boofcv.core.image.ConvertImage Maven / Gradle / Ivy
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/*
* Copyright (c) 2011-2019, 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.core.image;
import boofcv.concurrency.BoofConcurrency;
import boofcv.core.image.impl.*;
import boofcv.struct.image.*;
/**
*
* Functions for converting between different image types. Pixel values are converted by typecasting.
* When converting between signed and unsigned types, care should be taken to avoid numerical overflow.
*
*
*
* DO NOT MODIFY. This code was automatically generated by GenerateConvertImage.
*
*
* @author Peter Abeles
*/
@SuppressWarnings("Duplicates")
public class ConvertImage {
/**
*
* Converts an {@link boofcv.struct.image.GrayU8} into a {@link boofcv.struct.image.GrayS8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS8 convert(GrayU8 input, GrayS8 output) {
if (output == null) {
output = new GrayS8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedU8} into a {@link boofcv.struct.image.InterleavedS8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS8 convert(InterleavedU8 input, InterleavedS8 output) {
if (output == null) {
output = new InterleavedS8(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayU8} into a {@link boofcv.struct.image.GrayU16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayU16 convert(GrayU8 input, GrayU16 output) {
if (output == null) {
output = new GrayU16(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedU8} into a {@link boofcv.struct.image.InterleavedU16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedU16 convert(InterleavedU8 input, InterleavedU16 output) {
if (output == null) {
output = new InterleavedU16(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayU8} into a {@link boofcv.struct.image.GrayS16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS16 convert(GrayU8 input, GrayS16 output) {
if (output == null) {
output = new GrayS16(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedU8} into a {@link boofcv.struct.image.InterleavedS16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS16 convert(InterleavedU8 input, InterleavedS16 output) {
if (output == null) {
output = new InterleavedS16(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayU8} into a {@link boofcv.struct.image.GrayS32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS32 convert(GrayU8 input, GrayS32 output) {
if (output == null) {
output = new GrayS32(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedU8} into a {@link boofcv.struct.image.InterleavedS32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS32 convert(InterleavedU8 input, InterleavedS32 output) {
if (output == null) {
output = new InterleavedS32(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayU8} into a {@link boofcv.struct.image.GrayS64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS64 convert(GrayU8 input, GrayS64 output) {
if (output == null) {
output = new GrayS64(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedU8} into a {@link boofcv.struct.image.InterleavedS64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS64 convert(InterleavedU8 input, InterleavedS64 output) {
if (output == null) {
output = new InterleavedS64(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayU8} into a {@link boofcv.struct.image.GrayF32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayF32 convert(GrayU8 input, GrayF32 output) {
if (output == null) {
output = new GrayF32(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedU8} into a {@link boofcv.struct.image.InterleavedF32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedF32 convert(InterleavedU8 input, InterleavedF32 output) {
if (output == null) {
output = new InterleavedF32(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayU8} into a {@link boofcv.struct.image.GrayF64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayF64 convert(GrayU8 input, GrayF64 output) {
if (output == null) {
output = new GrayF64(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedU8} into a {@link boofcv.struct.image.InterleavedF64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedF64 convert(InterleavedU8 input, InterleavedF64 output) {
if (output == null) {
output = new InterleavedF64(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
* Converts a {@link Planar} into a {@link ImageGray} by computing the average value of each pixel
* across all the bands.
*
* @param input Input Planar image that is being converted. Not modified.
* @param output (Optional) The single band output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayU8 average( Planar input , GrayU8 output ) {
if (output == null) {
output = new GrayU8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertPlanarToGray_MT.average(input,output);
} else {
ImplConvertPlanarToGray.average(input,output);
}
return output;
}
/**
* Converts a {@link Planar} into the equivalent {@link InterleavedU8}
*
* @param input (Input) Planar image that is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedU8 convert( Planar input , InterleavedU8 output ) {
if (output == null) {
output = new InterleavedU8(input.width, input.height,input.getNumBands());
} else {
output.reshape(input.width,input.height,input.getNumBands());
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertImage_MT.convert(input,output);
} else {
ImplConvertImage.convert(input,output);
}
return output;
}
/**
* Converts a {@link InterleavedU8} into a {@link GrayU8} by computing the average value of each pixel
* across all the bands.
*
* @param input (Input) The ImageInterleaved that is being converted. Not modified.
* @param output (Optional) The single band output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayU8 average( InterleavedU8 input , GrayU8 output ) {
if (output == null) {
output = new GrayU8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ConvertInterleavedToSingle_MT.average(input,output);
} else {
ConvertInterleavedToSingle.average(input,output);
}
return output;
}
/**
* Converts a {@link InterleavedU8} into the equivalent {@link Planar}
*
* @param input (Input) ImageInterleaved that is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static Planar convert( InterleavedU8 input , Planar output ) {
if (output == null) {
output = new Planar<>(GrayU8.class,input.width, input.height,input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertImage_MT.convert(input,output);
} else {
ImplConvertImage.convert(input,output);
}
return output;
}
/**
* Converts pixel values in the input image into an integer values from 0 to numValues.
* @param input Input image
* @param min minimum input pixel value, inclusive
* @param max maximum input pixel value, inclusive
* @param numValues Number of possible pixel values in output image
* @param output (Optional) Storage for the output image. Can be null.
* @return The converted output image.
