/* * Copyright (c) 2003 Sun Microsystems, Inc. All Rights Reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * - Redistribution of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * - Redistribution in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of Sun Microsystems, Inc. or the names of * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * This software is provided "AS IS," without a warranty of any kind. ALL * EXPRESS OR IMPLIED CONDITIONS, REPRESENTATIONS AND WARRANTIES, * INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A * PARTICULAR PURPOSE OR NON-INFRINGEMENT, ARE HEREBY EXCLUDED. SUN * MIDROSYSTEMS, INC. ("SUN") AND ITS LICENSORS SHALL NOT BE LIABLE FOR * ANY DAMAGES SUFFERED BY LICENSEE AS A RESULT OF USING, MODIFYING OR * DISTRIBUTING THIS SOFTWARE OR ITS DERIVATIVES. IN NO EVENT WILL SUN OR * ITS LICENSORS BE LIABLE FOR ANY LOST REVENUE, PROFIT OR DATA, OR FOR * DIRECT, INDIRECT, SPECIAL, CONSEQUENTIAL, INCIDENTAL OR PUNITIVE * DAMAGES, HOWEVER CAUSED AND REGARDLESS OF THE THEORY OF LIABILITY, * ARISING OUT OF THE USE OF OR INABILITY TO USE THIS SOFTWARE, EVEN IF * SUN HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. * * You acknowledge that this software is not designed or intended for use * in the design, construction, operation or maintenance of any nuclear * facility. * * Sun gratefully acknowledges that this software was originally authored * and developed by Kenneth Bradley Russell and Christopher John Kline. */ package net.java.games.jogl.impl.windows; import java.awt.Component; import java.awt.GraphicsConfiguration; import java.awt.GraphicsDevice; import java.awt.Rectangle; import java.util.*; import net.java.games.gluegen.runtime.*; // for PROCADDRESS_VAR_PREFIX import net.java.games.jogl.*; import net.java.games.jogl.impl.*; public abstract class WindowsGLContext extends GLContext { private static JAWT jawt; protected long hglrc; protected long hdc; private boolean wglGetExtensionsStringEXTInitialized; private boolean wglGetExtensionsStringEXTAvailable; private static final Map/**/ functionNameMap; private static final Map/**/ extensionNameMap; // Table that holds the addresses of the native C-language entry points for // OpenGL functions. private GLProcAddressTable glProcAddressTable; // Handle to GLU32.dll private long hglu32; private static final int MAX_PFORMATS = 256; private static final int MAX_ATTRIBS = 256; static { functionNameMap = new HashMap(); functionNameMap.put("glAllocateMemoryNV", "wglAllocateMemoryNV"); functionNameMap.put("glFreeMemoryNV", "wglFreeMemoryNV"); extensionNameMap = new HashMap(); extensionNameMap.put("GL_ARB_pbuffer", "WGL_ARB_pbuffer"); extensionNameMap.put("GL_ARB_pixel_format", "WGL_ARB_pixel_format"); } public WindowsGLContext(Component component, GLCapabilities capabilities, GLCapabilitiesChooser chooser, GLContext shareWith) { super(component, capabilities, chooser, shareWith); } protected GL createGL() { return new WindowsGLImpl(this); } protected String mapToRealGLFunctionName(String glFunctionName) { String lookup = (String) functionNameMap.get(glFunctionName); if (lookup != null) { return lookup; } return glFunctionName; } protected String mapToRealGLExtensionName(String glExtensionName) { String lookup = (String) extensionNameMap.get(glExtensionName); if (lookup != null) { return lookup; } return glExtensionName; } protected abstract boolean isOffscreen(); public abstract int getOffscreenContextBufferedImageType(); public int getOffscreenContextWidth() { throw new GLException("Should not call this"); } public int