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import os |
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import sys |
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import torch.utils.data as data |
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import torch |
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from torchvision import transforms |
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from torch.autograd import Variable |
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import numpy as np |
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from PIL import Image |
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import torchvision.transforms.functional as TF |
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import random |
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from bert.tokenization_bert import BertTokenizer |
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import h5py |
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from refer.refer import REFER |
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from args import get_parser |
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parser = get_parser() |
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args = parser.parse_args() |
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from hfai.datasets import CocoDetection |
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from PIL import Image |
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import numpy as np |
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import ffrecord |
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_EXIF_ORIENT = 274 |
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def _apply_exif_orientation(image): |
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""" |
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Applies the exif orientation correctly. |
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This code exists per the bug: |
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https://github.com/python-pillow/Pillow/issues/3973 |
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with the function `ImageOps.exif_transpose`. The Pillow source raises errors with |
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various methods, especially `tobytes` |
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Function based on: |
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https://github.com/wkentaro/labelme/blob/v4.5.4/labelme/utils/image.py#L59 |
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https://github.com/python-pillow/Pillow/blob/7.1.2/src/PIL/ImageOps.py#L527 |
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Args: |
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image (PIL.Image): a PIL image |
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Returns: |
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(PIL.Image): the PIL image with exif orientation applied, if applicable |
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""" |
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if not hasattr(image, "getexif"): |
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return image |
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try: |
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exif = image.getexif() |
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except Exception: |
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exif = None |
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if exif is None: |
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return image |
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orientation = exif.get(_EXIF_ORIENT) |
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method = { |
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2: Image.FLIP_LEFT_RIGHT, |
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3: Image.ROTATE_180, |
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4: Image.FLIP_TOP_BOTTOM, |
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5: Image.TRANSPOSE, |
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6: Image.ROTATE_270, |
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7: Image.TRANSVERSE, |
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8: Image.ROTATE_90, |
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}.get(orientation) |
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if method is not None: |
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return image.transpose(method) |
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return image |
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def convert_PIL_to_numpy(image, format): |
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""" |
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Convert PIL image to numpy array of target format. |
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Args: |
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image (PIL.Image): a PIL image |
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format (str): the format of output image |
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Returns: |
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(np.ndarray): also see `read_image` |
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""" |
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if format is not None: |
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conversion_format = format |
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if format in ["BGR", "YUV-BT.601"]: |
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conversion_format = "RGB" |
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image = image.convert(conversion_format) |
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image = np.asarray(image) |
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if format == "L": |
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image = np.expand_dims(image, -1) |
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elif format == "BGR": |
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image = image[:, :, ::-1] |
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elif format == "YUV-BT.601": |
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image = image / 255.0 |
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image = np.dot(image, np.array(_M_RGB2YUV).T) |
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return image |
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class ReferDataset(data.Dataset): |
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def __init__(self, |
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args, |
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image_transforms=None, |
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target_transforms=None, |
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split='train', |
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eval_mode=False): |
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self.classes = [] |
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self.image_transforms = image_transforms |
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self.target_transform = target_transforms |
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self.split = split |
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self.refer = REFER(args.refer_data_root, args.dataset, args.splitBy) |
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self.max_tokens = 20 |
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ref_ids = self.refer.getRefIds(split=self.split) |
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img_ids = self.refer.getImgIds(ref_ids) |
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all_imgs = self.refer.Imgs |
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self.imgs = list(all_imgs[i] for i in img_ids) |
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self.ref_ids = ref_ids |
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self.input_ids = [] |
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self.attention_masks = [] |
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self.tokenizer = BertTokenizer.from_pretrained(args.bert_tokenizer) |
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self.eval_mode = eval_mode |
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for r in ref_ids: |
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ref = self.refer.Refs[r] |
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sentences_for_ref = [] |
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attentions_for_ref = [] |
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for i, (el, sent_id) in enumerate(zip(ref['sentences'], ref['sent_ids'])): |
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sentence_raw = el['raw'] |
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attention_mask = [0] * self.max_tokens |
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padded_input_ids = [0] * self.max_tokens |
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input_ids = self.tokenizer.encode(text=sentence_raw, add_special_tokens=True) |
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input_ids = input_ids[:self.max_tokens] |
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padded_input_ids[:len(input_ids)] = input_ids |
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attention_mask[:len(input_ids)] = [1]*len(input_ids) |
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sentences_for_ref.append(torch.tensor(padded_input_ids).unsqueeze(0)) |
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attentions_for_ref.append(torch.tensor(attention_mask).unsqueeze(0)) |
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self.input_ids.append(sentences_for_ref) |
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self.attention_masks.append(attentions_for_ref) |
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split = 'train' |
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print(split) |
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self.hfai_dataset = CocoDetection(split, transform=None) |
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self.keys = {} |
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for i in range(len(self.hfai_dataset.reader.ids)): |
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self.keys[self.hfai_dataset.reader.ids[i]] = i |
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def get_classes(self): |
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return self.classes |
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def __len__(self): |
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return len(self.ref_ids) |
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def __getitem__(self, index): |
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this_ref_id = self.ref_ids[index] |
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this_img_id = self.refer.getImgIds(this_ref_id) |
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this_img = self.refer.Imgs[this_img_id[0]] |
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img = self.hfai_dataset.reader.read_imgs([self.keys[this_img_id[0]]])[0] |
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img = _apply_exif_orientation(img) |
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img = convert_PIL_to_numpy(img, 'RGB') |
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img = Image.fromarray(img) |
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ref = self.refer.loadRefs(this_ref_id) |
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ref_mask = np.array(self.refer.getMask(ref[0])['mask']) |
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annot = np.zeros(ref_mask.shape) |
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annot[ref_mask == 1] = 1 |
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annot = Image.fromarray(annot.astype(np.uint8), mode="P") |
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if self.image_transforms is not None: |
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img, target = self.image_transforms(img, annot) |
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if self.eval_mode: |
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embedding = [] |
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att = [] |
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for s in range(len(self.input_ids[index])): |
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e = self.input_ids[index][s] |
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a = self.attention_masks[index][s] |
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embedding.append(e.unsqueeze(-1)) |
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att.append(a.unsqueeze(-1)) |
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tensor_embeddings = torch.cat(embedding, dim=-1) |
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attention_mask = torch.cat(att, dim=-1) |
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else: |
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choice_sent = np.random.choice(len(self.input_ids[index])) |
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tensor_embeddings = self.input_ids[index][choice_sent] |
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attention_mask = self.attention_masks[index][choice_sent] |
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return img, target, tensor_embeddings, attention_mask, this_img_id[0] |
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