/* * 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 com.sun.prism.impl; import java.security.AccessController; import java.security.PrivilegedAction; import java.util.Arrays; import java.util.Collections; import java.util.List; import java.util.Properties; import java.util.StringTokenizer; import com.sun.javafx.PlatformUtil; import com.sun.javafx.Utils; /** * Contains the runtime arguments used by Prism. */ public final class PrismSettings { public static final boolean verbose; public static final boolean debug; public static final boolean trace; public static final boolean printAllocs; public static final boolean isVsyncEnabled; public static final boolean dirtyOptsEnabled; public static final boolean occlusionCullingEnabled; public static final boolean threadCheck; public static final boolean cacheSimpleShapes; public static final boolean cacheComplexShapes; public static final boolean useNewImageLoader; public static final List tryOrder; public static final int prismStatFrequency; public static final boolean doPiscesText; public static final boolean doOpenPiscesText; public static final boolean doNativePisces; public static final String refType; public static final boolean forceRepaint; public static final boolean noFallback; public static final boolean showDirtyRegions; public static final boolean showOverdraw; public static final boolean printRenderGraph; public static final boolean shutdownHook; public static final int minTextureSize; public static final int minRTTSize; public static final int dirtyRegionCount; public static final boolean disableBadDriverWarning; public static final boolean forceGPU; public static final int maxTextureSize; public static final int primTextureSize; public static final boolean disableRegionCaching; public static final boolean forcePow2; public static final boolean noClampToZero; public static final boolean disableD3D9Ex; public static final boolean allowHiDPIScaling; public static final long maxVram; public static final long targetVram; public static final boolean poolStats; public static final boolean poolDebug; public static final boolean disableEffects; public static final int glyphCacheWidth; public static final int glyphCacheHeight; public static final String perfLog; public static final boolean perfLogExitFlush; public static final boolean perfLogFirstPaintFlush; public static final boolean perfLogFirstPaintExit; public static final boolean superShader; private PrismSettings() { } private static void printBooleanOption(boolean opt, String trueStr) { if (opt) { System.out.println(trueStr); } else { System.out.print("Not "); System.out.print(Character.toLowerCase(trueStr.charAt(0))); System.out.println(trueStr.substring(1)); } } static { final Properties systemProperties = (Properties) AccessController.doPrivileged( new PrivilegedAction() { @Override public Object run() { return System.getProperties(); } }); /* Vsync */ isVsyncEnabled = getBoolean(systemProperties, "prism.vsync", true) && !getBoolean(systemProperties, "javafx.animation.fullspeed", false); /* Dirty region optimizations */ dirtyOptsEnabled = getBoolean(systemProperties, "prism.dirtyopts", true); occlusionCullingEnabled = dirtyOptsEnabled && getBoolean(systemProperties, "prism.occlusion.culling", true); // The maximum number of dirty regions to use. The absolute max that we can // support at present is 15. dirtyRegionCount = Utils.clamp(0, getInt(systemProperties, "prism.dirtyregioncount", 6, null), 15); /* Dirty region optimizations */ threadCheck = getBoolean(systemProperties, "prism.threadcheck", false); /* Draws overlay rectangles showing where the dirty regions were */ showDirtyRegions = getBoolean(systemProperties, "prism.showdirty", false); /* * Draws overlay rectangles showing not only the dirty regions, but how many times * each area within that dirty region was drawn (covered by bounds of a drawn object). */ showOverdraw = getBoolean(systemProperties, "prism.showoverdraw", false); /* Prints out the render graph, annotated with dirty opts information */ printRenderGraph = getBoolean(systemProperties, "prism.printrendergraph", false); /* Force scene repaint on every frame */ forceRepaint = getBoolean(systemProperties, "prism.forcerepaint", false); /* disable fallback to another toolkit if prism couldn't be init-ed */ noFallback = getBoolean(systemProperties, "prism.noFallback", false); /* Shape