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- import pytest
- import torch
- from common_utils import assert_equal, get_list_of_videos
- from torchvision import io
- from torchvision.datasets.video_utils import unfold, VideoClips
- class TestVideo:
- def test_unfold(self):
- a = torch.arange(7)
- r = unfold(a, 3, 3, 1)
- expected = torch.tensor(
- [
- [0, 1, 2],
- [3, 4, 5],
- ]
- )
- assert_equal(r, expected)
- r = unfold(a, 3, 2, 1)
- expected = torch.tensor([[0, 1, 2], [2, 3, 4], [4, 5, 6]])
- assert_equal(r, expected)
- r = unfold(a, 3, 2, 2)
- expected = torch.tensor(
- [
- [0, 2, 4],
- [2, 4, 6],
- ]
- )
- assert_equal(r, expected)
- @pytest.mark.skipif(not io.video._av_available(), reason="this test requires av")
- def test_video_clips(self, tmpdir):
- video_list = get_list_of_videos(tmpdir, num_videos=3)
- video_clips = VideoClips(video_list, 5, 5, num_workers=2)
- assert video_clips.num_clips() == 1 + 2 + 3
- for i, (v_idx, c_idx) in enumerate([(0, 0), (1, 0), (1, 1), (2, 0), (2, 1), (2, 2)]):
- video_idx, clip_idx = video_clips.get_clip_location(i)
- assert video_idx == v_idx
- assert clip_idx == c_idx
- video_clips = VideoClips(video_list, 6, 6)
- assert video_clips.num_clips() == 0 + 1 + 2
- for i, (v_idx, c_idx) in enumerate([(1, 0), (2, 0), (2, 1)]):
- video_idx, clip_idx = video_clips.get_clip_location(i)
- assert video_idx == v_idx
- assert clip_idx == c_idx
- video_clips = VideoClips(video_list, 6, 1)
- assert video_clips.num_clips() == 0 + (10 - 6 + 1) + (15 - 6 + 1)
- for i, v_idx, c_idx in [(0, 1, 0), (4, 1, 4), (5, 2, 0), (6, 2, 1)]:
- video_idx, clip_idx = video_clips.get_clip_location(i)
- assert video_idx == v_idx
- assert clip_idx == c_idx
- @pytest.mark.skipif(not io.video._av_available(), reason="this test requires av")
- def test_video_clips_custom_fps(self, tmpdir):
- video_list = get_list_of_videos(tmpdir, num_videos=3, sizes=[12, 12, 12], fps=[3, 4, 6])
- num_frames = 4
- for fps in [1, 3, 4, 10]:
- video_clips = VideoClips(video_list, num_frames, num_frames, fps)
- for i in range(video_clips.num_clips()):
- video, audio, info, video_idx = video_clips.get_clip(i)
- assert video.shape[0] == num_frames
- assert info["video_fps"] == fps
- # TODO add tests checking that the content is right
- def test_compute_clips_for_video(self):
- video_pts = torch.arange(30)
- # case 1: single clip
- num_frames = 13
- orig_fps = 30
- duration = float(len(video_pts)) / orig_fps
- new_fps = 13
- clips, idxs = VideoClips.compute_clips_for_video(video_pts, num_frames, num_frames, orig_fps, new_fps)
- resampled_idxs = VideoClips._resample_video_idx(int(duration * new_fps), orig_fps, new_fps)
- assert len(clips) == 1
- assert_equal(clips, idxs)
- assert_equal(idxs[0], resampled_idxs)
- # case 2: all frames appear only once
- num_frames = 4
- orig_fps = 30
- duration = float(len(video_pts)) / orig_fps
- new_fps = 12
- clips, idxs = VideoClips.compute_clips_for_video(video_pts, num_frames, num_frames, orig_fps, new_fps)
- resampled_idxs = VideoClips._resample_video_idx(int(duration * new_fps), orig_fps, new_fps)
- assert len(clips) == 3
- assert_equal(clips, idxs)
- assert_equal(idxs.flatten(), resampled_idxs)
- # case 3: frames aren't enough for a clip
- num_frames = 32
- orig_fps = 30
- new_fps = 13
- with pytest.warns(UserWarning):
- clips, idxs = VideoClips.compute_clips_for_video(video_pts, num_frames, num_frames, orig_fps, new_fps)
- assert len(clips) == 0
- assert len(idxs) == 0
- if __name__ == "__main__":
- pytest.main([__file__])
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