*/
public static GrayU8 convert(GrayU8 input , int min , int max , int numValues , GrayU8 output )
{
if (output == null) {
output = new GrayU8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( numValues < 0 || numValues > 256 )
throw new IllegalArgumentException("0 <= numValues <= 256");
numValues -= 1;
int range = max-min;
for (int y = 0; y < input.height; y++) {
int indexIn = input.startIndex + y*input.stride;
int indexOut = output.startIndex + y*output.stride;
for (int x = 0; x < input.width; x++) {
int value = (int)(numValues*((input.data[indexIn++]& 0xFF)-min)/range );
output.data[indexOut++] = (byte)value;
}
}
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS8} into a {@link boofcv.struct.image.GrayU8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayU8 convert(GrayS8 input, GrayU8 output) {
if (output == null) {
output = new GrayU8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS8} into a {@link boofcv.struct.image.InterleavedU8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedU8 convert(InterleavedS8 input, InterleavedU8 output) {
if (output == null) {
output = new InterleavedU8(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS8} into a {@link boofcv.struct.image.GrayU16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayU16 convert(GrayS8 input, GrayU16 output) {
if (output == null) {
output = new GrayU16(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS8} into a {@link boofcv.struct.image.InterleavedU16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedU16 convert(InterleavedS8 input, InterleavedU16 output) {
if (output == null) {
output = new InterleavedU16(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS8} into a {@link boofcv.struct.image.GrayS16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS16 convert(GrayS8 input, GrayS16 output) {
if (output == null) {
output = new GrayS16(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS8} into a {@link boofcv.struct.image.InterleavedS16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS16 convert(InterleavedS8 input, InterleavedS16 output) {
if (output == null) {
output = new InterleavedS16(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS8} into a {@link boofcv.struct.image.GrayS32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS32 convert(GrayS8 input, GrayS32 output) {
if (output == null) {
output = new GrayS32(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS8} into a {@link boofcv.struct.image.InterleavedS32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS32 convert(InterleavedS8 input, InterleavedS32 output) {
if (output == null) {
output = new InterleavedS32(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS8} into a {@link boofcv.struct.image.GrayS64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS64 convert(GrayS8 input, GrayS64 output) {
if (output == null) {
output = new GrayS64(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS8} into a {@link boofcv.struct.image.InterleavedS64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS64 convert(InterleavedS8 input, InterleavedS64 output) {
if (output == null) {
output = new InterleavedS64(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS8} into a {@link boofcv.struct.image.GrayF32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayF32 convert(GrayS8 input, GrayF32 output) {
if (output == null) {
output = new GrayF32(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS8} into a {@link boofcv.struct.image.InterleavedF32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedF32 convert(InterleavedS8 input, InterleavedF32 output) {
if (output == null) {
output = new InterleavedF32(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS8} into a {@link boofcv.struct.image.GrayF64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayF64 convert(GrayS8 input, GrayF64 output) {
if (output == null) {
output = new GrayF64(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS8} into a {@link boofcv.struct.image.InterleavedF64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedF64 convert(InterleavedS8 input, InterleavedF64 output) {
if (output == null) {
output = new InterleavedF64(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
* Converts a {@link Planar} into a {@link ImageGray} by computing the average value of each pixel
* across all the bands.
*
* @param input Input Planar image that is being converted. Not modified.
* @param output (Optional) The single band output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS8 average( Planar input , GrayS8 output ) {
if (output == null) {
output = new GrayS8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertPlanarToGray_MT.average(input,output);
} else {
ImplConvertPlanarToGray.average(input,output);
}
return output;
}
/**
* Converts a {@link Planar} into the equivalent {@link InterleavedS8}
*
* @param input (Input) Planar image that is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS8 convert( Planar input , InterleavedS8 output ) {
if (output == null) {
output = new InterleavedS8(input.width, input.height,input.getNumBands());
} else {
output.reshape(input.width,input.height,input.getNumBands());
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertImage_MT.convert(input,output);
} else {
ImplConvertImage.convert(input,output);
}
return output;
}
/**
* Converts a {@link InterleavedS8} into a {@link GrayS8} by computing the average value of each pixel
* across all the bands.
*
* @param input (Input) The ImageInterleaved that is being converted. Not modified.
* @param output (Optional) The single band output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS8 average( InterleavedS8 input , GrayS8 output ) {
if (output == null) {
output = new GrayS8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ConvertInterleavedToSingle_MT.average(input,output);
} else {
ConvertInterleavedToSingle.average(input,output);
}
return output;
}
/**
* Converts a {@link InterleavedS8} into the equivalent {@link Planar}
*
* @param input (Input) ImageInterleaved that is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static Planar convert( InterleavedS8 input , Planar output ) {
if (output == null) {
output = new Planar<>(GrayS8.class,input.width, input.height,input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertImage_MT.convert(input,output);
} else {
ImplConvertImage.convert(input,output);
}
return output;
}
/**
* Converts pixel values in the input image into an integer values from 0 to numValues.
* @param input Input image
* @param min minimum input pixel value, inclusive
* @param max maximum input pixel value, inclusive
* @param numValues Number of possible pixel values in output image
* @param output (Optional) Storage for the output image. Can be null.
* @return The converted output image.