getOffscreenContextHeight() { throw new GLException("Should not call this"); } public int getOffscreenContextPixelDataType() { throw new GLException("Should not call this"); } public abstract int getOffscreenContextReadBuffer(); public abstract boolean offscreenImageNeedsVerticalFlip(); /** * Creates and initializes an appropriate OpenGL context. Should only be * called by {@link #makeCurrent(Runnable)}. */ protected abstract void create(); protected synchronized boolean makeCurrent(Runnable initAction) throws GLException { boolean created = false; if (hglrc == 0) { create(); if (DEBUG) { System.err.println("!!! Created GL context for " + getClass().getName()); } created = true; } if (!WGL.wglMakeCurrent(hdc, hglrc)) { throw new GLException("Error making context current: " + WGL.GetLastError()); } else { if (DEBUG) { System.err.println("wglMakeCurrent(hdc " + hdcToString(hdc) + ", hglrc " + hdcToString(hglrc) + ") succeeded"); } } if (created) { resetGLFunctionAvailability(); // Windows can set up sharing of display lists after creation time WindowsGLContext other = (WindowsGLContext) GLContextShareSet.getShareContext(this); if (other != null) { long hglrc2 = other.getHGLRC(); if (hglrc2 == 0) { throw new GLException("GLContextShareSet returned an invalid OpenGL context"); } if (!WGL.wglShareLists(hglrc2, hglrc)) { throw new GLException("wglShareLists(0x" + Long.toHexString(hglrc2) + ", 0x" + Long.toHexString(hglrc) + ") failed"); } } GLContextShareSet.contextCreated(this); initAction.run(); } return true; } protected synchronized void free() throws GLException { if (!WGL.wglMakeCurrent(0, 0)) { throw new GLException("Error freeing OpenGL context: " + WGL.GetLastError()); } } protected void destroyImpl() throws GLException { if (hglrc != 0) { if (!WGL.wglDeleteContext(hglrc)) { throw new GLException("Unable to delete OpenGL context"); } if (DEBUG) { System.err.println("!!! Destroyed OpenGL context " + hglrc); } hglrc = 0; } } public abstract void swapBuffers() throws GLException; protected long dynamicLookupFunction(String glFuncName) { long res = WGL.wglGetProcAddress(glFuncName); if (res == 0) { // GLU routines aren't known to the OpenGL function lookup if (hglu32 == 0) { hglu32 = WGL.LoadLibraryA("GLU32"); if (hglu32 == 0) { throw new GLException("Error loading GLU32.DLL"); } } res = WGL.GetProcAddress(hglu32, glFuncName); } return res; } public boolean isCreated() { return (hglrc != 0); } protected void resetGLFunctionAvailability() { super.resetGLFunctionAvailability(); if (DEBUG) { System.err.println("!!! Initializing OpenGL extension address table"); } resetProcAddressTable(getGLProcAddressTable()); } public GLProcAddressTable getGLProcAddressTable() { if (glProcAddressTable == null) { // FIXME: cache ProcAddressTables by capability bits so we can // share them among contexts with the same capabilities glProcAddressTable = new GLProcAddressTable(); } return glProcAddressTable; } public String getPlatformExtensionsString() { if (!wglGetExtensionsStringEXTInitialized) { wglGetExtensionsStringEXTAvailable = (WGL.wglGetProcAddress("wglGetExtensionsStringEXT") != 0); wglGetExtensionsStringEXTInitialized = true; } if (wglGetExtensionsStringEXTAvailable) { return gl.wglGetExtensionsStringEXT(); } else { return ""; } } protected boolean isFunctionAvailable(String glFunctionName) { boolean available = super.isFunctionAvailable(glFunctionName); // Sanity check for implementations that use proc addresses for run-time // linking: if the function IS available, then make sure there's a proc // address for it if it's an extension or not part of