From 554fd8c5195424bdbcabf5de30fdc183aba391bd Mon Sep 17 00:00:00 2001 From: upstream source tree Date: Sun, 15 Mar 2015 20:14:05 -0400 Subject: obtained gcc-4.6.4.tar.bz2 from upstream website; verified gcc-4.6.4.tar.bz2.sig; imported gcc-4.6.4 source tree from verified upstream tarball. downloading a git-generated archive based on the 'upstream' tag should provide you with a source tree that is binary identical to the one extracted from the above tarball. if you have obtained the source via the command 'git clone', however, do note that line-endings of files in your working directory might differ from line-endings of the respective files in the upstream repository. --- libjava/classpath/java/awt/image/PixelGrabber.java | 631 +++++++++++++++++++++ 1 file changed, 631 insertions(+) create mode 100644 libjava/classpath/java/awt/image/PixelGrabber.java (limited to 'libjava/classpath/java/awt/image/PixelGrabber.java') diff --git a/libjava/classpath/java/awt/image/PixelGrabber.java b/libjava/classpath/java/awt/image/PixelGrabber.java new file mode 100644 index 000000000..b83fab571 --- /dev/null +++ b/libjava/classpath/java/awt/image/PixelGrabber.java @@ -0,0 +1,631 @@ +/* PixelGrabber.java -- retrieve a subset of an image's data + Copyright (C) 1999, 2003, 2004 Free Software Foundation, Inc. + +This file is part of GNU Classpath. + +GNU Classpath is free software; you can redistribute it and/or modify +it under the terms of the GNU General Public License as published by +the Free Software Foundation; either version 2, or (at your option) +any later version. + +GNU Classpath is distributed in the hope that it will be useful, but +WITHOUT ANY WARRANTY; without even the implied warranty of +MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU +General Public License for more details. + +You should have received a copy of the GNU General Public License +along with GNU Classpath; see the file COPYING. If not, write to the +Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA +02110-1301 USA. + +Linking this library statically or dynamically with other modules is +making a combined work based on this library. Thus, the terms and +conditions of the GNU General Public License cover the whole +combination. + +As a special exception, the copyright holders of this library give you +permission to link this library with independent modules to produce an +executable, regardless of the license terms of these independent +modules, and to copy and distribute the resulting executable under +terms of your choice, provided that you also meet, for each linked +independent module, the terms and conditions of the license of that +module. An independent module is a module which is not derived from +or based on this library. If you modify this library, you may extend +this exception to your version of the library, but you are not +obligated to do so. If you do not wish to do so, delete this +exception statement from your version. */ + + +package java.awt.image; + +import java.awt.Image; +import java.util.Hashtable; + +/** + * PixelGrabber is an ImageConsumer that extracts a rectangular region + * of pixels from an Image. + */ +public class PixelGrabber implements ImageConsumer +{ + int x, y, offset; + int width = -1; + int height = -1; + int scansize = -1; + boolean forceRGB = true; + + ColorModel model = ColorModel.getRGBdefault(); + int hints; + Hashtable props; + + int int_pixel_buffer[]; + boolean ints_delivered = false; + byte byte_pixel_buffer[]; + boolean bytes_delivered = false; + + ImageProducer ip; + int observerStatus; + int consumerStatus; + + private Thread grabberThread; + boolean grabbing = false; + + /** + * Construct a PixelGrabber that will retrieve RGB data from a given + * Image. + * + * The RGB data will be retrieved from a rectangular region + * (x, y, w, h) within the image. The data will be + * stored in the provided pix array, which must have + * been initialized to a size of at least w * h. The + * data for a pixel (m, n) in the grab rectangle will be stored at + * pix[(n - y) * scansize + (m - x) + off]. + * + * @param img the Image from which to grab pixels + * @param x the x coordinate, relative to img's + * top-left corner, of the grab rectangle's top-left pixel + * @param y the y coordinate, relative to img's + * top-left corner, of the grab rectangle's top-left pixel + * @param w the width of the grab rectangle, in pixels + * @param h the height of the grab rectangle, in pixels + * @param pix the array in which to store grabbed RGB pixel data + * @param off the offset into the pix array at which to + * start storing RGB data + * @param scansize a set of scansize consecutive + * elements in the pix array represents one row of + * pixels in the grab rectangle + */ + 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); + } + + /** + * Construct a PixelGrabber that will retrieve RGB data from a given + * ImageProducer. + * + * The RGB data will be retrieved