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JDK 1.1 Source Code Directory
JDK 1.1 source code directory contains Java source code for JDK 1.1 core classes:
"C:\fyicenter\jdk-1.1.8\src".
Here is the list of Java classes of the JDK 1.1 source code:
✍: FYIcenter
⏎ java/awt/image/PixelGrabber.java
/* * @(#)PixelGrabber.java 1.9 01/12/10 * * Copyright 2002 Sun Microsystems, Inc. All rights reserved. * SUN PROPRIETARY/CONFIDENTIAL. Use is subject to license terms. */ package java.awt.image; import java.util.Hashtable; import java.awt.image.ImageProducer; import java.awt.image.ImageConsumer; import java.awt.image.ColorModel; import java.awt.Image; /** * The PixelGrabber class implements an ImageConsumer which can be attached * to an Image or ImageProducer object to retrieve a subset of the pixels * in that image. Here is an example: * <pre> * * public void handlesinglepixel(int x, int y, int pixel) { * int alpha = (pixel >> 24) & 0xff; * int red = (pixel >> 16) & 0xff; * int green = (pixel >> 8) & 0xff; * int blue = (pixel ) & 0xff; * // Deal with the pixel as necessary... * } * * public void handlepixels(Image img, int x, int y, int w, int h) { * int[] pixels = new int[w * h]; * PixelGrabber pg = new PixelGrabber(img, x, y, w, h, pixels, 0, w); * try { * pg.grabPixels(); * } catch (InterruptedException e) { * System.err.println("interrupted waiting for pixels!"); * return; * } * if ((pg.getStatus() & ImageObserver.ABORT) != 0) { * System.err.println("image fetch aborted or errored"); * return; * } * for (int j = 0; j < h; j++) { * for (int i = 0; i < w; i++) { * handlesinglepixel(x+i, y+j, pixels[j * w + i]); * } * } * } * * </pre> * * @see ColorModel#getRGBdefault * * @version 1.9, 12/10/01 * @author Jim Graham */ public class PixelGrabber implements ImageConsumer { ImageProducer producer; int dstX; int dstY; int dstW; int dstH; ColorModel imageModel; byte[] bytePixels; int[] intPixels; int dstOff; int dstScan; private boolean grabbing; private int flags; private final int GRABBEDBITS = (ImageObserver.FRAMEBITS | ImageObserver.ALLBITS); private final int DONEBITS = (GRABBEDBITS | ImageObserver.ERROR); /** * Create a PixelGrabber object to grab the (x, y, w, h) rectangular * section of pixels from the specified image into the given array. * The pixels are stored into the array in the default RGB ColorModel. * The RGB data for pixel (i, j) where (i, j) is inside the rectangle * (x, y, w, h) is stored in the array at * <tt>pix[(j - y) * scansize + (i - x) + off]</tt>. * @see ColorModel#getRGBdefault * @param img the image to retrieve pixels from * @param x the x coordinate of the upper left corner of the rectangle * of pixels to retrieve from the image, relative to the default * (unscaled) size of the image * @param y the y coordinate of the upper left corner of the rectangle * of pixels to retrieve from the image * @param w the width of the rectangle of pixels to retrieve * @param h the height of the rectangle of pixels to retrieve * @param pix the array of integers which are to be used to hold the * RGB pixels retrieved from the image * @param off the offset into the array of where to store the first pixel * @param scansize the distance from one row of pixels to the next in * the array */ public PixelGrabber(Image img, int x, int y, int w, int h, int[] pix, int off, int scansize) { this(img.getSource(), x, y, w, h, pix, off, scansize); } /** * Create a PixelGrabber object to grab the (x, y, w, h) rectangular * section of pixels from the image produced by the specified * ImageProducer into the given array. * The pixels are stored into the array in the default RGB ColorModel. * The RGB data for pixel (i, j) where (i, j) is inside the rectangle * (x, y, w, h) is stored in the array at * <tt>pix[(j - y) * scansize + (i - x) + off]</tt>. * @see ColorModel#getRGBdefault * @param img the image to retrieve pixels from * @param x the x