コード例 #1
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def trainloader_dct_resized(args):
    traindir = os.path.join(args.data, 'train')
    train_dataset = ImageFolderDCT(traindir, transforms.Compose([
        transforms.RandomResizedCrop(224),
        transforms.RandomHorizontalFlip(),
        transforms.TransformDCT(),  # 28x28x192
        transforms.DCTFlatten2D(),
        transforms.UpsampleDCT(upscale_ratio_h=4, upscale_ratio_w=4, debug=False),
        transforms.ToTensorDCT(),
        transforms.SubsetDCT(channels=args.subset),
        transforms.Aggregate(),
        transforms.NormalizeDCT(
            train_dct_subset_mean,
            train_dct_subset_std,
            channels=args.subset
        )
    ]))

    if args.distributed:
        train_sampler = torch.utils.data.distributed.DistributedSampler(train_dataset)
    else:
        train_sampler = None

    train_loader = torch.utils.data.DataLoader(
        train_dataset,
        batch_size=args.train_batch, shuffle=(train_sampler is None),
        num_workers=args.workers, pin_memory=True, sampler=train_sampler)

    train_loader_len = len(train_loader)

    return train_loader, train_sampler, train_loader_len
コード例 #2
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def get_mean_and_std_dct_resized(dataset, model='mobilenet'):
    '''Compute the mean and std value of dataset.'''

    # Dataset = ImageFolderDCT(dataset, transforms.Compose([
    #     transforms.TransformDCT(),  # 28x28x192
    #     transforms.DCTFlatten2D(),
    #     transforms.UpsampleDCT(upscale_ratio_h=4, upscale_ratio_w=4, debug=False),
    #     transforms.ToTensorDCT(),
    #     transforms.Average()
    # ]), aggregate=True)

    # Dataset = ImageFolderDCT(dataset, transforms.Compose([
    #     transforms.Upscale(upscale_factor=2),
    #     transforms.TransformUpscaledDCT(),
    #     transforms.ToTensorDCT(),
    #     transforms.Aggregate(),
    #     transforms.Average()
    # ]))
    if model == 'mobilenet':
        input_size = 896
        batchsize = 256
    elif model == 'resnet':
        input_size = 448
        batchsize = 128
    else:
        raise NotImplementedError

    Dataset = ImageFolderDCT(dataset, transforms.Compose([
        transforms.DCTFlatten2D(),
        transforms.UpsampleDCT(size_threshold=input_size, T=input_size, debug=False),
        # transforms.UpsampleDCT(size_threshold=112 * 8, T=112 * 8, debug=False),
        transforms.Aggregate2(),
        # transforms.RandomResizedCropDCT(112),
        # transforms.RandomHorizontalFlip(),
        transforms.ToTensorDCT2(),

        transforms.Average()
    ]), backend='dct')

    dataloader = torch.utils.data.DataLoader(Dataset, batch_size=batchsize, pin_memory=True, shuffle=False, num_workers=16)

    mean, std = torch.zeros(192), torch.zeros(192)
    print('==> Computing mean and std..')

    # end = time.time()
    for i, (inputs, targets) in enumerate(dataloader):
        # print('data time: {}'.format(time.time()-end))
        print('{}/{}'.format(i, len(dataloader)))

        mean += inputs.mean(dim=0)
        std += inputs.std(dim=0)
        # end = time.time()

    mean.div_(i+1)
    std.div_(i+1)

    return mean, std
コード例 #3
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def folder2lmdb(dpath, name="train", write_frequency=1):
    directory = osp.expanduser(osp.join(dpath, name))
    print("Loading dataset from %s" % directory)

    dataset = ImageFolderDCT('/ILSVRC2012/train',
                             transforms.Compose([
                                 transforms.DCTFlatten2D(),
                                 transforms.UpsampleDCT(upscale_ratio_h=4,
                                                        upscale_ratio_w=4,
                                                        debug=False),
                                 transforms.ToTensorDCT(),
                                 transforms.SubsetDCT(channels=32),
                             ]),
                             backend='dct')

    data_loader = torch.utils.data.DataLoader(
        dataset,
        num_workers=0,
    )

    lmdb_path = osp.join(dpath, "%s.lmdb" % name)
    isdir = os.path.isdir(lmdb_path)

    print("Generate LMDB to %s" % lmdb_path)
    db = lmdb.open(
        lmdb_path,
        subdir=isdir,
        map_size=1281167 * 224 * 224 * 32 * 10,
        readonly=False,
        # map_size=1099511627776 * 2, readonly=False,
        meminit=False,
        map_async=True)

    txn = db.begin(write=True)
    for idx, (image, label) in enumerate(data_loader):
        image = image.numpy()
        label = label.numpy()
        txn.put(u'{}'.format(idx).encode('ascii'),
                dumps_pyarrow((bz2.compress(image), label)))
        if idx % write_frequency == 0:
            print("[%d/%d]" % (idx, len(data_loader)))
            txn.commit()
            txn = db.begin(write=True)

