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/*
 * Copyright (c) 2011-2017, Peter Abeles. All Rights Reserved.
 *
 * This file is part of BoofCV (http://boofcv.org).
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *   http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package boofcv.alg.misc;

import boofcv.struct.image.*;

/**
 * Generalized version of {@link PixelMath}.  Type checking is performed at runtime instead of at compile type.
 *
 * @author Peter Abeles
 */
public class GPixelMath {

	/**
	 * Sets each pixel in the output image to be the absolute value of the input image.
	 * Both the input and output image can be the same instance.
	 *
	 * @param input The input image. Not modified.
	 * @param output Where the absolute value image is written to. Modified.
	 */
	public static > void abs( T input , T output )
	{
		if( input instanceof ImageGray) {
			if (GrayS8.class == input.getClass()) {
				PixelMath.abs((GrayS8) input, (GrayS8) output);
			} else if (GrayS16.class == input.getClass()) {
				PixelMath.abs((GrayS16) input, (GrayS16) output);
			} else if (GrayS32.class == input.getClass()) {
				PixelMath.abs((GrayS32) input, (GrayS32) output);
			} else if (GrayS64.class == input.getClass()) {
				PixelMath.abs((GrayS64) input, (GrayS64) output);
			} else if (GrayF32.class == input.getClass()) {
				PixelMath.abs((GrayF32) input, (GrayF32) output);
			} else if (GrayF64.class == input.getClass()) {
				PixelMath.abs((GrayF64) input, (GrayF64) output);
			}
			// otherwise assume it is an unsigned image type
		} else if( input instanceof ImageInterleaved ) {
			if (InterleavedS8.class == input.getClass()) {
				PixelMath.abs((InterleavedS8) input, (InterleavedS8) output);
			} else if (InterleavedS16.class == input.getClass()) {
				PixelMath.abs((InterleavedS16) input, (InterleavedS16) output);
			} else if (InterleavedS32.class == input.getClass()) {
				PixelMath.abs((InterleavedS32) input, (InterleavedS32) output);
			} else if (InterleavedS64.class == input.getClass()) {
				PixelMath.abs((InterleavedS64) input, (InterleavedS64) output);
			} else if (InterleavedF32.class == input.getClass()) {
				PixelMath.abs((InterleavedF32) input, (InterleavedF32) output);
			} else if (InterleavedF64.class == input.getClass()) {
				PixelMath.abs((InterleavedF64) input, (InterleavedF64) output);
			}
		} else {
			Planar in = (Planar)input;
			Planar out = (Planar)output;

			for (int i = 0; i < in.getNumBands(); i++) {
				abs(in.getBand(i),out.getBand(i));
			}
		}
	}

	/**
	 * Changes the sign of every pixel in the image: output[x,y] = -input[x,y]
	 * Can only be used on signed images.
	 *
	 * @param input The input image. Not modified.
	 * @param output Where the inverted image is written to. Modified.
	 */
	public static > void invert( T input , T output )
	{
		if( input instanceof ImageGray) {
			if (GrayS8.class == input.getClass()) {
				PixelMath.invert((GrayS8) input, (GrayS8) output);
			} else if (GrayS16.class == input.getClass()) {
				PixelMath.invert((GrayS16) input, (GrayS16) output);
			} else if (GrayS32.class == input.getClass()) {
				PixelMath.invert((GrayS32) input, (GrayS32) output);
			} else if (GrayS64.class == input.getClass()) {
				PixelMath.invert((GrayS64) input, (GrayS64) output);
			} else if (GrayF32.class == input.getClass()) {
				PixelMath.invert((GrayF32) input, (GrayF32) output);
			} else if (GrayF64.class == input.getClass()) {
				PixelMath.invert((GrayF64) input, (GrayF64) output);
			}
		} else if( input instanceof ImageInterleaved ) {
			if (InterleavedS8.class == input.getClass()) {
				PixelMath.invert((InterleavedS8) input, (InterleavedS8) output);
			} else if (InterleavedS16.class == input.getClass()) {
				PixelMath.invert((InterleavedS16) input, (InterleavedS16) output);
			} else if (InterleavedS32.class == input.getClass()) {
				PixelMath.invert((InterleavedS32) input, (InterleavedS32) output);
			} else if (InterleavedS64.class == input.getClass()) {
				PixelMath.invert((InterleavedS64) input, (InterleavedS64) output);
			} else if (InterleavedF32.class == input.getClass()) {
				PixelMath.invert((InterleavedF32) input, (InterleavedF32) output);
			} else if (InterleavedF64.class == input.getClass()) {
				PixelMath.invert((InterleavedF64) input, (InterleavedF64) output);
			}
		} else {
			Planar in = (Planar)input;
			Planar out = (Planar)output;

			for (int i = 0; i < in.getNumBands(); i++) {
				invert(in.getBand(i),out.getBand(i));
			}
		}
	}

	/**
	 * Divide each element by a scalar value. Both input and output images can be the same instance.
	 *
	 * @param input The input image. Not modified.
	 * @param denominator What each element is divided by.
	 * @param output The output image. Modified.
	 */
	public static > void divide(T input, double denominator, T output) {