coordinate of the upper left corner of the rectangle * of pixels to retrieve from the image, relative to the default * (unscaled) size of the image * @param y the y coordinate of the upper left corner of the rectangle * of pixels to retrieve from the image * @param w the width of the rectangle of pixels to retrieve * @param h the height of the rectangle of pixels to retrieve * @param pix the array of integers which are to be used to hold the * RGB pixels retrieved from the image * @param off the offset into the array of where to store the first pixel * @param scansize the distance from one row of pixels to the next in * the array */ public PixelGrabber(ImageProducer ip, int x, int y, int w, int h, int[] pix, int off, int scansize) { producer = ip; dstX = x; dstY = y; dstW = w; dstH = h; dstOff = off; dstScan = scansize; intPixels = pix; imageModel = ColorModel.getRGBdefault(); } /** * Create a PixelGrabber object to grab the (x, y, w, h) rectangular * section of pixels from the specified image. The pixels are * accumulated in the original ColorModel if the same ColorModel * is used for every call to setPixels, otherwise the pixels are * accumulated in the default RGB ColorModel. If the forceRGB * parameter is true, then the pixels will be accumulated in the * default RGB ColorModel anywya. A buffer is allocated by the * PixelGrabber to hold the pixels in either case. If (w < 0) or * (h < 0), then they will default to the remaining width and * height of the source data when that information is delivered. * @param img the image to retrieve the image data from * @param x the x coordinate of the upper left corner of the rectangle * of pixels to retrieve from the image, relative to the default * (unscaled) size of the image * @param y the y coordinate of the upper left corner of the rectangle * of pixels to retrieve from the image * @param w the width of the rectangle of pixels to retrieve * @param h the height of the rectangle of pixels to retrieve * @param forceRGB true if the pixels should always be converted to * the default RGB ColorModel */ public PixelGrabber(Image img, int x, int y, int w, int h, boolean forceRGB) { producer = img.getSource(); dstX = x; dstY = y; dstW = w; dstH = h; if (forceRGB) { imageModel = ColorModel.getRGBdefault(); } } /** * Request the PixelGrabber to start fetching the pixels. */ public synchronized void startGrabbing() { if ((flags & DONEBITS) != 0) { return; } if (!grabbing) { grabbing = true; flags &= ~(ImageObserver.ABORT); producer.startProduction(this); } } /** * Request the PixelGrabber to abort the image fetch. */ public synchronized void abortGrabbing() { imageComplete(IMAGEABORTED); } /** * Request the Image or ImageProducer to start delivering pixels and * wait for all of the pixels in the rectangle of interest to be * delivered. * @return true if the pixels were successfully grabbed, false on * abort, error or timeout * @exception InterruptedException * Another thread has interrupted this thread. */ public boolean grabPixels() throws InterruptedException { return grabPixels(0); } /** * Request the Image or ImageProducer to start delivering pixels and * wait for all of the pixels in the rectangle of interest to be * delivered or until the specified timeout has elapsed. * @param ms the number of milliseconds to wait for the image pixels * to arrive before timing out * @return true if the pixels were successfully grabbed, false on * abort, error or timeout * @exception InterruptedException * Another thread has interrupted this thread. */ public synchronized boolean grabPixels(long ms) throws InterruptedException { if ((flags & DONEBITS) != 0) { return (flags & GRABBEDBITS) != 0; } long end = ms + System.currentTimeMillis(); if (!grabbing) { grabbing = true; flags &= ~(ImageObserver.ABORT); producer.startProduction(this); } while (grabbing) { long timeout; if (ms == 0) { timeout = 0; } else { timeout = end - System.currentTimeMillis(); if (timeout <= 0) { break; } } wait(timeout); } return (flags & GRABBEDBITS) != 0; } /** * Return the status of the pixels. The ImageObserver flags * representing the available pixel information are returned. * @see ImageObserver * @return the bitwise OR of all relevant ImageObserver flags */ public synchronized int getStatus() { return flags; } /** * Get the width of the pixel buffer (after adjusting for image width). * If no width was specified for the rectangle of pixels to grab then * then this information will only be available after the image has * delivered the dimensions. * @return the final width used for the pixel buffer or -1 if the width * is not yet known * @see #getStatus */ public synchronized int getWidth() { return (dstW < 0) ? -1 : dstW; } /** * Get the height of the pixel buffer (after adjusting for image height). * If no width was specified for the rectangle of pixels to grab then * then this information will only be available after the image has * delivered the dimensions. * @return the final height used for the pixel buffer or -1 if the height * is not yet known * @see #getStatus */ public synchronized int getHeight() { return (dstH < 0) ? -1 : dstH; } /** * Get the pixel buffer. If the PixelGrabber was not constructed * with an explicit pixel buffer to hold the pixels then this method * will return null until the size and format of the image data is * known. * Since the PixelGrabber may fall back on accumulating the data * in the default RGB ColorModel at any time if the source image * uses more than one ColorModel to deliver the data, the array * object returned by this method may change over time until the * image grab is complete. * @return either a byte array or an int array * @see #getStatus */ public synchronized Object getPixels() { return (bytePixels == null) ? ((Object) intPixels) : ((Object) bytePixels); } /** * Get the ColorModel for the pixels stored in the array. If the * PixelGrabber was constructed with an explicit pixel buffer then * this method will always return the default RGB ColorModel, * otherwise it may return null until the ColorModel used by the * ImageProducer is known. * Since the PixelGrabber may fall back on accumulating the data * in the default RGB ColorModel at any time if the source image * uses more than one ColorModel to deliver the data, the ColorModel * object returned by this method may change over time until the * image grab is complete. * @return the ColorModel object used for storing the pixels * @see #getStatus * @see ColorModel#getRGBdefault */ public synchronized ColorModel getColorModel() { return imageModel; } /** * The setDimensions method is part of the ImageConsumer API which * this class must implement to retrieve the pixels. */ public void setDimensions(int width, int height) { if (dstW < 0) { dstW = width - dstX; } if (dstH < 0) { dstH = height - dstY; } if (dstW <= 0 || dstH <= 0) { imageComplete(STATICIMAGEDONE); } else if (intPixels == null && imageModel == ColorModel.getRGBdefault()) { intPixels = new int[dstW * dstH]; dstScan = dstW; dstOff = 0; } flags |= (ImageObserver.WIDTH | ImageObserver.HEIGHT); } /** * The setHints method is part of the ImageConsumer API which * this class must implement to retrieve the pixels. */ public void setHints(int hints) { return; } /** * The setProperties method is part of the ImageConsumer API which * this class must implement to retrieve the pixels. */ public void setProperties(Hashtable props) { return; } /** * The setColorModel method is part of the ImageConsumer API which * this class must implement to retrieve the pixels. */ public void setColorModel(ColorModel model) { return; } private void convertToRGB() { int size = dstW * dstH; int newpixels[] = new int[size]; if (bytePixels != null) { for (int i = 0; i < size; i++) { newpixels[i] = imageModel.getRGB(bytePixels[i] & 