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Java example source code file (XRCompositeManager.java)
The XRCompositeManager.java Java example source code/* * Copyright (c) 2010, 2013, 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.xr; import java.awt.*; import java.awt.geom.*; import java.security.AccessController; import java.security.PrivilegedAction; import sun.font.*; import sun.java2d.*; import sun.java2d.jules.*; import sun.java2d.loops.*; /** * Manages per-application resources, e.g. the 1x1 pixmap used for solid color * fill as well as per-application state e.g. the currently set source picture * used for composition . * * @author Clemens Eisserer */ public class XRCompositeManager { private static boolean enableGradCache = true; private static XRCompositeManager instance; private final static int SOLID = 0; private final static int TEXTURE = 1; private final static int GRADIENT = 2; int srcType; XRSolidSrcPict solidSrc32; XRSurfaceData texture; XRSurfaceData gradient; int alphaMask = XRUtils.None; XRColor solidColor = new XRColor(); float extraAlpha = 1.0f; byte compRule = XRUtils.PictOpOver; XRColor alphaColor = new XRColor(); XRSurfaceData solidSrcPict; int alphaMaskPict; int gradCachePixmap; int gradCachePicture; boolean xorEnabled = false; int validatedPixel = 0; Composite validatedComp; Paint validatedPaint; float validatedExtraAlpha = 1.0f; XRBackend con; MaskTileManager maskBuffer; XRTextRenderer textRenderer; XRMaskImage maskImage; public static synchronized XRCompositeManager getInstance( XRSurfaceData surface) { if (instance == null) { instance = new XRCompositeManager(surface); } return instance; } private XRCompositeManager(XRSurfaceData surface) { con = new XRBackendNative(); String gradProp = AccessController.doPrivileged(new PrivilegedAction<String>() { public String run() { return System.getProperty("sun.java2d.xrgradcache"); } }); enableGradCache = gradProp == null || !(gradProp.equalsIgnoreCase("false") || gradProp.equalsIgnoreCase("f")); XRPaints.register(this); initResources(surface); maskBuffer = new MaskTileManager(this, surface.getXid()); textRenderer = new XRTextRenderer(this); maskImage = new XRMaskImage(this, surface.getXid()); } public void initResources(XRSurfaceData surface) { int parentXid = surface.getXid(); solidSrc32 = new XRSolidSrcPict(con, parentXid); setForeground(0); int extraAlphaMask = con.createPixmap(parentXid, 8, 1, 1); alphaMaskPict = con.createPicture(extraAlphaMask, XRUtils.PictStandardA8); con.setPictureRepeat(alphaMaskPict, XRUtils.RepeatNormal); con.renderRectangle(alphaMaskPict, XRUtils.PictOpClear, XRColor.NO_ALPHA, 0, 0, 1, 1); if (enableGradCache) { gradCachePixmap = con.createPixmap(parentXid, 32, MaskTileManager.MASK_SIZE, MaskTileManager.MASK_SIZE); gradCachePicture = con.createPicture(gradCachePixmap, XRUtils.PictStandardARGB32); } } public void setForeground(int pixel) { solidColor.setColorValues(pixel, true); } public void setGradientPaint(XRSurfaceData gradient) { if (this.gradient != null) { con.freePicture(this.gradient.picture); } this.gradient = gradient; srcType = GRADIENT; } public void setTexturePaint(XRSurfaceData texture) { this.texture = texture; this.srcType = TEXTURE; } public void XRResetPaint() { srcType = SOLID; } public void validateCompositeState(Composite comp, AffineTransform xform, Paint paint, SunGraphics2D sg2d) { boolean updatePaint = (paint != validatedPaint) || paint == null; // validate composite if ((comp != validatedComp)) { if (comp != null) { setComposite(comp); } else { comp = AlphaComposite.getInstance(AlphaComposite.SRC_OVER); setComposite(comp); } // the paint state is dependent on the composite state, so make // sure we update the color below updatePaint = true; validatedComp = comp; } if (sg2d != null && (validatedPixel != sg2d.pixel || updatePaint)) { validatedPixel = sg2d.pixel; setForeground(validatedPixel); } // validate paint if (updatePaint) { if (paint != null && sg2d != null && sg2d.paintState >= SunGraphics2D.PAINT_GRADIENT) { XRPaints.setPaint(sg2d, paint); } else { XRResetPaint(); } validatedPaint = paint; } if (srcType != SOLID) { AffineTransform at = (AffineTransform) xform.clone(); try { at.invert(); } catch (NoninvertibleTransformException e) { at.setToIdentity(); } getCurrentSource().validateAsSource(at, -1, XRUtils.ATransOpToXRQuality(sg2d.interpolationType)); } } private void setComposite(Composite comp) { if (comp instanceof AlphaComposite) { AlphaComposite aComp = (AlphaComposite) comp; validatedExtraAlpha = aComp.getAlpha(); this.compRule = XRUtils.j2dAlphaCompToXR(aComp.getRule()); this.extraAlpha = validatedExtraAlpha; if (extraAlpha == 1.0f) { alphaMask = XRUtils.None; alphaColor.alpha = XRColor.FULL_ALPHA.alpha; } else { alphaColor.alpha = XRColor .byteToXRColorValue((int) (extraAlpha * 255)); alphaMask = alphaMaskPict; con.renderRectangle(alphaMaskPict, XRUtils.PictOpSrc, alphaColor, 0, 0, 1, 1); } xorEnabled = false; } else if (comp instanceof XORComposite) { /* XOR composite validation is handled in XRSurfaceData */ xorEnabled = true; } else { throw new InternalError( "Composite accaleration not implemented for: " + comp.getClass().getName()); } } public boolean maskRequired() { return (!xorEnabled) && ((srcType != SOLID) || (srcType == SOLID && (solidColor.alpha != 0xffff) || (extraAlpha != 1.0f))); } public void XRComposite(int src, int mask, int dst, int srcX, int srcY, int maskX, int maskY, int dstX, int dstY, int width, int height) { int cachedSrc = (src == XRUtils.None) ? getCurrentSource().picture : src; int cachedX = srcX; int cachedY = srcY; if (enableGradCache && gradient != null && cachedSrc == gradient.picture) { con.renderComposite(XRUtils.PictOpSrc, gradient.picture, XRUtils.None, gradCachePicture, srcX, srcY, 0, 0, 0, 0, width, height); cachedX = 0; cachedY = 0; cachedSrc = gradCachePicture; } con.renderComposite(compRule, cachedSrc, mask, dst, cachedX, cachedY, maskX, maskY, dstX, dstY, width, height); } public void XRCompositeTraps(int dst, int srcX, int srcY, TrapezoidList trapList) { int renderReferenceX = 0; int renderReferenceY = 0; if (trapList.getP1YLeft(0) < trapList.getP2YLeft(0)) { renderReferenceX = trapList.getP1XLeft(0); renderReferenceY = trapList.getP1YLeft(0); } else { renderReferenceX = trapList.getP2XLeft(0); renderReferenceY = trapList.getP2YLeft(0); } renderReferenceX = (int) Math.floor(XRUtils .XFixedToDouble(renderReferenceX)); renderReferenceY = (int) Math.floor(XRUtils .XFixedToDouble(renderReferenceY)); con.renderCompositeTrapezoids(compRule, getCurrentSource().picture, XRUtils.PictStandardA8, dst, renderReferenceX, renderReferenceY, trapList); } public void XRRenderRectangles(XRSurfaceData dst, GrowableRectArray rects) { if (xorEnabled) { con.GCRectangles(dst.getXid(), dst.getGC(), rects); } else { if (rects.getSize() == 1) { con.renderRectangle(dst.getPicture(), compRule, solidColor, rects.getX(0), rects.getY(0), rects.getWidth(0), rects.getHeight(0)); } else { con.renderRectangles(dst.getPicture(), compRule, solidColor, rects); } } } public void XRCompositeRectangles(XRSurfaceData dst, GrowableRectArray rects) { int srcPict = getCurrentSource().picture; for(int i=0; i < rects.getSize(); i++) { int x = rects.getX(i); int y = rects.getY(i); int width = rects.getWidth(i); int height = rects.getHeight(i); con.renderComposite(compRule, srcPict, XRUtils.None, dst.picture, x, y, 0, 0, x, y, width, height); } } protected XRSurfaceData getCurrentSource() { switch(srcType) { case SOLID: return solidSrc32.prepareSrcPict(validatedPixel); case TEXTURE: return texture; case GRADIENT: return gradient; } return null; } public void compositeBlit(XRSurfaceData src, XRSurfaceData dst, int sx, int sy, int dx, int dy, int w, int h) { con.renderComposite(compRule, src.picture, alphaMask, dst.picture, sx, sy, 0, 0, dx, dy, w, h); } public void compositeText(XRSurfaceData dst, int sx, int sy, int glyphSet, int maskFormat, GrowableEltArray elts) { /* * Try to emulate the SRC blend mode with SRC_OVER. * We bail out during pipe validation for cases where this is not possible. */ byte textCompRule = (compRule != XRUtils.PictOpSrc) ? compRule : XRUtils.PictOpOver; con.XRenderCompositeText(textCompRule, getCurrentSource().picture, dst.picture, maskFormat, sx, sy, 0, 0, glyphSet, elts); } public XRColor getMaskColor() { return !isTexturePaintActive() ? XRColor.FULL_ALPHA : getAlphaColor(); } public int getExtraAlphaMask() { return alphaMask; } public boolean isTexturePaintActive() { return srcType == TEXTURE; } public boolean isSolidPaintActive() { return srcType == SOLID; } public XRColor getAlphaColor() { return alphaColor; } public XRBackend getBackend() { return con; } public float getExtraAlpha() { return validatedExtraAlpha; } public byte getCompRule() { return compRule; } public XRTextRenderer getTextRenderer() { return textRenderer; } public MaskTileManager getMaskBuffer() { return maskBuffer; } public XRMaskImage getMaskImage() { return maskImage; } } Other Java examples (source code examples)Here is a short list of links related to this Java XRCompositeManager.java source code file: |
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