		if( input instanceof ImageGray) {
			if (GrayU8.class == input.getClass()) {
				PixelMath.divide((GrayU8) input, denominator, (GrayU8) output);
			} else if (GrayS8.class == input.getClass()) {
				PixelMath.divide((GrayS8) input, denominator, (GrayS8) output);
			} else if (GrayU16.class == input.getClass()) {
				PixelMath.divide((GrayU16) input, denominator, (GrayU16) output);
			} else if (GrayS16.class == input.getClass()) {
				PixelMath.divide((GrayS16) input, denominator, (GrayS16) output);
			} else if (GrayS32.class == input.getClass()) {
				PixelMath.divide((GrayS32) input, denominator, (GrayS32) output);
			} else if (GrayS64.class == input.getClass()) {
				PixelMath.divide((GrayS64) input, denominator, (GrayS64) output);
			} else if (GrayF32.class == input.getClass()) {
				PixelMath.divide((GrayF32) input, (float) denominator, (GrayF32) output);
			} else if (GrayF64.class == input.getClass()) {
				PixelMath.divide((GrayF64) input, denominator, (GrayF64) output);
			} else {
				throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName());
			}
		} else if( input instanceof ImageInterleaved ) {
			if (InterleavedU8.class == input.getClass()) {
				PixelMath.divide((InterleavedU8) input, denominator, (InterleavedU8) output);
			} else if (InterleavedS8.class == input.getClass()) {
				PixelMath.divide((InterleavedS8) input, denominator, (InterleavedS8) output);
			} else if (InterleavedU16.class == input.getClass()) {
				PixelMath.divide((InterleavedU16) input, denominator, (InterleavedU16) output);
			} else if (InterleavedS16.class == input.getClass()) {
				PixelMath.divide((InterleavedS16) input, denominator, (InterleavedS16) output);
			} else if (InterleavedS32.class == input.getClass()) {
				PixelMath.divide((InterleavedS32) input, denominator, (InterleavedS32) output);
			} else if (InterleavedS64.class == input.getClass()) {
				PixelMath.divide((InterleavedS64) input, denominator, (InterleavedS64) output);
			} else if (InterleavedF32.class == input.getClass()) {
				PixelMath.divide((InterleavedF32) input, (float) denominator, (InterleavedF32) output);
			} else if (InterleavedF64.class == input.getClass()) {
				PixelMath.divide((InterleavedF64) input, denominator, (InterleavedF64) output);
			} else {
				throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName());
			}
		} else {
			Planar in = (Planar)input;
			Planar out = (Planar)output;

			for (int i = 0; i < in.getNumBands(); i++) {
				divide(in.getBand(i),denominator,out.getBand(i));
			}
		}
	}

	/**
	 * Divide each element by a scalar value and bounds the result. Both input and output images can be the same instance.
	 *
	 * @param input The input image. Not modified.
	 * @param denominator What each element is divided by.
	 * @param lower Lower bound on output. Inclusive.
	 * @param upper Upper bound on output. Inclusive.
	 * @param output The output image. Modified.
	 */
	public static > void divide(T input, double denominator,
													double lower , double upper  , T output)
	{
		if( input instanceof ImageGray) {
			if (GrayU8.class == input.getClass()) {
				PixelMath.divide((GrayU8) input, denominator, (int) lower, (int) upper, (GrayU8) output);
			} else if (GrayS8.class == input.getClass()) {
				PixelMath.divide((GrayS8) input, denominator, (int) lower, (int) upper, (GrayS8) output);
			} else if (GrayU16.class == input.getClass()) {
				PixelMath.divide((GrayU16) input, denominator, (int) lower, (int) upper, (GrayU16) output);
			} else if (GrayS16.class == input.getClass()) {
				PixelMath.divide((GrayS16) input, denominator, (int) lower, (int) upper, (GrayS16) output);
			} else if (GrayS32.class == input.getClass()) {
				PixelMath.divide((GrayS32) input, denominator, (int) lower, (int) upper, (GrayS32) output);
			} else if (GrayS64.class == input.getClass()) {
				PixelMath.divide((GrayS64) input, denominator, (long) lower, (long) upper, (GrayS64) output);
			} else if (GrayF32.class == input.getClass()) {
				PixelMath.divide((GrayF32) input, (float) denominator, (float) lower, (float) upper, (GrayF32) output);
			} else if (GrayF64.class == input.getClass()) {
				PixelMath.divide((GrayF64) input, denominator, lower, upper, (GrayF64) output);
			} else {
				throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName());
			}
		} else if( input instanceof ImageInterleaved ) {
			if (InterleavedU8.class == input.getClass()) {
				PixelMath.divide((InterleavedU8) input, denominator, (int) lower, (int) upper, (InterleavedU8) output);
			} else if (InterleavedS8.class == input.getClass()) {
				PixelMath.divide((InterleavedS8) input, denominator, (int) lower, (int) upper, (InterleavedS8) output);
			} else if (InterleavedU16.class == input.getClass()) {
				PixelMath.divide((InterleavedU16) input, denominator, (int) lower, (int) upper, (InterleavedU16) output);
			} else if (InterleavedS16.class == input.getClass()) {
				PixelMath.divide((InterleavedS16) input, denominator, (int) lower, (int) upper, (InterleavedS16) output);
			} else if (InterleavedS32.class == input.getClass()) {
				PixelMath.divide((InterleavedS32) input, denominator, (int) lower, (int) upper, (InterleavedS32) output);
			} else if (InterleavedS64.class == input.getClass()) {
				PixelMath.divide((InterleavedS64) input, denominator, (long) lower, (long) upper, (InterleavedS64) output);
			} else if (InterleavedF32.class == input.getClass()) {
				PixelMath.divide((InterleavedF32) input, (float) denominator, (float) lower, (float) upper, (InterleavedF32) output);
			} else if (InterleavedF64.class == input.getClass()) {
				PixelMath.divide((InterleavedF64) input, denominator, lower, upper, (InterleavedF64) output);
			} else {
				throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName());
			}
		} else {
			Planar in = (Planar)input;
			Planar out = (Planar)output;

			for (int i = 0; i < in.getNumBands(); i++) {
				divide(in.getBand(i),denominator,lower,upper,out.getBand(i));
			}
		}
	}

