Source code for imaginaire.datasets.paired_few_shot_videos_native

# Copyright (C) 2021 NVIDIA CORPORATION & AFFILIATES.  All rights reserved.
# This work is made available under the Nvidia Source Code License-NC.
# To view a copy of this license, check out
import random
import tempfile
from collections import OrderedDict
import warnings
import numpy as np
import torch
# import as io
import cv2
from PIL import Image
from imaginaire.datasets.base import BaseDataset
[docs]class Dataset(BaseDataset): r"""Dataset for paired few shot videos. Args: cfg (Config): Loaded config object. is_inference (bool): In train or inference mode? """ def __init__(self, cfg, is_inference=False, is_test=False): self.paired = True super(Dataset, self).__init__(cfg, is_inference, is_test) self.is_video_dataset = True self.few_shot_K = 1 self.first_last_only = getattr(, 'first_last_only', False) self.sample_far_frames_more = getattr(, 'sample_far_frames_more', False)
[docs] def get_label_lengths(self): r"""Get num channels of all labels to be concated. Returns: label_lengths (OrderedDict): Dict mapping image data_type to num channels. """ label_lengths = OrderedDict() for data_type in self.input_labels: data_cfg = self.cfgdata if hasattr(data_cfg, 'one_hot_num_classes') and \ data_type in data_cfg.one_hot_num_classes: label_lengths[data_type] = data_cfg.one_hot_num_classes[data_type] if getattr(data_cfg, 'use_dont_care', False): label_lengths[data_type] += 1 else: label_lengths[data_type] = self.num_channels[data_type] return label_lengths
[docs] def num_inference_sequences(self): r"""Number of sequences available for inference. Returns: (int) """ assert self.is_inference return len(self.mapping)
def _create_mapping(self): r"""Creates mapping from idx to key in LMDB. Returns: (tuple): - self.mapping (dict): Dict of seq_len to list of sequences. - self.epoch_length (int): Number of samples in an epoch. """ # Create dict mapping length to sequence. mapping = [] for lmdb_idx, sequence_list in enumerate(self.sequence_lists): for sequence_name, filenames in sequence_list.items(): for filename in filenames: # This file is corrupt. if filename == 'z-KziTO_5so_0019_start0_end85_h596_w596': continue mapping.append({ 'lmdb_root': self.lmdb_roots[lmdb_idx], 'lmdb_idx': lmdb_idx, 'sequence_name': sequence_name, 'filenames': [filename], }) self.mapping = mapping self.epoch_length = len(mapping) return self.mapping, self.epoch_length def _sample_keys(self, index): r"""Gets files to load for this sample. Args: index (int): Index in [0, len(dataset)]. Returns: (tuple): - key (dict): - lmdb_idx (int): Chosen LMDB dataset root. - sequence_name (str): Chosen sequence in chosen dataset. - filenames (list of str): Chosen filenames in chosen sequence. """ if self.is_inference: assert index < self.epoch_length raise NotImplementedError else: # Select a video at random. key = random.choice(self.mapping) return key def _create_sequence_keys(self, sequence_name, filenames): r"""Create the LMDB key for this piece of information. Args: sequence_name (str): Which sequence from the chosen dataset. filenames (list of str): List of filenames in this sequence. Returns: keys (list): List of full keys. """ assert isinstance(filenames, list), 'Filenames should be a list.' keys = [] for filename in filenames: keys.append('%s/%s' % (sequence_name, filename)) return keys def _getitem(self, index): r"""Gets selected files. Args: index (int): Index into dataset. concat (bool): Concatenate all items in labels? Returns: data (dict): Dict with all chosen data_types. """ # Select a sample from the available data. keys = self._sample_keys(index) # Unpack keys. lmdb_idx = keys['lmdb_idx'] sequence_name = keys['sequence_name'] filenames = keys['filenames'] # Get key and lmdbs. keys, lmdbs = {}, {} for data_type in self.dataset_data_types: keys[data_type] = self._create_sequence_keys( sequence_name, filenames) lmdbs[data_type] = self.lmdbs[data_type][lmdb_idx] # Load all data for this index. data = self.load_from_dataset(keys, lmdbs) # Get frames from video. try: temp = tempfile.NamedTemporaryFile() temp.write(data['videos'][0]) with warnings.catch_warnings(): warnings.simplefilter("ignore") # frames, _, info = io.read_video(temp) # num_frames = frames.size(0) cap = cv2.VideoCapture( num_frames = int(cap.get(cv2.CAP_PROP_FRAME_COUNT)) if self.first_last_only: chosen_idxs = [0, num_frames - 1] else: # chosen_idxs = random.sample(range(frames.size(0)), 2) chosen_idx = random.sample(range(num_frames), 1)[0] few_shot_choose_range = list(range(chosen_idx)) + list(range(chosen_idx + 1, num_frames)) if self.sample_far_frames_more: choose_weight = list(reversed(range(chosen_idx))) + list(range(num_frames - chosen_idx - 1)) few_shot_idx = random.choices(few_shot_choose_range, choose_weight, k=self.few_shot_K) else: few_shot_idx = random.sample(few_shot_choose_range, k=self.few_shot_K) chosen_idxs = few_shot_idx + [chosen_idx] chosen_images = [] for idx in chosen_idxs: # chosen_images.append(Image.fromarray(frames[idx].numpy())) cap.set(1, idx) _, frame = chosen_images.append(Image.fromarray(frame[:, :, ::-1])) except Exception: print('Issue with file:', sequence_name, filenames) blank = np.zeros((512, 512, 3), dtype=np.uint8) chosen_images = [Image.fromarray(blank), Image.fromarray(blank)] data['videos'] = chosen_images # Apply ops pre augmentation. data = self.apply_ops(data, self.pre_aug_ops) # Do augmentations for images. data, is_flipped = self.perform_augmentation( data, paired=True, augment_ops=self.augmentor.augment_ops) # Individual video frame augmentation is used in face-vid2vid. data = self.perform_individual_video_frame( data, self.augmentor.individual_video_frame_augmentation_ops) # Apply ops post augmentation. data = self.apply_ops(data, self.post_aug_ops) # Convert images to tensor. data = self.to_tensor(data) # Pack the sequence of images. for data_type in self.image_data_types: for idx in range(len(data[data_type])): data[data_type][idx] = data[data_type][idx].unsqueeze(0) data[data_type] =[data_type], dim=0) if not self.is_video_dataset: # Remove any extra dimensions. for data_type in self.image_data_types: if data_type in data: data[data_type] = data[data_type].squeeze(0) # Prepare output. data['driving_images'] = data['videos'][self.few_shot_K:] data['source_images'] = data['videos'][:self.few_shot_K] data.pop('videos') data['is_flipped'] = is_flipped data['key'] = keys data['original_h_w'] = torch.IntTensor([ self.augmentor.original_h, self.augmentor.original_w]) # Apply full data ops. data = self.apply_ops(data, self.full_data_ops, full_data=True) return data def __getitem__(self, index): return self._getitem(index)