0xff); } } else if (intPixels != null) { for (int i = 0; i < size; i++) { newpixels[i] = imageModel.getRGB(intPixels[i]); } } bytePixels = null; intPixels = newpixels; dstScan = dstW; dstOff = 0; imageModel = ColorModel.getRGBdefault(); } /** * The setPixels method is part of the ImageConsumer API which * this class must implement to retrieve the pixels. */ public void setPixels(int srcX, int srcY, int srcW, int srcH, ColorModel model, byte pixels[], int srcOff, int srcScan) { if (srcY < dstY) { int diff = dstY - srcY; if (diff >= srcH) { return; } srcOff += srcScan * diff; srcY += diff; srcH -= diff; } if (srcY + srcH > dstY + dstH) { srcH = (dstY + dstH) - srcY; if (srcH <= 0) { return; } } if (srcX < dstX) { int diff = dstX - srcX; if (diff >= srcW) { return; } srcOff += diff; srcX += diff; srcW -= diff; } if (srcX + srcW > dstX + dstW) { srcW = (dstX + dstW) - srcX; if (srcW <= 0) { return; } } int dstPtr = dstOff + (srcY - dstY) * dstScan + (srcX - dstX); if (intPixels == null) { if (bytePixels == null) { bytePixels = new byte[dstW * dstH]; dstScan = dstW; dstOff = 0; imageModel = model; } else if (imageModel != model) { convertToRGB(); } if (bytePixels != null) { for (int h = srcH; h > 0; h--) { System.arraycopy(pixels, srcOff, bytePixels, dstPtr, srcW); srcOff += srcScan; dstPtr += dstScan; } } } if (intPixels != null) { int dstRem = dstScan - srcW; int srcRem = srcScan - srcW; for (int h = srcH; h > 0; h--) { for (int w = srcW; w > 0; w--) { intPixels[dstPtr++] = model.getRGB(pixels[srcOff++]&0xff); } srcOff += srcRem; dstPtr += dstRem; } } flags |= ImageObserver.SOMEBITS; } /** * The setPixels method is part of the ImageConsumer API which * this class must implement to retrieve the pixels. */ public void setPixels(int srcX, int srcY, int srcW, int srcH, ColorModel model, int pixels[], int srcOff, int srcScan) { if (srcY < dstY) { int diff = dstY - srcY; if (diff >= srcH) { return; } srcOff += srcScan * diff; srcY += diff; srcH -= diff; } if (srcY + srcH > dstY + dstH) { srcH = (dstY + dstH) - srcY; if (srcH <= 0) { return; } } if (srcX < dstX) { int diff = dstX - srcX; if (diff >= srcW) { return; } srcOff += diff; srcX += diff; srcW -= diff; } if (srcX + srcW > dstX + dstW) { srcW = (dstX + dstW) - srcX; if (srcW <= 0) { return; } } if (intPixels == null) { if (bytePixels == null) { intPixels = new int[dstW * dstH]; dstScan = dstW; dstOff = 0; imageModel = model; } else { convertToRGB(); } } int dstPtr = dstOff + (srcY - dstY) * dstScan + (srcX - dstX); if (imageModel == model) { for (int h = srcH; h > 0; h--) { System.arraycopy(pixels, srcOff, intPixels, dstPtr, srcW); srcOff += srcScan; dstPtr += dstScan; } } else { if (imageModel != ColorModel.getRGBdefault()) { convertToRGB(); } int dstRem = dstScan - srcW; int srcRem = srcScan - srcW; for (int h = srcH; h > 0; h--) { for (int w = srcW; w > 0; w--) { intPixels[dstPtr++] = model.getRGB(pixels[srcOff++]); } srcOff += srcRem; dstPtr += dstRem; } } flags |= ImageObserver.SOMEBITS; } /** * The imageComplete method is part of the ImageConsumer API which * this class must implement to retrieve the pixels. */ public synchronized void imageComplete(int status) { grabbing = false; switch (status) { default: case IMAGEERROR: flags |= ImageObserver.ERROR | ImageObserver.ABORT; break; case IMAGEABORTED: flags |= ImageObserver.ABORT; break; case STATICIMAGEDONE: flags |= ImageObserver.ALLBITS; break; case SINGLEFRAMEDONE: flags |= ImageObserver.FRAMEBITS; break; } producer.removeConsumer(this); notifyAll(); } /** * DEPRECATED: Replaced by getStatus(). */ public synchronized int status() { return flags; } }
⏎ java/awt/image/PixelGrabber.java
Or download all of them as a single archive file:
File name: jdk-1.1.8-src.zip File size: 1574187 bytes Release date: 2018-11-16 Download
⇒ Backup JDK 1.1 Installation Directory
2018-11-17, 175217👍, 0💬
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