caching optimizations */ String cache = systemProperties.getProperty("prism.cacheshapes", "complex"); if ("all".equals(cache) || "true".equals(cache)) { cacheSimpleShapes = true; cacheComplexShapes = true; } else if ("complex".equals(cache)) { cacheSimpleShapes = false; cacheComplexShapes = true; } else { cacheSimpleShapes = false; cacheComplexShapes = false; } /* New javafx-iio image loader */ useNewImageLoader = getBoolean(systemProperties, "prism.newiio", true); /* Verbose output*/ verbose = getBoolean(systemProperties, "prism.verbose", false); /* Prism statistics print frequency, <=0 means "do not print" */ prismStatFrequency = getInt(systemProperties, "prism.printStats", 0, 1, "Try -Dprism.printStats="); /* Debug output*/ debug = getBoolean(systemProperties, "prism.debug", false); /* Trace output*/ trace = getBoolean(systemProperties, "prism.trace", false); /* Print texture allocation data */ printAllocs = getBoolean(systemProperties, "prism.printallocs", false); /* Disable bad driver check warning */ disableBadDriverWarning = getBoolean(systemProperties, "prism.disableBadDriverWarning", false); /* Force GPU, if GPU is PS 3 capable, disable GPU qualification check. */ forceGPU = getBoolean(systemProperties, "prism.forceGPU", false); String order = systemProperties.getProperty("prism.order"); String[] tryOrderArr; if (order != null) { tryOrderArr = split(order, ","); } else { if (PlatformUtil.isWindows()) { tryOrderArr = new String[] { "d3d", "sw" }; } else if (PlatformUtil.isMac()) { tryOrderArr = new String[] { "es2", "sw" }; } else if (PlatformUtil.isIOS()) { tryOrderArr = new String[] { "es2" }; } else if (PlatformUtil.isAndroid()) { tryOrderArr = new String[] { "es2" }; } else if (PlatformUtil.isLinux()) { tryOrderArr = new String[] { "es2", "sw" }; } else { tryOrderArr = new String[] { "sw" }; } } tryOrder = Collections.unmodifiableList(Arrays.asList(tryOrderArr)); String npprop = systemProperties.getProperty("prism.nativepisces"); if (npprop == null) { doNativePisces = PlatformUtil.isEmbedded() || !PlatformUtil.isLinux(); } else { doNativePisces = Boolean.parseBoolean(npprop); } /* Setting for text. */ String text = systemProperties.getProperty("prism.text", ""); doPiscesText = "pisces".equals(text); doOpenPiscesText = "openpisces".equals(text); String primtex = systemProperties.getProperty("prism.primtextures"); if (primtex == null) { primTextureSize = PlatformUtil.isEmbedded() ? -1 : 0; } else if (primtex.equals("true")) { primTextureSize = -1; } else if (primtex.equals("false")) { primTextureSize = 0; } else { primTextureSize = parseInt(primtex, 0, "Try -Dprism.primtextures=[true|false|]"); } /* Setting for reference type used by Disposer */ refType = systemProperties.getProperty("prism.reftype"); /* shutdown the pipeline on System.exit, ^c - needed with X11, so linux default is true */ shutdownHook = getBoolean(systemProperties, "prism.shutdownHook", PlatformUtil.isUnix()); forcePow2 = getBoolean(systemProperties, "prism.forcepowerof2", false); noClampToZero = getBoolean(systemProperties, "prism.noclamptozero", false); allowHiDPIScaling = getBoolean(systemProperties, "prism.allowhidpi", true); maxVram = getLong(systemProperties, "prism.maxvram", 256 * 1024 * 1024, null); targetVram = getLong(systemProperties, "prism.targetvram", maxVram * 3 / 4, null); poolStats = getBoolean(systemProperties, "prism.poolstats", false); poolDebug = getBoolean(systemProperties, "prism.pooldebug", false); if (verbose) { System.out.print("Prism pipeline init order: "); for (String s : tryOrder) { System.out.print(s+" "); } System.out.println(""); if (PrismSettings.doPiscesText || PrismSettings.doOpenPiscesText) { System.out.println("Using " + text + " for text rasterization"); } else { System.out.println("Using platform text rasterizer"); } String piscestype = (doNativePisces ? "native" : "java"); System.out.println("Using " + piscestype + "-based Pisces rasterizer"); printBooleanOption(dirtyOptsEnabled, "Using dirty region optimizations"); if (primTextureSize == 0) { System.out.println("Not using texture mask for primitives"); } else if (primTextureSize < 0) { System.out.println("Using system sized mask for primitives"); } else { System.out.println("Using "+primTextureSize+" sized mask for primitives"); } printBooleanOption(forcePow2, "Forcing power of 2 sizes for textures"); printBooleanOption(!noClampToZero, "Using