Example 1 with RealDoubleConverter
use of net.imglib2.converter.RealDoubleConverter in project imagej-ops by imagej.
the class IntegralVariance method compute.
@Override
public void compute(final RectangleNeighborhood<Composite<I>> input, final DoubleType output) {
// computation according to
// https://en.wikipedia.org/wiki/Summed_area_table
final IntegralCursor<Composite<I>> cursorS1 = new IntegralCursor<>(input);
final int dimensions = input.numDimensions();
// Compute \sum (-1)^{dim - ||cornerVector||_{1}} * I(x^{cornerVector})
final DoubleType sum1 = new DoubleType();
sum1.setZero();
// Convert from input to return type
final Converter<I, DoubleType> conv = new RealDoubleConverter<>();
// Compute \sum (-1)^{dim - ||cornerVector||_{1}} * I(x^{cornerVector})
final DoubleType sum2 = new DoubleType();
sum2.setZero();
final DoubleType valueAsDoubleType = new DoubleType();
while (cursorS1.hasNext()) {
final Composite<I> compositeValue = cursorS1.next();
final I value1 = compositeValue.get(0).copy();
conv.convert(value1, valueAsDoubleType);
// Obtain the cursor position encoded as corner vector
final int cornerInteger1 = cursorS1.getCornerRepresentation();
// Determine if the value has to be added (factor==1) or subtracted
// (factor==-1)
final DoubleType factor = new DoubleType(Math.pow(-1.0d, dimensions - IntegralMean.norm(cornerInteger1)));
valueAsDoubleType.mul(factor);
sum1.add(valueAsDoubleType);
final I value2 = compositeValue.get(1).copy();
conv.convert(value2, valueAsDoubleType);
// Determine if the value has to be added (factor==1) or subtracted
// (factor==-1)
valueAsDoubleType.mul(factor);
sum2.add(valueAsDoubleType);
}
final int area = (int) Intervals.numElements(Intervals.expand(input, -1l));
// NB: Reuse available DoubleType
valueAsDoubleType.set(area);
sum1.mul(sum1);
// NB
sum1.div(valueAsDoubleType);
sum2.sub(sum1);
// NB
valueAsDoubleType.sub(new DoubleType(1));
// NB
sum2.div(valueAsDoubleType);
output.set(sum2);
}
Also used :
Composite(net.imglib2.view.composite.Composite)
DoubleType(net.imglib2.type.numeric.real.DoubleType)
IntegralCursor(net.imagej.ops.image.integral.IntegralCursor)
RealDoubleConverter(net.imglib2.converter.RealDoubleConverter)
Example 2 with RealDoubleConverter
use of net.imglib2.converter.RealDoubleConverter in project imagej-ops by imagej.
the class IntegralMean method compute.
@Override
public void compute(final RectangleNeighborhood<Composite<I>> input, final DoubleType output) {
// computation according to
// https://en.wikipedia.org/wiki/Summed_area_table
final IntegralCursor<Composite<I>> cursor = new IntegralCursor<>(input);
final int dimensions = input.numDimensions();
// Compute \sum (-1)^{dim - ||cornerVector||_{1}} * I(x^{cornerVector})
final DoubleType sum = new DoubleType();
sum.setZero();
// Convert from input to return type
final Converter<I, DoubleType> conv = new RealDoubleConverter<>();
final DoubleType valueAsDoubleType = new DoubleType();
while (cursor.hasNext()) {
final I value = cursor.next().get(0).copy();
conv.convert(value, valueAsDoubleType);
// Obtain the cursor position encoded as corner vector
final int cornerInteger = cursor.getCornerRepresentation();
// Determine if the value has to be added (factor==1) or subtracted
// (factor==-1)
final DoubleType factor = new DoubleType(Math.pow(-1.0d, dimensions - IntegralMean.norm(cornerInteger)));
valueAsDoubleType.mul(factor);
sum.add(valueAsDoubleType);
}
final int area = (int) Intervals.numElements(Intervals.expand(input, -1l));
// Compute mean by dividing the sum divided by the number of elements
// NB: Reuse DoubleType
valueAsDoubleType.set(area);
sum.div(valueAsDoubleType);
output.set(sum);
}
Also used :
Composite(net.imglib2.view.composite.Composite)
DoubleType(net.imglib2.type.numeric.real.DoubleType)
IntegralCursor(net.imagej.ops.image.integral.IntegralCursor)
RealDoubleConverter(net.imglib2.converter.RealDoubleConverter)
Example 3 with RealDoubleConverter
use of net.imglib2.converter.RealDoubleConverter in project imagej-ops by imagej.
the class IntegralSum method compute.
@Override
public void compute(final RectangleNeighborhood<I> input, final DoubleType output) {
// computation according to
// https://en.wikipedia.org/wiki/Summed_area_table
final IntegralCursor<I> cursor = new IntegralCursor<>(input);
final int dimensions = input.numDimensions();
// Compute \sum (-1)^{dim - ||cornerVector||_{1}} * I(x^{cornerVector})
final DoubleType sum = new DoubleType();
sum.setZero();
// Convert from input to return type
final Converter<I, DoubleType> conv = new RealDoubleConverter<>();
final DoubleType valueAsDoubleType = new DoubleType();
while (cursor.hasNext()) {
final I value = cursor.next().copy();
conv.convert(value, valueAsDoubleType);
// Obtain the cursor position encoded as corner vector
final int cornerInteger = cursor.getCornerRepresentation();
// Determine if the value has to be added (factor==1) or subtracted
// (factor==-1)
final DoubleType factor = new DoubleType(Math.pow(-1.0d, dimensions - IntegralMean.norm(cornerInteger)));
valueAsDoubleType.mul(factor);
sum.add(valueAsDoubleType);
}
output.set(sum);
}
Also used :
DoubleType(net.imglib2.type.numeric.real.DoubleType)
IntegralCursor(net.imagej.ops.image.integral.IntegralCursor)
RealDoubleConverter(net.imglib2.converter.RealDoubleConverter)
Aggregations
IntegralCursor (net.imagej.ops.image.integral.IntegralCursor)3
RealDoubleConverter (net.imglib2.converter.RealDoubleConverter)3
DoubleType (net.imglib2.type.numeric.real.DoubleType)3
Composite (net.imglib2.view.composite.Composite)2
