* A Raster defines values for pixels occupying a particular * rectangular area of the plane, not necessarily including (0, 0). * The rectangle, known as the Raster's bounding rectangle and * available by means of the getBounds method, is defined by minX, * minY, width, and height values. The minX and minY values define * the coordinate of the upper left corner of the Raster. References * to pixels outside of the bounding rectangle may result in an * exception being thrown, or may result in references to unintended * elements of the Raster's associated DataBuffer. It is the user's * responsibility to avoid accessing such pixels. *
* A SampleModel describes how samples of a Raster * are stored in the primitive array elements of a DataBuffer. * Samples may be stored one per data element, as in a * PixelInterleavedSampleModel or BandedSampleModel, or packed several to * an element, as in a SinglePixelPackedSampleModel or * MultiPixelPackedSampleModel. The SampleModel is also * controls whether samples are sign extended, allowing unsigned * data to be stored in signed Java data types such as byte, short, and * int. *
* Although a Raster may live anywhere in the plane, a SampleModel * makes use of a simple coordinate system that starts at (0, 0). A * Raster therefore contains a translation factor that allows pixel * locations to be mapped between the Raster's coordinate system and * that of the SampleModel. The translation from the SampleModel * coordinate system to that of the Raster may be obtained by the * getSampleModelTranslateX and getSampleModelTranslateY methods. *
* A Raster may share a DataBuffer with another Raster either by * explicit construction or by the use of the createChild and * createTranslatedChild methods. Rasters created by these methods * can return a reference to the Raster they were created from by * means of the getParent method. For a Raster that was not * constructed by means of a call to createTranslatedChild or * createChild, getParent will return null. *
* The createTranslatedChild method returns a new Raster that * shares all of the data of the current Raster, but occupies a * bounding rectangle of the same width and height but with a * different starting point. For example, if the parent Raster * occupied the region (10, 10) to (100, 100), and the translated * Raster was defined to start at (50, 50), then pixel (20, 20) of the * parent and pixel (60, 60) of the child occupy the same location in * the DataBuffer shared by the two Rasters. In the first case, (-10, * -10) should be added to a pixel coordinate to obtain the * corresponding SampleModel coordinate, and in the second case (-50, * -50) should be added. *
* The translation between a parent and child Raster may be * determined by subtracting the child's sampleModelTranslateX and * sampleModelTranslateY values from those of the parent. *
* The createChild method may be used to create a new Raster * occupying only a subset of its parent's bounding rectangle * (with the same or a translated coordinate system) or * with a subset of the bands of its parent. *
* All constructors are protected. The correct way to create a * Raster is to use one of the static create methods defined in this * class. These methods create instances of Raster that use the * standard Interleaved, Banded, and Packed SampleModels and that may * be processed more efficiently than a Raster created by combining * an externally generated SampleModel and DataBuffer. * @see java.awt.image.DataBuffer * @see java.awt.image.SampleModel * @see java.awt.image.PixelInterleavedSampleModel * @see java.awt.image.BandedSampleModel * @see java.awt.image.SinglePixelPackedSampleModel * @see java.awt.image.MultiPixelPackedSampleModel */ public class Raster { /** * The SampleModel that describes how pixels from this Raster * are stored in the DataBuffer. */ protected SampleModel sampleModel; /** The DataBuffer that stores the image data. */ protected DataBuffer dataBuffer; /** The X coordinate of the upper-left pixel of this Raster. */ protected int minX; /** The Y coordinate of the upper-left pixel of this Raster. */ protected int minY; /** The width of this Raster. */ protected int width; /** The height of this Raster. */ protected int height; /** * The X translation from the coordinate space of the * Raster's SampleModel to that of the Raster. */ protected int sampleModelTranslateX; /** * The Y translation from the coordinate space of the * Raster's SampleModel to that of the Raster. */ protected int sampleModelTranslateY; /** The number of bands in the Raster. */ protected int numBands; /** The number of DataBuffer data elements per pixel. */ protected int numDataElements; /** The parent of this Raster, or null. */ protected Raster parent; private static native void initIDs(); static { ColorModel.loadLibraries(); initIDs(); } /** * Creates a Raster based on a PixelInterleavedSampleModel with the * specified data type, width, height, and number of bands. * *
The upper left corner of the Raster is given by the * location argument. If location is null, (0, 0) will be used. * The dataType parameter should be one of the enumerated values * defined in the DataBuffer class. * *
Note that interleaved {@code DataBuffer.TYPE_INT} * Rasters are not supported. To create a 1-band Raster of type * {@code DataBuffer.TYPE_INT}, use * Raster.createPackedRaster(). *
The only dataTypes supported currently are TYPE_BYTE * and TYPE_USHORT. * @param dataType the data type for storing samples * @param w the width in pixels of the image data * @param h the height in pixels of the image data * @param bands the number of bands * @param location the upper-left corner of the {@code Raster} * @return a WritableRaster object with the specified data type, * width, height and number of bands. * @throws RasterFormatException if {@code w} or {@code h} * is less than or equal to zero, or computing either * {@code location.x + w} or * {@code location.y + h} results in integer * overflow */ public static WritableRaster createInterleavedRaster(int dataType, int w, int h, int bands, Point location) { int[] bandOffsets = new int[bands]; for (int i = 0; i < bands; i++) { bandOffsets[i] = i; } return createInterleavedRaster(dataType, w, h, w*bands, bands, bandOffsets, location); } /** * Creates a Raster based on a PixelInterleavedSampleModel with the * specified data type, width, height, scanline stride, pixel * stride, and band offsets. The number of bands is inferred from * bandOffsets.length. * *
The upper left corner of the Raster is given by the * location argument. If location is null, (0, 0) will be used. * The dataType parameter should be one of the enumerated values * defined in the DataBuffer class. * *
Note that interleaved {@code DataBuffer.TYPE_INT} * Rasters are not supported. To create a 1-band Raster of type * {@code DataBuffer.TYPE_INT}, use * Raster.createPackedRaster(). *