from a rectangular region + * (x, y, w, h) within the image produced by + * ip. The data will be stored in the provided + * pix array, which must have been initialized to a + * size of at least w * h. The data for a pixel (m, n) + * in the grab rectangle will be stored at + * pix[(n - y) * scansize + (m - x) + off]. + * + * @param ip the ImageProducer from which to grab pixels. This can + * be null. + * @param x the x coordinate of the grab rectangle's top-left pixel, + * specified relative to the top-left corner of the image produced + * by ip + * @param y the y coordinate of the grab rectangle's top-left pixel, + * specified relative to the top-left corner of the image produced + * by ip + * @param w the width of the grab rectangle, in pixels + * @param h the height of the grab rectangle, in pixels + * @param pix the array in which to store grabbed RGB pixel data + * @param off the offset into the pix array at which to + * start storing RGB data + * @param scansize a set of scansize consecutive + * elements in the pix array represents one row of + * pixels in the grab rectangle + */ + public PixelGrabber(ImageProducer ip, int x, int y, int w, int h, + int pix[], int off, int scansize) + { + this.ip = ip; + this.x = x; + this.y = y; + this.width = w; + this.height = h; + this.offset = off; + this.scansize = scansize; + + int_pixel_buffer = pix; + // Initialize the byte array in case ip sends us byte-formatted + // pixel data. + byte_pixel_buffer = new byte[pix.length * 4]; + } + + /** + * Construct a PixelGrabber that will retrieve data from a given + * Image. + * + * The RGB data will be retrieved from a rectangular region + * (x, y, w, h) within the image. The data will be + * stored in an internal array which can be accessed by calling + * getPixels. The data for a pixel (m, n) in the grab + * rectangle will be stored in the returned array at index + * (n - y) * scansize + (m - x) + off. + * If forceRGB is false, then the returned data will be not be + * converted to RGB from its format in img. + * + * If w is negative, the width of the grab region will + * be from x to the right edge of the image. Likewise, if + * h is negative, the height of the grab region will be + * from y to the bottom edge of the image. + * + * @param img the Image from which to grab pixels + * @param x the x coordinate, relative to img's + * top-left corner, of the grab rectangle's top-left pixel + * @param y the y coordinate, relative to img's + * top-left corner, of the grab rectangle's top-left pixel + * @param w the width of the grab rectangle, in pixels + * @param h the height of the grab rectangle, in pixels + * @param forceRGB true to force conversion of the rectangular + * region's pixel data to RGB + */ + public PixelGrabber(Image img, + int x, int y, + int w, int h, + boolean forceRGB) + { + this.ip = img.getSource(); + + if (this.ip == null) + throw new NullPointerException("The ImageProducer must not be null."); + + this.x = x; + this.y = y; + width = w; + height = h; + // If width or height is negative, postpone pixel buffer + // initialization until setDimensions is called back by ip. + if (width >= 0 && height >= 0) + { + int_pixel_buffer = new int[width * height]; + byte_pixel_buffer = new byte[width * height]; + } + this.forceRGB = forceRGB; + } + + /** + * Start grabbing pixels. + * + * Spawns an image production thread that calls back to this + * PixelGrabber's ImageConsumer methods. + */ + public synchronized void startGrabbing() + { + // Make sure we're not already grabbing. + if (grabbing == false) + { + grabbing = true; + grabberThread = new Thread () + { + public void run () + { + try + { + ip.startProduction (PixelGrabber.this); + } + catch (Exception ex) + { + imageComplete(ImageConsumer.IMAGEABORTED); + } + } + }; + grabberThread.start (); + } + } + + /** + * Abort pixel grabbing. + */ + public synchronized void abortGrabbing() + { + if (grabbing) + { + // Interrupt the grabbing thread. + Thread moribund = grabberThread; + grabberThread = null; + moribund.interrupt(); + + imageComplete (ImageConsumer.IMAGEABORTED); + } + } + + /** + * Have our Image or ImageProducer start sending us pixels via our + * ImageConsumer methods and wait for all pixels in the grab + * rectangle to be delivered. + * + * @return true if successful, false on abort or error + * + * @throws InterruptedException if interrupted by another thread. + */ + public synchronized boolean grabPixels() throws InterruptedException + { + return grabPixels(0); + } + + /** + * grabPixels's behavior depends on the value of ms. + * + * If ms < 0, return true if all pixels from the source image have + * been delivered, false otherwise. Do not wait. + * + * If ms >= 0 then we request that our Image or ImageProducer start + * delivering pixels to us via our ImageConsumer methods. + * + * If ms > 0, wait at most ms milliseconds for + * delivery of all pixels within the grab rectangle. + * + * If ms == 