/** * Copyright 2010 JogAmp Community. All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, are * permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this list of * conditions and the following disclaimer. * * 2. Redistributions 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. * * THIS SOFTWARE IS PROVIDED BY JogAmp Community ``AS IS'' AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND * FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL JogAmp Community OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * The views and conclusions contained in the software and documentation are those of the * authors and should not be interpreted as representing official policies, either expressed * or implied, of JogAmp Community. */ package jogamp.opengl; import javax.media.nativewindow.AbstractGraphicsDevice; import javax.media.opengl.GLCapabilities; import javax.media.opengl.GLCapabilitiesImmutable; import javax.media.opengl.GLContext; import javax.media.opengl.GLDrawableFactory; import javax.media.opengl.GLProfile; import com.jogamp.opengl.GLRendererQuirks; public class GLGraphicsConfigurationUtil { public static final String NV_coverage_sample = "NV_coverage_sample"; public static final int WINDOW_BIT = 1 << 0; public static final int BITMAP_BIT = 1 << 1; public static final int PBUFFER_BIT = 1 << 2; public static final int FBO_BIT = 1 << 3; // generic bit must be mapped to native one at impl. level public static final int ALL_BITS = WINDOW_BIT | BITMAP_BIT | PBUFFER_BIT | FBO_BIT ; public static final StringBuilder winAttributeBits2String(StringBuilder sb, int winattrbits) { if(null==sb) { sb = new StringBuilder(); } boolean seperator = false; if( 0 != ( WINDOW_BIT & winattrbits ) ) { sb.append("WINDOW"); seperator=true; } if( 0 != ( BITMAP_BIT & winattrbits ) ) { if(seperator) { sb.append(", "); } sb.append("BITMAP"); seperator=true; } if( 0 != ( PBUFFER_BIT & winattrbits ) ) { if(seperator) { sb.append(", "); } sb.append("PBUFFER"); seperator=true; } if( 0 != ( FBO_BIT & winattrbits ) ) { if(seperator) { sb.append(", "); } sb.append("FBO"); } return sb; } /** public static final int getWinAttributeBits(boolean isOnscreen, boolean isFBO, boolean isPBuffer, boolean isBitmap) { int winattrbits = 0; if(isOnscreen) { winattrbits |= WINDOW_BIT; } if(isFBO) { winattrbits |= FBO_BIT; } if(isPBuffer ){ winattrbits |= PBUFFER_BIT; } if(isBitmap) { winattrbits |= BITMAP_BIT; } return winattrbits; } public static final int getWinAttributeBits(GLCapabilitiesImmutable caps) { return getWinAttributeBits(caps.isOnscreen(), caps.isFBO(), caps.isPBuffer(), caps.isBitmap()); } */ /** * @return bitmask representing the input boolean in exclusive or logic, ie only one bit will be set. */ public static final int getExclusiveWinAttributeBits(boolean isOnscreen, boolean isFBO, boolean isPBuffer, boolean isBitmap) { final int winattrbits; if(isOnscreen) { winattrbits = WINDOW_BIT; } else if(isFBO) { winattrbits = FBO_BIT; } else if(isPBuffer ){ winattrbits = PBUFFER_BIT; } else if(isBitmap) { winattrbits = BITMAP_BIT; } else { throw new InternalError("Empty bitmask"); } return winattrbits; } /** * @see #getExclusiveWinAttributeBits(boolean, boolean, boolean, boolean) */ public static final int getExclusiveWinAttributeBits(GLCapabilitiesImmutable caps) { return getExclusiveWinAttributeBits(caps.isOnscreen(), caps.isFBO(), caps.isPBuffer(), caps.isBitmap()); } public static final GLCapabilities fixWinAttribBitsAndHwAccel(AbstractGraphicsDevice device, int winattrbits, GLCapabilities caps) { caps.setBitmap ( 0 != ( BITMAP_BIT & winattrbits ) ); caps.setPBuffer ( 0 != ( PBUFFER_BIT & winattrbits ) ); caps.setFBO ( 0 != ( FBO_BIT & winattrbits ) ); // we reflect availability semantics, hence setting onscreen at last (maybe overwritten above)! caps.setOnscreen( 0 != ( WINDOW_BIT & winattrbits ) ); final int accel = GLContext.isHardwareRasterizer( device, caps.getGLProfile() ); if(0 == accel && caps.getHardwareAccelerated() ) { caps.setHardwareAccelerated(false); } return caps; } /** * Fixes the requested {@link GLCapabilitiesImmutable} according to on- and offscreen usage. *