	/**
	 * 

* Performs pixel-wise division
* output(x,y) = imgA(x,y) / imgB(x,y) *

* Only floating point images are supported. If the numerator has multiple bands and the denominator is a single * band then the denominator will divide each band. * * @param imgA Input image. Not modified. * @param imgB Input image. Not modified. * @param output Output image. Modified. */ public static > void divide(N imgA, D imgB , N output) { if( imgA instanceof ImageGray && imgB instanceof ImageGray ) { if (GrayF32.class == imgA.getClass()) { PixelMath.divide((GrayF32) imgA, (GrayF32) imgB, (GrayF32) output); } else if (GrayF64.class == imgA.getClass()) { PixelMath.divide((GrayF64) imgA, (GrayF64) imgB, (GrayF64) output); } } else if( imgA instanceof Planar && imgB instanceof ImageGray ) { Planar in = (Planar) imgA; Planar out = (Planar) output; for (int i = 0; i < in.getNumBands(); i++) { if (GrayF32.class == imgB.getClass()) { PixelMath.divide((GrayF32) in.getBand(i), (GrayF32) imgB, (GrayF32) out.getBand(i)); } else if (GrayF64.class == imgB.getClass()) { PixelMath.divide((GrayF64) in.getBand(i), (GrayF64) imgB, (GrayF64) out.getBand(i)); } } } else if( imgA instanceof Planar && imgB instanceof Planar ) { Planar inA = (Planar) imgA; Planar inB = (Planar) imgB; Planar out = (Planar) output; for (int i = 0; i < inA.getNumBands(); i++) { divide(inA.getBand(i), inB.getBand(i), out.getBand(i)); } } else { throw new IllegalArgumentException("Unknown image Type: "+imgA.getClass().getSimpleName()); } } /** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static > void multiply(T input, double value, T output) { if( input instanceof ImageGray) { if (GrayU8.class == input.getClass()) { PixelMath.multiply((GrayU8) input, value, (GrayU8) output); } else if (GrayS8.class == input.getClass()) { PixelMath.multiply((GrayS8) input, value, (GrayS8) output); } else if (GrayU16.class == input.getClass()) { PixelMath.multiply((GrayU16) input, value, (GrayU16) output); } else if (GrayS16.class == input.getClass()) { PixelMath.multiply((GrayS16) input, value, (GrayS16) output); } else if (GrayS32.class == input.getClass()) { PixelMath.multiply((GrayS32) input, value, (GrayS32) output); } else if (GrayS64.class == input.getClass()) { PixelMath.multiply((GrayS64) input, value, (GrayS64) output); } else if (GrayF32.class == input.getClass()) { PixelMath.multiply((GrayF32) input, (float) value, (GrayF32) output); } else if (GrayF64.class == input.getClass()) { PixelMath.multiply((GrayF64) input, value, (GrayF64) output); } else { throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName()); } } else if( input instanceof ImageInterleaved ) { if (InterleavedU8.class == input.getClass()) { PixelMath.multiply((InterleavedU8) input, value, (InterleavedU8) output); } else if (InterleavedS8.class == input.getClass()) { PixelMath.multiply((InterleavedS8) input, value, (InterleavedS8) output); } else if (InterleavedU16.class == input.getClass()) { PixelMath.multiply((InterleavedU16) input, value, (InterleavedU16) output); } else if (InterleavedS16.class == input.getClass()) { PixelMath.multiply((InterleavedS16) input, value, (InterleavedS16) output); } else if (InterleavedS32.class == input.getClass()) { PixelMath.multiply((InterleavedS32) input, value, (InterleavedS32) output); } else if (InterleavedS64.class == input.getClass()) { PixelMath.multiply((InterleavedS64) input, value, (InterleavedS64) output); } else if (InterleavedF32.class == input.getClass()) { PixelMath.multiply((InterleavedF32) input, (float) value, (InterleavedF32) output); } else if (InterleavedF64.class == input.getClass()) { PixelMath.multiply((InterleavedF64) input, value, (InterleavedF64) output); } else { throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName()); } } else { Planar in = (Planar)input; Planar out = (Planar)output; for (int i = 0; i < in.getNumBands(); i++) { multiply(in.getBand(i),value,out.getBand(i)); } } } /** * Multiply each element by a scalar value and bounds the result. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param lower Lower bound on output. Inclusive. * @param upper Upper bound on output. Inclusive. * @param output The output image. Modified. */ public static > void multiply(T input, double value, double lower , double upper , T output) { if( input instanceof ImageGray) { if (GrayU8.class == input.getClass()) { PixelMath.multiply((GrayU8) input, value, (int) lower, (int) upper, (GrayU8) output); } else if (GrayS8.class == input.getClass()) { PixelMath.multiply((GrayS8) input, value, (int) lower, (int) upper, (GrayS8) output); } else if (GrayU16.class == input.getClass()) { PixelMath.multiply((GrayU16) input, value, (int) lower, (int) upper, (GrayU16) output); } else if (GrayS16.class == input.getClass()) { PixelMath.multiply((GrayS16) input, value, (int) lower, (int) upper, (GrayS16) output); } else if (GrayS32.class == input.getClass()) { PixelMath.multiply((GrayS32) input, value, (int) lower, (int) upper, (GrayS32) output); } else if (GrayS64.class == input.getClass()) { PixelMath.multiply((GrayS64) input, value, (long) lower, (long) upper, (GrayS64) output); } else if (GrayF32.class == input.getClass()) { PixelMath.multiply((GrayF32) input, (float) value, (float) lower, (float) upper, (GrayF32) output); } else if (GrayF64.class == input.getClass()) { PixelMath.multiply((GrayF64) input, value, lower, upper, (GrayF64) output); } else { throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName()); } } else if( input instanceof ImageInterleaved ) { if (InterleavedU8.class == input.getClass()) { PixelMath.multiply((InterleavedU8) input, value, (int) lower, (int) upper, (InterleavedU8) output); } else if (InterleavedS8.class == input.getClass()) { PixelMath.multiply((InterleavedS8) input, value, (int) lower, (int) upper, (InterleavedS8) output); } else if (InterleavedU16.class == input.getClass()) { PixelMath.multiply((InterleavedU16) input, value, (int) lower, (int) upper, (InterleavedU16) output); } else if (InterleavedS16.class == input.getClass()) { PixelMath.multiply((InterleavedS16) input, value, (int) lower, (int) upper, (InterleavedS16) output); } else if (InterleavedS32.class == input.getClass()) { PixelMath.multiply((InterleavedS32) input, value, (int) lower, (int) upper, (InterleavedS32) output); } else if (InterleavedS64.class == input.getClass()) { PixelMath.multiply((InterleavedS64) input, value, (long) lower, (long) upper, (InterleavedS64) output); } else if (InterleavedF32.class == input.getClass()) { PixelMath.multiply((InterleavedF32) input, (float) value, (float) lower, (float) upper, (InterleavedF32) output); } else if (InterleavedF64.class == input.getClass()) { PixelMath.multiply((InterleavedF64) input, value, lower, upper, (InterleavedF64) output); } else { throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName()); } } else { Planar in = (Planar)input; Planar out = (Planar)output; for (int i = 0; i < in.getNumBands(); i++) { multiply(in.getBand(i),value,lower,upper,out.getBand(i)); } } } /** *

