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Java example source code file (X11SurfaceData.java)
The X11SurfaceData.java Java example source code/* * Copyright (c) 1999, 2011, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code 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 * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package sun.java2d.x11; import java.awt.GraphicsDevice; import java.awt.GraphicsEnvironment; import java.awt.Color; import java.awt.Composite; import java.awt.Rectangle; import java.awt.GraphicsConfiguration; import java.awt.Image; import java.awt.color.ColorSpace; import java.awt.Transparency; import java.awt.image.BufferedImage; import java.awt.image.ColorModel; import java.awt.image.ComponentColorModel; import java.awt.image.DirectColorModel; import java.awt.image.IndexColorModel; import java.awt.image.Raster; import java.awt.peer.ComponentPeer; import sun.awt.SunHints; import sun.awt.SunToolkit; import sun.awt.X11ComponentPeer; import sun.awt.X11GraphicsConfig; import sun.awt.X11GraphicsEnvironment; import sun.awt.image.PixelConverter; import sun.font.X11TextRenderer; import sun.java2d.InvalidPipeException; import sun.java2d.SunGraphics2D; import sun.java2d.SunGraphicsEnvironment; import sun.java2d.SurfaceData; import sun.java2d.SurfaceDataProxy; import sun.java2d.loops.SurfaceType; import sun.java2d.loops.CompositeType; import sun.java2d.loops.RenderLoops; import sun.java2d.loops.GraphicsPrimitive; import sun.java2d.loops.XORComposite; import sun.java2d.loops.Blit; import sun.java2d.pipe.ValidatePipe; import sun.java2d.pipe.PixelToShapeConverter; import sun.java2d.pipe.TextPipe; import sun.java2d.pipe.Region; public abstract class X11SurfaceData extends XSurfaceData { X11ComponentPeer peer; X11GraphicsConfig graphicsConfig; private RenderLoops solidloops; protected int depth; private static native void initIDs(Class xorComp, boolean tryDGA); protected native void initSurface(int depth, int width, int height, long drawable); public static final String DESC_INT_BGR_X11 = "Integer BGR Pixmap"; public static final String DESC_INT_RGB_X11 = "Integer RGB Pixmap"; public static final String DESC_4BYTE_ABGR_PRE_X11 = "4 byte ABGR Pixmap with pre-multplied alpha"; public static final String DESC_INT_ARGB_PRE_X11 = "Integer ARGB Pixmap with pre-multiplied " + "alpha"; public static final String DESC_BYTE_IND_OPQ_X11 = "Byte Indexed Opaque Pixmap"; public static final String DESC_INT_BGR_X11_BM = "Integer BGR Pixmap with 1-bit transp"; public static final String DESC_INT_RGB_X11_BM = "Integer RGB Pixmap with 1-bit transp"; public static final String DESC_BYTE_IND_X11_BM = "Byte Indexed Pixmap with 1-bit transp"; public static final String DESC_BYTE_GRAY_X11 = "Byte Gray Opaque Pixmap"; public static final String DESC_INDEX8_GRAY_X11 = "Index8 Gray Opaque Pixmap"; public static final String DESC_BYTE_GRAY_X11_BM = "Byte Gray Opaque Pixmap with 1-bit transp"; public static final String DESC_INDEX8_GRAY_X11_BM = "Index8 Gray Opaque Pixmap with 1-bit transp"; public static final String DESC_3BYTE_RGB_X11 = "3 Byte RGB Pixmap"; public static final String DESC_3BYTE_BGR_X11 = "3 Byte BGR Pixmap"; public static final String DESC_3BYTE_RGB_X11_BM = "3 Byte RGB Pixmap with 1-bit transp"; public static final String DESC_3BYTE_BGR_X11_BM = "3 Byte BGR Pixmap with 1-bit transp"; public static final String DESC_USHORT_555_RGB_X11 = "Ushort 555 RGB Pixmap"; public static final String DESC_USHORT_565_RGB_X11 = "Ushort 565 RGB Pixmap"; public static final String DESC_USHORT_555_RGB_X11_BM = "Ushort 555 RGB Pixmap with 1-bit transp"; public static final String DESC_USHORT_565_RGB_X11_BM = "Ushort 565 RGB Pixmap with 1-bit transp"; public static final String DESC_USHORT_INDEXED_X11 = "Ushort Indexed Pixmap"; public static final String DESC_USHORT_INDEXED_X11_BM = "Ushort