*/
public static GrayU8 convert(GrayS8 input , int min , int max , int numValues , GrayU8 output )
{
if (output == null) {
output = new GrayU8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( numValues < 0 || numValues > 256 )
throw new IllegalArgumentException("0 <= numValues <= 256");
numValues -= 1;
int range = max-min;
for (int y = 0; y < input.height; y++) {
int indexIn = input.startIndex + y*input.stride;
int indexOut = output.startIndex + y*output.stride;
for (int x = 0; x < input.width; x++) {
int value = (int)(numValues*((input.data[indexIn++])-min)/range );
output.data[indexOut++] = (byte)value;
}
}
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayU16} into a {@link boofcv.struct.image.GrayU8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayU8 convert(GrayU16 input, GrayU8 output) {
if (output == null) {
output = new GrayU8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedU16} into a {@link boofcv.struct.image.InterleavedU8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedU8 convert(InterleavedU16 input, InterleavedU8 output) {
if (output == null) {
output = new InterleavedU8(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayU16} into a {@link boofcv.struct.image.GrayS8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS8 convert(GrayU16 input, GrayS8 output) {
if (output == null) {
output = new GrayS8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedU16} into a {@link boofcv.struct.image.InterleavedS8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS8 convert(InterleavedU16 input, InterleavedS8 output) {
if (output == null) {
output = new InterleavedS8(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayU16} into a {@link boofcv.struct.image.GrayS16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS16 convert(GrayU16 input, GrayS16 output) {
if (output == null) {
output = new GrayS16(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedU16} into a {@link boofcv.struct.image.InterleavedS16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS16 convert(InterleavedU16 input, InterleavedS16 output) {
if (output == null) {
output = new InterleavedS16(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayU16} into a {@link boofcv.struct.image.GrayS32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS32 convert(GrayU16 input, GrayS32 output) {
if (output == null) {
output = new GrayS32(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedU16} into a {@link boofcv.struct.image.InterleavedS32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS32 convert(InterleavedU16 input, InterleavedS32 output) {
if (output == null) {
output = new InterleavedS32(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayU16} into a {@link boofcv.struct.image.GrayS64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS64 convert(GrayU16 input, GrayS64 output) {
if (output == null) {
output = new GrayS64(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedU16} into a {@link boofcv.struct.image.InterleavedS64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS64 convert(InterleavedU16 input, InterleavedS64 output) {
if (output == null) {
output = new InterleavedS64(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayU16} into a {@link boofcv.struct.image.GrayF32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayF32 convert(GrayU16 input, GrayF32 output) {
if (output == null) {
output = new GrayF32(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedU16} into a {@link boofcv.struct.image.InterleavedF32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedF32 convert(InterleavedU16 input, InterleavedF32 output) {
if (output == null) {
output = new InterleavedF32(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayU16} into a {@link boofcv.struct.image.GrayF64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayF64 convert(GrayU16 input, GrayF64 output) {
if (output == null) {
output = new GrayF64(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedU16} into a {@link boofcv.struct.image.InterleavedF64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedF64 convert(InterleavedU16 input, InterleavedF64 output) {
if (output == null) {
output = new InterleavedF64(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
* Converts a {@link Planar} into a {@link ImageGray} by computing the average value of each pixel
* across all the bands.
*
* @param input Input Planar image that is being converted. Not modified.
* @param output (Optional) The single band output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayU16 average( Planar input , GrayU16 output ) {
if (output == null) {
output = new GrayU16(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertPlanarToGray_MT.average(input,output);
} else {
ImplConvertPlanarToGray.average(input,output);
}
return output;
}
/**
* Converts a {@link Planar} into the equivalent {@link InterleavedU16}
*
* @param input (Input) Planar image that is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedU16 convert( Planar input , InterleavedU16 output ) {
if (output == null) {
output = new InterleavedU16(input.width, input.height,input.getNumBands());
} else {
output.reshape(input.width,input.height,input.getNumBands());
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertImage_MT.convert(input,output);
} else {
ImplConvertImage.convert(input,output);
}
return output;
}
/**
* Converts a {@link InterleavedU16} into a {@link GrayU16} by computing the average value of each pixel
* across all the bands.
*
* @param input (Input) The ImageInterleaved that is being converted. Not modified.
* @param output (Optional) The single band output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayU16 average( InterleavedU16 input , GrayU16 output ) {
if (output == null) {
output = new GrayU16(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ConvertInterleavedToSingle_MT.average(input,output);
} else {
ConvertInterleavedToSingle.average(input,output);
}
return output;
}
/**
* Converts a {@link InterleavedU16} into the equivalent {@link Planar}
*
* @param input (Input) ImageInterleaved that is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static Planar convert( InterleavedU16 input , Planar output ) {
if (output == null) {
output = new Planar<>(GrayU16.class,input.width, input.height,input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertImage_MT.convert(input,output);
} else {
ImplConvertImage.convert(input,output);
}
return output;
}
/**
* Converts pixel values in the input image into an integer values from 0 to numValues.
* @param input Input image
* @param min minimum input pixel value, inclusive
* @param max maximum input pixel value, inclusive
* @param numValues Number of possible pixel values in output image
* @param output (Optional) Storage for the output image. Can be null.
* @return The converted output image.