* Performs pixel-wise multiplication
* output(x,y) = imgA(x,y) * imgB(x,y) *

* Only floating point images are supported. If one image has multiple bands and the other is gray then * the gray image will be multiplied by each band in the multiple band image. * * @param imgA Input image. Not modified. * @param imgB Input image. Not modified. * @param output Output image. Modified. */ public static > void multiply(N imgA, D imgB , N output) { if( imgA instanceof ImageGray && imgB instanceof ImageGray ) { if (GrayF32.class == imgA.getClass()) { PixelMath.multiply((GrayF32) imgA, (GrayF32) imgB, (GrayF32) output); } else if (GrayF64.class == imgA.getClass()) { PixelMath.multiply((GrayF64) imgA, (GrayF64) imgB, (GrayF64) output); } } else if( imgA instanceof Planar && imgB instanceof Planar ) { Planar inA = (Planar) imgA; Planar inB = (Planar) imgB; Planar out = (Planar) output; for (int i = 0; i < inA.getNumBands(); i++) { multiply(inA.getBand(i), inB.getBand(i), out.getBand(i)); } } else if( imgA instanceof Planar || imgB instanceof Planar ) { Planar in; ImageGray gray; Planar out = (Planar) output; if( imgA instanceof Planar ) { in = (Planar)imgA; gray = (ImageGray)imgB; } else { in = (Planar)imgB; gray = (ImageGray)imgA; } for (int i = 0; i < in.getNumBands(); i++) { if (GrayF32.class == gray.getClass()) { PixelMath.multiply((GrayF32) in.getBand(i), (GrayF32) gray, (GrayF32) out.getBand(i)); } else if (GrayF64.class == gray.getClass()) { PixelMath.multiply((GrayF64) in.getBand(i), (GrayF64) gray, (GrayF64) out.getBand(i)); } } } else { throw new IllegalArgumentException("Unknown image Type: "+imgA.getClass().getSimpleName()); } } /** * Sets each pixel in the output image to log( 1 + input(x,y)) of the input image. * Both the input and output image can be the same instance. * * @param input The input image. Not modified. * @param output Where the log image is written to. Modified. */ public static > void log(T input , T output ) { if( input instanceof ImageGray ) { if (GrayF32.class == input.getClass()) { PixelMath.log((GrayF32) input, (GrayF32) output); } else if (GrayF64.class == input.getClass()) { PixelMath.log((GrayF64) input, (GrayF64) output); } else { throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName()); } } else if( input instanceof Planar ) { Planar in = (Planar)input; Planar out = (Planar)output; for (int i = 0; i < in.getNumBands(); i++) { log( in.getBand(i), out.getBand(i)); } } } /** * Raises each pixel in the input image to the power of two. Both the input and output image can be the same * instance. * * @param input The input image. Not modified. * @param output Where the pow2 image is written to. Modified. */ public static > void pow2(T input , T output ) { if( input instanceof ImageGray ) { if (GrayF32.class == input.getClass()) { PixelMath.pow2((GrayF32) input, (GrayF32) output); } else if (GrayF64.class == input.getClass()) { PixelMath.pow2((GrayF64) input, (GrayF64) output); } else { throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName()); } } else if( input instanceof Planar ) { Planar in = (Planar)input; Planar out = (Planar)output; for (int i = 0; i < in.getNumBands(); i++) { pow2( in.getBand(i), out.getBand(i)); } } } /** * Computes the square root of each pixel in the input image. Both the input and output image can be the * same instance. * * @param input The input image. Not modified. * @param output Where the sqrt() image is written to. Modified. */ public static > void sqrt(T input , T output ) { if( input instanceof ImageGray ) { if( GrayF32.class == input.getClass() ) { PixelMath.sqrt((GrayF32) input, (GrayF32) output); } else if( GrayF64.class == input.getClass() ) { PixelMath.sqrt((GrayF64) input, (GrayF64) output); } else { throw new IllegalArgumentException("Unknown image Type: "+input.getClass().getSimpleName()); } } else if( input instanceof Planar ) { Planar in = (Planar)input; Planar out = (Planar)output; for (int i = 0; i < in.getNumBands(); i++) { sqrt( in.getBand(i), out.getBand(i)); } } } /** * Each element has the specified number added to it. Both input and output images can * be the same. * * @param input The input image. Not modified. * @param value What is added to each element. * @param output The output image. Modified. */ public static > void plus(T input, double value, T output) { if( input instanceof ImageGray) { if (GrayU8.class == input.getClass()) { PixelMath.plus((GrayU8) input, (int) value, (GrayU8) output); } else if (GrayS8.class == input.getClass()) { PixelMath.plus((GrayS8) input, (int) value, (GrayS8) output); } else if (GrayU16.class == input.getClass()) { PixelMath.plus((GrayU16) input, (int) value, (GrayU16) output); } else if (GrayS16.class == input.getClass()) { PixelMath.plus((GrayS16) input, (int) value, (GrayS16) output); } else if (GrayS32.class == input.getClass()) { PixelMath.plus((GrayS32) input, (int) value, (GrayS32) output); } else if (GrayS64.class == input.getClass()) { PixelMath.plus((GrayS64) input, (long) value, (GrayS64) output); } else if (GrayF32.class == input.getClass()) { PixelMath.plus((GrayF32) input, (float) value, (GrayF32) output); } else if (GrayF64.class == input.getClass()) { PixelMath.plus((GrayF64) input, value, (GrayF64) output); } else { throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName()); } } else if( input instanceof ImageInterleaved ) { if (InterleavedU8.class == input.getClass()) { PixelMath.plus((InterleavedU8) input, (int) value, (InterleavedU8) output); } else if (InterleavedS8.class == input.getClass()) { PixelMath.plus((InterleavedS8) input, (int) value, (InterleavedS8) output); } else if (InterleavedU16.class == input.getClass()) { PixelMath.plus((InterleavedU16) input, (int) value, (InterleavedU16) output); } else if (InterleavedS16.class == input.getClass()) { PixelMath.plus((InterleavedS16) input, (int) value, (InterleavedS16) output); } else if (InterleavedS32.class == input.getClass()) { PixelMath.plus((InterleavedS32) input, (int) value, (InterleavedS32) output); } else if (InterleavedS64.class == input.getClass()) { PixelMath.plus((InterleavedS64) input, (long) value, (InterleavedS64) output); } else if (InterleavedF32.class == input.getClass()) { PixelMath.plus((InterleavedF32) input, (float) value, (InterleavedF32) output); } else if (InterleavedF64.class == input.getClass()) { PixelMath.plus((InterleavedF64) input, value, (InterleavedF64) output); } else { throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName()); } } else { Planar in = (Planar)input; Planar out = (Planar)output; for (int i = 0; i < in.getNumBands(); i++) { plus(in.getBand(i),value,out.getBand(i)); } } } /** * Add a scalar value to each element and bounds the result. Both input and output images can be the same instance. * * @param input The input image. Not modified. * @param value What is added to each element. * @param lower Lower bound on output. Inclusive. * @param upper Upper bound on output. Inclusive. * @param output The output image. Modified. */ public static > void plus(T input, double value, double lower , double upper , T output) { if( input instanceof ImageGray) { if (GrayU8.class == input.getClass()) { PixelMath.plus((GrayU8) input, (int) value, (int) lower, (int) upper, (GrayU8) output); } else if (GrayS8.class == input.getClass()) { PixelMath.plus((GrayS8) input, (int) value, (int) lower, (int) upper, (GrayS8) output); } else if (GrayU16.class == input.getClass()) { PixelMath.plus((GrayU16) input, (int) value, (int) lower, (int) upper, (GrayU16) output); } else if (GrayS16.class == input.getClass()) { PixelMath.plus((GrayS16) input, (int) value, (int) lower, (int) upper, (GrayS16) output); } else if (GrayS32.class == input.getClass()) { PixelMath.plus((GrayS32) input, (int) value, (int) lower, (int) upper, (GrayS32) output); } else if (GrayS64.class == input.getClass()) { PixelMath.plus((GrayS64) input, (long) value, (long) lower, (long) upper, (GrayS64) output); } else if (GrayF32.class == input.getClass()) { PixelMath.plus((GrayF32) input, (float) value, (float) lower, (float) upper, (GrayF32) output); } else if (GrayF64.class == input.getClass()) { PixelMath.plus((GrayF64) input, value, lower, upper, (GrayF64) output); } else { throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName()); } } else if( input instanceof ImageInterleaved ) { if (InterleavedU8.class == input.getClass()) { PixelMath.plus((InterleavedU8) input, (int) value, (int) lower, (int) upper, (InterleavedU8) output); } else if (InterleavedS8.class == input.getClass()) { PixelMath.plus((InterleavedS8) input, (int) value, (int) lower, (int) upper, (InterleavedS8) output); } else if (InterleavedU16.class == input.getClass()) { PixelMath.plus((InterleavedU16) input, (int) value, (int) lower, (int) upper, (InterleavedU16) output); } else if (InterleavedS16.class == input.getClass()) { PixelMath.plus((InterleavedS16) input, (int) value, (int) lower, (int) upper, (InterleavedS16) output); } else if (InterleavedS32.class == input.getClass()) { PixelMath.plus((InterleavedS32) input, (int) value, (int) lower, (int) upper, (InterleavedS32) output); } else if (InterleavedS64.class == input.getClass()) { PixelMath.plus((InterleavedS64) input, (long) value, (long) lower, (long) upper, (InterleavedS64) output); } else if (InterleavedF32.class == input.getClass()) { PixelMath.plus((InterleavedF32) input, (float) value, (float) lower, (float) upper, (InterleavedF32) output); } else if (InterleavedF64.class == input.getClass()) { PixelMath.plus((InterleavedF64) input, value, lower, upper, (InterleavedF64) output); } else { throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName()); } } else { Planar in = (Planar)input; Planar out = (Planar)output; for (int i = 0; i < in.getNumBands(); i++) { plus(in.getBand(i),value,lower,upper,out.getBand(i)); } } } /** *