hardware CLAMP_TO_ZERO mode"); printBooleanOption(allowHiDPIScaling, "Opting in for HiDPI pixel scaling"); } /* * Setting for maximum texture size. Default is 4096. * This will clamp the limit reported by the card to the specified * value. A value of <= 0 will disable this clamping, causing the * limit reported by the card to be used without modification. * * See RT-21998. This is a workaround for the fact that we don't * yet handle the case where a texture allocation fails during * rendering of a very large tiled image. */ int size = getInt(systemProperties, "prism.maxTextureSize", 4096, "Try -Dprism.maxTextureSize="); if (size <= 0) { size = Integer.MAX_VALUE; } maxTextureSize = size; /* * Check minimum texture size * This is a workaround for the bugs seen on device creating small textures (see TVP-256) * This value should not be set normally. */ minTextureSize = getInt(systemProperties, "prism.mintexturesize", 0, "Try -Dprism.mintexturesize="); /* * Check minimum RTT size * This is needed for some embedded platforms to avoid rendering artifacts * when rendering into small RTT. */ minRTTSize = getInt(systemProperties, "prism.minrttsize", PlatformUtil.isEmbedded() ? 16 : 0, "Try -Dprism.minrttsize="); disableRegionCaching = getBoolean(systemProperties, "prism.disableRegionCaching", false); disableD3D9Ex = getBoolean(systemProperties, "prism.disableD3D9Ex", true); disableEffects = getBoolean(systemProperties, "prism.disableEffects", false); glyphCacheWidth = getInt(systemProperties, "prism.glyphCacheWidth", 1024, "Try -Dprism.glyphCacheWidth="); glyphCacheHeight = getInt(systemProperties, "prism.glyphCacheHeight", 1024, "Try -Dprism.glyphCacheHeight="); /* * Performance Logger flags * Enable the performance logger, print on exit, print on first paint etc. */ perfLog = systemProperties.getProperty("sun.perflog"); perfLogExitFlush = getBoolean(systemProperties, "sun.perflog.fx.exitflush", false, true); perfLogFirstPaintFlush = getBoolean(systemProperties, "sun.perflog.fx.firstpaintflush", false, true); perfLogFirstPaintExit = getBoolean(systemProperties, "sun.perflog.fx.firstpaintexit", false, true); superShader = getBoolean(systemProperties, "prism.supershader", true); } private static int parseInt(String s, int dflt, int trueDflt, String errMsg) { return "true".equalsIgnoreCase(s) ? trueDflt : parseInt(s, dflt, errMsg); } private static int parseInt(String s, int dflt, String errMsg) { if (s != null) { try { return Integer.parseInt(s); } catch (Exception e) { if (errMsg != null) { System.err.println(errMsg); } } } return dflt; } private static long parseLong(String s, long dflt, String errMsg) { if (s != null && s.length() > 0) { long mult = 1; if (s.endsWith("k") || s.endsWith("K")) { mult = 1024L; } else if (s.endsWith("m") || s.endsWith("M")) { mult = 1024L * 1024L; } else if (s.endsWith("g") || s.endsWith("G")) { mult = 1024L * 1024L * 1024L; } if (mult > 1) { s = s.substring(0, s.length() - 1); } try { return Long.parseLong(s) * mult; } catch (Exception e) { if (errMsg != null) { System.err.println(errMsg); } } } return dflt; } /* A simple version of String.split(), since that isn't available on CDC */ private static String[] split(String str, String delim) { StringTokenizer st = new StringTokenizer(str, delim); String[] ret = new String[st.countTokens()]; int i = 0; while (st.hasMoreTokens()) { ret[i++] = st.nextToken(); } return ret; } private static boolean getBoolean(Properties properties, String key, boolean dflt) { final String strval = properties.getProperty(key); return (strval != null) ? Boolean.parseBoolean(strval) : dflt; } private static boolean getBoolean(Properties properties, String key, boolean dflt, boolean dfltIfDefined) { final String strval = properties.getProperty(key); if (strval != null && strval.length() == 0) return dfltIfDefined; return (strval != null) ? Boolean.parseBoolean(strval) : dflt; } private static int getInt(Properties properties, String key, int dflt, int trueDflt, String errMsg) { return parseInt(properties.getProperty(key), dflt, trueDflt, errMsg); } private static int getInt(Properties properties, String key, int dflt, String errMsg) { return parseInt(properties.getProperty(key), dflt, errMsg); } private static long getLong(Properties properties, String key, long dflt, String errMsg) { return parseLong(properties.getProperty(key), dflt, errMsg); } }