The only dataTypes supported currently are TYPE_BYTE * and TYPE_USHORT. * @param dataType the data type for storing samples * @param w the width in pixels of the image data * @param h the height in pixels of the image data * @param scanlineStride the line stride of the image data * @param pixelStride the pixel stride of the image data * @param bandOffsets the offsets of all bands * @param location the upper-left corner of the {@code Raster} * @return a WritableRaster object with the specified data type, * width, height, scanline stride, pixel stride and band * offsets. * @throws RasterFormatException if {@code w} or {@code h} * is less than or equal to zero, or computing either * {@code location.x + w} or * {@code location.y + h} results in integer * overflow * @throws IllegalArgumentException if {@code dataType} is not * one of the supported data types, which are * {@code DataBuffer.TYPE_BYTE}, or * {@code DataBuffer.TYPE_USHORT}. */ public static WritableRaster createInterleavedRaster(int dataType, int w, int h, int scanlineStride, int pixelStride, int bandOffsets[], Point location) { DataBuffer d; int size = scanlineStride * (h - 1) + // fisrt (h - 1) scans pixelStride * w; // last scan switch(dataType) { case DataBuffer.TYPE_BYTE: d = new DataBufferByte(size); break; case DataBuffer.TYPE_USHORT: d = new DataBufferUShort(size); break; default: throw new IllegalArgumentException("Unsupported data type " + dataType); } return createInterleavedRaster(d, w, h, scanlineStride, pixelStride, bandOffsets, location); } /** * Creates a Raster based on a BandedSampleModel with the * specified data type, width, height, and number of bands. * *
The upper left corner of the Raster is given by the * location argument. If location is null, (0, 0) will be used. * The dataType parameter should be one of the enumerated values * defined in the DataBuffer class. * *
The only dataTypes supported currently are TYPE_BYTE, TYPE_USHORT, * and TYPE_INT. * @param dataType the data type for storing samples * @param w the width in pixels of the image data * @param h the height in pixels of the image data * @param bands the number of bands * @param location the upper-left corner of the {@code Raster} * @return a WritableRaster object with the specified data type, * width, height and number of bands. * @throws RasterFormatException if {@code w} or {@code h} * is less than or equal to zero, or computing either * {@code location.x + w} or * {@code location.y + h} results in integer * overflow * @throws ArrayIndexOutOfBoundsException if {@code bands} * is less than 1 */ public static WritableRaster createBandedRaster(int dataType, int w, int h, int bands, Point location) { if (bands < 1) { throw new ArrayIndexOutOfBoundsException("Number of bands ("+ bands+") must"+ " be greater than 0"); } int[] bankIndices = new int[bands]; int[] bandOffsets = new int[bands]; for (int i = 0; i < bands; i++) { bankIndices[i] = i; bandOffsets[i] = 0; } return createBandedRaster(dataType, w, h, w, bankIndices, bandOffsets, location); } /** * Creates a Raster based on a BandedSampleModel with the * specified data type, width, height, scanline stride, bank * indices and band offsets. The number of bands is inferred from * bankIndices.length and bandOffsets.length, which must be the * same. * *
The upper left corner of the Raster is given by the * location argument. The dataType parameter should be one of the * enumerated values defined in the DataBuffer class. * *
The only dataTypes supported currently are TYPE_BYTE, TYPE_USHORT, * and TYPE_INT. * @param dataType the data type for storing samples * @param w the width in pixels of the image data * @param h the height in pixels of the image data * @param scanlineStride the line stride of the image data * @param bankIndices the bank indices for each band * @param bandOffsets the offsets of all bands * @param location the upper-left corner of the {@code Raster} * @return a WritableRaster object with the specified data type, * width, height, scanline stride, bank indices and band * offsets. * @throws RasterFormatException if {@code w} or {@code h} * is less than or equal to zero, or computing either * {@code location.x + w} or * {@code location.y + h} results in integer * overflow * @throws IllegalArgumentException if {@code dataType} is not * one of the supported data types, which are * {@code DataBuffer.TYPE_BYTE}, * {@code DataBuffer.TYPE_USHORT} * or {@code DataBuffer.TYPE_INT} * @throws ArrayIndexOutOfBoundsException if {@code bankIndices} * or {@code bandOffsets} is {@code null} */ public static WritableRaster createBandedRaster(int dataType, int w, int h, int scanlineStride, int bankIndices[], int bandOffsets[], Point location) { DataBuffer d; int bands = bandOffsets.length; if (bankIndices == null) { throw new ArrayIndexOutOfBoundsException("Bank indices array is null"); } if (bandOffsets == null) { throw new ArrayIndexOutOfBoundsException("Band offsets array is null"); } // Figure out the #banks and the largest band offset int maxBank = bankIndices[0]; int maxBandOff = bandOffsets[0]; for (int i = 1; i < bands; i++) { if (bankIndices[i] > maxBank) { maxBank = bankIndices[i]; } if (bandOffsets[i] > maxBandOff) { maxBandOff = bandOffsets[i]; } } int banks = maxBank + 1; int size = maxBandOff + scanlineStride * (h - 1) + // first (h - 1) scans w; // last scan switch(dataType) { case DataBuffer.TYPE_BYTE: d = new DataBufferByte(size, banks); break; case DataBuffer.TYPE_USHORT: d = new DataBufferUShort(size, banks); break; case DataBuffer.TYPE_INT: d = new DataBufferInt(size, banks); break; default: throw new IllegalArgumentException("Unsupported data type " + dataType); } return createBandedRaster(d, w, h, scanlineStride, bankIndices, bandOffsets, location); } /** * Creates a Raster based on a SinglePixelPackedSampleModel with * the specified data type, width, height, and band masks. * The number of bands is inferred from bandMasks.length. * *
The upper left corner of the Raster is given by the * location argument. If location is null, (0, 0) will be used. * The dataType parameter should be one of the enumerated values * defined in the DataBuffer class. * *
The only dataTypes supported currently are TYPE_BYTE, TYPE_USHORT, * and TYPE_INT. * @param dataType the data type for storing samples * @param w the width in pixels of the image data * @param h the height in pixels of the image data * @param bandMasks an array containing an entry for each band * @param location the upper-left corner of the {@code Raster} * @return a WritableRaster object with the specified data type, * width, height, and band masks. * @throws RasterFormatException if {@code w} or {@code h} * is less than or equal to zero, or computing either * {@code location.x + w} or * {@code location.y + h} results in integer * overflow * @throws IllegalArgumentException if {@code dataType} is not * one of the supported data types, which are * {@code DataBuffer.TYPE_BYTE}, * {@code DataBuffer.TYPE_USHORT} * or {@code DataBuffer.TYPE_INT} */ public static WritableRaster createPackedRaster(int dataType, int w, int h, int bandMasks[], Point location) { DataBuffer d; switch(dataType) { case DataBuffer.TYPE_BYTE: d = new DataBufferByte(w*h); break; case DataBuffer.TYPE_USHORT: d = new DataBufferUShort(w*h); break; case DataBuffer.TYPE_INT: d = new DataBufferInt(w*h); break; default: throw new IllegalArgumentException("Unsupported data type " + dataType); } return createPackedRaster(d, w, h, w, bandMasks, location); } /** * Creates a Raster based on a packed SampleModel with the * specified data type, width, height, number of bands, and bits * per band. If the number of bands is one, the SampleModel will * be a MultiPixelPackedSampleModel. * *
If the number of bands is more than one, the SampleModel * will be a SinglePixelPackedSampleModel, with each band having * bitsPerBand bits. In either case, the requirements on dataType * and bitsPerBand imposed by the corresponding SampleModel must * be met. * *
The upper left corner of the Raster is given by the * location argument. If location is null, (0, 0) will be used. * The dataType parameter should be one of the enumerated values * defined in the DataBuffer class. * *
