Source code for silx.image.marchingsquares
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"""
This module provides implementations based on marching squares algorithms.
The main implementation is done by :class:`MarchingSquaresMergeImpl`. It was
designed to speed up the computation of iso surface using Cython and OpenMP.
It also provides features like support of mask, and cache of min/max per tiles
which is very efficient to find many iso contours from image gradient.
Utilitary functions are provided as facade for simple use.
:meth:`find_contours` to find iso contours from an image and using the same
main signature as `find_contours` from `skimage`, but supporting mask.
And :meth:`find_pixels` which returns a set of pixel coords containing the
points of the iso contours.
"""
__authors__ = ["V. Valls"]
__license__ = "MIT"
__date__ = "02/07/2018"
from ._mergeimpl import MarchingSquaresMergeImpl
def _factory(engine, image, mask):
"""Factory to create the marching square implementation from the engine
name"""
if engine == "merge":
return MarchingSquaresMergeImpl(image, mask)
elif engine == "skimage":
from _skimage import MarchingSquaresSciKitImage
return MarchingSquaresSciKitImage(image, mask)
else:
raise ValueError(
"Engine '%s' is not supported ('merge' or 'skimage' expected)."
)
[docs]
def find_pixels(image, level, mask=None):
"""
Find the pixels following the iso contours at the given `level`.
These pixels are localized by the bound of the segment generated by the
iso contour algorithm.
The result is returned as a numpy array storing a list of coordinates y/x.
.. code-block:: python
# Example using a mask
shape = 100, 100
image = numpy.random.random(shape)
mask = numpy.random.random(shape) < 0.01
pixels = silx.image.marchingsquares.find_pixels(image, 0.5, mask=mask)
:param numpy.ndarray image: Image to process
:param float level: Level of the requested iso contours.
:param numpy.ndarray mask: An optional mask (a non-zero value invalidate
the pixels of the image)
:returns: An array of coordinates in y/x
:rtype: numpy.ndarray
"""
assert image is not None
if mask is not None:
assert image.shape == mask.shape
engine = "merge"
impl = _factory(engine, image, mask)
return impl.find_pixels(level)
[docs]
def find_contours(image, level, mask=None):
"""
Find the iso contours at the given `level`.
The result is returned as a list of polygons.
.. code-block:: python
# Example using a mask
shape = 100, 100
image = numpy.random.random(shape)
mask = numpy.random.random(shape) < 0.01
polygons = silx.image.marchingsquares.find_contours(image, 0.5, mask=mask)
:param numpy.ndarray image: Image to process
:param float level: Level of the requested iso contours.
:param numpy.ndarray mask: An optional mask (a non-zero value invalidate
the pixels of the image)
:returns: A list of array containing y-x coordinates of points
:rtype: List[numpy.ndarray]
"""
assert image is not None
if mask is not None:
assert image.shape == mask.shape
engine = "merge"
impl = _factory(engine, image, mask)
return impl.find_contours(level)