* Subtracts a scalar value from each element. Both input and output images can be the same instance. *

*

* output = input - value *

* @param input The input image. Not modified. * @param value What is subtracted from each element in input. * @param output The output image. Modified. */ public static > void minus(T input, double value, T output) { if( input instanceof ImageGray) { if (GrayU8.class == input.getClass()) { PixelMath.minus((GrayU8) input, (int) value, (GrayU8) output); } else if (GrayS8.class == input.getClass()) { PixelMath.minus((GrayS8) input, (int) value, (GrayS8) output); } else if (GrayU16.class == input.getClass()) { PixelMath.minus((GrayU16) input, (int) value, (GrayU16) output); } else if (GrayS16.class == input.getClass()) { PixelMath.minus((GrayS16) input, (int) value, (GrayS16) output); } else if (GrayS32.class == input.getClass()) { PixelMath.minus((GrayS32) input, (int) value, (GrayS32) output); } else if (GrayS64.class == input.getClass()) { PixelMath.minus((GrayS64) input, (long) value, (GrayS64) output); } else if (GrayF32.class == input.getClass()) { PixelMath.minus((GrayF32) input, (float) value, (GrayF32) output); } else if (GrayF64.class == input.getClass()) { PixelMath.minus((GrayF64) input, value, (GrayF64) output); } else { throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName()); } } else if( input instanceof ImageInterleaved ) { if (InterleavedU8.class == input.getClass()) { PixelMath.minus((InterleavedU8) input, (int) value, (InterleavedU8) output); } else if (InterleavedS8.class == input.getClass()) { PixelMath.minus((InterleavedS8) input, (int) value, (InterleavedS8) output); } else if (InterleavedU16.class == input.getClass()) { PixelMath.minus((InterleavedU16) input, (int) value, (InterleavedU16) output); } else if (InterleavedS16.class == input.getClass()) { PixelMath.minus((InterleavedS16) input, (int) value, (InterleavedS16) output); } else if (InterleavedS32.class == input.getClass()) { PixelMath.minus((InterleavedS32) input, (int) value, (InterleavedS32) output); } else if (InterleavedS64.class == input.getClass()) { PixelMath.minus((InterleavedS64) input, (long) value, (InterleavedS64) output); } else if (InterleavedF32.class == input.getClass()) { PixelMath.minus((InterleavedF32) input, (float) value, (InterleavedF32) output); } else if (InterleavedF64.class == input.getClass()) { PixelMath.minus((InterleavedF64) input, value, (InterleavedF64) output); } else { throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName()); } } else { Planar in = (Planar)input; Planar out = (Planar)output; for (int i = 0; i < in.getNumBands(); i++) { minus(in.getBand(i),value,out.getBand(i)); } } } /** *