The only dataTypes supported currently are TYPE_BYTE, TYPE_USHORT, * and TYPE_INT. * @param dataType the data type for storing samples * @param w the width in pixels of the image data * @param h the height in pixels of the image data * @param bands the number of bands * @param bitsPerBand the number of bits per band * @param location the upper-left corner of the {@code Raster} * @return a WritableRaster object with the specified data type, * width, height, number of bands, and bits per band. * @throws RasterFormatException if {@code w} or {@code h} * is less than or equal to zero, or computing either * {@code location.x + w} or * {@code location.y + h} results in integer * overflow * @throws IllegalArgumentException if the product of * {@code bitsPerBand} and {@code bands} is * greater than the number of bits held by * {@code dataType} * @throws IllegalArgumentException if {@code bitsPerBand} or * {@code bands} is not greater than zero * @throws IllegalArgumentException if {@code dataType} is not * one of the supported data types, which are * {@code DataBuffer.TYPE_BYTE}, * {@code DataBuffer.TYPE_USHORT} * or {@code DataBuffer.TYPE_INT} */ public static WritableRaster createPackedRaster(int dataType, int w, int h, int bands, int bitsPerBand, Point location) { DataBuffer d; if (bands <= 0) { throw new IllegalArgumentException("Number of bands ("+bands+ ") must be greater than 0"); } if (bitsPerBand <= 0) { throw new IllegalArgumentException("Bits per band ("+bitsPerBand+ ") must be greater than 0"); } if (bands != 1) { int[] masks = new int[bands]; int mask = (1 << bitsPerBand) - 1; int shift = (bands-1)*bitsPerBand; /* Make sure the total mask size will fit in the data type */ if (shift+bitsPerBand > DataBuffer.getDataTypeSize(dataType)) { throw new IllegalArgumentException("bitsPerBand("+ bitsPerBand+") * bands is "+ " greater than data type "+ "size."); } switch(dataType) { case DataBuffer.TYPE_BYTE: case DataBuffer.TYPE_USHORT: case DataBuffer.TYPE_INT: break; default: throw new IllegalArgumentException("Unsupported data type " + dataType); } for (int i = 0; i < bands; i++) { masks[i] = mask << shift; shift = shift - bitsPerBand; } return createPackedRaster(dataType, w, h, masks, location); } else { double fw = w; switch(dataType) { case DataBuffer.TYPE_BYTE: d = new DataBufferByte((int)(Math.ceil(fw/(8/bitsPerBand)))*h); break; case DataBuffer.TYPE_USHORT: d = new DataBufferUShort((int)(Math.ceil(fw/(16/bitsPerBand)))*h); break; case DataBuffer.TYPE_INT: d = new DataBufferInt((int)(Math.ceil(fw/(32/bitsPerBand)))*h); break; default: throw new IllegalArgumentException("Unsupported data type " + dataType); } return createPackedRaster(d, w, h, bitsPerBand, location); } } /** * Creates a Raster based on a PixelInterleavedSampleModel with the * specified DataBuffer, width, height, scanline stride, pixel * stride, and band offsets. The number of bands is inferred from * bandOffsets.length. The upper left corner of the Raster * is given by the location argument. If location is null, (0, 0) * will be used. *
Note that interleaved {@code DataBuffer.TYPE_INT} * Rasters are not supported. To create a 1-band Raster of type * {@code DataBuffer.TYPE_INT}, use * Raster.createPackedRaster(). * @param dataBuffer the {@code DataBuffer} that contains the * image data * @param w the width in pixels of the image data * @param h the height in pixels of the image data * @param scanlineStride the line stride of the image data * @param pixelStride the pixel stride of the image data * @param bandOffsets the offsets of all bands * @param location the upper-left corner of the {@code Raster} * @return a WritableRaster object with the specified * {@code DataBuffer}, width, height, scanline stride, * pixel stride and band offsets. * @throws RasterFormatException if {@code w} or {@code h} * is less than or equal to zero, or computing either * {@code location.x + w} or * {@code location.y + h} results in integer * overflow * @throws IllegalArgumentException if {@code dataType} is not * one of the supported data types, which are * {@code DataBuffer.TYPE_BYTE}, * {@code DataBuffer.TYPE_USHORT} * @throws RasterFormatException if {@code dataBuffer} has more * than one bank. * @throws NullPointerException if {@code dataBuffer} is null */ public static WritableRaster createInterleavedRaster(DataBuffer dataBuffer, int w, int h, int scanlineStride, int pixelStride, int bandOffsets[], Point location) { if (dataBuffer == null) { throw new NullPointerException("DataBuffer cannot be null"); } if (location == null) { location = new Point(0, 0); } int dataType = dataBuffer.getDataType(); PixelInterleavedSampleModel csm = new PixelInterleavedSampleModel(dataType, w, h, pixelStride, scanlineStride, bandOffsets); switch(dataType) { case DataBuffer.TYPE_BYTE: if (dataBuffer instanceof DataBufferByte) { return new ByteInterleavedRaster(csm, (DataBufferByte)dataBuffer, location); } break; case DataBuffer.TYPE_USHORT: if (dataBuffer instanceof DataBufferUShort) { return new ShortInterleavedRaster(csm, (DataBufferUShort)dataBuffer, location); } break; default: throw new IllegalArgumentException("Unsupported data type " + dataType); } // Create the generic raster return new SunWritableRaster(csm, dataBuffer, location); } /** * Creates a Raster based on a BandedSampleModel with the * specified DataBuffer, width, height, scanline stride, bank * indices, and band offsets. The number of bands is inferred * from bankIndices.length and bandOffsets.length, which must be * the same. The upper left corner of the Raster is given by the * location argument. If location is null, (0, 0) will be used. * @param dataBuffer the {@code DataBuffer} that contains the * image data * @param w the width in pixels of the image data * @param h the height in pixels of the image data * @param scanlineStride the line stride of the image data * @param bankIndices the bank indices for each band * @param bandOffsets the offsets of all bands * @param location the upper-left corner of the {@code Raster} * @return a WritableRaster object with the specified * {@code DataBuffer}, width, height, scanline stride, * bank indices and band offsets. * @throws RasterFormatException if {@code w} or {@code h} * is less than or equal to zero, or computing either * {@code location.x + w} or * {@code location.y + h} results in integer * overflow * @throws IllegalArgumentException if {@code dataType} is not * one of the supported data types, which are * {@code DataBuffer.TYPE_BYTE}, * {@code DataBuffer.TYPE_USHORT} * or {@code DataBuffer.TYPE_INT} * @throws NullPointerException if {@code dataBuffer} is null */ public static WritableRaster createBandedRaster(DataBuffer dataBuffer, int w, int h, int scanlineStride, int bankIndices[], int bandOffsets[], Point location) { if (dataBuffer == null) { throw new NullPointerException("DataBuffer cannot be null"); } if (location == null) { location = new Point(0,0); } int dataType = dataBuffer.getDataType(); int bands = bankIndices.length; if (bandOffsets.length != bands) { throw new IllegalArgumentException( "bankIndices.length != bandOffsets.length"); } BandedSampleModel bsm = new BandedSampleModel(dataType, w, h, scanlineStride, bankIndices, bandOffsets); switch(dataType) { case DataBuffer.TYPE_BYTE: if (dataBuffer instanceof DataBufferByte) { return new ByteBandedRaster(bsm, (DataBufferByte)dataBuffer, location); } break; case DataBuffer.TYPE_USHORT: if (dataBuffer instanceof DataBufferUShort) { return new ShortBandedRaster(bsm, (DataBufferUShort)dataBuffer, location); } break; case DataBuffer.TYPE_INT: if (dataBuffer instanceof DataBufferInt) { return new SunWritableRaster(bsm, (DataBufferInt)dataBuffer, location); } break; default: throw new IllegalArgumentException("Unsupported data type " + dataType); } // Create the generic raster return new SunWritableRaster(bsm, dataBuffer, location); } /** * Creates