Example #1
0
def write_to_kzip(trainer: 'Trainer', pred_batch: np.ndarray) -> None:
    from knossos_utils import KnossosDataset
    ks = trainer.knossos_preview_config
    if isinstance(ks['dataset'], str):
        dataset_path = ks['dataset']
    else:
        dataset_path = ks['dataset'][0]
    ds = KnossosDataset(dataset_path)
    seg = pred_batch[0].swapaxes(0, 2)  # (N, D, H, W) -> (W, H, D)

    # Set movement are in k.zip
    area_min = ks['offset']
    area_sz = ks['size']
    anno_str = f"""<?xml version="1.0" encoding="UTF-8"?>
<things>
    <parameters>
        <MovementArea min.x="{area_min[0]}" min.y="{area_min[1]}" min.z="{area_min[2]}" size.x="{area_sz[0]}" size.y="{area_sz[1]}" size.z="{area_sz[2]}"/>
    </parameters>
    <comments/>
    <branchpoints/>
</things>"""

    kzip_path = f'{trainer.save_path}/preview_{trainer.step}.k.zip'
    logger.info(f'Writing preview inference to {kzip_path}')
    ds.save_to_kzip(data=seg,
                    data_mag=ks.get('mag', 1),
                    kzip_path=kzip_path,
                    offset=ks['offset'],
                    mags=ks.get('target_mags', [1, 2]),
                    gen_mergelist=False,
                    upsample=False,
                    fast_resampling=False,
                    annotation_str=anno_str)
Example #2
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def create_preview_batch_from_knossos(
        knossos_preview_config: Dict[str, str]) -> torch.Tensor:
    from knossos_utils import KnossosDataset
    config = knossos_preview_config
    required_keys = ['dataset', 'size', 'offset', 'mag', 'target_mags']
    for k in required_keys:
        if k not in config.keys():
            raise ValueError(
                f'Required key {k} missing from knossos_preview_config.')
    logger.info(f'Loading preview region from dataset {config["dataset"]}')
    datasets = config['dataset']
    if isinstance(datasets, str):
        datasets = [datasets]
    inp_np = []
    for idx, dataset_path in enumerate(datasets):
        ds = KnossosDataset(dataset_path)
        inp_np.append(
            ds.load_raw(offset=config['offset'],
                        size=config['size'],
                        mag=config['mag'],
                        datatype=np.float32))  # (D, H, W)
    inp_np = np.stack(inp_np, axis=0)  # C, D, H, W
    inp_np = inp_np[None]  # (N, C, D, H, W)
    inp_np = inp_np / config.get('scale_brightness', 1.)
    inp = torch.from_numpy(inp_np)
    return inp
Example #3
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def test_KnossosDataset_initialize_without_conf__boundary(tmp_path, boundary):
    kd = KnossosDataset()
    kd.initialize_without_conf(str(tmp_path),
                               boundary=boundary,
                               scale=(1, 1, 1),
                               experiment_name='test',
                               mags=[1],
                               verbose=True)
Example #4
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def test_KnossosDataset_initialize_without_conf__mags(tmp_path):
    kd = KnossosDataset()
    with pytest.raises(AssertionError):
        kd.initialize_without_conf(str(tmp_path),
                                   boundary=(7, 9, 10),
                                   scale=(1, 1, 1),
                                   experiment_name='test',
                                   mags=None,
                                   verbose=True)
Example #5
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def test_KnossosDataset_initialize_without_conf__conf_exist(tmp_path):
    from pathlib import Path
    kd = KnossosDataset()
    kd.initialize_without_conf(str(tmp_path),
                               boundary=(7, 9, 10),
                               scale=(1, 1, 1),
                               experiment_name='test',
                               mags=[1],
                               verbose=True)
    assert (Path(kd.conf_path).is_file())
Example #6
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def kd_factory(kd_path, channel='jpg'):
    with warnings.catch_warnings():
        warnings.simplefilter("ignore")
        # knossos_utils expects a path to the knossos.conf file
        if not kd_path.endswith('knossos.conf'):
            kd_path += "/mag1/knossos.conf"
        kd = KnossosDataset()  # Sets initial values of object
        # kd.set_channel(channel)  # TODO: currently requires additional adjustment of the data type, i.e. setting the channel explicitely currently leads to uint32 <-> uint64 issues in the CS segmentation
        # Initializes the dataset by parsing the knossos.conf in path + "mag1"
        kd.initialize_from_knossos_path(kd_path)
    return kd
Example #7
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def test_Knossosdataset__initalize_without_conf__robust_magfolder_detection(
        tmp_path, existing_mag, expected_mag):
    (tmp_path / existing_mag).mkdir()
    kd = KnossosDataset()
    kd.initialize_without_conf(str(tmp_path),
                               boundary=(7, 9, 10),
                               scale=(1, 1, 1),
                               experiment_name='test',
                               mags=[1],
                               verbose=True)
    assert ((tmp_path / expected_mag).is_dir())
Example #8
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def test_KnossosDataset_initalize_without_conf__mags_1_make_mag_folder_False(
        tmp_path):
    kd = KnossosDataset()
    with pytest.raises(AssertionError):
        kd.initialize_without_conf(str(tmp_path),
                                   boundary=(7, 9, 19),
                                   scale=(1, 1, 1),
                                   experiment_name='test',
                                   mags=[1],
                                   make_mag_folders=False,
                                   verbose=True)
Example #9
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def create_preview_batch_from_knossos(knossos_preview_config: Dict[str, str]) -> torch.Tensor:
    from knossos_utils import KnossosDataset
    config = knossos_preview_config
    required_keys = ['dataset', 'size', 'offset', 'mag', 'target_mags']
    for k in required_keys:
        if k not in config.keys():
            raise ValueError(f'Required key {k} missing from knossos_preview_config.')
    logger.info(f'Loading preview region from dataset {config["dataset"]}')
    ds = KnossosDataset(config['dataset'])
    inp_np = ds.load_raw(
        offset=config['offset'],
        size=config['size'],
        mag=config['mag'],
        datatype=np.float32
    )  # (D, H, W)
    inp_np = inp_np[None, None]  # -> (N, C, D, H, W)
    inp_np = inp_np / config.get('scale_brightness', 1.)
    inp = torch.from_numpy(inp_np)
    return inp
Example #10
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def kd_factory(kd_path: str, channel: str = 'jpg'):
    """
    Todo:
        * Requires additional adjustment of the data type,
          i.e. setting the channel explicitly currently leads to uint32 <->
          uint64 issues in the CS segmentation.