Indexed Pixmap with 1-bit transp"; public static final SurfaceType IntBgrX11 = SurfaceType.IntBgr.deriveSubType(DESC_INT_BGR_X11); public static final SurfaceType IntRgbX11 = SurfaceType.IntRgb.deriveSubType(DESC_INT_RGB_X11); public static final SurfaceType FourByteAbgrPreX11 = SurfaceType.FourByteAbgrPre.deriveSubType(DESC_4BYTE_ABGR_PRE_X11); public static final SurfaceType IntArgbPreX11 = SurfaceType.IntArgbPre.deriveSubType(DESC_INT_ARGB_PRE_X11); public static final SurfaceType ThreeByteRgbX11 = SurfaceType.ThreeByteRgb.deriveSubType(DESC_3BYTE_RGB_X11); public static final SurfaceType ThreeByteBgrX11 = SurfaceType.ThreeByteBgr.deriveSubType(DESC_3BYTE_BGR_X11); public static final SurfaceType UShort555RgbX11 = SurfaceType.Ushort555Rgb.deriveSubType(DESC_USHORT_555_RGB_X11); public static final SurfaceType UShort565RgbX11 = SurfaceType.Ushort565Rgb.deriveSubType(DESC_USHORT_565_RGB_X11); public static final SurfaceType UShortIndexedX11 = SurfaceType.UshortIndexed.deriveSubType(DESC_USHORT_INDEXED_X11); public static final SurfaceType ByteIndexedOpaqueX11 = SurfaceType.ByteIndexedOpaque.deriveSubType(DESC_BYTE_IND_OPQ_X11); public static final SurfaceType ByteGrayX11 = SurfaceType.ByteGray.deriveSubType(DESC_BYTE_GRAY_X11); public static final SurfaceType Index8GrayX11 = SurfaceType.Index8Gray.deriveSubType(DESC_INDEX8_GRAY_X11); // Bitmap surface types public static final SurfaceType IntBgrX11_BM = SurfaceType.Custom.deriveSubType(DESC_INT_BGR_X11_BM, PixelConverter.Xbgr.instance); public static final SurfaceType IntRgbX11_BM = SurfaceType.Custom.deriveSubType(DESC_INT_RGB_X11_BM, PixelConverter.Xrgb.instance); public static final SurfaceType ThreeByteRgbX11_BM = SurfaceType.Custom.deriveSubType(DESC_3BYTE_RGB_X11_BM, PixelConverter.Xbgr.instance); public static final SurfaceType ThreeByteBgrX11_BM = SurfaceType.Custom.deriveSubType(DESC_3BYTE_BGR_X11_BM, PixelConverter.Xrgb.instance); public static final SurfaceType UShort555RgbX11_BM = SurfaceType.Custom.deriveSubType(DESC_USHORT_555_RGB_X11_BM, PixelConverter.Ushort555Rgb.instance); public static final SurfaceType UShort565RgbX11_BM = SurfaceType.Custom.deriveSubType(DESC_USHORT_565_RGB_X11_BM, PixelConverter.Ushort565Rgb.instance); public static final SurfaceType UShortIndexedX11_BM = SurfaceType.Custom.deriveSubType(DESC_USHORT_INDEXED_X11_BM); public static final SurfaceType ByteIndexedX11_BM = SurfaceType.Custom.deriveSubType(DESC_BYTE_IND_X11_BM); public static final SurfaceType ByteGrayX11_BM = SurfaceType.Custom.deriveSubType(DESC_BYTE_GRAY_X11_BM); public static final SurfaceType Index8GrayX11_BM = SurfaceType.Custom.deriveSubType(DESC_INDEX8_GRAY_X11_BM); private static Boolean accelerationEnabled = null; public Raster getRaster(int x, int y, int w, int h) { throw new InternalError("not implemented yet"); } protected X11Renderer x11pipe; protected PixelToShapeConverter x11txpipe; protected static TextPipe x11textpipe; protected static boolean dgaAvailable; static { if (!isX11SurfaceDataInitialized() && !GraphicsEnvironment.isHeadless()) { // If a screen magnifier is present, don't attempt to use DGA String magPresent = (String) java.security.AccessController.doPrivileged (new sun.security.action.GetPropertyAction("javax.accessibility.screen_magnifier_present")); boolean tryDGA = magPresent == null || !"true".equals(magPresent); initIDs(XORComposite.class, tryDGA); String xtextpipe = (String) java.security.AccessController.doPrivileged (new sun.security.action.GetPropertyAction("sun.java2d.xtextpipe")); if (xtextpipe == null || "true".startsWith(xtextpipe)) { if ("true".equals(xtextpipe)) { // Only verbose if they use the full string "true" System.out.println("using X11 text renderer"); } x11textpipe = new X11TextRenderer(); if (GraphicsPrimitive.tracingEnabled()) { x11textpipe = ((X11TextRenderer) x11textpipe).traceWrap(); } } else { if ("false".equals(xtextpipe)) { // Only verbose if they use the full string "false" System.out.println("using DGA text renderer"); } x11textpipe = solidTextRenderer; } dgaAvailable = isDgaAvailable(); if (isAccelerationEnabled()) { X11PMBlitLoops.register(); X11PMBlitBgLoops.register(); } } } /** * Returns true if we can use DGA on any of the screens */ public static native boolean isDgaAvailable(); /** * Returns true if shared memory pixmaps are available */ private static native boolean isShmPMAvailable(); public static boolean isAccelerationEnabled() { if (accelerationEnabled == null) { if (GraphicsEnvironment.isHeadless()) { accelerationEnabled = Boolean.FALSE; } else { String prop = (String) java.security.AccessController.doPrivileged( new sun.security.action.GetPropertyAction("sun.java2d.pmoffscreen")); if (prop != null) { // true iff prop==true, false otherwise accelerationEnabled = Boolean.valueOf(prop); } else { boolean isDisplayLocal = false; GraphicsEnvironment ge = GraphicsEnvironment.getLocalGraphicsEnvironment(); if (ge instanceof SunGraphicsEnvironment) { isDisplayLocal = ((SunGraphicsEnvironment) ge).isDisplayLocal(); } // EXA based drivers tend to place pixmaps in VRAM, slowing down readbacks. // Don't use pixmaps if dga is available, // or we are local and shared memory Pixmaps are not available. accelerationEnabled = !(isDgaAvailable() || (isDisplayLocal && !isShmPMAvailable())); } } } return accelerationEnabled.booleanValue(); } @Override public SurfaceDataProxy makeProxyFor(SurfaceData srcData) { return X11SurfaceDataProxy.createProxy(srcData, graphicsConfig); } public void validatePipe(SunGraphics2D sg2d) { if (sg2d.antialiasHint != SunHints.INTVAL_ANTIALIAS_ON && sg2d.paintState <= SunGraphics2D.PAINT_ALPHACOLOR && (sg2d.compositeState <= SunGraphics2D.COMP_ISCOPY || sg2d.compositeState == SunGraphics2D.COMP_XOR)) { if (x11txpipe == null) { /* * Note: this is thread-safe since x11txpipe is the * second of the two pipes constructed in makePipes(). * In the rare case we are racing against another * thread making new pipes, setting lazypipe is a * safe alternative to waiting for the other thread. */ sg2d.drawpipe = lazypipe; sg2d.fillpipe = lazypipe; sg2d.shapepipe = lazypipe; sg2d.imagepipe = lazypipe; sg2d.textpipe = lazypipe; return; } if (sg2d.clipState == SunGraphics2D.CLIP_SHAPE) { // Do this to init textpipe correctly; we will override the // other non-text pipes below // REMIND: we should clean this up eventually instead of // having this work duplicated. super.validatePipe(sg2d); } else { switch (sg2d.textAntialiasHint) { case SunHints.INTVAL_TEXT_ANTIALIAS_DEFAULT: /* equating to OFF which it is for us */ case SunHints.INTVAL_TEXT_ANTIALIAS_OFF: // Use X11 pipe even if DGA is available since DGA // text slows everything down when mixed with X11 calls if (sg2d.compositeState == SunGraphics2D.COMP_ISCOPY) { sg2d.textpipe = x11textpipe; } else { sg2d.textpipe = solidTextRenderer; } break; case SunHints.INTVAL_TEXT_ANTIALIAS_ON: // Remind: may use Xrender for these when composite is // copy as above, or if remote X11. sg2d.textpipe = aaTextRenderer; break; default: switch (sg2d.getFontInfo().aaHint) { case SunHints.INTVAL_TEXT_ANTIALIAS_LCD_HRGB: case SunHints.INTVAL_TEXT_ANTIALIAS_LCD_VRGB: sg2d.textpipe = lcdTextRenderer; break; case SunHints.INTVAL_TEXT_ANTIALIAS_OFF: // Use X11 pipe even if DGA is available since DGA // text slows everything down when mixed with X11 calls if (sg2d.compositeState == SunGraphics2D.COMP_ISCOPY) { sg2d.textpipe = x11textpipe; } else { sg2d.textpipe = solidTextRenderer; } break; case SunHints.INTVAL_TEXT_ANTIALIAS_ON: sg2d.textpipe = aaTextRenderer; break; default: sg2d.textpipe = solidTextRenderer; } } } if (sg2d.transformState >= SunGraphics2D.TRANSFORM_TRANSLATESCALE) { sg2d.drawpipe = x11txpipe; sg2d.fillpipe = x11txpipe; } else if (sg2d.strokeState != SunGraphics2D.STROKE_THIN){ sg2d.drawpipe = x11txpipe; sg2d.fillpipe = x11pipe; } else { sg2d.drawpipe = x11pipe; sg2d.fillpipe = x11pipe; } sg2d.shapepipe = x11pipe; sg2d.imagepipe = imagepipe; // This is needed for AA text. // Note that even an X11TextRenderer can dispatch AA text // if a GlyphVector overrides the AA setting. // We use getRenderLoops() rather than setting solidloops // directly so that we get the appropriate loops in XOR mode. if (sg2d.loops == null) { // assert(some pipe will always be a LoopBasedPipe) sg2d.loops = getRenderLoops(sg2d); } } else { super.validatePipe(sg2d); } } public RenderLoops getRenderLoops(SunGraphics2D sg2d) { if (sg2d.paintState <= SunGraphics2D.PAINT_ALPHACOLOR && sg2d.compositeState <= SunGraphics2D.COMP_ISCOPY) { return solidloops; } return super.getRenderLoops(sg2d); } public GraphicsConfiguration getDeviceConfiguration() { return graphicsConfig; } /** * Method for instantiating a Window SurfaceData */ public static X11WindowSurfaceData createData(X11ComponentPeer peer) { X11GraphicsConfig gc = getGC(peer); return new X11WindowSurfaceData(peer, gc, gc.getSurfaceType()); } /** * Method for instantiating a Pixmap SurfaceData (offscreen) */ public static X11PixmapSurfaceData createData(X11GraphicsConfig gc, int width, int height, ColorModel cm, Image image, long drawable, int transparency) { return new X11PixmapSurfaceData(gc, width, height, image, getSurfaceType(gc, transparency, true), cm, drawable, transparency); } // /** // * Initializes the native Ops pointer. // */ // private native void initOps(X11ComponentPeer peer, // X11GraphicsConfig gc, int depth); protected X11SurfaceData(X11ComponentPeer peer, X11GraphicsConfig gc, SurfaceType sType, ColorModel cm) { super(sType, cm); this.peer = peer; this.graphicsConfig = gc; this.solidloops = graphicsConfig.getSolidLoops(sType); this.depth = cm.getPixelSize(); initOps(peer, graphicsConfig, depth); if (isAccelerationEnabled()) { setBlitProxyKey(gc.getProxyKey()); } } public static X11GraphicsConfig getGC(X11ComponentPeer peer) { if (peer != null) { return (X11GraphicsConfig) peer.getGraphicsConfiguration(); } else { GraphicsEnvironment env = GraphicsEnvironment.getLocalGraphicsEnvironment(); GraphicsDevice gd = env.getDefaultScreenDevice(); return (X11GraphicsConfig)gd.getDefaultConfiguration(); } } /** * Returns a boolean indicating whether or not a copyArea from * the given rectangle source coordinates might be incomplete * and result in X11 GraphicsExposure events being generated * from XCopyArea. * This method allows the SurfaceData copyArea method to determine * if it needs to set the GraphicsExposures attribute of the X11 GC * to True or False to receive or avoid the events. * @return true if there is any chance that an XCopyArea from the * given source coordinates could produce any X11 * Exposure events. */ public abstract boolean canSourceSendExposures(int x, int y, int w, int h); public boolean copyArea(SunGraphics2D sg2d, int x, int y, int w, int h, int dx, int dy) { if (x11pipe == null) { if (!isDrawableValid()) { return true; } makePipes(); } CompositeType comptype = sg2d.imageComp; if (sg2d.transformState < SunGraphics2D.TRANSFORM_TRANSLATESCALE && (CompositeType.SrcOverNoEa.equals(comptype) || CompositeType.SrcNoEa.equals(comptype))) { x += sg2d.transX; y += sg2d.transY; SunToolkit.awtLock(); try { boolean needExposures = canSourceSendExposures(x, y, w, h); long xgc = getBlitGC(sg2d.getCompClip(), needExposures); x11pipe.devCopyArea(getNativeOps(), xgc, x, y, x + dx, y + dy, w, h); } finally { SunToolkit.awtUnlock(); } return true; } return false; } public static SurfaceType getSurfaceType(X11GraphicsConfig gc, int transparency) { return getSurfaceType(gc, transparency, false); } public static SurfaceType getSurfaceType(X11GraphicsConfig gc, int