a Raster based on a SinglePixelPackedSampleModel with * the specified DataBuffer, width, height, scanline stride, and * band masks. The number of bands is inferred from bandMasks.length. * The upper left corner of the Raster is given by * the location argument. If location is null, (0, 0) will be used. * @param dataBuffer the {@code DataBuffer} that contains the * image data * @param w the width in pixels of the image data * @param h the height in pixels of the image data * @param scanlineStride the line stride of the image data * @param bandMasks an array containing an entry for each band * @param location the upper-left corner of the {@code Raster} * @return a WritableRaster object with the specified * {@code DataBuffer}, width, height, scanline stride, * and band masks. * @throws RasterFormatException if {@code w} or {@code h} * is less than or equal to zero, or computing either * {@code location.x + w} or * {@code location.y + h} results in integer * overflow * @throws IllegalArgumentException if {@code dataType} is not * one of the supported data types, which are * {@code DataBuffer.TYPE_BYTE}, * {@code DataBuffer.TYPE_USHORT} * or {@code DataBuffer.TYPE_INT} * @throws RasterFormatException if {@code dataBuffer} has more * than one bank. * @throws NullPointerException if {@code dataBuffer} is null */ public static WritableRaster createPackedRaster(DataBuffer dataBuffer, int w, int h, int scanlineStride, int bandMasks[], Point location) { if (dataBuffer == null) { throw new NullPointerException("DataBuffer cannot be null"); } if (location == null) { location = new Point(0,0); } int dataType = dataBuffer.getDataType(); SinglePixelPackedSampleModel sppsm = new SinglePixelPackedSampleModel(dataType, w, h, scanlineStride, bandMasks); switch(dataType) { case DataBuffer.TYPE_BYTE: if(dataBuffer instanceof DataBufferByte) { return new ByteInterleavedRaster(sppsm, (DataBufferByte)dataBuffer, location); } break; case DataBuffer.TYPE_USHORT: if(dataBuffer instanceof DataBufferUShort) { return new ShortInterleavedRaster(sppsm, (DataBufferUShort) dataBuffer, location); } break; case DataBuffer.TYPE_INT: if(dataBuffer instanceof DataBufferInt) { return new IntegerInterleavedRaster(sppsm, (DataBufferInt) dataBuffer, location); } break; default: throw new IllegalArgumentException("Unsupported data type " + dataType); } // Create the generic raster return new SunWritableRaster(sppsm, dataBuffer, location); } /** * Creates a Raster based on a MultiPixelPackedSampleModel with the * specified DataBuffer, width, height, and bits per pixel. The upper * left corner of the Raster is given by the location argument. If * location is null, (0, 0) will be used. * @param dataBuffer the {@code DataBuffer} that contains the * image data * @param w the width in pixels of the image data * @param h the height in pixels of the image data * @param bitsPerPixel the number of bits for each pixel * @param location the upper-left corner of the {@code Raster} * @return a WritableRaster object with the specified * {@code DataBuffer}, width, height, and * bits per pixel. * @throws RasterFormatException if {@code w} or {@code h} * is less than or equal to zero, or computing either * {@code location.x + w} or * {@code location.y + h} results in integer * overflow * @throws IllegalArgumentException if {@code dataType} is not * one of the supported data types, which are * {@code DataBuffer.TYPE_BYTE}, * {@code DataBuffer.TYPE_USHORT} * or {@code DataBuffer.TYPE_INT} * @throws RasterFormatException if {@code dataBuffer} has more * than one bank. * @throws NullPointerException if {@code dataBuffer} is null */ public static WritableRaster createPackedRaster(DataBuffer dataBuffer, int w, int h, int bitsPerPixel, Point location) { if (dataBuffer == null) { throw new NullPointerException("DataBuffer cannot be null"); } if (location == null) { location = new Point(0,0); } int dataType = dataBuffer.getDataType(); if (dataType != DataBuffer.TYPE_BYTE && dataType != DataBuffer.TYPE_USHORT && dataType != DataBuffer.TYPE_INT) { throw new IllegalArgumentException("Unsupported data type " + dataType); } if (dataBuffer.getNumBanks() != 1) { throw new RasterFormatException("DataBuffer for packed Rasters"+ " must only have 1 bank."); } MultiPixelPackedSampleModel mppsm = new MultiPixelPackedSampleModel(dataType, w, h, bitsPerPixel); if (dataType == DataBuffer.TYPE_BYTE && dataBuffer instanceof DataBufferByte && (bitsPerPixel == 1 || bitsPerPixel == 2 || bitsPerPixel == 4)) { return new BytePackedRaster(mppsm, (DataBufferByte)dataBuffer, location); } else { return new SunWritableRaster(mppsm, dataBuffer, location); } } /** * Creates a Raster with the specified SampleModel and DataBuffer. * The upper left corner of the Raster is given by the location argument. * If location is null, (0, 0) will be used. * @param sm the specified {@code SampleModel} * @param db the specified {@code DataBuffer} * @param location the upper-left corner of the {@code Raster} * @return a {@code Raster} with the specified * {@code SampleModel}, {@code DataBuffer}, and * location. * @throws RasterFormatException if computing either * {@code location.x + sm.getWidth()} or * {@code location.y + sm.getHeight()} results in integer * overflow * @throws RasterFormatException if {@code db} has more * than one bank and {@code sm} is a * PixelInterleavedSampleModel, SinglePixelPackedSampleModel, * or MultiPixelPackedSampleModel. * @throws NullPointerException if either SampleModel or DataBuffer is * null */ public static Raster createRaster(SampleModel sm, DataBuffer db, Point location) { if ((sm == null) || (db == null)) { throw new NullPointerException("SampleModel and DataBuffer cannot be null"); } if (location == null) { location = new Point(0,0); } int dataType = sm.getDataType(); if (sm instanceof PixelInterleavedSampleModel) { switch(dataType) { case DataBuffer.TYPE_BYTE: if(db instanceof DataBufferByte) { return new ByteInterleavedRaster(sm, (DataBufferByte)db, location); } break; case DataBuffer.TYPE_USHORT: if(db instanceof DataBufferUShort) { return new ShortInterleavedRaster(sm, (DataBufferUShort)db, location); } break; } } else if (sm instanceof SinglePixelPackedSampleModel) { switch(dataType) { case DataBuffer.TYPE_BYTE: if(db instanceof DataBufferByte) { return new ByteInterleavedRaster(sm, (DataBufferByte)db, location); } break; case DataBuffer.TYPE_USHORT: if(db instanceof DataBufferUShort) { return new ShortInterleavedRaster(sm, (DataBufferUShort)db, location); } break; case DataBuffer.TYPE_INT: if(db instanceof DataBufferInt) { return new IntegerInterleavedRaster(sm, (DataBufferInt)db, location); } break; } } else if (sm instanceof MultiPixelPackedSampleModel && dataType == DataBuffer.TYPE_BYTE && db instanceof DataBufferByte && sm.getSampleSize(0) < 8) { return new BytePackedRaster(sm, (DataBufferByte)db, location); } // we couldn't do anything special - do the generic thing return new Raster(sm, db, location); } /** * Creates a WritableRaster with the specified SampleModel. * The upper left corner of the Raster is given by the location argument. * If location is null, (0, 0) will be used. * @param sm the specified {@code SampleModel} * @param location the upper-left corner of the * {@code WritableRaster} * @return a {@code WritableRaster} with the specified * {@code SampleModel} and location. * @throws RasterFormatException if computing either * {@code location.x + sm.getWidth()} or * {@code location.y + sm.getHeight()} results in integer * overflow */ public static WritableRaster createWritableRaster(SampleModel sm, Point location) { if (location == null) { location = new Point(0,0); } return