    # finish iterating through dataset
    txn.commit()
    keys = [u'{}'.format(k).encode('ascii') for k in range(idx + 1)]
    with db.begin(write=True) as txn:
        txn.put(b'__keys__', dumps_pyarrow(keys))
        txn.put(b'__len__', dumps_pyarrow(len(keys)))

    print("Flushing database ...")
    db.sync()
    db.close()
コード例 #4
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def valloader_dct_resized(args):
    valdir = os.path.join(args.data, 'val')

    val_loader = torch.utils.data.DataLoader(
        ImageFolderDCT(valdir, transforms.Compose([
            transforms.Resize(256),
            transforms.CenterCrop(224),
            transforms.TransformDCT(),  # 28x28x192
            transforms.DCTFlatten2D(),
            transforms.UpsampleDCT(upscale_ratio_h=4, upscale_ratio_w=4, debug=False),
            transforms.ToTensorDCT(),
            transforms.SubsetDCT(channels=args.subset),
            transforms.Aggregate(),
            transforms.NormalizeDCT(
                train_dct_subset_mean,
                train_dct_subset_std,
                channels=args.subset
            )
        ])),
        batch_size=args.test_batch, shuffle=False,
        num_workers=args.workers, pin_memory=True)

    return val_loader
コード例 #5
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                                                 std=train_y_std_resized)
        input_normalize_cb = transforms.Normalize(mean=train_cb_mean_resized,
                                                  std=train_cb_std_resized)
        input_normalize_cr = transforms.Normalize(mean=train_cr_mean_resized,
                                                  std=train_cr_std_resized)
        input_normalize.append(input_normalize_y)
        input_normalize.append(input_normalize_cb)
        input_normalize.append(input_normalize_cr)
        val_loader = torch.utils.data.DataLoader(
            # ImageFolderDCT('/mnt/ssd/kai.x/dataset/ILSVRC2012/val', transforms.Compose([
            ImageFolderDCT(
                '/storage-t1/user/kaixu/datasets/ILSVRC2012/val',
                transforms.Compose([
                    transforms.ToYCrCb(),
                    transforms.TransformDCT(),
                    transforms.UpsampleDCT(T=896, debug=False),
                    transforms.CenterCropDCT(112),
                    transforms.ToTensorDCT(),
                    transforms.NormalizeDCT(train_y_mean_resized,
                                            train_y_std_resized,
                                            train_cb_mean_resized,
                                            train_cb_std_resized,
                                            train_cr_mean_resized,
                                            train_cr_std_resized),
                ])),
            batch_size=1,
            shuffle=False,
            num_workers=1,
            pin_memory=False)

        # train_dataset = ImageFolderDCT('/mnt/ssd/kai.x/dataset/ILSVRC2012/train', transforms.Compose([
コード例 #6
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def get_mean_and_std_dct(dataset, sublist=None):
    '''Compute the mean and std value of dataset.'''
    import datasets.cvtransforms as transforms
    # jpeg_encoder = TurboJPEG('/home/kai.x/work/local/lib/libturbojpeg.so')

    # Dataset = ImageFolderDCT(dataset, transforms.Compose([
    #     #     transforms.RandomResizedCrop(224),
    #     #     # transforms.RandomHorizontalFlip(),
    #     #     transforms.TransformDCT(),
    #     #     transforms.UpsampleDCT(896),
    #     #     transforms.ToTensorDCT()
    #     #         # transforms.RandomResizedCrop(256),
    #     #         # transforms.RandomHorizontalFlip(),
    #     #         # transforms.TransformDCT(),
    #     #         # transforms.UpsampleDCT(256, 256),
    #     #         # transforms.CenterCropDCT(112),
    #     #         # transforms.ToTensorDCT()
    #     #     ]))

    # Dataset = ImageFolderDCT(dataset, transforms.Compose([
    #     transforms.Upscale(),
    #     transforms.TransformDCT(),
    #     transforms.ToTensorDCT(),
    # ]))

