from __future__ import absolute_import from __future__ import division from __future__ import unicode_literals from __future__ import print_function import os from torch.utils.data import Dataset import numpy as np import json import math from dataloaders.rawvideo_util import RawVideoExtractor class LSMDC_DataLoader(Dataset): """LSMDC dataset loader.""" def __init__( self, subset, data_path, features_path, tokenizer, max_words=30, feature_framerate=1.0, max_frames=100, image_resolution=224, frame_order=0, slice_framepos=0, ): self.data_path = data_path self.features_path = features_path self.feature_framerate = feature_framerate self.max_words = max_words self.max_frames = max_frames self.tokenizer = tokenizer # 0: ordinary order; 1: reverse order; 2: random order. self.frame_order = frame_order assert self.frame_order in [0, 1, 2] # 0: cut from head frames; 1: cut from tail frames; 2: extract frames uniformly. self.slice_framepos = slice_framepos assert self.slice_framepos in [0, 1, 2] self.subset = subset assert self.subset in ["train", "val", "test"] video_json_path_dict = {} video_json_path_dict["train"] = os.path.join(self.data_path, "LSMDC16_annos_training.csv") video_json_path_dict["val"] = os.path.join(self.data_path, "LSMDC16_annos_val.csv") video_json_path_dict["test"] = os.path.join(self.data_path, "LSMDC16_challenge_1000_publictect.csv") # \t\t\t\t\t # is not a unique identifier, i.e. the same can be associated with multiple sentences. # However, LSMDC16_challenge_1000_publictect.csv has no repeat instances video_id_list = [] caption_dict = {} with open(video_json_path_dict[self.subset], 'r') as fp: for line in fp: line = line.strip() line_split = line.split("\t") assert len(line_split) == 6 clip_id, start_aligned, end_aligned, start_extracted, end_extracted, sentence = line_split caption_dict[len(caption_dict)] = (clip_id, sentence) if clip_id not in video_id_list: video_id_list.append(clip_id) video_dict = {} for root, dub_dir, video_files in os.walk(self.features_path): for video_file in video_files: video_id_ = ".".join(video_file.split(".")[:-1]) if video_id_ not in video_id_list: continue file_path_ = os.path.join(root, video_file) video_dict[video_id_] = file_path_ self.video_dict = video_dict # Get all captions self.iter2video_pairs_dict = {} for clip_id, sentence in caption_dict.values(): if clip_id not in self.video_dict: continue self.iter2video_pairs_dict[len(self.iter2video_pairs_dict)] = (clip_id, sentence) self.rawVideoExtractor = RawVideoExtractor(framerate=feature_framerate, size=image_resolution) self.SPECIAL_TOKEN = {"CLS_TOKEN": "<|startoftext|>", "SEP_TOKEN": "<|endoftext|>", "MASK_TOKEN": "[MASK]", "UNK_TOKEN": "[UNK]", "PAD_TOKEN": "[PAD]"} def __len__(self): return len(self.iter2video_pairs_dict) def _get_video_id_from_pseduo(self, pseudo_video_id): video_id = pseudo_video_id[2:] return video_id def _get_video_id_single(self, path): pseudo_video_id_list = [] video_id_list = [] print('Loading json: {}'.format(path)) with open(path, 'r') as f: json_data = json.load(f) for pseudo_video_id in json_data: if pseudo_video_id in pseudo_video_id_list: print("reduplicate.") else: video_id = self._get_video_id_from_pseduo(pseudo_video_id) pseudo_video_id_list.append(pseudo_video_id) video_id_list.append(video_id) return pseudo_video_id_list, video_id_list def _get_captions_single(self, path): pseudo_caption_dict = {} with open(path, 'r') as f: json_data = json.load(f) for pseudo_video_id, v_ in