createWritableRaster(sm, sm.createDataBuffer(), location); } /** * Creates a WritableRaster with the specified SampleModel and DataBuffer. * The upper left corner of the Raster is given by the location argument. * If location is null, (0, 0) will be used. * @param sm the specified {@code SampleModel} * @param db the specified {@code DataBuffer} * @param location the upper-left corner of the * {@code WritableRaster} * @return a {@code WritableRaster} with the specified * {@code SampleModel}, {@code DataBuffer}, and * location. * @throws RasterFormatException if computing either * {@code location.x + sm.getWidth()} or * {@code location.y + sm.getHeight()} results in integer * overflow * @throws RasterFormatException if {@code db} has more * than one bank and {@code sm} is a * PixelInterleavedSampleModel, SinglePixelPackedSampleModel, * or MultiPixelPackedSampleModel. * @throws NullPointerException if either SampleModel or DataBuffer is null */ public static WritableRaster createWritableRaster(SampleModel sm, DataBuffer db, Point location) { if ((sm == null) || (db == null)) { throw new NullPointerException("SampleModel and DataBuffer cannot be null"); } if (location == null) { location = new Point(0,0); } int dataType = sm.getDataType(); if (sm instanceof PixelInterleavedSampleModel) { switch(dataType) { case DataBuffer.TYPE_BYTE: if (db instanceof DataBufferByte) { return new ByteInterleavedRaster(sm, (DataBufferByte)db, location); } break; case DataBuffer.TYPE_USHORT: if (db instanceof DataBufferUShort) { return new ShortInterleavedRaster(sm, (DataBufferUShort)db, location); } break; } } else if (sm instanceof SinglePixelPackedSampleModel) { switch(dataType) { case DataBuffer.TYPE_BYTE: if (db instanceof DataBufferByte) { return new ByteInterleavedRaster(sm, (DataBufferByte)db, location); } break; case DataBuffer.TYPE_USHORT: if (db instanceof DataBufferUShort) { return new ShortInterleavedRaster(sm, (DataBufferUShort)db, location); } break; case DataBuffer.TYPE_INT: if (db instanceof DataBufferInt) { return new IntegerInterleavedRaster(sm, (DataBufferInt)db, location); } break; } } else if (sm instanceof MultiPixelPackedSampleModel && dataType == DataBuffer.TYPE_BYTE && db instanceof DataBufferByte && sm.getSampleSize(0) < 8) { return new BytePackedRaster(sm, (DataBufferByte)db, location); } // we couldn't do anything special - do the generic thing return new SunWritableRaster(sm,db,location); } /** * Constructs a Raster with the given SampleModel. The Raster's * upper left corner is origin and it is the same size as the * SampleModel. A DataBuffer large enough to describe the * Raster is automatically created. * @param sampleModel The SampleModel that specifies the layout * @param origin The Point that specified the origin * @throws RasterFormatException if computing either * {@code origin.x + sampleModel.getWidth()} or * {@code origin.y + sampleModel.getHeight()} results in * integer overflow * @throws NullPointerException either {@code sampleModel} or * {@code origin} is null */ protected Raster(SampleModel sampleModel, Point origin) { this(sampleModel, sampleModel.createDataBuffer(), new Rectangle(origin.x, origin.y, sampleModel.getWidth(), sampleModel.getHeight()), origin, null); } /** * Constructs a Raster with the given SampleModel and DataBuffer. * The Raster's upper left corner is origin and it is the same size * as the SampleModel. The DataBuffer is not initialized and must * be compatible with SampleModel. * @param sampleModel The SampleModel that specifies the layout * @param dataBuffer The DataBuffer that contains the image data * @param origin The Point that specifies the origin * @throws RasterFormatException if computing either * {@code origin.x + sampleModel.getWidth()} or * {@code origin.y + sampleModel.getHeight()} results in * integer overflow * @throws NullPointerException either {@code sampleModel} or * {@code origin} is null */ protected Raster(SampleModel sampleModel, DataBuffer dataBuffer, Point origin) { this(sampleModel, dataBuffer, new Rectangle(origin.x, origin.y, sampleModel.getWidth(), sampleModel.getHeight()), origin, null); } /** * Constructs a Raster with the given SampleModel, DataBuffer, and * parent. aRegion specifies the bounding rectangle of the new * Raster. When translated into the base Raster's coordinate * system, aRegion must be contained by the base Raster. * (The base Raster is the Raster's ancestor which has no parent.) * sampleModelTranslate specifies the sampleModelTranslateX and * sampleModelTranslateY values of the new Raster. * * Note that this constructor should generally be called by other * constructors or create methods, it should not be used directly. * @param sampleModel The SampleModel that specifies the layout * @param dataBuffer The DataBuffer that contains the image data * @param aRegion The Rectangle that specifies the image area * @param sampleModelTranslate The Point that specifies the translation * from SampleModel to Raster coordinates * @param parent The parent (if any) of this raster * @throws NullPointerException if any of {@code sampleModel}, * {@code dataBuffer}, {@code aRegion} or * {@code sampleModelTranslate} is null * @throws RasterFormatException if {@code aRegion} has width * or height less than or equal to zero, or computing either * {@code aRegion.x + aRegion.width} or * {@code aRegion.y + aRegion.height} results in integer * overflow */ protected Raster(SampleModel sampleModel, DataBuffer dataBuffer, Rectangle aRegion, Point sampleModelTranslate, Raster parent) { if ((sampleModel == null) || (dataBuffer == null) || (aRegion == null) || (sampleModelTranslate == null)) { throw new NullPointerException("SampleModel, dataBuffer, aRegion and " + "sampleModelTranslate cannot be null"); } this.sampleModel = sampleModel; this.dataBuffer = dataBuffer; minX = aRegion.x; minY = aRegion.y; width = aRegion.width; height = aRegion.height; if (width <= 0 || height <= 0) { throw new RasterFormatException("negative or zero " + ((width <= 0) ? "width" : "height")); } if ((minX + width) < minX) { throw new RasterFormatException( "overflow condition for X coordinates of Raster"); } if ((minY + height) < minY) { throw new RasterFormatException( "overflow condition for Y coordinates of Raster"); } sampleModelTranslateX = sampleModelTranslate.x; sampleModelTranslateY = sampleModelTranslate.y; numBands = sampleModel.getNumBands(); numDataElements = sampleModel.getNumDataElements(); this.parent = parent; } /** * Returns the parent Raster (if any) of this Raster or null. * @return the parent Raster or {@code null}. */ public Raster getParent() { return parent; } /** * Returns the X translation from the coordinate system of the * SampleModel to that of the Raster. To convert a pixel's X * coordinate from the Raster coordinate system to the SampleModel * coordinate system, this value must be subtracted. * @return the X translation from the coordinate space of the * Raster's SampleModel to that of the Raster. */ public final int getSampleModelTranslateX() { return sampleModelTranslateX; } /** * Returns the Y translation from the coordinate system of the * SampleModel to that of the Raster. To convert a pixel's Y * coordinate from the Raster coordinate system to the SampleModel * coordinate system, this value must be subtracted. * @return the Y translation from the coordinate space of the * Raster's SampleModel to that of the Raster. */ public final int getSampleModelTranslateY() { return sampleModelTranslateY; } /** * Create a compatible WritableRaster the same size as this Raster with * the same SampleModel and a new initialized DataBuffer. * @return a compatible {@code WritableRaster} with