* Subtracts the value of each element from a scalar value. Both input and output images can be the same instance. *

*

* output = value - input *

* @param value Value on left side of equation. * @param input The input image, elements subtracted from value. Not modified. * @param output The output image. Modified. */ public static > void minus( double value, T input, T output) { if( input instanceof ImageGray) { if( GrayU8.class == input.getClass() ) { PixelMath.minus((int) value, (GrayU8) input, (GrayU8) output); } else if( GrayS8.class == input.getClass() ) { PixelMath.minus((int) value, (GrayS8) input, (GrayS8) output); } else if( GrayU16.class == input.getClass() ) { PixelMath.minus((int) value, (GrayU16) input, (GrayU16) output); } else if( GrayS16.class == input.getClass() ) { PixelMath.minus((int) value, (GrayS16) input, (GrayS16) output); } else if( GrayS32.class == input.getClass() ) { PixelMath.minus((int) value, (GrayS32) input, (GrayS32) output); } else if( GrayS64.class == input.getClass() ) { PixelMath.minus((long) value, (GrayS64) input, (GrayS64) output); } else if( GrayF32.class == input.getClass() ) { PixelMath.minus((float) value, (GrayF32) input, (GrayF32) output); } else if( GrayF64.class == input.getClass() ) { PixelMath.minus(value, (GrayF64) input, (GrayF64) output); } else { throw new IllegalArgumentException("Unknown image Type: "+input.getClass().getSimpleName()); } } else if( input instanceof ImageInterleaved ) { if( InterleavedU8.class == input.getClass() ) { PixelMath.minus((int) value, (InterleavedU8) input, (InterleavedU8) output); } else if( InterleavedS8.class == input.getClass() ) { PixelMath.minus((int) value, (InterleavedS8) input, (InterleavedS8) output); } else if( InterleavedU16.class == input.getClass() ) { PixelMath.minus((int) value, (InterleavedU16) input, (InterleavedU16) output); } else if( InterleavedS16.class == input.getClass() ) { PixelMath.minus((int) value, (InterleavedS16) input, (InterleavedS16) output); } else if( InterleavedS32.class == input.getClass() ) { PixelMath.minus((int) value, (InterleavedS32) input, (InterleavedS32) output); } else if( InterleavedS64.class == input.getClass() ) { PixelMath.minus((long) value, (InterleavedS64) input, (InterleavedS64) output); } else if( InterleavedF32.class == input.getClass() ) { PixelMath.minus((float) value, (InterleavedF32) input, (InterleavedF32) output); } else if( InterleavedF64.class == input.getClass() ) { PixelMath.minus(value, (InterleavedF64) input, (InterleavedF64) output); } else { throw new IllegalArgumentException("Unknown image Type: "+input.getClass().getSimpleName()); } } else { Planar in = (Planar)input; Planar out = (Planar)output; for (int i = 0; i < in.getNumBands(); i++) { minus(value,in.getBand(i),out.getBand(i)); } } } /** *

* Subtracts a scalar value from each element. Both input and output images can be the same instance. *

*

* output = input - value *

* @param input The input image. Not modified. * @param value What is subtracted from each element. * @param lower Lower bound on output. Inclusive. * @param upper Upper bound on output. Inclusive. * @param output The output image. Modified. */ public static > void minus(T input, double value, double lower , double upper , T output) { if( input instanceof ImageGray) { if (GrayU8.class == input.getClass()) { PixelMath.minus((GrayU8) input, (int) value, (int) lower, (int) upper, (GrayU8) output); } else if (GrayS8.class == input.getClass()) { PixelMath.minus((GrayS8) input, (int) value, (int) lower, (int) upper, (GrayS8) output); } else if (GrayU16.class == input.getClass()) { PixelMath.minus((GrayU16) input, (int) value, (int) lower, (int) upper, (GrayU16) output); } else if (GrayS16.class == input.getClass()) { PixelMath.minus((GrayS16) input, (int) value, (int) lower, (int) upper, (GrayS16) output); } else if (GrayS32.class == input.getClass()) { PixelMath.minus((GrayS32) input, (int) value, (int) lower, (int) upper, (GrayS32) output); } else if (GrayS64.class == input.getClass()) { PixelMath.minus((GrayS64) input, (long) value, (long) lower, (long) upper, (GrayS64) output); } else if (GrayF32.class == input.getClass()) { PixelMath.minus((GrayF32) input, (float) value, (float) lower, (float) upper, (GrayF32) output); } else if (GrayF64.class == input.getClass()) { PixelMath.minus((GrayF64) input, value, lower, upper, (GrayF64) output); } else { throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName()); } } else if( input instanceof ImageInterleaved ) { if (InterleavedU8.class == input.getClass()) { PixelMath.minus((InterleavedU8) input, (int) value, (int) lower, (int) upper, (InterleavedU8) output); } else if (InterleavedS8.class == input.getClass()) { PixelMath.minus((InterleavedS8) input, (int) value, (int) lower, (int) upper, (InterleavedS8) output); } else if (InterleavedU16.class == input.getClass()) { PixelMath.minus((InterleavedU16) input, (int) value, (int) lower, (int) upper, (InterleavedU16) output); } else if (InterleavedS16.class == input.getClass()) { PixelMath.minus((InterleavedS16) input, (int) value, (int) lower, (int) upper, (InterleavedS16) output); } else if (InterleavedS32.class == input.getClass()) { PixelMath.minus((InterleavedS32) input, (int) value, (int) lower, (int) upper, (InterleavedS32) output); } else if (InterleavedS64.class == input.getClass()) { PixelMath.minus((InterleavedS64) input, (long) value, (long) lower, (long) upper, (InterleavedS64) output); } else if (InterleavedF32.class == input.getClass()) { PixelMath.minus((InterleavedF32) input, (float) value, (float) lower, (float) upper, (InterleavedF32) output); } else if (InterleavedF64.class == input.getClass()) { PixelMath.minus((InterleavedF64) input, value, lower, upper, (InterleavedF64) output); } else { throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName()); } } else { Planar in = (Planar)input; Planar out = (Planar)output; for (int i = 0; i < in.getNumBands(); i++) { minus(in.getBand(i),value,lower,upper,out.getBand(i)); } } } /** *