*/
public static GrayU8 convert(GrayU16 input , int min , int max , int numValues , GrayU8 output )
{
if (output == null) {
output = new GrayU8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( numValues < 0 || numValues > 256 )
throw new IllegalArgumentException("0 <= numValues <= 256");
numValues -= 1;
int range = max-min;
for (int y = 0; y < input.height; y++) {
int indexIn = input.startIndex + y*input.stride;
int indexOut = output.startIndex + y*output.stride;
for (int x = 0; x < input.width; x++) {
int value = (int)(numValues*((input.data[indexIn++]& 0xFFFF)-min)/range );
output.data[indexOut++] = (byte)value;
}
}
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS16} into a {@link boofcv.struct.image.GrayU8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayU8 convert(GrayS16 input, GrayU8 output) {
if (output == null) {
output = new GrayU8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS16} into a {@link boofcv.struct.image.InterleavedU8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedU8 convert(InterleavedS16 input, InterleavedU8 output) {
if (output == null) {
output = new InterleavedU8(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS16} into a {@link boofcv.struct.image.GrayS8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS8 convert(GrayS16 input, GrayS8 output) {
if (output == null) {
output = new GrayS8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS16} into a {@link boofcv.struct.image.InterleavedS8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS8 convert(InterleavedS16 input, InterleavedS8 output) {
if (output == null) {
output = new InterleavedS8(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS16} into a {@link boofcv.struct.image.GrayU16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayU16 convert(GrayS16 input, GrayU16 output) {
if (output == null) {
output = new GrayU16(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS16} into a {@link boofcv.struct.image.InterleavedU16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedU16 convert(InterleavedS16 input, InterleavedU16 output) {
if (output == null) {
output = new InterleavedU16(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS16} into a {@link boofcv.struct.image.GrayS32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS32 convert(GrayS16 input, GrayS32 output) {
if (output == null) {
output = new GrayS32(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS16} into a {@link boofcv.struct.image.InterleavedS32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS32 convert(InterleavedS16 input, InterleavedS32 output) {
if (output == null) {
output = new InterleavedS32(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS16} into a {@link boofcv.struct.image.GrayS64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS64 convert(GrayS16 input, GrayS64 output) {
if (output == null) {
output = new GrayS64(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS16} into a {@link boofcv.struct.image.InterleavedS64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS64 convert(InterleavedS16 input, InterleavedS64 output) {
if (output == null) {
output = new InterleavedS64(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS16} into a {@link boofcv.struct.image.GrayF32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayF32 convert(GrayS16 input, GrayF32 output) {
if (output == null) {
output = new GrayF32(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS16} into a {@link boofcv.struct.image.InterleavedF32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedF32 convert(InterleavedS16 input, InterleavedF32 output) {
if (output == null) {
output = new InterleavedF32(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS16} into a {@link boofcv.struct.image.GrayF64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayF64 convert(GrayS16 input, GrayF64 output) {
if (output == null) {
output = new GrayF64(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS16} into a {@link boofcv.struct.image.InterleavedF64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedF64 convert(InterleavedS16 input, InterleavedF64 output) {
if (output == null) {
output = new InterleavedF64(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
* Converts a {@link Planar} into a {@link ImageGray} by computing the average value of each pixel
* across all the bands.
*
* @param input Input Planar image that is being converted. Not modified.
* @param output (Optional) The single band output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS16 average( Planar input , GrayS16 output ) {
if (output == null) {
output = new GrayS16(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertPlanarToGray_MT.average(input,output);
} else {
ImplConvertPlanarToGray.average(input,output);
}
return output;
}
/**
* Converts a {@link Planar} into the equivalent {@link InterleavedS16}
*
* @param input (Input) Planar image that is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS16 convert( Planar input , InterleavedS16 output ) {
if (output == null) {
output = new InterleavedS16(input.width, input.height,input.getNumBands());
} else {
output.reshape(input.width,input.height,input.getNumBands());
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertImage_MT.convert(input,output);
} else {
ImplConvertImage.convert(input,output);
}
return output;
}
/**
* Converts a {@link InterleavedS16} into a {@link GrayS16} by computing the average value of each pixel
* across all the bands.
*
* @param input (Input) The ImageInterleaved that is being converted. Not modified.
* @param output (Optional) The single band output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS16 average( InterleavedS16 input , GrayS16 output ) {
if (output == null) {
output = new GrayS16(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ConvertInterleavedToSingle_MT.average(input,output);
} else {
ConvertInterleavedToSingle.average(input,output);
}
return output;
}
/**
* Converts a {@link InterleavedS16} into the equivalent {@link Planar}
*
* @param input (Input) ImageInterleaved that is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static Planar convert( InterleavedS16 input , Planar output ) {
if (output == null) {
output = new Planar<>(GrayS16.class,input.width, input.height,input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertImage_MT.convert(input,output);
} else {
ImplConvertImage.convert(input,output);
}
return output;
}
/**
* Converts pixel values in the input image into an integer values from 0 to numValues.
* @param input Input image
* @param min minimum input pixel value, inclusive
* @param max maximum input pixel value, inclusive
* @param numValues Number of possible pixel values in output image
* @param output (Optional) Storage for the output image. Can be null.
* @return The converted output image.