    Args:
        kd_path: Path to the KnossosDataset.
        channel: Channel which to use. Currently not used.

    Returns:

    """
    with warnings.catch_warnings():
        warnings.simplefilter("ignore")
        # knossos_utils expects a path to the knossos.conf file
        if not kd_path.endswith('knossos.conf'):
            kd_path += "/mag1/knossos.conf"
        kd = KnossosDataset()  # Sets initial values of object
        # kd.set_channel(channel)  #
        # Initializes the dataset by parsing the knossos.conf in path + "mag1"
        kd.initialize_from_knossos_path(kd_path)
    return kd
def trafo_objects_to_kd(
    realign_map,
    obj_ids=None,
    label_id=3,
    kd_path='/wholebrain/scratch/areaxfs3/knossosdatasets/j0126_realigned_v4b_cbs_ext0_fix/',
    path_folder='/wholebrain/scratch/areaxfs3/j0126_cset_paper/obj_mito_1037_3d_8'
):
    with open(path_folder + '/direct_map.pkl', 'rb') as f:
        obj_map = pkl.load(f)

    kd = KnossosDataset()
    kd.initialize_from_knossos_path(kd_path)

    if obj_ids is None:
        obj_ids = list(obj_map.keys())

    time_start = time.time()
    for i_obj_id, obj_id in enumerate(obj_ids):
        voxels = np.array([], dtype=np.int32).reshape(0, 3)

        for voxel_file in obj_map[obj_id]:
            voxels = np.concatenate([
                voxels,
                np.load(path_folder + '/voxels/%d_%d.npz' %
                        (voxel_file[0], voxel_file[1]))["%d" % obj_id]
            ])

        voxels_t, mean_shift = trafo_object(voxels, realign_map)

        bb = np.array([np.min(voxels_t, axis=0),
                       np.max(voxels_t, axis=0)],
                      dtype=np.int)

        if np.product(bb.shape) > 1e10:
            print("Obj %d too large" % obj_id)
            continue

        voxels_t -= bb[0]

        vx_cube = np.zeros(bb[1] - bb[0] + 1, dtype=np.uint64)
        vx_cube[voxels_t[:, 0], voxels_t[:, 1], voxels_t[:, 2]] = label_id

        kd.from_matrix_to_cubes(bb[0],
                                data=vx_cube,
                                as_raw=False,
                                overwrite=False)
        dt = time.time() - time_start
        print("Written obj %d at bb %s - time / object: %.3fs - eta: %.3fh" %
              (obj_id, bb[0], dt / (i_obj_id + 1), dt /
               (i_obj_id + 1) * len(obj_ids) / 3600))
Example #12
0
    from knossos_utils import KnossosDataset
    from elektronn2.utils.plotting import scroll_plot, scroll_plot2
    path = os.path.expanduser("~/lustre/sdorkenw/j0126_3d_rrbarrier/")
    arr = KnossosArray(path, max_ram=1200, n_preload=2)

    arr.preload([0, 0, 0], sync=True)
    sh = np.array([120, 240, 240])
    off = np.array([0, 0, 0]) + np.random.randint(0, 500, size=3)

    #    a = arr[0:80, 0:220, 0:230]
    #    a0 = arr[0:100, 0:400, 0:200]
    #    a1 = arr[0:100, 100:400+100, 100:200+100]
    #    b = arr[0:640, 0:640, 0:384]
    #    c = arr[500:600, 500:800, 500:800]
    #
    kds = KnossosDataset()
    kds.initialize_from_knossos_path(path)
    get = utils.timeit(kds.from_raw_cubes_to_matrix)

    #    a0 = arr.cut_slice(sh, off)
    #    a1 = get(sh[[2,1,0]], off[[2,1,0]])
    #    a2 = (a1.T).astype(np.float32)/255
    #    print(np.allclose(a0, a2))
    #    fig = scroll_plot2([a0, a2], 'ab')

    t = 0
    out = np.empty(sh, dtype=np.float32)
    N = 500
    for i in range(N):
        t0 = time.time()
        a = arr.cut_slice(sh, off, out=out)