0, wait until all pixels have been delivered. + * + * @return true if all pixels from the source image have been + * delivered, false otherwise + * + * @throws InterruptedException if this thread is interrupted while + * we are waiting for pixels to be delivered + */ + public synchronized boolean grabPixels(long ms) throws InterruptedException + { + if (ms < 0) + return ((observerStatus & (ImageObserver.FRAMEBITS + | ImageObserver.ALLBITS)) != 0); + + // Spawn a new ImageProducer thread to send us the image data via + // our ImageConsumer methods. + startGrabbing(); + + if (ms > 0) + { + long stop_time = System.currentTimeMillis() + ms; + long time_remaining; + while (grabbing) + { + time_remaining = stop_time - System.currentTimeMillis(); + if (time_remaining <= 0) + break; + wait (time_remaining); + } + abortGrabbing (); + } + else + wait (); + + // If consumerStatus is non-zero then the image is done loading or + // an error has occurred. + if (consumerStatus != 0) + return setObserverStatus (); + + return ((observerStatus & (ImageObserver.FRAMEBITS + | ImageObserver.ALLBITS)) != 0); + } + + // Set observer status flags based on the current consumer status + // flags. Return true if the consumer flags indicate that the + // image was loaded successfully, or false otherwise. + private synchronized boolean setObserverStatus () + { + boolean retval = false; + + if ((consumerStatus & IMAGEERROR) != 0) + observerStatus |= ImageObserver.ERROR; + + if ((consumerStatus & IMAGEABORTED) != 0) + observerStatus |= ImageObserver.ABORT; + + if ((consumerStatus & STATICIMAGEDONE) != 0) + { + observerStatus |= ImageObserver.ALLBITS; + retval = true; + } + + if ((consumerStatus & SINGLEFRAMEDONE) != 0) + { + observerStatus |= ImageObserver.FRAMEBITS; + retval = true; + } + + return retval; + } + + /** + * @return the status of the pixel grabbing thread, represented by a + * bitwise OR of ImageObserver flags + */ + public synchronized int getStatus() + { + return observerStatus; + } + + /** + * @return the width of the grab rectangle in pixels, or a negative + * number if the ImageProducer has not yet called our setDimensions + * method + */ + public synchronized int getWidth() + { + return width; + } + + /** + * @return the height of the grab rectangle in pixels, or a negative + * number if the ImageProducer has not yet called our setDimensions + * method + */ + public synchronized int getHeight() + { + return height; + } + + /** + * @return a byte array of pixel data if ImageProducer delivered + * pixel data using the byte[] variant of setPixels, or an int array + * otherwise + */ + public synchronized Object getPixels() + { + if (ints_delivered) + return int_pixel_buffer; + else if (bytes_delivered) + return byte_pixel_buffer; + else + return null; + } + + /** + * @return the ColorModel currently being used for the majority of + * pixel data conversions + */ + public synchronized ColorModel getColorModel() + { + return model; + } + + /** + * Our ImageProducer calls this method to indicate the + * size of the image being produced. + * + * setDimensions is an ImageConsumer method. None of PixelGrabber's + * ImageConsumer methods should be called by code that instantiates + * a PixelGrabber. They are only made public so they can be called + * by the PixelGrabber's ImageProducer. + * + * @param width the width of the image + * @param height the height of the image + */ + public synchronized void setDimensions(int width, int height) + { + // Our width wasn't set when we were constructed. Set our width + // so that the grab region includes all pixels from x to the right + // edge of the source image. + if (this.width < 0) + this.width = width - x; + + // Our height wasn't set when we were constructed. Set our height + // so that the grab region includes all pixels from y to the + // bottom edge of the source image. + if (this.height < 0) + this.height = height - y; + + if (scansize < 0) + scansize = this.width; + + if (int_pixel_buffer == null) + int_pixel_buffer = new int[this.width * this.height]; + + if (byte_pixel_buffer == null) + byte_pixel_buffer = new byte[this.width * this.height]; + } + + /** + * Our ImageProducer may call this method to send us a + * list of its image's properties. + * + * setProperties is an ImageConsumer method. None of PixelGrabber's + * ImageConsumer methods should be called by code that instantiates + * a PixelGrabber. They are only made public so they can be called + * by the PixelGrabber's ImageProducer. + * + * @param props a list of properties associated with the image being + * produced + */ + public synchronized void setProperties(Hashtable props) + { + this.props = props; + } + + /** + * Our ImageProducer will call setColorModel to + * indicate the model used by the majority of calls to + * setPixels. Each call to setPixels + * could however indicate a different ColorModel. + * + * setColorModel is an ImageConsumer method. None of PixelGrabber's + * ImageConsumer methods should be called by code that instantiates + * a PixelGrabber. They are only made public so they can be called + * by the PixelGrabber's ImageProducer. + * + * @param model the color model to be used most often by setPixels + * + * @see ColorModel + */ + public synchronized void setColorModel(ColorModel model) + { + this.model = model; + } + + /** + * Our ImageProducer may call this method with a + * bit mask of hints from any of RANDOMPIXELORDER, + * TOPDOWNLEFTRIGHT, COMPLETESCANLINES, + * SINGLEPASS, SINGLEFRAME. + * + * setHints is an ImageConsumer method. None of PixelGrabber's + * ImageConsumer methods should be called by code that instantiates + * a PixelGrabber. They are only made public so they can be called + * by the PixelGrabber's ImageProducer. + * + * @param flags a bit mask of hints + */ + public synchronized void setHints(int flags) + { + hints = flags; + } + + /** + * Our ImageProducer calls setPixels to deliver a subset of its + * pixels. + * + * Each element of the pixels array represents one pixel. The + * pixel data is formatted according to the color model model. + * The x and y parameters are the coordinates of the rectangular + * region of pixels being delivered to this ImageConsumer, + * specified relative to the top left corner of the image being + * produced. Likewise, w and h are the pixel region's dimensions. + * + * @param x x coordinate of pixel block + * @param y y coordinate of pixel block + * @param w width of pixel block + * @param h height of pixel block + * @param model color model used to interpret pixel data + * @param pixels pixel block data + * @param offset offset into pixels array + * @param scansize width of one row in the pixel block + */ + public synchronized void setPixels(int x, int y, int w, int h, + ColorModel model, byte[] pixels, + int offset, int scansize) + { + ColorModel currentModel; + if (model != null) + currentModel = model; + else + currentModel = this.model; + + for(int yp = y; yp < (y + h); yp++) + { + for(int xp = x; xp < (x + w); xp++) + { + // Check if the coordinates (xp, yp) are within the + // pixel block that we are grabbing. + if(xp >= this.x + && yp >= this.y + && xp < (this.x + this.width) + && yp < (this.y + this.height)) + { + int i = (yp - this.y) * this.scansize + (xp - this.x) + this.offset; + int p = (yp - y) * scansize + (xp - x) + offset; + if (forceRGB) + { + ints_delivered = true; + + int_pixel_buffer[i] = currentModel.getRGB (pixels[p] & 0xFF); + } + else + { + bytes_delivered = true; + + byte_pixel_buffer[i] = pixels[p]; + } + } + } + } + } + + /** + * Our ImageProducer calls setPixels to deliver a subset of its + * pixels. + * + * Each element of the pixels array represents one pixel. The + * pixel data is formatted according to the color model model. + * The x and y parameters are the coordinates of the rectangular + * region of pixels being delivered to this ImageConsumer, + * specified relative to the top left corner of the image being + * produced. Likewise, w and h are the pixel region's dimensions. + * + * @param x x coordinate of pixel block + * @param y y coordinate of pixel block + * @param w width of pixel block + * @param h height of pixel block + * @param model color model used to interpret pixel data + * @param pixels pixel block data + * @param offset offset into pixels array + * @param scansize width of one row in the pixel block + */ + public synchronized void setPixels(int x, int y, int w, int h, + ColorModel model, int[] pixels, + int offset, int scansize) + { + ColorModel currentModel; + if (model != null) + currentModel = model; + else + currentModel = this.model; + + ints_delivered = true; + + for(int yp = y; yp < (y + h); yp++) + { + for(int xp = x; xp < (x + w); xp++) + { + // Check if the coordinates (xp, yp) are within the + // pixel block that we are grabbing. + if(xp >= this.x + && yp >= this.y + && xp < (this.x + this.width) + && yp < (this.y + this.height)) + { + int i = (yp - this.y) * this.scansize + (xp - this.x) + this.offset; + int p = (yp - y) * scansize + (xp - x) + offset; + if (forceRGB) + int_pixel_buffer[i] = currentModel.getRGB (pixels[p]); + else + int_pixel_buffer[i] = pixels[p]; + } + } + } + } + + /** + * Our ImageProducer calls this method to inform us + * that a single frame or the entire image is complete. The method + * is also used to inform us of an error in loading or producing the + * image. + * + * @param status the status of image production, represented by a + * bitwise OR of ImageConsumer flags + */ + public synchronized void imageComplete(int status) + { + consumerStatus = status; + setObserverStatus (); + grabbing = false; + if (ip != null) + ip.removeConsumer (this); + + notifyAll (); + } + + /** + * @return the return value of getStatus + * + * @specnote The newer getStatus should be used in place of status. + */ + public synchronized int status() + { + return getStatus(); + } +} -- cgit v1.2.3