*/
public static GrayU8 convert(GrayS16 input , int min , int max , int numValues , GrayU8 output )
{
if (output == null) {
output = new GrayU8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( numValues < 0 || numValues > 256 )
throw new IllegalArgumentException("0 <= numValues <= 256");
numValues -= 1;
int range = max-min;
for (int y = 0; y < input.height; y++) {
int indexIn = input.startIndex + y*input.stride;
int indexOut = output.startIndex + y*output.stride;
for (int x = 0; x < input.width; x++) {
int value = (int)(numValues*((input.data[indexIn++])-min)/range );
output.data[indexOut++] = (byte)value;
}
}
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS32} into a {@link boofcv.struct.image.GrayU8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayU8 convert(GrayS32 input, GrayU8 output) {
if (output == null) {
output = new GrayU8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS32} into a {@link boofcv.struct.image.InterleavedU8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedU8 convert(InterleavedS32 input, InterleavedU8 output) {
if (output == null) {
output = new InterleavedU8(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS32} into a {@link boofcv.struct.image.GrayS8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS8 convert(GrayS32 input, GrayS8 output) {
if (output == null) {
output = new GrayS8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS32} into a {@link boofcv.struct.image.InterleavedS8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS8 convert(InterleavedS32 input, InterleavedS8 output) {
if (output == null) {
output = new InterleavedS8(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS32} into a {@link boofcv.struct.image.GrayU16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayU16 convert(GrayS32 input, GrayU16 output) {
if (output == null) {
output = new GrayU16(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS32} into a {@link boofcv.struct.image.InterleavedU16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedU16 convert(InterleavedS32 input, InterleavedU16 output) {
if (output == null) {
output = new InterleavedU16(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS32} into a {@link boofcv.struct.image.GrayS16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS16 convert(GrayS32 input, GrayS16 output) {
if (output == null) {
output = new GrayS16(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS32} into a {@link boofcv.struct.image.InterleavedS16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS16 convert(InterleavedS32 input, InterleavedS16 output) {
if (output == null) {
output = new InterleavedS16(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS32} into a {@link boofcv.struct.image.GrayS64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS64 convert(GrayS32 input, GrayS64 output) {
if (output == null) {
output = new GrayS64(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS32} into a {@link boofcv.struct.image.InterleavedS64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS64 convert(InterleavedS32 input, InterleavedS64 output) {
if (output == null) {
output = new InterleavedS64(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS32} into a {@link boofcv.struct.image.GrayF32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayF32 convert(GrayS32 input, GrayF32 output) {
if (output == null) {
output = new GrayF32(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS32} into a {@link boofcv.struct.image.InterleavedF32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedF32 convert(InterleavedS32 input, InterleavedF32 output) {
if (output == null) {
output = new InterleavedF32(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS32} into a {@link boofcv.struct.image.GrayF64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayF64 convert(GrayS32 input, GrayF64 output) {
if (output == null) {
output = new GrayF64(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS32} into a {@link boofcv.struct.image.InterleavedF64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedF64 convert(InterleavedS32 input, InterleavedF64 output) {
if (output == null) {
output = new InterleavedF64(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
* Converts a {@link Planar} into a {@link ImageGray} by computing the average value of each pixel
* across all the bands.
*
* @param input Input Planar image that is being converted. Not modified.
* @param output (Optional) The single band output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS32 average( Planar input , GrayS32 output ) {
if (output == null) {
output = new GrayS32(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertPlanarToGray_MT.average(input,output);
} else {
ImplConvertPlanarToGray.average(input,output);
}
return output;
}
/**
* Converts a {@link Planar} into the equivalent {@link InterleavedS32}
*
* @param input (Input) Planar image that is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS32 convert( Planar input , InterleavedS32 output ) {
if (output == null) {
output = new InterleavedS32(input.width, input.height,input.getNumBands());
} else {
output.reshape(input.width,input.height,input.getNumBands());
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertImage_MT.convert(input,output);
} else {
ImplConvertImage.convert(input,output);
}
return output;
}
/**
* Converts a {@link InterleavedS32} into a {@link GrayS32} by computing the average value of each pixel
* across all the bands.
*
* @param input (Input) The ImageInterleaved that is being converted. Not modified.
* @param output (Optional) The single band output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS32 average( InterleavedS32 input , GrayS32 output ) {
if (output == null) {
output = new GrayS32(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ConvertInterleavedToSingle_MT.average(input,output);
} else {
ConvertInterleavedToSingle.average(input,output);
}
return output;
}
/**
* Converts a {@link InterleavedS32} into the equivalent {@link Planar}
*
* @param input (Input) ImageInterleaved that is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static Planar convert( InterleavedS32 input , Planar output ) {
if (output == null) {
output = new Planar<>(GrayS32.class,input.width, input.height,input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertImage_MT.convert(input,output);
} else {
ImplConvertImage.convert(input,output);
}
return output;
}
/**
* Converts pixel values in the input image into an integer values from 0 to numValues.
* @param input Input image
* @param min minimum input pixel value, inclusive
* @param max maximum input pixel value, inclusive
* @param numValues Number of possible pixel values in output image
* @param output (Optional) Storage for the output image. Can be null.
* @return The converted output image.
*/
public static GrayU8 convert(GrayS32 input , int min , int max , int numValues , GrayU8 output )
{
if (output == null) {
output = new GrayU8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( numValues < 0 || numValues > 256 )
throw new IllegalArgumentException("0 <= numValues <= 256");
numValues -= 1;
int range = max-min;
for (int y = 0; y < input.height; y++) {
int indexIn = input.startIndex + y*input.stride;
int indexOut = output.startIndex + y*output.stride;
for (int x = 0; x < input.width; x++) {
int value = (int)(numValues*((input.data[indexIn++])-min)/range );
output.data[indexOut++] = (byte)value;
}
}
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS64} into a {@link boofcv.struct.image.GrayU8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayU8 convert(GrayS64 input, GrayU8 output) {
if (output == null) {
output = new GrayU8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS64} into a {@link boofcv.struct.image.InterleavedU8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedU8 convert(InterleavedS64 input, InterleavedU8 output) {
if (output == null) {
output = new InterleavedU8(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS64} into a {@link boofcv.struct.image.GrayS8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS8 convert(GrayS64 input, GrayS8 output) {
if (output == null) {
output = new GrayS8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS64} into a {@link boofcv.struct.image.InterleavedS8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS8 convert(InterleavedS64 input, InterleavedS8 output) {
if (output == null) {
output = new InterleavedS8(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS64} into a {@link boofcv.struct.image.GrayU16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayU16 convert(GrayS64 input, GrayU16 output) {
if (output == null) {
output = new GrayU16(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS64} into a {@link boofcv.struct.image.InterleavedU16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedU16 convert(InterleavedS64 input, InterleavedU16 output) {
if (output == null) {
output = new InterleavedU16(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS64} into a {@link boofcv.struct.image.GrayS16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS16 convert(GrayS64 input, GrayS16 output) {
if (output == null) {
output = new GrayS16(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS64} into a {@link boofcv.struct.image.InterleavedS16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS16 convert(InterleavedS64 input, InterleavedS16 output) {
if (output == null) {
output = new InterleavedS16(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS64} into a {@link boofcv.struct.image.GrayS32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS32 convert(GrayS64 input, GrayS32 output) {
if (output == null) {
output = new GrayS32(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS64} into a {@link boofcv.struct.image.InterleavedS32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS32 convert(InterleavedS64 input, InterleavedS32 output) {
if (output == null) {
output = new InterleavedS32(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS64} into a {@link boofcv.struct.image.GrayF32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayF32 convert(GrayS64 input, GrayF32 output) {
if (output == null) {
output = new GrayF32(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS64} into a {@link boofcv.struct.image.InterleavedF32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedF32 convert(InterleavedS64 input, InterleavedF32 output) {
if (output == null) {
output = new InterleavedF32(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayS64} into a {@link boofcv.struct.image.GrayF64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayF64 convert(GrayS64 input, GrayF64 output) {
if (output == null) {
output = new GrayF64(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedS64} into a {@link boofcv.struct.image.InterleavedF64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedF64 convert(InterleavedS64 input, InterleavedF64 output) {
if (output == null) {
output = new InterleavedF64(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
* Converts a {@link Planar} into a {@link ImageGray} by computing the average value of each pixel
* across all the bands.
