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import gradio as gr |
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import torch |
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import argparse |
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import pickle as pkl |
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import decord |
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from decord import VideoReader |
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import numpy as np |
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import yaml |
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from cover.datasets import UnifiedFrameSampler, spatial_temporal_view_decomposition |
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from cover.models import COVER |
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mean, std = ( |
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torch.FloatTensor([123.675, 116.28, 103.53]), |
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torch.FloatTensor([58.395, 57.12, 57.375]), |
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) |
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mean_clip, std_clip = ( |
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torch.FloatTensor([122.77, 116.75, 104.09]), |
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torch.FloatTensor([68.50, 66.63, 70.32]) |
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) |
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def fuse_results(results: list): |
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x = (results[0] + results[1] + results[2]) |
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return { |
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"semantic" : results[0], |
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"technical": results[1], |
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"aesthetic": results[2], |
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"overall" : x, |
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} |
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def inference_one_video(input_video): |
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""" |
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BASIC SETTINGS |
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""" |
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device = torch.device("cuda" if torch.cuda.is_available() else "cpu") |
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with open("./cover.yml", "r") as f: |
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opt = yaml.safe_load(f) |
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dopt = opt["data"]["val-ytugc"]["args"] |
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temporal_samplers = {} |
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for stype, sopt in dopt["sample_types"].items(): |
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temporal_samplers[stype] = UnifiedFrameSampler( |
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sopt["clip_len"] // sopt["t_frag"], |
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sopt["t_frag"], |
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sopt["frame_interval"], |
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sopt["num_clips"], |
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) |
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""" |
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LOAD MODEL |
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""" |
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evaluator = COVER(**opt["model"]["args"]).to(device) |
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state_dict = torch.load(opt["test_load_path"], map_location=device) |
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evaluator.load_state_dict(state_dict['state_dict'], strict=False) |
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""" |
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TESTING |
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""" |
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views, _ = spatial_temporal_view_decomposition( |
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input_video, dopt["sample_types"], temporal_samplers |
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) |
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for k, v in views.items(): |
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num_clips = dopt["sample_types"][k].get("num_clips", 1) |
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if k == 'technical' or k == 'aesthetic': |
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views[k] = ( |
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((v.permute(1, 2, 3, 0) - mean) / std) |
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.permute(3, 0, 1, 2) |
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.reshape(v.shape[0], num_clips, -1, *v.shape[2:]) |
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.transpose(0, 1) |
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.to(device) |
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) |
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elif k == 'semantic': |
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views[k] = ( |
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((v.permute(1, 2, 3, 0) - mean_clip) / std_clip) |
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.permute(3, 0, 1, 2) |
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.reshape(v.shape[0], num_clips, -1, *v.shape[2:]) |
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.transpose(0, 1) |
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.to(device) |
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) |
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results = [r.mean().item() for r in evaluator(views)] |
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pred_score = fuse_results(results) |
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return pred_score |
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video_input = gr.Video(label="Input Video") |
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output_label = gr.JSON(label="Scores") |
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gradio_app = gr.Interface(fn=inference_one_video, inputs=video_input, outputs=output_label) |
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if __name__ == "__main__": |
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gradio_app.launch() |