use of net.imglib2.algorithm.neighborhood.RectangleShape in project imagej-ops by imagej.
the class LocalThresholdTest method testLocalContrastThreshold.
/**
* @see LocalContrastThreshold
*/
@Test
public void testLocalContrastThreshold() {
ops.run(LocalContrastThreshold.class, out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, Img<ByteType>>(Boundary.SINGLE));
assertEquals(false, out.firstElement().get());
}
use of net.imglib2.algorithm.neighborhood.RectangleShape in project imagej-ops by imagej.
the class LocalThresholdTest method testOpMethods.
/**
* Test whether parameters for ops in {@link ThresholdNamespace} opmethods are
* correctly set.
*/
@Test
public void testOpMethods() {
ops.threshold().localMeanThreshold(out, in, new RectangleShape(3, false), 0.0);
ops.threshold().localMeanThreshold(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE), 0.0);
ops.threshold().localMeanThreshold(out, in, new DiamondShape(3), 0.0);
ops.threshold().localMeanThreshold(out, in, new DiamondShape(3), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE), 0.0);
ops.threshold().localBernsenThreshold(out, in, new RectangleShape(3, false), 1.0, Double.MAX_VALUE * 0.5);
ops.threshold().localBernsenThreshold(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE), 1.0, Double.MAX_VALUE * 0.5);
ops.threshold().localContrastThreshold(out, in, new RectangleShape(3, false));
ops.threshold().localContrastThreshold(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE));
ops.threshold().localMedianThreshold(out, in, new RectangleShape(3, false), 1.0);
ops.threshold().localMedianThreshold(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE), 1.0);
ops.threshold().localMidGreyThreshold(out, in, new RectangleShape(3, false), 1.0);
ops.threshold().localMidGreyThreshold(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE), 1.0);
ops.threshold().localNiblackThreshold(out, in, new RectangleShape(3, false), 1.0, 2.0);
ops.threshold().localNiblackThreshold(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE), 1.0, 2.0);
ops.threshold().localPhansalkarThreshold(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE), 0.25, 0.5);
ops.threshold().localPhansalkarThreshold(out, in, new RectangleShape(3, false));
ops.threshold().localSauvolaThreshold(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE), 0.5, 0.5);
ops.threshold().localSauvolaThreshold(out, in, new RectangleShape(3, false));
/* Locally applied global threshold ops */
ops.threshold().huang(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE));
ops.threshold().huang(out, in, new RectangleShape(3, false));
ops.threshold().ij1(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE));
ops.threshold().ij1(out, in, new RectangleShape(3, false));
ops.threshold().intermodes(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE));
ops.threshold().intermodes(out, in, new RectangleShape(3, false));
ops.threshold().isoData(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE));
ops.threshold().isoData(out, in, new RectangleShape(3, false));
ops.threshold().li(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE));
ops.threshold().li(out, in, new RectangleShape(3, false));
ops.threshold().maxEntropy(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE));
ops.threshold().maxEntropy(out, in, new RectangleShape(3, false));
ops.threshold().maxLikelihood(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE));
ops.threshold().maxLikelihood(out, in, new RectangleShape(3, false));
ops.threshold().minError(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE));
ops.threshold().minError(out, in, new RectangleShape(3, false));
ops.threshold().minimum(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE));
ops.threshold().minimum(out, in, new RectangleShape(3, false));
ops.threshold().moments(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE));
ops.threshold().moments(out, in, new RectangleShape(3, false));
ops.threshold().otsu(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE));
ops.threshold().otsu(out, in, new RectangleShape(3, false));
ops.threshold().percentile(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE));
ops.threshold().percentile(out, in, new RectangleShape(3, false));
ops.threshold().renyiEntropy(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE));
ops.threshold().renyiEntropy(out, in, new RectangleShape(3, false));
ops.threshold().shanbhag(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE));
ops.threshold().shanbhag(out, in, new RectangleShape(3, false));
ops.threshold().triangle(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE));
ops.threshold().triangle(out, in, new RectangleShape(3, false));
ops.threshold().yen(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE));
ops.threshold().yen(out, in, new RectangleShape(3, false));
ops.threshold().rosin(out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, RandomAccessibleInterval<ByteType>>(Boundary.SINGLE));
ops.threshold().rosin(out, in, new RectangleShape(3, false));
}
use of net.imglib2.algorithm.neighborhood.RectangleShape in project imagej-ops by imagej.
the class LocalThresholdTest method testLocalMeanThresholdIntegral.
/**
* @see LocalMeanThresholdIntegral
*/
@Test
public void testLocalMeanThresholdIntegral() {
ops.run(LocalMeanThresholdIntegral.class, out, in, new RectangleShape(3, false), new OutOfBoundsMirrorFactory<ByteType, Img<ByteType>>(Boundary.SINGLE), 0.0);
assertEquals(true, out.firstElement().get());
}
use of net.imglib2.algorithm.neighborhood.RectangleShape in project imagej-ops by imagej.
the class LocalThresholdTest method testLocalPhansalkar.
/**
* @see LocalPhansalkarThreshold
*/
@Test
public void testLocalPhansalkar() {
ops.run(LocalPhansalkarThreshold.class, out, normalizedIn, new RectangleShape(2, false), new OutOfBoundsMirrorFactory<ByteType, Img<ByteType>>(Boundary.SINGLE), 0.25, 0.5);
assertEquals(true, out.firstElement().get());
}
use of net.imglib2.algorithm.neighborhood.RectangleShape in project imagej-ops by imagej.
the class LocalThresholdTest method testLocalSauvola.
/**
* @see LocalSauvolaThreshold
*/
@Test
public void testLocalSauvola() {
ops.run(LocalSauvolaThreshold.class, out, in, new RectangleShape(2, false), new OutOfBoundsMirrorFactory<ByteType, Img<ByteType>>(Boundary.SINGLE), 0.5, 0.5);
assertEquals(false, out.firstElement().get());
}
Aggregations