*
* @param input Input Planar image that is being converted. Not modified.
* @param output (Optional) The single band output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS64 average( Planar input , GrayS64 output ) {
if (output == null) {
output = new GrayS64(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertPlanarToGray_MT.average(input,output);
} else {
ImplConvertPlanarToGray.average(input,output);
}
return output;
}
/**
* Converts a {@link Planar} into the equivalent {@link InterleavedS64}
*
* @param input (Input) Planar image that is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS64 convert( Planar input , InterleavedS64 output ) {
if (output == null) {
output = new InterleavedS64(input.width, input.height,input.getNumBands());
} else {
output.reshape(input.width,input.height,input.getNumBands());
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertImage_MT.convert(input,output);
} else {
ImplConvertImage.convert(input,output);
}
return output;
}
/**
* Converts a {@link InterleavedS64} into a {@link GrayS64} by computing the average value of each pixel
* across all the bands.
*
* @param input (Input) The ImageInterleaved that is being converted. Not modified.
* @param output (Optional) The single band output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS64 average( InterleavedS64 input , GrayS64 output ) {
if (output == null) {
output = new GrayS64(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ConvertInterleavedToSingle_MT.average(input,output);
} else {
ConvertInterleavedToSingle.average(input,output);
}
return output;
}
/**
* Converts a {@link InterleavedS64} into the equivalent {@link Planar}
*
* @param input (Input) ImageInterleaved that is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static Planar convert( InterleavedS64 input , Planar output ) {
if (output == null) {
output = new Planar<>(GrayS64.class,input.width, input.height,input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertImage_MT.convert(input,output);
} else {
ImplConvertImage.convert(input,output);
}
return output;
}
/**
* Converts pixel values in the input image into an integer values from 0 to numValues.
* @param input Input image
* @param min minimum input pixel value, inclusive
* @param max maximum input pixel value, inclusive
* @param numValues Number of possible pixel values in output image
* @param output (Optional) Storage for the output image. Can be null.
* @return The converted output image.
*/
public static GrayU8 convert(GrayS64 input , long min , long max , int numValues , GrayU8 output )
{
if (output == null) {
output = new GrayU8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( numValues < 0 || numValues > 256 )
throw new IllegalArgumentException("0 <= numValues <= 256");
numValues -= 1;
long range = max-min;
for (int y = 0; y < input.height; y++) {
int indexIn = input.startIndex + y*input.stride;
int indexOut = output.startIndex + y*output.stride;
for (int x = 0; x < input.width; x++) {
int value = (int)(numValues*((input.data[indexIn++])-min)/range );
output.data[indexOut++] = (byte)value;
}
}
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayF32} into a {@link boofcv.struct.image.GrayU8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayU8 convert(GrayF32 input, GrayU8 output) {
if (output == null) {
output = new GrayU8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedF32} into a {@link boofcv.struct.image.InterleavedU8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedU8 convert(InterleavedF32 input, InterleavedU8 output) {
if (output == null) {
output = new InterleavedU8(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayF32} into a {@link boofcv.struct.image.GrayS8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS8 convert(GrayF32 input, GrayS8 output) {
if (output == null) {
output = new GrayS8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedF32} into a {@link boofcv.struct.image.InterleavedS8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS8 convert(InterleavedF32 input, InterleavedS8 output) {
if (output == null) {
output = new InterleavedS8(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayF32} into a {@link boofcv.struct.image.GrayU16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayU16 convert(GrayF32 input, GrayU16 output) {
if (output == null) {
output = new GrayU16(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedF32} into a {@link boofcv.struct.image.InterleavedU16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedU16 convert(InterleavedF32 input, InterleavedU16 output) {
if (output == null) {
output = new InterleavedU16(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayF32} into a {@link boofcv.struct.image.GrayS16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS16 convert(GrayF32 input, GrayS16 output) {
if (output == null) {
output = new GrayS16(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedF32} into a {@link boofcv.struct.image.InterleavedS16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS16 convert(InterleavedF32 input, InterleavedS16 output) {
if (output == null) {
output = new InterleavedS16(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayF32} into a {@link boofcv.struct.image.GrayS32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS32 convert(GrayF32 input, GrayS32 output) {
if (output == null) {
output = new GrayS32(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedF32} into a {@link boofcv.struct.image.InterleavedS32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS32 convert(InterleavedF32 input, InterleavedS32 output) {
if (output == null) {
output = new InterleavedS32(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayF32} into a {@link boofcv.struct.image.GrayS64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS64 convert(GrayF32 input, GrayS64 output) {
if (output == null) {
output = new GrayS64(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedF32} into a {@link boofcv.struct.image.InterleavedS64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS64 convert(InterleavedF32 input, InterleavedS64 output) {
if (output == null) {
output = new InterleavedS64(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayF32} into a {@link boofcv.struct.image.GrayF64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayF64 convert(GrayF32 input, GrayF64 output) {
if (output == null) {
output = new GrayF64(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedF32} into a {@link boofcv.struct.image.InterleavedF64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedF64 convert(InterleavedF32 input, InterleavedF64 output) {
if (output == null) {
output = new InterleavedF64(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
* Converts a {@link Planar} into a {@link ImageGray} by computing the average value of each pixel
* across all the bands.
