.mode == 'val':
self.shuffle_videos()
def __del__(self):
for f in self.feat_h5:
f.close()
self.label_h5.close()
def get_batch(self):
video_batch = []
bb_batch = []
for dim in self.feat_dims:
feat = torch.FloatTensor(
self.batch_size, self.num_chunks, dim).zero_()
video_batch.append(feat)
for dim in self.bfeat_dims:
bfeat = torch.FloatTensor(
self.batch_size, self.num_boxes, dim).zero_()
bb_batch.append(bfeat)
if self.has_label:
label_batch = torch.LongTensor(
self.batch_size * self.seq_per_img,
self.seq_length).zero_()
mask_batch = torch.FloatTensor(
self.batch_size * self.seq_per_img,
self.seq_length).zero_()
label_svo_batch = torch.LongTensor(
self.batch_size * self.seq_per_img,
3).zero_()
videoids_batch = []
gts = []
bcmrscores = np.zeros((self.batch_size, self.seq_per_img)) if self.bcmrscores_pkl is not None else None
for ii in range(self.batch_size):
idx = self.index[self.iterator]
video_id = int(self.videos[idx])
videoids_batch.append(video_id)
for jj in range(self.num_feats):
video_batch[jj][ii] = torch.from_numpy(
np.array(self.feat_h5[jj][str(video_id)]))
bb_check = []
for jj in range(self.num_bfeats):
cur_bfeat = np.array(self.bfeat_h5[jj][str(video_id)])
cur_nb = cur_bfeat.shape[0]
if cur_nb > 0:
bb_check.append(cur_nb)
cur_idx = [a % cur_nb for a in range(self.num_boxes)]
bb_batch[jj][ii] = torch.from_numpy(cur_bfeat[cur_idx,:])
else:
bb_check.append(0)
bb_batch[jj][ii] = torch.rand(self.num_boxes, self.bfeat_dims[jj])
assert min(bb_check) == max(bb_check), 'Wrong rois detected!'
if self.has_label:
# fetch the sequence labels
ix1 = self.label_start_ix[idx]
ix2 = self.label_end_ix[idx]
ncap = int(ix2 - ix1) # number of captions available for this image
assert ncap > 0, 'No captions!!'
seq = torch.LongTensor(
self.seq_per_img, self.seq_length).zero_()
seq_all = torch.from_numpy(
np.array(self.label_h5['labels'][ix1:ix2]))
if ncap <= self.seq_per_img:
seq[:ncap] = seq_all[:ncap]
for q in range(ncap, self.seq_per_img):
ixl = np.random.randint(ncap)
seq[q] = seq_all[ixl]
else:
randpos = torch.randperm(ncap)
for q in range(self.seq_per_img):
ixl = randpos[q]
seq[q] = seq_all[ixl]
il = ii * self.seq_per_img
label_batch[il:il + self.seq_per_img] = seq
# fetch the sequence svo labels
ix1_svo = self.label_start_ix_svo[idx]
ix2_svo = self.label_end_ix_svo[idx]
nsvo = int(ix2_svo - ix1_svo) # number of captions available for this image
assert nsvo > 0, 'No svos!!'
seq_svo = torch.LongTensor(
self.seq_per_img, 3).zero_()
seq_all_svo = torch.from_numpy(
np.array(self.label_h5['labels_svo'][ix1_svo:ix2_svo]))
if nsvo <= self.seq_per_img:
seq_svo[:nsvo] = seq_all_svo[:nsvo]
for q in range(nsvo, self.seq_per_img):
ixl = np.random.randint(nsvo)
seq_svo[q] = seq_all_svo[ixl]
else:
randpos = torch.randperm(nsvo)
for q in range(self.seq_per_img):
ixl = randpos[q]
seq_svo[q] = seq_all_svo[ixl]
label_svo_batch[il:il + self.seq_per_img] = seq_svo
# Used for reward evaluation
gts.append(
self.label_h5['labels'][
self.label_start_ix[idx]: self.label_end_ix[idx]])
# pre-computed cider scores,
# assuming now that videos order are same (which is the sorted videos order)
if self.bcmrscores_pkl is not None:
bcmrscores[ii] = self.bcmrscores[idx]
self.iterator += 1
if self.iterator >= self.num_videos:
logger.info('===> Finished loading epoch %d', self.epoch)
self.iterator = 0
self.epoch += 1
if self.mode == 'train' or self.mode == 'val':
self.shuffle_videos()
data = {}
data['feats'] = video_batch
data['bfeats'] = bb_batch
data['ids'] = videoids_batch
if self.has_label:
# + 1 here to count the <eos> token, because the <eos> token is set to 0
nonzeros = np.array(
list(map(lambda x: (x != 0).sum() + 1, label_batch)))
for ix, row in enumerate(mask_batch):
row[:nonzeros[ix]] = 1
data['labels_svo'] = label_svo_batch
data['labels'] = label_batch
data['masks'] = mask_batch
data['gts'] = gts
data['bcmrscores'] = bcmrscores
return data
def reset(self):
self.iterator = 0
def get_current_index(self):
return self.iterator
def set_current_index(self, index):
self.iterator = index
def get_vocab(self):
return self.ix_to_word
def get_vocab_size(self):
return len(self.vocab)
def get_feat_dims(self):
return self.feat_dims
def get_bfeat_dims(self):
return self.bfeat_dims
def get_feat_size(self):
return sum(self.feat_dims)
def get_num_feats(self):
return self.num_feats
def get_seq_length(self):
return self.seq_length
def get_seq_per_img(self):
return self.seq_per_img
def get_num_videos(self):
return self.num_videos
def get_batch_size(self):
return self.batch_size
def get_current_epoch(self):
return self.epoch
def set_current_epoch(self, epoch):
self.epoch = epoch
def shuffle_videos(self):
np.random.shuffle(self.index)
def get_cocofmt_file(self):
return self.cocofmt_file