* Subtracts the value of each element from a scalar value. Both input and output images can be the same instance. *

*

* output = value - input *

* @param value Left side of equation. * @param input The input image. Not modified. * @param lower Lower bound on output. Inclusive. * @param upper Upper bound on output. Inclusive. * @param output The output image. Modified. */ public static > void minus(double value, T input, double lower , double upper , T output) { if( input instanceof ImageGray) { if (GrayU8.class == input.getClass()) { PixelMath.minus((int) value, (GrayU8) input, (int) lower, (int) upper, (GrayU8) output); } else if (GrayS8.class == input.getClass()) { PixelMath.minus((int) value, (GrayS8) input, (int) lower, (int) upper, (GrayS8) output); } else if (GrayU16.class == input.getClass()) { PixelMath.minus((int) value, (GrayU16) input, (int) lower, (int) upper, (GrayU16) output); } else if (GrayS16.class == input.getClass()) { PixelMath.minus((int) value, (GrayS16) input, (int) lower, (int) upper, (GrayS16) output); } else if (GrayS32.class == input.getClass()) { PixelMath.minus((int) value, (GrayS32) input, (int) lower, (int) upper, (GrayS32) output); } else if (GrayS64.class == input.getClass()) { PixelMath.minus((long) value, (GrayS64) input, (long) lower, (long) upper, (GrayS64) output); } else if (GrayF32.class == input.getClass()) { PixelMath.minus((float) value, (GrayF32) input, (float) lower, (float) upper, (GrayF32) output); } else if (GrayF64.class == input.getClass()) { PixelMath.minus(value, (GrayF64) input, lower, upper, (GrayF64) output); } else { throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName()); } } else if( input instanceof ImageInterleaved ) { if (InterleavedU8.class == input.getClass()) { PixelMath.minus((int) value, (InterleavedU8) input, (int) lower, (int) upper, (InterleavedU8) output); } else if (InterleavedS8.class == input.getClass()) { PixelMath.minus((int) value, (InterleavedS8) input, (int) lower, (int) upper, (InterleavedS8) output); } else if (InterleavedU16.class == input.getClass()) { PixelMath.minus((int) value, (InterleavedU16) input, (int) lower, (int) upper, (InterleavedU16) output); } else if (InterleavedS16.class == input.getClass()) { PixelMath.minus((int) value, (InterleavedS16) input, (int) lower, (int) upper, (InterleavedS16) output); } else if (InterleavedS32.class == input.getClass()) { PixelMath.minus((int) value, (InterleavedS32) input, (int) lower, (int) upper, (InterleavedS32) output); } else if (InterleavedS64.class == input.getClass()) { PixelMath.minus((long) value, (InterleavedS64) input, (long) lower, (long) upper, (InterleavedS64) output); } else if (InterleavedF32.class == input.getClass()) { PixelMath.minus((float) value, (InterleavedF32) input, (float) lower, (float) upper, (InterleavedF32) output); } else if (InterleavedF64.class == input.getClass()) { PixelMath.minus(value, (InterleavedF64) input, lower, upper, (InterleavedF64) output); } else { throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName()); } } else { Planar in = (Planar)input; Planar out = (Planar)output; for (int i = 0; i < in.getNumBands(); i++) { minus(value,in.getBand(i),lower,upper,out.getBand(i)); } } } /** *

* Performs pixel-wise addition
* d(x,y) = inputA(x,y) + inputB(x,y) *

* @param inputA Input image. Not modified. * @param inputB Input image. Not modified. * @param output Output image. Modified. */ public static , O extends ImageBase> void add(T inputA, T inputB, O output) { if( inputA instanceof ImageGray) { if (GrayU8.class == inputA.getClass()) { PixelMath.add((GrayU8) inputA, (GrayU8) inputB, (GrayU16) output); } else if (GrayS8.class == inputA.getClass()) { PixelMath.add((GrayS8) inputA, (GrayS8) inputB, (GrayS16) output); } else if (GrayU16.class == inputA.getClass()) { PixelMath.add((GrayU16) inputA, (GrayU16) inputB, (GrayS32) output); } else if (GrayS16.class == inputA.getClass()) { PixelMath.add((GrayS16) inputA, (GrayS16) inputB, (GrayS32) output); } else if (GrayS32.class == inputA.getClass()) { PixelMath.add((GrayS32) inputA, (GrayS32) inputB, (GrayS32) output); } else if (GrayS64.class == inputA.getClass()) { PixelMath.add((GrayS64) inputA, (GrayS64) inputB, (GrayS64) output); } else if (GrayF32.class == inputA.getClass()) { PixelMath.add((GrayF32) inputA, (GrayF32) inputB, (GrayF32) output); } else if (GrayF64.class == inputA.getClass()) { PixelMath.add((GrayF64) inputA, (GrayF64) inputB, (GrayF64) output); } else { throw new IllegalArgumentException("Unknown image Type: " + inputA.getClass().getSimpleName()); } } else if (inputA instanceof Planar) { Planar inA = (Planar)inputA; Planar inB = (Planar)inputB; Planar out = (Planar)output; for (int i = 0; i < inA.getNumBands(); i++) { add(inA.getBand(i),inB.getBand(i),out.getBand(i)); } } } /** *

* Performs pixel-wise subtraction, but ensures the result is between two bounds.
* d(x,y) = imgA(x,y) - imgB(x,y) *