*
* @param input Input Planar image that is being converted. Not modified.
* @param output (Optional) The single band output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayF32 average( Planar input , GrayF32 output ) {
if (output == null) {
output = new GrayF32(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertPlanarToGray_MT.average(input,output);
} else {
ImplConvertPlanarToGray.average(input,output);
}
return output;
}
/**
* Converts a {@link Planar} into the equivalent {@link InterleavedF32}
*
* @param input (Input) Planar image that is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedF32 convert( Planar input , InterleavedF32 output ) {
if (output == null) {
output = new InterleavedF32(input.width, input.height,input.getNumBands());
} else {
output.reshape(input.width,input.height,input.getNumBands());
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertImage_MT.convert(input,output);
} else {
ImplConvertImage.convert(input,output);
}
return output;
}
/**
* Converts a {@link InterleavedF32} into a {@link GrayF32} by computing the average value of each pixel
* across all the bands.
*
* @param input (Input) The ImageInterleaved that is being converted. Not modified.
* @param output (Optional) The single band output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayF32 average( InterleavedF32 input , GrayF32 output ) {
if (output == null) {
output = new GrayF32(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ConvertInterleavedToSingle_MT.average(input,output);
} else {
ConvertInterleavedToSingle.average(input,output);
}
return output;
}
/**
* Converts a {@link InterleavedF32} into the equivalent {@link Planar}
*
* @param input (Input) ImageInterleaved that is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static Planar convert( InterleavedF32 input , Planar output ) {
if (output == null) {
output = new Planar<>(GrayF32.class,input.width, input.height,input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertImage_MT.convert(input,output);
} else {
ImplConvertImage.convert(input,output);
}
return output;
}
/**
* Converts pixel values in the input image into an integer values from 0 to numValues.
* @param input Input image
* @param min minimum input pixel value, inclusive
* @param max maximum input pixel value, inclusive
* @param numValues Number of possible pixel values in output image
* @param output (Optional) Storage for the output image. Can be null.
* @return The converted output image.
*/
public static GrayU8 convert(GrayF32 input , float min , float max , int numValues , GrayU8 output )
{
if (output == null) {
output = new GrayU8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( numValues < 0 || numValues > 256 )
throw new IllegalArgumentException("0 <= numValues <= 256");
numValues -= 1;
float range = max-min;
for (int y = 0; y < input.height; y++) {
int indexIn = input.startIndex + y*input.stride;
int indexOut = output.startIndex + y*output.stride;
for (int x = 0; x < input.width; x++) {
int value = (int)(numValues*((input.data[indexIn++])-min)/range + 0.5f);
output.data[indexOut++] = (byte)value;
}
}
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayF64} into a {@link boofcv.struct.image.GrayU8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayU8 convert(GrayF64 input, GrayU8 output) {
if (output == null) {
output = new GrayU8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedF64} into a {@link boofcv.struct.image.InterleavedU8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedU8 convert(InterleavedF64 input, InterleavedU8 output) {
if (output == null) {
output = new InterleavedU8(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayF64} into a {@link boofcv.struct.image.GrayS8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS8 convert(GrayF64 input, GrayS8 output) {
if (output == null) {
output = new GrayS8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedF64} into a {@link boofcv.struct.image.InterleavedS8}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS8 convert(InterleavedF64 input, InterleavedS8 output) {
if (output == null) {
output = new InterleavedS8(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayF64} into a {@link boofcv.struct.image.GrayU16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayU16 convert(GrayF64 input, GrayU16 output) {
if (output == null) {
output = new GrayU16(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedF64} into a {@link boofcv.struct.image.InterleavedU16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedU16 convert(InterleavedF64 input, InterleavedU16 output) {
if (output == null) {
output = new InterleavedU16(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayF64} into a {@link boofcv.struct.image.GrayS16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS16 convert(GrayF64 input, GrayS16 output) {
if (output == null) {
output = new GrayS16(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedF64} into a {@link boofcv.struct.image.InterleavedS16}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS16 convert(InterleavedF64 input, InterleavedS16 output) {
if (output == null) {
output = new InterleavedS16(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayF64} into a {@link boofcv.struct.image.GrayS32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS32 convert(GrayF64 input, GrayS32 output) {
if (output == null) {
output = new GrayS32(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedF64} into a {@link boofcv.struct.image.InterleavedS32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS32 convert(InterleavedF64 input, InterleavedS32 output) {
if (output == null) {
output = new InterleavedS32(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayF64} into a {@link boofcv.struct.image.GrayS64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayS64 convert(GrayF64 input, GrayS64 output) {
if (output == null) {
output = new GrayS64(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedF64} into a {@link boofcv.struct.image.InterleavedS64}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedS64 convert(InterleavedF64 input, InterleavedS64 output) {
if (output == null) {
output = new InterleavedS64(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.GrayF64} into a {@link boofcv.struct.image.GrayF32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayF32 convert(GrayF64 input, GrayF32 output) {
if (output == null) {
output = new GrayF32(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
*
* Converts an {@link boofcv.struct.image.InterleavedF64} into a {@link boofcv.struct.image.InterleavedF32}.
