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import os
import torch.utils.data as data
import torch
import numpy as np
from PIL import Image
import pdb
import copy
from random import choice
from bert.tokenization_bert import BertTokenizer
from textblob import TextBlob
from refer.refer import REFER
from args import get_parser
# Dataset configuration initialization
parser = get_parser()
args = parser.parse_args()
class ReferDataset(data.Dataset):
def __init__(self,
args,
image_transforms=None,
target_transforms=None,
split='train',
eval_mode=False):
self.classes = []
self.image_transforms = image_transforms
self.target_transform = target_transforms
self.split = split
self.refer = REFER(args.refer_data_root, args.dataset, args.splitBy)
self.dataset_type = args.dataset
self.max_tokens = 20
ref_ids = self.refer.getRefIds(split=self.split)
self.img_ids = self.refer.getImgIds()
all_imgs = self.refer.Imgs
self.imgs = list(all_imgs[i] for i in self.img_ids)
self.ref_ids = ref_ids
self.input_ids = []
self.input_ids_masked = []
self.attention_masks = []
self.tokenizer = BertTokenizer.from_pretrained(args.bert_tokenizer)
self.eval_mode = eval_mode
for r in ref_ids:
ref = self.refer.Refs[r]
sentences_for_ref = []
sentences_for_ref_masked = []
attentions_for_ref = []
for i, (el, sent_id) in enumerate(zip(ref['sentences'], ref['sent_ids'])):
sentence_raw = el['raw']
attention_mask = [0] * self.max_tokens
padded_input_ids = [0] * self.max_tokens
padded_input_ids_masked = [0] * self.max_tokens
blob = TextBlob(sentence_raw.lower())
chara_list = blob.tags
mask_ops = []
mask_ops1 = []
for word_i, (word_now, chara) in enumerate(chara_list):
if (chara == 'NN' or chara == 'NNS') and word_i < 19 and word_now.lower():
mask_ops.append(word_i)
mask_ops1.append(word_now)
mask_ops2 = self.get_adjacent_word(mask_ops)
input_ids = self.tokenizer.encode(text=sentence_raw, add_special_tokens=True)
# truncation of tokens
input_ids = input_ids[:self.max_tokens]
padded_input_ids[:len(input_ids)] = input_ids
attention_mask[:len(input_ids)] = [1]*len(input_ids)
if len(mask_ops) == 0:
attention_remask = attention_mask
input_ids_masked = input_ids
else:
could_mask = choice(mask_ops2)
input_ids_masked = copy.deepcopy(input_ids)
for i in could_mask:
input_ids_masked[i + 1] = 0
padded_input_ids_masked[:len(input_ids_masked)] = input_ids_masked
sentences_for_ref.append(torch.tensor(padded_input_ids).unsqueeze(0))
sentences_for_ref_masked.append(torch.tensor(padded_input_ids_masked).unsqueeze(0))
attentions_for_ref.append(torch.tensor(attention_mask).unsqueeze(0))
self.input_ids.append(sentences_for_ref)
self.input_ids_masked.append(sentences_for_ref_masked)
self.attention_masks.append(attentions_for_ref)
def get_classes(self):
return self.classes
def __len__(self):
return len(self.ref_ids)
def get_adjacent_word(self, mask_list):
output_mask_list = []
length = len(mask_list)
i = 0
while i < length:
begin_pos = i
while i+1 < length and mask_list[i+1] == mask_list[i] + 1:
i += 1
end_pos = i+1
output_mask_list.append(mask_list[begin_pos:end_pos])
i = end_pos
return output_mask_list
def __getitem__(self, index):
this_ref_id = self.ref_ids[index]
this_img_id = self.refer.getImgIds(this_ref_id)
this_img = self.refer.Imgs[this_img_id[0]]
img = Image.open(os.path.join(self.refer.IMAGE_DIR, this_img['file_name'])).convert("RGB")
ref = self.refer.loadRefs(this_ref_id)
if self.dataset_type == 'ref_zom':
source_type = ref[0]['source']
else:
source_type = 'one'
ref_mask = np.array(self.refer.getMask(ref[0])['mask'])
annot = np.zeros(ref_mask.shape)
annot[ref_mask == 1] = 1
annot = Image.fromarray(annot.astype(np.uint8), mode="P")
if self.image_transforms is not None:
if self.split == 'train':
img, target = self.image_transforms(img, annot)
elif self.split == 'val':
img, target = self.image_transforms(img, annot)
else:
img, target = self.image_transforms(img, annot)
if self.eval_mode:
embedding = []
embedding_masked = []
att = []
for s in range(len(self.input_ids[index])):
e = self.input_ids[index][s]
a = self.attention_masks[index][s]
embedding.append(e.unsqueeze(-1))
embedding_masked.append(e.unsqueeze(-1))
att.append(a.unsqueeze(-1))
tensor_embeddings = torch.cat(embedding, dim=-1)
tensor_embeddings_masked = torch.cat(embedding_masked, dim=-1)
attention_mask = torch.cat(att, dim=-1)
else:
choice_sent = np.random.choice(len(self.input_ids[index]))
tensor_embeddings = self.input_ids[index][choice_sent]
tensor_embeddings_masked = self.input_ids_masked[index][choice_sent]
attention_mask = self.attention_masks[index][choice_sent]
return img, target, source_type, tensor_embeddings, tensor_embeddings_masked, attention_mask |