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Stanislav Schmidt committed Sep 1, 2021
1 parent a68f4f6 commit fc1210d
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Showing 2 changed files with 26 additions and 18 deletions.
41 changes: 25 additions & 16 deletions src/atldld/cli.py
Original file line number Diff line number Diff line change
Expand Up @@ -237,7 +237,8 @@ def dataset_preview(dataset_id, output_dir):
present a varying amount of tilt against the slicing axis the mapping into
the reference space will distribute the image data of one image across
different parallel slices of the reference space.
""")
""",
)
@click.argument("dataset_id", type=int)
@click.option(
"--input-downsample",
Expand Down Expand Up @@ -277,7 +278,7 @@ def download_faithful_dataset(dataset_id, output_dir, downsample_img, downsample
import pathlib

from atldld.constants import REF_DIM_1UM
from atldld.utils import get_image, get_corners_in_ref_space
from atldld.utils import get_corners_in_ref_space, get_image

# Download the dataset metadata
meta = get_dataset_meta_or_abort(dataset_id, include=["section_images"])
Expand Down Expand Up @@ -357,24 +358,27 @@ def bbox_meshgrid(bbox):
return np.mgrid[slices]


def get_true_ref_image(image, corners, section_thickness_um=25, downsample_img=0, downsample_ref=25):
def get_true_ref_image(
image, corners, section_thickness_um=25, downsample_img=0, downsample_ref=25
):
from atldld.maths import find_shearless_3d_affine

# skip image download and corner queries because it would take too long.
# instead pre-compute them and take them as parameters for now
# image = aibs.get_image(image_id)
# corners = get_ref_corners(image_id, image)

# map corners from the 1µm reference space scale to the given one
corners = corners / downsample_ref

# compute the affine transformation from the first three corner coordinates
ny, nx = image.shape[:2]
p_to = np.array([
(0, 0, 0),
(nx, 0, 0),
(nx, ny, 0),
])
p_to = np.array(
[
(0, 0, 0),
(nx, 0, 0),
(nx, ny, 0),
]
)
p_from = corners[:3]
affine = find_shearless_3d_affine(p_from, p_to)

Expand All @@ -385,8 +389,9 @@ def get_true_ref_image(image, corners, section_thickness_um=25, downsample_img=0
# Convert the affine transformation to displacements
linear = affine[:3, :3]
translation = affine[:3, 3]
coords = np.tensordot(linear, meshgrid, axes=(1, 0)) + \
np.expand_dims(translation, axis=(1, 2, 3))
coords = np.tensordot(linear, meshgrid, axes=(1, 0)) + np.expand_dims(
translation, axis=(1, 2, 3)
)

# Use the grayscale version for mapping. Originals have white background,
# invert to have black one
Expand Down Expand Up @@ -438,10 +443,12 @@ def insert_subvolume(volume, subvolume, subvolume_bbox):

# The data bounding box is the intersection of the volume and sub-volume
# bounding boxes
data_bbox = np.stack([
np.max([subvolume_bbox[0], volume_bbox[0]], axis=0),
np.min([subvolume_bbox[1], volume_bbox[1]], axis=0)
])
data_bbox = np.stack(
[
np.max([subvolume_bbox[0], volume_bbox[0]], axis=0),
np.min([subvolume_bbox[1], volume_bbox[1]], axis=0),
]
)
if not np.all(data_bbox[1] - data_bbox[0] > 0):
logger.warning(
"The volume and sub-volume don't intersect!\n"
Expand All @@ -454,7 +461,9 @@ def insert_subvolume(volume, subvolume, subvolume_bbox):
subvolume_slices = bbox_to_slices(subvolume_bbox, data_bbox)
volume_slices = bbox_to_slices(volume_bbox, data_bbox)

volume[volume_slices] = np.max([volume[volume_slices], subvolume[subvolume_slices]], axis=0)
volume[volume_slices] = np.max(
[volume[volume_slices], subvolume[subvolume_slices]], axis=0
)


root.add_command(dataset)
Expand Down
3 changes: 1 addition & 2 deletions src/atldld/maths.py
Original file line number Diff line number Diff line change
Expand Up @@ -5,8 +5,7 @@


def find_shearless_3d_affine(
p_from: Sequence[np.ndarray],
p_to: Sequence[np.ndarray]
p_from: Sequence[np.ndarray], p_to: Sequence[np.ndarray]
) -> np.ndarray:
"""Find a 3D shearless affine transformation given the mapping of 3 points.
Expand Down

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