json_data.items(): pseudo_caption_dict[pseudo_video_id] = {} timestamps = v_["timestamps"] pseudo_caption_dict[pseudo_video_id]["start"] = \ np.array([int(math.floor(float(itm[0]))) for itm in timestamps], dtype=object) pseudo_caption_dict[pseudo_video_id]["end"] = \ np.array([int(math.ceil(float(itm[1]))) for itm in timestamps], dtype=object) pseudo_caption_dict[pseudo_video_id]["text"] = np.array(v_["sentences"], dtype=object) return pseudo_caption_dict def _get_text(self, video_id, caption): k = 1 choice_video_ids = [video_id] pairs_text = np.zeros((k, self.max_words), dtype=np.long) pairs_mask = np.zeros((k, self.max_words), dtype=np.long) pairs_segment = np.zeros((k, self.max_words), dtype=np.long) for i, video_id in enumerate(choice_video_ids): words = self.tokenizer.tokenize(caption) words = [self.SPECIAL_TOKEN["CLS_TOKEN"]] + words total_length_with_CLS = self.max_words - 1 if len(words) > total_length_with_CLS: words = words[:total_length_with_CLS] words = words + [self.SPECIAL_TOKEN["SEP_TOKEN"]] input_ids = self.tokenizer.convert_tokens_to_ids(words) input_mask = [1] * len(input_ids) segment_ids = [0] * len(input_ids) while len(input_ids) < self.max_words: input_ids.append(0) input_mask.append(0) segment_ids.append(0) assert len(input_ids) == self.max_words assert len(input_mask) == self.max_words assert len(segment_ids) == self.max_words pairs_text[i] = np.array(input_ids) pairs_mask[i] = np.array(input_mask) pairs_segment[i] = np.array(segment_ids) return pairs_text, pairs_mask, pairs_segment, choice_video_ids def _get_rawvideo(self, choice_video_ids): video_mask = np.zeros((len(choice_video_ids), self.max_frames), dtype=np.long) max_video_length = [0] * len(choice_video_ids) # Pair x L x T x 3 x H x W video = np.zeros((len(choice_video_ids), self.max_frames, 1, 3, self.rawVideoExtractor.size, self.rawVideoExtractor.size), dtype=np.float32) try: for i, video_id in enumerate(choice_video_ids): video_path = self.video_dict[video_id] raw_video_data = self.rawVideoExtractor.get_video_data(video_path) raw_video_data = raw_video_data['video'] if len(raw_video_data.shape) > 3: raw_video_data_clip = raw_video_data # L x T x 3 x H x W raw_video_slice = self.rawVideoExtractor.process_raw_data(raw_video_data_clip) if self.max_frames < raw_video_slice.shape[0]: if self.slice_framepos == 0: video_slice = raw_video_slice[:self.max_frames, ...] elif self.slice_framepos == 1: video_slice = raw_video_slice[-self.max_frames:, ...] else: sample_indx = np.linspace(0, raw_video_slice.shape[0]-1, num=self.max_frames, dtype=int) video_slice = raw_video_slice[sample_indx, ...] else: video_slice = raw_video_slice video_slice = self.rawVideoExtractor.process_frame_order(video_slice, frame_order=self.frame_order) slice_len = video_slice.shape[0] max_video_length[i] = max_video_length[i] if max_video_length[i] > slice_len else slice_len if slice_len < 1: pass else: video[i][:slice_len, ...] = video_slice else: print("video path: {} error. video id: {}".format(video_path, video_id)) except Exception as excep: print("Video ids: {}".format(choice_video_ids)) raise excep for i, v_length in enumerate(max_video_length): video_mask[i][:v_length] = [1] * v_length return video, video_mask def __getitem__(self, feature_idx): clip_id, sentence = self.iter2video_pairs_dict[feature_idx] pairs_text, pairs_mask, pairs_segment, choice_video_ids = self._get_text(clip_id, sentence) video, video_mask = self._get_rawvideo(choice_video_ids) return pairs_text, pairs_mask, pairs_segment, video, video_mask