    Dataset = ImageFolderDCT(dataset, transforms.Compose([
        transforms.DCTFlatten2D(),
        transforms.UpsampleDCT(upscale_ratio_h=4, upscale_ratio_w=4, debug=False),
        transforms.ToTensorDCT(),
        transforms.Average()
    ]), backend='dct')

    dataloader = torch.utils.data.DataLoader(Dataset, batch_size=1, pin_memory=True, shuffle=False, num_workers=0)

    mean_y, mean_cb, mean_cr = torch.zeros(64), torch.zeros(64), torch.zeros(64)
    std_y, std_cb, std_cr = torch.zeros(64), torch.zeros(64), torch.zeros(64)
    print('==> Computing mean and std..')

    end = time.time()
    if sublist is None:
        for i, (inputs_y, inputs_cb, inputs_cr, targets) in enumerate(dataloader):
            print('data time: {}'.format(time.time()-end))
            print('{}/{}'.format(i, len(dataloader)))

            mean_y += inputs_y.mean(dim=0)
            std_y += inputs_y.std(dim=0)
            mean_cb += inputs_cb.mean(dim=0)
            std_cb += inputs_cb.std(dim=0)
            mean_cr += inputs_cr.mean(dim=0)
            std_cr += inputs_cr.std(dim=0)
            end = time.time()

        mean_y.div_(i+1)
        std_y.div_(i+1)
        mean_cb.div_(i+1)
        std_cb.div_(i+1)
        mean_cr.div_(i+1)
        std_cr.div_(i+1)
    else:
        dataloader_iterator = iter(dataloader)
        for i in range(sublist):
            try:
                inputs_y, inputs_cb, inputs_cr, targets = next(dataloader_iterator)
            except:
                print('error')

            print('{}/{}'.format(i, sublist))
            for i in range(64):
                mean_y[i] += inputs_y[:, i, :, :].mean()
                std_y[i] += inputs_y[:, i, :, :].std()
                mean_cb[i] += inputs_cb[:, i, :, :].mean()
                std_cb[i] += inputs_cb[:, i, :, :].std()
                mean_cr[i] += inputs_cr[:, i, :, :].mean()
                std_cr[i] += inputs_cr[:, i, :, :].std()
        mean_y.div_(sublist)
        std_y.div_(sublist)
        mean_cb.div_(sublist)
        std_cb.div_(sublist)
        mean_cr.div_(sublist)
        std_cr.div_(sublist)
    return mean_y, std_y, mean_cb, std_cb, mean_cr, std_cr
コード例 #7
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    #     transforms.SubsetDCT2(channels=32),
    #     transforms.Aggregate2(),
    #     transforms.RandomResizedCropDCT(112),
    #     transforms.RandomHorizontalFlip(),
    #     transforms.ToTensorDCT2(),
    #     transforms.NormalizeDCT(
    #         train_upscaled_static_mean,
    #         train_upscaled_static_std,
    #         channels=32
    #     )
    # ])

    transform6 = transforms.Compose([
        transforms.DCTFlatten2D(mux=0b011),
        transforms.UpsampleCbCr(),
        transforms.UpsampleDCT(T=512, debug=False),
        transforms.SubsetDCT2(channels=64),
        transforms.Aggregate2(),
        transforms.CenterCrop(448 // 8),
        transforms.ToTensorDCT2(),
        transforms.NormalizeDCT(
            train_upscaled_static_dct_direct_mean,
            train_upscaled_static_dct_direct_std,
            channels=64
        )
    ])

    transform7 = transforms.Compose([
        transforms.UpsampleCbCr(),
        transforms.SubsetDCT2(channels=64),
        transforms.RandomResizedCropDCT(size=448),
コード例 #8
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        transforms.RandomHorizontalFlip(),
        transforms.Upscale(upscale_factor=2),
        transforms.TransformUpscaledDCT(),
        transforms.ToTensorDCT(),
        transforms.SubsetDCT(channels='24'),
        transforms.Aggregate(),
        transforms.NormalizeDCT(
            train_upscaled_static_mean,
            train_upscaled_static_std,
            channels='24'
        )
        ])

    transform5 = transforms.Compose([
        transforms.DCTFlatten2D(),
        transforms.UpsampleDCT(size_threshold=112 * 8, T=112 * 8, debug=False),
        transforms.SubsetDCT2(channels='32'),
        transforms.Aggregate2(),
        transforms.RandomResizedCropDCT(112),
        transforms.RandomHorizontalFlip(),
        transforms.ToTensorDCT2(),
        transforms.NormalizeDCT(
            train_upscaled_static_mean,
            train_upscaled_static_std,
            channels='32'
        )
    ])
    # train_dataset = ImageFolderDCT('/ILSVRC2012/train', transform1, backend='opencv')
    # train_dataset = ImageFolderDCT('/ILSVRC2012/train', transform2
    # , backend='dct')
    train_dataset = ImageFolderDCT('/ILSVRC2012/train', transform5, backend='dct')