* @param inputA Input image. Not modified. * @param inputB Input image. Not modified. * @param output Output image. Modified. */ public static , O extends ImageBase> void subtract(T inputA, T inputB, O output) { if( inputA instanceof ImageGray){ if( GrayU8.class == inputA.getClass() ) { PixelMath.subtract((GrayU8) inputA, (GrayU8)inputB, (GrayI16) output); } else if( GrayS8.class == inputA.getClass() ) { PixelMath.subtract((GrayS8) inputA, (GrayS8)inputB, (GrayS16) output); } else if( GrayU16.class == inputA.getClass() ) { PixelMath.subtract((GrayU16) inputA, (GrayU16)inputB, (GrayS32) output); } else if( GrayS16.class == inputA.getClass() ) { PixelMath.subtract((GrayS16) inputA, (GrayS16)inputB, (GrayS32) output); } else if( GrayS32.class == inputA.getClass() ) { PixelMath.subtract((GrayS32) inputA, (GrayS32)inputB, (GrayS32) output); } else if( GrayS64.class == inputA.getClass() ) { PixelMath.subtract((GrayS64) inputA, (GrayS64)inputB, (GrayS64) output); } else if( GrayF32.class == inputA.getClass() ) { PixelMath.subtract((GrayF32) inputA, (GrayF32)inputB, (GrayF32) output); } else if( GrayF64.class == inputA.getClass() ) { PixelMath.subtract((GrayF64) inputA, (GrayF64)inputB, (GrayF64) output); } else { throw new IllegalArgumentException("Unknown image Type: "+inputA.getClass().getSimpleName()); } } else if (inputA instanceof Planar) { Planar inA = (Planar)inputA; Planar inB = (Planar)inputB; Planar out = (Planar)output; for (int i = 0; i < inA.getNumBands(); i++) { subtract(inA.getBand(i),inB.getBand(i),out.getBand(i)); } } else { throw new IllegalArgumentException("Unknown image Type: "+inputA.getClass().getSimpleName()); } } /** * Bounds image pixels to be between these two values. * * @param input Input image. * @param min minimum value. Inclusive. * @param max maximum value. Inclusive. */ public static > void boundImage(T input , double min , double max ) { if( input instanceof ImageGray ) { if (GrayU8.class == input.getClass()) { PixelMath.boundImage((GrayU8) input, (int) min, (int) max); } else if (GrayS8.class == input.getClass()) { PixelMath.boundImage((GrayS8) input, (int) min, (int) max); } else if (GrayU16.class == input.getClass()) { PixelMath.boundImage((GrayU16) input, (int) min, (int) max); } else if (GrayS16.class == input.getClass()) { PixelMath.boundImage((GrayS16) input, (int) min, (int) max); } else if (GrayS32.class == input.getClass()) { PixelMath.boundImage((GrayS32) input, (int) min, (int) max); } else if (GrayS64.class == input.getClass()) { PixelMath.boundImage((GrayS64) input, (long) min, (long) max); } else if (GrayF32.class == input.getClass()) { PixelMath.boundImage((GrayF32) input, (float) min, (float) max); } else if (GrayF64.class == input.getClass()) { PixelMath.boundImage((GrayF64) input, min, max); } else { throw new IllegalArgumentException("Unknown image Type: " + input.getClass().getSimpleName()); } } else if( input instanceof Planar ) { Planar in = (Planar)input; for (int i = 0; i < in.getNumBands(); i++) { boundImage( in.getBand(i), min, max); } } } /** *

* Computes the absolute value of the difference between each pixel in the two images.
* d(x,y) = |img1(x,y) - img2(x,y)| *

* @param inputA Input image. Not modified. * @param inputB Input image. Not modified. * @param output Absolute value of difference image. Modified. */ public static > void diffAbs(T inputA , T inputB , T output) { if( inputA instanceof ImageGray ) { if (GrayU8.class == inputA.getClass()) { PixelMath.diffAbs((GrayU8) inputA, (GrayU8) inputB, (GrayU8) output); } else if (GrayS8.class == inputA.getClass()) { PixelMath.diffAbs((GrayS8) inputA, (GrayS8) inputB, (GrayS8) output); } else if (GrayU16.class == inputA.getClass()) { PixelMath.diffAbs((GrayU16) inputA, (GrayU16) inputB, (GrayU16) output); } else if (GrayS16.class == inputA.getClass()) { PixelMath.diffAbs((GrayS16) inputA, (GrayS16) inputB, (GrayS16) output); } else if (GrayS32.class == inputA.getClass()) { PixelMath.diffAbs((GrayS32) inputA, (GrayS32) inputB, (GrayS32) output); } else if (GrayS64.class == inputA.getClass()) { PixelMath.diffAbs((GrayS64) inputA, (GrayS64) inputB, (GrayS64) output); } else if (GrayF32.class == inputA.getClass()) { PixelMath.diffAbs((GrayF32) inputA, (GrayF32) inputB, (GrayF32) output); } else if (GrayF64.class == inputA.getClass()) { PixelMath.diffAbs((GrayF64) inputA, (GrayF64) inputB, (GrayF64) output); } else { throw new IllegalArgumentException("Unknown image Type: " + inputA.getClass().getSimpleName()); } } else if( inputA instanceof Planar ) { Planar inA = (Planar)inputA; Planar inB = (Planar)inputB; Planar out = (Planar)output; for (int i = 0; i < inA.getNumBands(); i++) { diffAbs( inA.getBand(i), inB.getBand(i), out.getBand(i)); } } } /** * Computes the average for each pixel across all bands in the {@link Planar} image. * * @param input Planar image * @param output Gray scale image containing average pixel values */ public static > void averageBand(Planar input, T output) { if( GrayU8.class == input.getBandType() ) { PixelMath.averageBand((Planar) input, (GrayU8) output); } else if( GrayS8.class == input.getBandType() ) { PixelMath.averageBand((Planar) input, (GrayS8) output); } else if( GrayU16.class == input.getBandType() ) { PixelMath.averageBand((Planar) input, (GrayU16) output); } else if( GrayS16.class == input.getBandType() ) { PixelMath.averageBand((Planar) input, (GrayS16) output); } else if( GrayS32.class == input.getBandType() ) { PixelMath.averageBand((Planar) input, (GrayS32) output); } else if( GrayS64.class == input.getBandType() ) { PixelMath.averageBand((Planar) input, (GrayS64) output); } else if( GrayF32.class == input.getBandType() ) { PixelMath.averageBand((Planar) input, (GrayF32) output); } else if( GrayF64.class == input.getBandType() ) { PixelMath.averageBand((Planar) input, (GrayF64) output); } else { throw new IllegalArgumentException("Unknown image Type: "+input.getBandType().getSimpleName()); } } }




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