the same sample * model and a new data buffer. */ public WritableRaster createCompatibleWritableRaster() { return new SunWritableRaster(sampleModel, new Point(0,0)); } /** * Create a compatible WritableRaster with the specified size, a new * SampleModel, and a new initialized DataBuffer. * @param w the specified width of the new {@code WritableRaster} * @param h the specified height of the new {@code WritableRaster} * @return a compatible {@code WritableRaster} with the specified * size and a new sample model and data buffer. * @exception RasterFormatException if the width or height is less than * or equal to zero. */ public WritableRaster createCompatibleWritableRaster(int w, int h) { if (w <= 0 || h <=0) { throw new RasterFormatException("negative " + ((w <= 0) ? "width" : "height")); } SampleModel sm = sampleModel.createCompatibleSampleModel(w,h); return new SunWritableRaster(sm, new Point(0,0)); } /** * Create a compatible WritableRaster with location (minX, minY) * and size (width, height) specified by rect, a * new SampleModel, and a new initialized DataBuffer. * @param rect a {@code Rectangle} that specifies the size and * location of the {@code WritableRaster} * @return a compatible {@code WritableRaster} with the specified * size and location and a new sample model and data buffer. * @throws RasterFormatException if {@code rect} has width * or height less than or equal to zero, or computing either * {@code rect.x + rect.width} or * {@code rect.y + rect.height} results in integer * overflow * @throws NullPointerException if {@code rect} is null */ public WritableRaster createCompatibleWritableRaster(Rectangle rect) { if (rect == null) { throw new NullPointerException("Rect cannot be null"); } return createCompatibleWritableRaster(rect.x, rect.y, rect.width, rect.height); } /** * Create a compatible WritableRaster with the specified * location (minX, minY) and size (width, height), a * new SampleModel, and a new initialized DataBuffer. * @param x the X coordinate of the upper-left corner of * the {@code WritableRaster} * @param y the Y coordinate of the upper-left corner of * the {@code WritableRaster} * @param w the specified width of the {@code WritableRaster} * @param h the specified height of the {@code WritableRaster} * @return a compatible {@code WritableRaster} with the specified * size and location and a new sample model and data buffer. * @throws RasterFormatException if {@code w} or {@code h} * is less than or equal to zero, or computing either * {@code x + w} or * {@code y + h} results in integer * overflow */ public WritableRaster createCompatibleWritableRaster(int x, int y, int w, int h) { WritableRaster ret = createCompatibleWritableRaster(w, h); return ret.createWritableChild(0,0,w,h,x,y,null); } /** * Create a Raster with the same size, SampleModel and DataBuffer * as this one, but with a different location. The new Raster * will possess a reference to the current Raster, accessible * through its getParent() method. * * @param childMinX the X coordinate of the upper-left * corner of the new {@code Raster} * @param childMinY the Y coordinate of the upper-left * corner of the new {@code Raster} * @return a new {@code Raster} with the same size, SampleModel, * and DataBuffer as this {@code Raster}, but with the * specified location. * @throws RasterFormatException if computing either * {@code childMinX + this.getWidth()} or * {@code childMinY + this.getHeight()} results in integer * overflow */ public Raster createTranslatedChild(int childMinX, int childMinY) { return createChild(minX,minY,width,height, childMinX,childMinY,null); } /** * Returns a new Raster which shares all or part of this Raster's * DataBuffer. The new Raster will possess a reference to the * current Raster, accessible through its getParent() method. * *
The parentX, parentY, width and height parameters * form a Rectangle in this Raster's coordinate space, * indicating the area of pixels to be shared. An error will * be thrown if this Rectangle is not contained with the bounds * of the current Raster. * *
The new Raster may additionally be translated to a * different coordinate system for the plane than that used by the current * Raster. The childMinX and childMinY parameters give the new * (x, y) coordinate of the upper-left pixel of the returned * Raster; the coordinate (childMinX, childMinY) in the new Raster * will map to the same pixel as the coordinate (parentX, parentY) * in the current Raster. * *
The new Raster may be defined to contain only a subset of * the bands of the current Raster, possibly reordered, by means * of the bandList parameter. If bandList is null, it is taken to * include all of the bands of the current Raster in their current * order. * *
To create a new Raster that contains a subregion of the current * Raster, but shares its coordinate system and bands, * this method should be called with childMinX equal to parentX, * childMinY equal to parentY, and bandList equal to null. * * @param parentX The X coordinate of the upper-left corner * in this Raster's coordinates * @param parentY The Y coordinate of the upper-left corner * in this Raster's coordinates * @param width Width of the region starting at (parentX, parentY) * @param height Height of the region starting at (parentX, parentY). * @param childMinX The X coordinate of the upper-left corner * of the returned Raster * @param childMinY The Y coordinate of the upper-left corner * of the returned Raster * @param bandList Array of band indices, or null to use all bands * @return a new {@code Raster}. * @exception RasterFormatException if the specified subregion is outside * of the raster bounds. * @throws RasterFormatException if {@code width} or * {@code height} * is less than or equal to zero, or computing any of * {@code parentX + width}, {@code parentY + height}, * {@code childMinX + width}, or * {@code childMinY + height} results in integer * overflow */ public Raster createChild(int parentX, int parentY, int width, int height, int childMinX, int childMinY, int bandList[]) { if (parentX < this.minX) { throw new RasterFormatException("parentX lies outside raster"); } if (parentY < this.minY) { throw new RasterFormatException("parentY lies outside raster"); } if ((parentX + width < parentX) || (parentX + width > this.width + this.minX)) { throw new RasterFormatException("(parentX + width) is outside raster"); } if ((parentY + height < parentY) || (parentY + height > this.height + this.minY)) { throw new RasterFormatException("(parentY + height) is outside raster"); } SampleModel subSampleModel; // Note: the SampleModel for the child Raster should have the same // width and height as that for the parent, since it represents // the physical layout of the pixel data. The child Raster's width // and height represent a "virtual" view of the pixel data, so // they may be different than those of the SampleModel. if (bandList == null) { subSampleModel = sampleModel; } else { subSampleModel = sampleModel.createSubsetSampleModel(bandList); } int deltaX = childMinX - parentX; int deltaY = childMinY - parentY; return new Raster(subSampleModel, getDataBuffer(), new Rectangle(childMinX, childMinY, width, height), new Point(sampleModelTranslateX + deltaX, sampleModelTranslateY + deltaY), this); } /** * Returns the bounding Rectangle of this Raster. This function returns * the same information as getMinX/MinY/Width/Height. * @return the bounding box of this {@code Raster}. */ public Rectangle getBounds() { return new Rectangle(minX, minY, width, height); } /** Returns the minimum valid X coordinate of the Raster. * @return the minimum x coordinate of this {@code Raster}. */ public