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import numpy as np |
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import torch |
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from os.path import join as pjoin |
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from .humanml.utils.word_vectorizer import WordVectorizer |
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from .humanml.scripts.motion_process import (process_file, recover_from_ric) |
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from . import BASEDataModule |
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from .humanml import Text2MotionDatasetEval, Text2MotionDataset, Text2MotionDatasetCB, MotionDataset, MotionDatasetVQ, Text2MotionDatasetToken, Text2MotionDatasetM2T |
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from .utils import humanml3d_collate |
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class HumanML3DDataModule(BASEDataModule): |
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def __init__(self, cfg, **kwargs): |
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super().__init__(collate_fn=humanml3d_collate) |
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self.cfg = cfg |
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self.save_hyperparameters(logger=False) |
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cfg.DATASET.JOINT_TYPE = 'humanml3d' |
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self.name = "humanml3d" |
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self.njoints = 22 |
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data_root = cfg.DATASET.HUMANML3D.ROOT |
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self.hparams.data_root = data_root |
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self.hparams.text_dir = pjoin(data_root, "texts") |
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self.hparams.motion_dir = pjoin(data_root, 'new_joint_vecs') |
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self.hparams.mean = np.load(pjoin('assets/meta', "mean.npy")) |
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self.hparams.std = np.load(pjoin('assets/meta', "std.npy")) |
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self.hparams.mean_eval = np.load(pjoin('assets/meta', "mean_eval.npy")) |
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self.hparams.std_eval = np.load(pjoin('assets/meta', "std_eval.npy")) |
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self.hparams.max_motion_length = cfg.DATASET.HUMANML3D.MAX_MOTION_LEN |
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self.hparams.min_motion_length = cfg.DATASET.HUMANML3D.MIN_MOTION_LEN |
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self.hparams.max_text_len = cfg.DATASET.HUMANML3D.MAX_TEXT_LEN |
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self.hparams.unit_length = cfg.DATASET.HUMANML3D.UNIT_LEN |
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self.hparams.debug = cfg.DEBUG |
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self.hparams.stage = cfg.TRAIN.STAGE |
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self.DatasetEval = Text2MotionDatasetEval |
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if cfg.TRAIN.STAGE == "vae": |
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if cfg.model.params.motion_vae.target.split('.')[-1].lower() == "vqvae": |
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self.hparams.win_size = 64 |
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self.Dataset = MotionDatasetVQ |
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else: |
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self.Dataset = MotionDataset |
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elif 'lm' in cfg.TRAIN.STAGE: |
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self.hparams.code_path = cfg.DATASET.CODE_PATH |
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self.hparams.task_path = cfg.DATASET.TASK_PATH |
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self.hparams.std_text = cfg.DATASET.HUMANML3D.STD_TEXT |
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self.Dataset = Text2MotionDatasetCB |
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elif cfg.TRAIN.STAGE == "token": |
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self.Dataset = Text2MotionDatasetToken |
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self.DatasetEval = Text2MotionDatasetToken |
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elif cfg.TRAIN.STAGE == "m2t": |
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self.Dataset = Text2MotionDatasetM2T |
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self.DatasetEval = Text2MotionDatasetM2T |
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else: |
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self.Dataset = Text2MotionDataset |
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self.nfeats = 263 |
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cfg.DATASET.NFEATS = self.nfeats |
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def feats2joints(self, features): |
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mean = torch.tensor(self.hparams.mean).to(features) |
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std = torch.tensor(self.hparams.std).to(features) |
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features = features * std + mean |
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return recover_from_ric(features, self.njoints) |
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def joints2feats(self, features): |
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features = process_file(features, self.njoints)[0] |
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return features |
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def normalize(self, features): |
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mean = torch.tensor(self.hparams.mean).to(features) |
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std = torch.tensor(self.hparams.std).to(features) |
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features = (features - mean) / std |
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return features |
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def denormalize(self, features): |
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mean = torch.tensor(self.hparams.mean).to(features) |
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std = torch.tensor(self.hparams.std).to(features) |
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features = features * std + mean |
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return features |
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def renorm4t2m(self, features): |
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ori_mean = torch.tensor(self.hparams.mean).to(features) |
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ori_std = torch.tensor(self.hparams.std).to(features) |
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eval_mean = torch.tensor(self.hparams.mean_eval).to(features) |
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eval_std = torch.tensor(self.hparams.std_eval).to(features) |
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features = features * ori_std + ori_mean |
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features = (features - eval_mean) / eval_std |
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return features |
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def mm_mode(self, mm_on=True): |
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if mm_on: |
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self.is_mm = True |
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self.name_list = self.test_dataset.name_list |
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self.mm_list = np.random.choice(self.name_list, |
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self.cfg.METRIC.MM_NUM_SAMPLES, |
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replace=False) |
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self.test_dataset.name_list = self.mm_list |
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else: |
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self.is_mm = False |
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self.test_dataset.name_list = self.name_list |
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