the OpenGL 1.1 core // (post GL 1.1 functions are run-time linked on windows). assert(!available || (getGLProcAddressTable().getAddressFor(mapToRealGLFunctionName(glFunctionName)) != 0 || FunctionAvailabilityCache.isPartOfGLCore("1.1", mapToRealGLFunctionName(glFunctionName))) ); return available; } //---------------------------------------------------------------------- // Internals only below this point // protected JAWT getJAWT() { if (jawt == null) { JAWT j = new JAWT(); j.version(JAWTFactory.JAWT_VERSION_1_4); if (!JAWTFactory.JAWT_GetAWT(j)) { throw new RuntimeException("Unable to initialize JAWT"); } jawt = j; } return jawt; } // Helper routine for the overridden create() to call protected void choosePixelFormatAndCreateContext(boolean onscreen) { PIXELFORMATDESCRIPTOR pfd = null; int pixelFormat = 0; if (onscreen) { GLCapabilities[] availableCaps = null; int numFormats = 0; pfd = newPixelFormatDescriptor(); GraphicsConfiguration config = component.getGraphicsConfiguration(); GraphicsDevice device = config.getDevice(); // Produce a recommended pixel format selection for the GLCapabilitiesChooser. // Try to use wglChoosePixelFormatARB if we have it available GL dummyGL = WindowsGLContextFactory.getDummyGL(device); int recommendedPixelFormat = -1; boolean haveWGLChoosePixelFormatARB = false; boolean haveWGLARBMultisample = false; if (dummyGL != null) { String availableWGLExtensions = WindowsGLContextFactory.getDummyGLExtensions(device); if (availableWGLExtensions.indexOf("WGL_ARB_pixel_format") >= 0) { haveWGLChoosePixelFormatARB = true; if (availableWGLExtensions.indexOf("WGL_ARB_multisample") >= 0) { haveWGLARBMultisample = true; } } } Rectangle rect = config.getBounds(); long dc = 0; long rc = 0; boolean freeWGLC = false; if( dummyGL != null ) { dc = WindowsGLContextFactory.getDummyGLContext( device ).hdc; rc = WindowsGLContextFactory.getDummyGLContext( device ).hglrc; if( !WGL.wglMakeCurrent( dc, rc ) ) { System.err.println("Error Making WGLC Current: " + WGL.GetLastError() ); } else { freeWGLC = true; } } // Fallback path for older cards, in particular Intel Extreme motherboard graphics boolean gotAvailableCaps = false; if (dummyGL != null && haveWGLChoosePixelFormatARB) { int[] iattributes = new int [2 * MAX_ATTRIBS]; int[] iresults = new int [2 * MAX_ATTRIBS]; float[] fattributes = new float[2 * MAX_ATTRIBS]; int niattribs = 0; int nfattribs = 0; iattributes[niattribs++] = GL.WGL_SUPPORT_OPENGL_ARB; iattributes[niattribs++] = GL.GL_TRUE; iattributes[niattribs++] = GL.WGL_DRAW_TO_WINDOW_ARB; iattributes[niattribs++] = GL.GL_TRUE; iattributes[niattribs++] = GL.WGL_PIXEL_TYPE_ARB; iattributes[niattribs++] = GL.WGL_TYPE_RGBA_ARB; iattributes[niattribs++] = GL.WGL_DOUBLE_BUFFER_ARB; if (capabilities.getDoubleBuffered()) { iattributes[niattribs++] = GL.GL_TRUE; } else { iattributes[niattribs++] = GL.GL_FALSE; } iattributes[niattribs++] = GL.WGL_STEREO_ARB; if (capabilities.getStereo()) { iattributes[niattribs++] = GL.GL_TRUE; } else { iattributes[niattribs++] = GL.GL_FALSE; } iattributes[niattribs++] = GL.WGL_DEPTH_BITS_ARB; iattributes[niattribs++] = capabilities.getDepthBits(); iattributes[niattribs++] = GL.WGL_RED_BITS_ARB; iattributes[niattribs++] = capabilities.getRedBits(); iattributes[niattribs++] = GL.WGL_GREEN_BITS_ARB; iattributes[niattribs++] = capabilities.getGreenBits(); iattributes[niattribs++] = GL.WGL_BLUE_BITS_ARB; iattributes[niattribs++] = capabilities.getBlueBits(); iattributes[niattribs++] = GL.WGL_ALPHA_BITS_ARB; iattributes[niattribs++] = capabilities.getAlphaBits(); iattributes[niattribs++] = GL.WGL_STENCIL_BITS_ARB; iattributes[niattribs++] = capabilities.getStencilBits(); if (capabilities.getAccumRedBits() > 0 || capabilities.getAccumGreenBits() > 0 || capabilities.getAccumBlueBits() > 0 || capabilities.getAccumAlphaBits() > 0) { iattributes[niattribs++] = GL.WGL_ACCUM_BITS_ARB; iattributes[niattribs++] = (capabilities.getAccumRedBits() + capabilities.getAccumGreenBits() + capabilities.getAccumBlueBits() + capabilities.getAccumAlphaBits()); iattributes[niattribs++] = GL.WGL_ACCUM_RED_BITS_ARB; iattributes[niattribs++] = capabilities.getAccumRedBits(); iattributes[niattribs++] = GL.WGL_ACCUM_GREEN_BITS_ARB; iattributes[niattribs++] = capabilities.getAccumGreenBits(); iattributes[niattribs++] = GL.WGL_ACCUM_BLUE_BITS_ARB; iattributes[niattribs++] = capabilities.getAccumBlueBits(); iattributes[niattribs++] = GL.WGL_ACCUM_ALPHA_BITS_ARB; iattributes[niattribs++] = capabilities.getAccumAlphaBits(); } if (haveWGLARBMultisample) { if (capabilities.getSampleBuffers()) { iattributes[niattribs++] = GL.WGL_SAMPLE_BUFFERS_ARB; iattributes[niattribs++] = GL.GL_TRUE; iattributes[niattribs++] = GL.WGL_SAMPLES_ARB; iattributes[niattribs++] = capabilities.getNumSamples(); } } int[] pformats = new int[MAX_PFORMATS]; int[] numFormatsTmp = new int[1]; if (dummyGL.wglChoosePixelFormatARB(hdc, iattributes, fattributes, MAX_PFORMATS, pformats, numFormatsTmp)) { numFormats = numFormatsTmp[0]; if (numFormats > 0) { // Remove one-basing of pixel format (added on later) recommendedPixelFormat = pformats[0] - 1; if (DEBUG) { System.err.println("Used wglChoosePixelFormatARB to recommend pixel format " + recommendedPixelFormat); } } } else { if (DEBUG) { System.err.println("wglChoosePixelFormatARB failed: " + WGL.GetLastError() ); Thread.dumpStack(); } } if (DEBUG) { if (recommendedPixelFormat < 0) { System.err.print("wglChoosePixelFormatARB didn't recommend a pixel format"); if (capabilities.getSampleBuffers()) { System.err.print(" for multisampled GLCapabilities"); } System.err.println(); } } // Produce a list of GLCapabilities to give to the // GLCapabilitiesChooser. // Use wglGetPixelFormatAttribivARB instead of // DescribePixelFormat to get higher-precision information // about the pixel format (should make the GLCapabilities // more precise as well...i.e., remove the // "HardwareAccelerated" bit, which is basically // meaningless, and put in whether it can render to a // window, to a pbuffer, or to a pixmap) niattribs = 0; iattributes[0] = GL.WGL_NUMBER_PIXEL_FORMATS_ARB; if (dummyGL.wglGetPixelFormatAttribivARB(hdc, 0, 0, 1, iattributes, iresults)) { numFormats = iresults[0]; // Should we be filtering out the pixel formats which aren't // applicable, as we are doing here? // We don't have enough information in the GLCapabilities to // represent those that aren't... iattributes[niattribs++] = GL.WGL_DRAW_TO_WINDOW_ARB; iattributes[niattribs++] = GL.WGL_ACCELERATION_ARB; iattributes[niattribs++] = GL.WGL_SUPPORT_OPENGL_ARB; iattributes[niattribs++] = GL.WGL_DEPTH_BITS_ARB; iattributes[niattribs++] = GL.WGL_STENCIL_BITS_ARB; iattributes[niattribs++] = GL.WGL_DOUBLE_BUFFER_ARB; iattributes[niattribs++] = GL.WGL_STEREO_ARB; iattributes[niattribs++] = GL.WGL_PIXEL_TYPE_ARB; iattributes[niattribs++] = GL.WGL_RED_BITS_ARB; iattributes[niattribs++] = GL.WGL_GREEN_BITS_ARB; iattributes[niattribs++] = GL.WGL_BLUE_BITS_ARB; iattributes[niattribs++] = GL.WGL_ALPHA_BITS_ARB; iattributes[niattribs++] = GL.WGL_ACCUM_RED_BITS_ARB; iattributes[niattribs++] = GL.WGL_ACCUM_GREEN_BITS_ARB; iattributes[niattribs++] = GL.WGL_ACCUM_BLUE_BITS_ARB; iattributes[niattribs++] = GL.WGL_ACCUM_ALPHA_BITS_ARB; if (haveWGLARBMultisample) { iattributes[niattribs++] = GL.WGL_SAMPLE_BUFFERS_ARB; iattributes[niattribs++] = GL.WGL_SAMPLES_ARB; } availableCaps = new GLCapabilities[numFormats]; for (int i = 0; i < numFormats; i++) { if (!dummyGL.wglGetPixelFormatAttribivARB(hdc, i+1, 0, niattribs, iattributes, iresults)) { throw new GLException("Error getting pixel format attributes for pixel format " + (i + 1) + " of device context"); } availableCaps[i] = iattributes2GLCapabilities(iattributes, iresults, niattribs, true); } if( freeWGLC ) { WGL.wglMakeCurrent( 0, 0 ); } gotAvailableCaps = true; } else { int lastErr = WGL.GetLastError(); // Intel Extreme graphics fails with a zero error code if (lastErr != 0) { throw new GLException("Unable to enumerate pixel formats of window using wglGetPixelFormatAttribivARB: error code " + WGL.GetLastError()); } } } if (!gotAvailableCaps) { if (DEBUG) { System.err.println("Using ChoosePixelFormat because no wglChoosePixelFormatARB: dummyGL = " + dummyGL); } pfd = glCapabilities2PFD(capabilities, onscreen); // Remove one-basing of pixel format (added on later) recommendedPixelFormat = WGL.ChoosePixelFormat(hdc, pfd) - 1; numFormats = WGL.DescribePixelFormat(hdc, 1, 0, null); if (numFormats == 0) { throw new GLException("Unable to enumerate pixel formats of window for GLCapabilitiesChooser"); } availableCaps = new GLCapabilities[numFormats]; for (int i = 0; i < numFormats; i++) { if (WGL.DescribePixelFormat(hdc, 1 + i, pfd.size(), pfd) == 0) { throw new GLException("Error describing pixel format " + (1 + i) + " of device context"); } availableCaps[i] = pfd2GLCapabilities(pfd); } } // Supply information to chooser pixelFormat = chooser.chooseCapabilities(capabilities, availableCaps, recommendedPixelFormat); if ((pixelFormat < 0) || (pixelFormat >= numFormats)) { throw new GLException("Invalid result " + pixelFormat + " from GLCapabilitiesChooser (should be between 0 and " + (numFormats - 1) + ")"); } if (DEBUG) { System.err.println("Chosen pixel format (" + pixelFormat + "):"); System.err.println(availableCaps[pixelFormat]); } pixelFormat += 1; // one-base the index if (WGL.DescribePixelFormat(hdc, pixelFormat, pfd.size(), pfd) == 0) { throw new GLException("Error re-describing the chosen pixel format: " + WGL.GetLastError()); } } else { // For now, use ChoosePixelFormat for offscreen surfaces until // we figure out how to properly choose an offscreen- // compatible pixel format pfd = glCapabilities2PFD(capabilities, onscreen); pixelFormat = WGL.ChoosePixelFormat(hdc, pfd); } if (!WGL.SetPixelFormat(hdc, pixelFormat, pfd)) { int lastError = WGL.GetLastError(); if (DEBUG) { System.err.println("SetPixelFormat failed: current context = " + WGL.wglGetCurrentContext() + ", current DC = " + WGL.wglGetCurrentDC()); System.err.println("GetPixelFormat(hdc " + hdcToString(hdc) + ") returns " + WGL.GetPixelFormat(hdc)); } throw new GLException("Unable to set pixel format " + pixelFormat + " for device context " + hdcToString(hdc) + ": error code " + lastError); } hglrc = WGL.wglCreateContext(hdc); if (DEBUG) { System.err.println("!!! Created OpenGL context " + hglrc + " for device context " + hdcToString(hdc) + " using pixel format " + pixelFormat); } if (hglrc == 0) { throw new GLException("Unable to create OpenGL context"); } } protected long getHGLRC() { return hglrc; } static PIXELFORMATDESCRIPTOR glCapabilities2PFD(GLCapabilities caps, boolean onscreen) { int colorDepth = (caps.getRedBits() + caps.getGreenBits() + caps.getBlueBits()); if (colorDepth < 