final int getMinX() { return minX; } /** Returns the minimum valid Y coordinate of the Raster. * @return the minimum y coordinate of this {@code Raster}. */ public final int getMinY() { return minY; } /** Returns the width in pixels of the Raster. * @return the width of this {@code Raster}. */ public final int getWidth() { return width; } /** Returns the height in pixels of the Raster. * @return the height of this {@code Raster}. */ public final int getHeight() { return height; } /** Returns the number of bands (samples per pixel) in this Raster. * @return the number of bands of this {@code Raster}. */ public final int getNumBands() { return numBands; } /** * Returns the number of data elements needed to transfer one pixel * via the getDataElements and setDataElements methods. When pixels * are transferred via these methods, they may be transferred in a * packed or unpacked format, depending on the implementation of the * underlying SampleModel. Using these methods, pixels are transferred * as an array of getNumDataElements() elements of a primitive type given * by getTransferType(). The TransferType may or may not be the same * as the storage data type of the DataBuffer. * @return the number of data elements. */ public final int getNumDataElements() { return sampleModel.getNumDataElements(); } /** * Returns the TransferType used to transfer pixels via the * getDataElements and setDataElements methods. When pixels * are transferred via these methods, they may be transferred in a * packed or unpacked format, depending on the implementation of the * underlying SampleModel. Using these methods, pixels are transferred * as an array of getNumDataElements() elements of a primitive type given * by getTransferType(). The TransferType may or may not be the same * as the storage data type of the DataBuffer. The TransferType will * be one of the types defined in DataBuffer. * @return this transfer type. */ public final int getTransferType() { return sampleModel.getTransferType(); } /** Returns the DataBuffer associated with this Raster. * @return the {@code DataBuffer} of this {@code Raster}. */ public DataBuffer getDataBuffer() { return dataBuffer; } /** Returns the SampleModel that describes the layout of the image data. * @return the {@code SampleModel} of this {@code Raster}. */ public SampleModel getSampleModel() { return sampleModel; } /** * Returns data for a single pixel in a primitive array of type * TransferType. For image data supported by the Java 2D(tm) API, * this will be one of DataBuffer.TYPE_BYTE, DataBuffer.TYPE_USHORT, * DataBuffer.TYPE_INT, DataBuffer.TYPE_SHORT, DataBuffer.TYPE_FLOAT, * or DataBuffer.TYPE_DOUBLE. Data may be returned in a packed format, * thus increasing efficiency for data transfers. * An ArrayIndexOutOfBoundsException may be thrown * if the coordinates are not in bounds. However, explicit bounds * checking is not guaranteed. * A ClassCastException will be thrown if the input object is non null * and references anything other than an array of TransferType. * @see java.awt.image.SampleModel#getDataElements(int, int, Object, DataBuffer) * @param x The X coordinate of the pixel location * @param y The Y coordinate of the pixel location * @param outData An object reference to an array of type defined by * getTransferType() and length getNumDataElements(). * If null, an array of appropriate type and size will be * allocated * @return An object reference to an array of type defined by * getTransferType() with the requested pixel data. * * @throws ArrayIndexOutOfBoundsException if the coordinates are not * in bounds, or if outData is too small to hold the output. */ public Object getDataElements(int x, int y, Object outData) { return sampleModel.getDataElements(x - sampleModelTranslateX, y - sampleModelTranslateY, outData, dataBuffer); } /** * Returns the pixel data for the specified rectangle of pixels in a * primitive array of type TransferType. * For image data supported by the Java 2D API, this * will be one of DataBuffer.TYPE_BYTE, DataBuffer.TYPE_USHORT, * DataBuffer.TYPE_INT, DataBuffer.TYPE_SHORT, DataBuffer.TYPE_FLOAT, * or DataBuffer.TYPE_DOUBLE. Data may be returned in a packed format, * thus increasing efficiency for data transfers. * An ArrayIndexOutOfBoundsException may be thrown * if the coordinates are not in bounds. However, explicit bounds * checking is not guaranteed. * A ClassCastException will be thrown if the input object is non null * and references anything other than an array of TransferType. * @see java.awt.image.SampleModel#getDataElements(int, int, int, int, Object, DataBuffer) * @param x The X coordinate of the upper-left pixel location * @param y The Y coordinate of the upper-left pixel location * @param w Width of the pixel rectangle * @param h Height of the pixel rectangle * @param outData An object reference to an array of type defined by * getTransferType() and length w*h*getNumDataElements(). * If null, an array of appropriate type and size will be * allocated. * @return An object reference to an array of type defined by * getTransferType() with the requested pixel data. * * @throws ArrayIndexOutOfBoundsException if the coordinates are not * in bounds, or if outData is too small to hold the output. */ public Object getDataElements(int x, int y, int w, int h, Object outData) { return sampleModel.getDataElements(x - sampleModelTranslateX, y - sampleModelTranslateY, w, h, outData, dataBuffer); } /** * Returns the samples in an array of int for the specified pixel. * An ArrayIndexOutOfBoundsException may be thrown * if the coordinates are not in bounds. However, explicit bounds * checking is not guaranteed. * @param x The X coordinate of the pixel location * @param y The Y coordinate of the pixel location * @param iArray An optionally preallocated int array * @return the samples for the specified pixel. * * @throws ArrayIndexOutOfBoundsException if the coordinates are not * in bounds, or if iArray is too small to hold the output. */ public int[] getPixel(int x, int y, int iArray[]) { return sampleModel.getPixel(x - sampleModelTranslateX, y - sampleModelTranslateY, iArray, dataBuffer); } /** * Returns the samples in an array of float for the * specified pixel. * An ArrayIndexOutOfBoundsException may be thrown * if the coordinates are not in bounds. However, explicit bounds * checking is not guaranteed. * @param x The X coordinate of the pixel location * @param y The Y coordinate of the pixel location * @param fArray An optionally preallocated float array * @return the samples for the specified pixel. * * @throws ArrayIndexOutOfBoundsException if the coordinates are not * in bounds, or if fArray is too small to hold the output. */ public float[] getPixel(int x, int y, float fArray[]) { return sampleModel.getPixel(x - sampleModelTranslateX, y - sampleModelTranslateY, fArray, dataBuffer); } /** * Returns the samples in an array of double for the specified pixel. * An ArrayIndexOutOfBoundsException may be thrown * if the coordinates are not in bounds. However, explicit bounds * checking is not guaranteed. * @param x The X coordinate of the pixel location * @param y The Y coordinate of the pixel location * @param dArray An optionally preallocated double array * @return the samples for the specified pixel. * * @throws ArrayIndexOutOfBoundsException if the coordinates are not * in bounds, or if dArray is too small to hold the output. */ public double[] getPixel(int x, int y, double dArray[]) { return sampleModel.getPixel(x - sampleModelTranslateX, y - sampleModelTranslateY, dArray, dataBuffer); } /** * Returns an int array containing all samples for a rectangle of pixels, * one sample per array