*
*
* @param input Input image which is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedF32 convert(InterleavedF64 input, InterleavedF32 output) {
if (output == null) {
output = new InterleavedF32(input.width, input.height, input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
// threaded code is not significantly faster here
ImplConvertImage.convert(input, output);
return output;
}
/**
* Converts a {@link Planar} into a {@link ImageGray} by computing the average value of each pixel
* across all the bands.
*
* @param input Input Planar image that is being converted. Not modified.
* @param output (Optional) The single band output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayF64 average( Planar input , GrayF64 output ) {
if (output == null) {
output = new GrayF64(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertPlanarToGray_MT.average(input,output);
} else {
ImplConvertPlanarToGray.average(input,output);
}
return output;
}
/**
* Converts a {@link Planar} into the equivalent {@link InterleavedF64}
*
* @param input (Input) Planar image that is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedF64 convert( Planar input , InterleavedF64 output ) {
if (output == null) {
output = new InterleavedF64(input.width, input.height,input.getNumBands());
} else {
output.reshape(input.width,input.height,input.getNumBands());
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertImage_MT.convert(input,output);
} else {
ImplConvertImage.convert(input,output);
}
return output;
}
/**
* Converts a {@link InterleavedF64} into a {@link GrayF64} by computing the average value of each pixel
* across all the bands.
*
* @param input (Input) The ImageInterleaved that is being converted. Not modified.
* @param output (Optional) The single band output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static GrayF64 average( InterleavedF64 input , GrayF64 output ) {
if (output == null) {
output = new GrayF64(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ConvertInterleavedToSingle_MT.average(input,output);
} else {
ConvertInterleavedToSingle.average(input,output);
}
return output;
}
/**
* Converts a {@link InterleavedF64} into the equivalent {@link Planar}
*
* @param input (Input) ImageInterleaved that is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static Planar convert( InterleavedF64 input , Planar output ) {
if (output == null) {
output = new Planar<>(GrayF64.class,input.width, input.height,input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertImage_MT.convert(input,output);
} else {
ImplConvertImage.convert(input,output);
}
return output;
}
/**
* Converts pixel values in the input image into an integer values from 0 to numValues.
* @param input Input image
* @param min minimum input pixel value, inclusive
* @param max maximum input pixel value, inclusive
* @param numValues Number of possible pixel values in output image
* @param output (Optional) Storage for the output image. Can be null.
* @return The converted output image.
*/
public static GrayU8 convert(GrayF64 input , double min , double max , int numValues , GrayU8 output )
{
if (output == null) {
output = new GrayU8(input.width, input.height);
} else {
output.reshape(input.width,input.height);
}
if( numValues < 0 || numValues > 256 )
throw new IllegalArgumentException("0 <= numValues <= 256");
numValues -= 1;
double range = max-min;
for (int y = 0; y < input.height; y++) {
int indexIn = input.startIndex + y*input.stride;
int indexOut = output.startIndex + y*output.stride;
for (int x = 0; x < input.width; x++) {
int value = (int)(numValues*((input.data[indexIn++])-min)/range + 0.5);
output.data[indexOut++] = (byte)value;
}
}
return output;
}
/**
* Converts a {@link InterleavedU8} into the equivalent {@link Planar}
*
* @param input (Input) ImageInterleaved that is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static Planar convertU8F32( InterleavedU8 input , Planar output ) {
if (output == null) {
output = new Planar<>(GrayF32.class,input.width, input.height,input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertImage_MT.convertU8F32(input,output);
} else {
ImplConvertImage.convertU8F32(input,output);
}
return output;
}
/**
* Converts a {@link InterleavedF32} into the equivalent {@link Planar}
*
* @param input (Input) ImageInterleaved that is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static Planar convertF32U8( InterleavedF32 input , Planar output ) {
if (output == null) {
output = new Planar<>(GrayU8.class,input.width, input.height,input.numBands);
} else {
output.reshape(input.width,input.height,input.numBands);
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertImage_MT.convertF32U8(input,output);
} else {
ImplConvertImage.convertF32U8(input,output);
}
return output;
}
/**
* Converts a {@link Planar} into the equivalent {@link InterleavedF32}
*
* @param input (Input) Planar image that is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedF32 convertU8F32( Planar input , InterleavedF32 output ) {
if (output == null) {
output = new InterleavedF32(input.width, input.height,input.getNumBands());
} else {
output.reshape(input.width,input.height,input.getNumBands());
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertImage_MT.convertU8F32(input,output);
} else {
ImplConvertImage.convertU8F32(input,output);
}
return output;
}
/**
* Converts a {@link Planar} into the equivalent {@link InterleavedU8}
*
* @param input (Input) Planar image that is being converted. Not modified.
* @param output (Optional) The output image. If null a new image is created. Modified.
* @return Converted image.
*/
public static InterleavedU8 convertF32U8( Planar input , InterleavedU8 output ) {
if (output == null) {
output = new InterleavedU8(input.width, input.height,input.getNumBands());
} else {
output.reshape(input.width,input.height,input.getNumBands());
}
if( BoofConcurrency.USE_CONCURRENT ) {
ImplConvertImage_MT.convertF32U8(input,output);
} else {
ImplConvertImage.convertF32U8(input,output);
}
return output;
}
}