15) { throw new GLException("Bit depths < 15 (i.e., non-true-color) not supported"); } PIXELFORMATDESCRIPTOR pfd = newPixelFormatDescriptor(); int pfdFlags = (WGL.PFD_SUPPORT_OPENGL | WGL.PFD_GENERIC_ACCELERATED); if (caps.getDoubleBuffered()) { pfdFlags |= WGL.PFD_DOUBLEBUFFER; if (onscreen) { pfdFlags |= WGL.PFD_SWAP_EXCHANGE; } } if (onscreen) { pfdFlags |= WGL.PFD_DRAW_TO_WINDOW; } else { pfdFlags |= WGL.PFD_DRAW_TO_BITMAP; } pfd.dwFlags(pfdFlags); pfd.iPixelType((byte) WGL.PFD_TYPE_RGBA); pfd.cColorBits((byte) colorDepth); pfd.cRedBits ((byte) caps.getRedBits()); pfd.cGreenBits((byte) caps.getGreenBits()); pfd.cBlueBits ((byte) caps.getBlueBits()); pfd.cDepthBits((byte) caps.getDepthBits()); pfd.iLayerType((byte) WGL.PFD_MAIN_PLANE); return pfd; } static PIXELFORMATDESCRIPTOR newPixelFormatDescriptor() { PIXELFORMATDESCRIPTOR pfd = new PIXELFORMATDESCRIPTOR(); pfd.nSize((short) pfd.size()); pfd.nVersion((short) 1); return pfd; } static GLCapabilities pfd2GLCapabilities(PIXELFORMATDESCRIPTOR pfd) { if ((pfd.dwFlags() & WGL.PFD_SUPPORT_OPENGL) == 0) { return null; } GLCapabilities res = new GLCapabilities(); res.setRedBits (pfd.cRedBits()); res.setGreenBits (pfd.cGreenBits()); res.setBlueBits (pfd.cBlueBits()); res.setAlphaBits (pfd.cAlphaBits()); res.setAccumRedBits (pfd.cAccumRedBits()); res.setAccumGreenBits(pfd.cAccumGreenBits()); res.setAccumBlueBits (pfd.cAccumBlueBits()); res.setAccumAlphaBits(pfd.cAccumAlphaBits()); res.setDepthBits (pfd.cDepthBits()); res.setStencilBits (pfd.cStencilBits()); res.setDoubleBuffered((pfd.dwFlags() & WGL.PFD_DOUBLEBUFFER) != 0); res.setStereo ((pfd.dwFlags() & WGL.PFD_STEREO) != 0); res.setHardwareAccelerated(((pfd.dwFlags() & WGL.PFD_GENERIC_FORMAT) == 0) || ((pfd.dwFlags() & WGL.PFD_GENERIC_ACCELERATED) != 0)); return res; } static GLCapabilities iattributes2GLCapabilities(int[] iattribs, int[] iresults, int niattribs, boolean requireRenderToWindow) { GLCapabilities res = new GLCapabilities(); for (int i = 0; i < niattribs; i++) { switch (iattribs[i]) { case GL.WGL_DRAW_TO_WINDOW_ARB: if (iresults[i] != GL.GL_TRUE) return null; break; case GL.WGL_ACCELERATION_ARB: res.setHardwareAccelerated(iresults[i] == GL.WGL_FULL_ACCELERATION_ARB); break; case GL.WGL_SUPPORT_OPENGL_ARB: if (iresults[i] != GL.GL_TRUE) return null; break; case GL.WGL_DEPTH_BITS_ARB: res.setDepthBits(iresults[i]); break; case GL.WGL_STENCIL_BITS_ARB: res.setStencilBits(iresults[i]); break; case GL.WGL_DOUBLE_BUFFER_ARB: res.setDoubleBuffered(iresults[i] == GL.GL_TRUE); break; case GL.WGL_STEREO_ARB: res.setStereo(iresults[i] == GL.GL_TRUE); break; case GL.WGL_PIXEL_TYPE_ARB: if (iresults[i] != GL.WGL_TYPE_RGBA_ARB) return null; break; case GL.WGL_RED_BITS_ARB: res.setRedBits(iresults[i]); break; case GL.WGL_GREEN_BITS_ARB: res.setGreenBits(iresults[i]); break; case GL.WGL_BLUE_BITS_ARB: res.setBlueBits(iresults[i]); break; case GL.WGL_ALPHA_BITS_ARB: res.setAlphaBits(iresults[i]); break; case GL.WGL_ACCUM_RED_BITS_ARB: res.setAccumRedBits(iresults[i]); break; case GL.WGL_ACCUM_GREEN_BITS_ARB: res.setAccumGreenBits(iresults[i]); break; case GL.WGL_ACCUM_BLUE_BITS_ARB: res.setAccumBlueBits(iresults[i]); break; case GL.WGL_ACCUM_ALPHA_BITS_ARB: res.setAccumAlphaBits(iresults[i]); break; case GL.WGL_SAMPLE_BUFFERS_ARB: res.setSampleBuffers(iresults[i] == GL.GL_TRUE); break; case GL.WGL_SAMPLES_ARB: res.setNumSamples(iresults[i]); break; default: throw new GLException("Unknown pixel format attribute " + iattribs[i]); } } return res; } protected static String hdcToString(long hdc) { return "0x" + Long.toHexString(hdc); } }