transparency, boolean pixmapSurface) { boolean transparent = (transparency == Transparency.BITMASK); SurfaceType sType; ColorModel cm = gc.getColorModel(); switch (cm.getPixelSize()) { case 24: if (gc.getBitsPerPixel() == 24) { if (cm instanceof DirectColorModel) { // 4517321: We will always use ThreeByteBgr for 24 bpp // surfaces, regardless of the pixel masks reported by // X11. Despite ambiguity in the X11 spec in how 24 bpp // surfaces are treated, it appears that the best // SurfaceType for these configurations (including // some Matrox Millenium and ATI Radeon boards) is // ThreeByteBgr. sType = transparent ? X11SurfaceData.ThreeByteBgrX11_BM : X11SurfaceData.ThreeByteBgrX11; } else { throw new sun.java2d.InvalidPipeException("Unsupported bit " + "depth/cm combo: " + cm.getPixelSize() + ", " + cm); } break; } // Fall through for 32 bit case case 32: if (cm instanceof DirectColorModel) { if (((SunToolkit)java.awt.Toolkit.getDefaultToolkit() ).isTranslucencyCapable(gc) && !pixmapSurface) { sType = X11SurfaceData.IntArgbPreX11; } else { if (((DirectColorModel)cm).getRedMask() == 0xff0000) { sType = transparent ? X11SurfaceData.IntRgbX11_BM : X11SurfaceData.IntRgbX11; } else { sType = transparent ? X11SurfaceData.IntBgrX11_BM : X11SurfaceData.IntBgrX11; } } } else if (cm instanceof ComponentColorModel) { sType = X11SurfaceData.FourByteAbgrPreX11; } else { throw new sun.java2d.InvalidPipeException("Unsupported bit " + "depth/cm combo: " + cm.getPixelSize() + ", " + cm); } break; case 15: sType = transparent ? X11SurfaceData.UShort555RgbX11_BM : X11SurfaceData.UShort555RgbX11; break; case 16: if ((cm instanceof DirectColorModel) && (((DirectColorModel)cm).getGreenMask() == 0x3e0)) { // fix for 4352984: Riva128 on Linux sType = transparent ? X11SurfaceData.UShort555RgbX11_BM : X11SurfaceData.UShort555RgbX11; } else { sType = transparent ? X11SurfaceData.UShort565RgbX11_BM : X11SurfaceData.UShort565RgbX11; } break; case 12: if (cm instanceof IndexColorModel) { sType = transparent ? X11SurfaceData.UShortIndexedX11_BM : X11SurfaceData.UShortIndexedX11; } else { throw new sun.java2d.InvalidPipeException("Unsupported bit " + "depth: " + cm.getPixelSize() + " cm="+cm); } break; case 8: if (cm.getColorSpace().getType() == ColorSpace.TYPE_GRAY && cm instanceof ComponentColorModel) { sType = transparent ? X11SurfaceData.ByteGrayX11_BM : X11SurfaceData.ByteGrayX11; } else if (cm instanceof IndexColorModel && isOpaqueGray((IndexColorModel)cm)) { sType = transparent ? X11SurfaceData.Index8GrayX11_BM : X11SurfaceData.Index8GrayX11; } else { sType = transparent ? X11SurfaceData.ByteIndexedX11_BM : X11SurfaceData.ByteIndexedOpaqueX11; } break; default: throw new sun.java2d.InvalidPipeException("Unsupported bit " + "depth: " + cm.getPixelSize()); } return sType; } public void invalidate() { if (isValid()) { setInvalid(); super.invalidate(); } } /** * The following methods and variables are used to keep the Java-level * context state in sync with the native X11 GC associated with this * X11SurfaceData object. */ private static native void XSetCopyMode(long xgc); private static native void XSetXorMode(long xgc); private static native void XSetForeground(long xgc, int pixel); private long xgc; private Region validatedClip; private XORComposite validatedXorComp; private int xorpixelmod; private int validatedPixel; private boolean validatedExposures = true; public final long getRenderGC(Region clip, int compState, Composite comp, int pixel) { return getGC(clip, compState, comp, pixel, validatedExposures); } public final long getBlitGC(Region clip, boolean needExposures) { return getGC(clip, SunGraphics2D.COMP_ISCOPY, null, validatedPixel, needExposures); } final long getGC(Region clip, int compState, Composite comp, int pixel, boolean needExposures) { // assert SunToolkit.isAWTLockHeldByCurrentThread(); if (!isValid()) { throw new InvalidPipeException("bounds changed"); } // validate clip if (clip != validatedClip) { validatedClip = clip; if (clip != null) { XSetClip(xgc, clip.getLoX(), clip.getLoY(), clip.getHiX(), clip.getHiY(), (clip.isRectangular() ? null : clip)); } else { XResetClip(xgc); } } // validate composite if (compState == SunGraphics2D.COMP_ISCOPY) { if (validatedXorComp != null) { validatedXorComp = null; xorpixelmod = 0; XSetCopyMode(xgc); } } else { if (validatedXorComp != comp) { validatedXorComp = (XORComposite)comp; xorpixelmod = validatedXorComp.getXorPixel(); XSetXorMode(xgc); } } // validate pixel pixel ^= xorpixelmod; if (pixel != validatedPixel) { validatedPixel = pixel; XSetForeground(xgc, pixel); } if (validatedExposures != needExposures) { validatedExposures = needExposures; XSetGraphicsExposures(xgc, needExposures); } return xgc; } public synchronized void makePipes() { if (x11pipe == null) { SunToolkit.awtLock(); try { xgc = XCreateGC(getNativeOps()); } finally { SunToolkit.awtUnlock(); } x11pipe = X11Renderer.getInstance(); x11txpipe = new PixelToShapeConverter(x11pipe); } } public static class X11WindowSurfaceData extends X11SurfaceData { public X11WindowSurfaceData(X11ComponentPeer peer, X11GraphicsConfig gc, SurfaceType sType) { super(peer, gc, sType, peer.getColorModel()); if (isDrawableValid()) { makePipes(); } } public SurfaceData getReplacement() { return peer.getSurfaceData(); } public Rectangle getBounds() { Rectangle r = peer.getBounds(); r.x = r.y = 0; return r; } @Override public boolean canSourceSendExposures(int x, int y, int w, int h) { return true; } /** * Returns destination Component associated with this SurfaceData. */ public Object getDestination() { return peer.getTarget(); } } public static class X11PixmapSurfaceData extends X11SurfaceData { Image offscreenImage; int width; int height; int transparency; public X11PixmapSurfaceData(X11GraphicsConfig gc, int width, int height, Image image, SurfaceType sType, ColorModel cm, long drawable, int transparency) { super(null, gc, sType, cm); this.width = width; this.height = height; offscreenImage = image; this.transparency = transparency; initSurface(depth, width, height, drawable); makePipes(); } public SurfaceData getReplacement() { return restoreContents(offscreenImage); } /** * Need this since the surface data is created with * the color model of the target GC, which is always * opaque. But in SunGraphics2D.blitSD we choose loops * based on the transparency on the source SD, so * it could choose wrong loop (blit instead of blitbg, * for example). */ public int getTransparency() { return transparency; } public Rectangle getBounds() { return new Rectangle(width, height); } @Override public boolean canSourceSendExposures(int x, int y, int w, int h) { return (x < 0 || y < 0 || (x+w) > width || (y+h) > height); } public void flush() { /* * We need to invalidate the surface before disposing the * native Drawable and GC. This way if an application tries * to render to an already flushed X11SurfaceData, we will notice * in the validate() method above that it has been invalidated, * and we will avoid using those native resources that have * already been disposed. */ invalidate(); flushNativeSurface(); } /** * Returns destination Image associated with this SurfaceData. */ public Object getDestination() { return offscreenImage; } } private static LazyPipe lazypipe = new LazyPipe(); public static class LazyPipe extends ValidatePipe { public boolean validate(SunGraphics2D sg2d) { X11SurfaceData xsd = (X11SurfaceData) sg2d.surfaceData; if (!xsd.isDrawableValid()) { return false; } xsd.makePipes(); return super.validate(sg2d); } } } Other Java examples (source code examples)Here is a short list of links related to this Java X11SurfaceData.java source code file: |
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