element. * An ArrayIndexOutOfBoundsException may be thrown * if the coordinates are not in bounds. However, explicit bounds * checking is not guaranteed. * @param x The X coordinate of the upper-left pixel location * @param y The Y coordinate of the upper-left pixel location * @param w Width of the pixel rectangle * @param h Height of the pixel rectangle * @param iArray An optionally pre-allocated int array * @return the samples for the specified rectangle of pixels. * * @throws ArrayIndexOutOfBoundsException if the coordinates are not * in bounds, or if iArray is too small to hold the output. */ public int[] getPixels(int x, int y, int w, int h, int iArray[]) { return sampleModel.getPixels(x - sampleModelTranslateX, y - sampleModelTranslateY, w, h, iArray, dataBuffer); } /** * Returns a float array containing all samples for a rectangle of pixels, * one sample per array element. * An ArrayIndexOutOfBoundsException may be thrown * if the coordinates are not in bounds. However, explicit bounds * checking is not guaranteed. * @param x The X coordinate of the pixel location * @param y The Y coordinate of the pixel location * @param w Width of the pixel rectangle * @param h Height of the pixel rectangle * @param fArray An optionally pre-allocated float array * @return the samples for the specified rectangle of pixels. * * @throws ArrayIndexOutOfBoundsException if the coordinates are not * in bounds, or if fArray is too small to hold the output. */ public float[] getPixels(int x, int y, int w, int h, float fArray[]) { return sampleModel.getPixels(x - sampleModelTranslateX, y - sampleModelTranslateY, w, h, fArray, dataBuffer); } /** * Returns a double array containing all samples for a rectangle of pixels, * one sample per array element. * An ArrayIndexOutOfBoundsException may be thrown * if the coordinates are not in bounds. However, explicit bounds * checking is not guaranteed. * @param x The X coordinate of the upper-left pixel location * @param y The Y coordinate of the upper-left pixel location * @param w Width of the pixel rectangle * @param h Height of the pixel rectangle * @param dArray An optionally pre-allocated double array * @return the samples for the specified rectangle of pixels. * * @throws ArrayIndexOutOfBoundsException if the coordinates are not * in bounds, or if dArray is too small to hold the output. */ public double[] getPixels(int x, int y, int w, int h, double dArray[]) { return sampleModel.getPixels(x - sampleModelTranslateX, y - sampleModelTranslateY, w, h, dArray, dataBuffer); } /** * Returns the sample in a specified band for the pixel located * at (x,y) as an int. * An ArrayIndexOutOfBoundsException may be thrown * if the coordinates are not in bounds. However, explicit bounds * checking is not guaranteed. * @param x The X coordinate of the pixel location * @param y The Y coordinate of the pixel location * @param b The band to return * @return the sample in the specified band for the pixel at the * specified coordinate. * * @throws ArrayIndexOutOfBoundsException if the coordinates or * the band index are not in bounds. */ public int getSample(int x, int y, int b) { return sampleModel.getSample(x - sampleModelTranslateX, y - sampleModelTranslateY, b, dataBuffer); } /** * Returns the sample in a specified band * for the pixel located at (x,y) as a float. * An ArrayIndexOutOfBoundsException may be thrown * if the coordinates are not in bounds. However, explicit bounds * checking is not guaranteed. * @param x The X coordinate of the pixel location * @param y The Y coordinate of the pixel location * @param b The band to return * @return the sample in the specified band for the pixel at the * specified coordinate. * * @throws ArrayIndexOutOfBoundsException if the coordinates or * the band index are not in bounds. */ public float getSampleFloat(int x, int y, int b) { return sampleModel.getSampleFloat(x - sampleModelTranslateX, y - sampleModelTranslateY, b, dataBuffer); } /** * Returns the sample in a specified band * for a pixel located at (x,y) as a double. * An ArrayIndexOutOfBoundsException may be thrown * if the coordinates are not in bounds. However, explicit bounds * checking is not guaranteed. * @param x The X coordinate of the pixel location * @param y The Y coordinate of the pixel location * @param b The band to return * @return the sample in the specified band for the pixel at the * specified coordinate. * * @throws ArrayIndexOutOfBoundsException if the coordinates or * the band index are not in bounds. */ public double getSampleDouble(int x, int y, int b) { return sampleModel.getSampleDouble(x - sampleModelTranslateX, y - sampleModelTranslateY, b, dataBuffer); } /** * Returns the samples for a specified band for the specified rectangle * of pixels in an int array, one sample per array element. * An ArrayIndexOutOfBoundsException may be thrown * if the coordinates are not in bounds. However, explicit bounds * checking is not guaranteed. * @param x The X coordinate of the upper-left pixel location * @param y The Y coordinate of the upper-left pixel location * @param w Width of the pixel rectangle * @param h Height of the pixel rectangle * @param b The band to return * @param iArray An optionally pre-allocated int array * @return the samples for the specified band for the specified * rectangle of pixels. * * @throws ArrayIndexOutOfBoundsException if the coordinates or * the band index are not in bounds, or if iArray is too small to * hold the output. */ public int[] getSamples(int x, int y, int w, int h, int b, int iArray[]) { return sampleModel.getSamples(x - sampleModelTranslateX, y - sampleModelTranslateY, w, h, b, iArray, dataBuffer); } /** * Returns the samples for a specified band for the specified rectangle * of pixels in a float array, one sample per array element. * An ArrayIndexOutOfBoundsException may be thrown * if the coordinates are not in bounds. However, explicit bounds * checking is not guaranteed. * @param x The X coordinate of the upper-left pixel location * @param y The Y coordinate of the upper-left pixel location * @param w Width of the pixel rectangle * @param h Height of the pixel rectangle * @param b The band to return * @param fArray An optionally pre-allocated float array * @return the samples for the specified band for the specified * rectangle of pixels. * * @throws ArrayIndexOutOfBoundsException if the coordinates or * the band index are not in bounds, or if fArray is too small to * hold the output. */ public float[] getSamples(int x, int y, int w, int h, int b, float fArray[]) { return sampleModel.getSamples(x - sampleModelTranslateX, y - sampleModelTranslateY, w, h, b, fArray, dataBuffer); } /** * Returns the samples for a specified band for a specified rectangle * of pixels in a double array, one sample per array element. * An ArrayIndexOutOfBoundsException may be thrown * if the coordinates are not in bounds. However, explicit bounds * checking is not guaranteed. * @param x The X coordinate of the upper-left pixel location * @param y The Y coordinate of the upper-left pixel location * @param w Width of the pixel rectangle * @param h Height of the pixel rectangle * @param b The band to return * @param dArray An optionally pre-allocated double array * @return the samples for the specified band for the specified * rectangle of pixels. * * @throws ArrayIndexOutOfBoundsException if the coordinates or * the band index are not in bounds, or if dArray is too small to * hold the output. */ public double[] getSamples(int x, int y, int w, int h, int b, double dArray[]) { return sampleModel.getSamples(x - sampleModelTranslateX, y - sampleModelTranslateY, w, h, b, dArray, dataBuffer); } }