* No modification will be made for onscreen usage, for offscreen usage see * {@link #fixOffscreenGLCapabilities(GLCapabilitiesImmutable, GLDrawableFactory, AbstractGraphicsDevice)}. *

* @param capsRequested the requested {@link GLCapabilitiesImmutable} * @param factory the {@link GLDrawableFactory} used to validate the requested capabilities and later used to create the drawable. * @param device the device on which the drawable will be created, maybe null for the {@link GLDrawableFactory#getDefaultDevice() default device}. * @return either the given requested {@link GLCapabilitiesImmutable} instance if no modifications were required, or a modified {@link GLCapabilitiesImmutable} instance. */ public static GLCapabilitiesImmutable fixGLCapabilities(GLCapabilitiesImmutable capsRequested, GLDrawableFactory factory, AbstractGraphicsDevice device) { if( !capsRequested.isOnscreen() ) { return fixOffscreenGLCapabilities(capsRequested, factory, device); } return capsRequested; } public static GLCapabilitiesImmutable fixOnscreenGLCapabilities(GLCapabilitiesImmutable capsRequested) { if( !capsRequested.isOnscreen() || capsRequested.isFBO() || capsRequested.isPBuffer() || capsRequested.isBitmap() ) { // fix caps .. final GLCapabilities caps2 = (GLCapabilities) capsRequested.cloneMutable(); caps2.setBitmap (false); caps2.setPBuffer (false); caps2.setFBO (false); caps2.setOnscreen(true); return caps2; } return capsRequested; } public static GLCapabilitiesImmutable fixOffscreenBitOnly(GLCapabilitiesImmutable capsRequested) { if( capsRequested.isOnscreen() ) { // fix caps .. final GLCapabilities caps2 = (GLCapabilities) capsRequested.cloneMutable(); caps2.setOnscreen(false); return caps2; } return capsRequested; } /** * Fixes the requested {@link GLCapabilitiesImmutable} according to: * * @param capsRequested the requested {@link GLCapabilitiesImmutable} * @param factory the {@link GLDrawableFactory} used to validate the requested capabilities and later used to create the drawable. * @param device the device on which the drawable will be created, maybe null for the {@link GLDrawableFactory#getDefaultDevice() default device}. * @return either the given requested {@link GLCapabilitiesImmutable} instance if no modifications were required, or a modified {@link GLCapabilitiesImmutable} instance. */ public static GLCapabilitiesImmutable fixOffscreenGLCapabilities(GLCapabilitiesImmutable capsRequested, GLDrawableFactory factory, AbstractGraphicsDevice device) { if(null == device) { device = factory.getDefaultDevice(); } final boolean fboAvailable = GLContext.isFBOAvailable(device, capsRequested.getGLProfile()); final boolean pbufferAvailable = factory.canCreateGLPbuffer(device); final GLRendererQuirks glrq = factory.getRendererQuirks(device); final boolean bitmapAvailable; final boolean doubleBufferAvailable; if(null != glrq) { bitmapAvailable = !glrq.exist(GLRendererQuirks.NoOffscreenBitmap); if( capsRequested.getDoubleBuffered() && ( capsRequested.isPBuffer() && glrq.exist(GLRendererQuirks.NoDoubleBufferedPBuffer) ) || ( capsRequested.isBitmap() && glrq.exist(GLRendererQuirks.NoDoubleBufferedBitmap) ) ) { doubleBufferAvailable = false; } else { doubleBufferAvailable = true; } } else { bitmapAvailable = true; doubleBufferAvailable = true; } final boolean auto = !( fboAvailable && capsRequested.isFBO() ) && !( pbufferAvailable && capsRequested.isPBuffer() ) && !( bitmapAvailable && capsRequested.isBitmap() ) ; final boolean useFBO = fboAvailable && ( auto || capsRequested.isFBO() ) ; final boolean usePbuffer = !useFBO && pbufferAvailable && ( auto || capsRequested.isPBuffer() ) ; final boolean useBitmap = !useFBO && !usePbuffer && bitmapAvailable && ( auto || capsRequested.isBitmap() ) ; if( capsRequested.isOnscreen() || useFBO != capsRequested.isFBO() || usePbuffer != capsRequested.isPBuffer() || useBitmap != capsRequested.isBitmap() || !doubleBufferAvailable && capsRequested.getDoubleBuffered() ) { // fix caps .. final GLCapabilities caps2 = (GLCapabilities) capsRequested.cloneMutable(); caps2.setOnscreen(false); caps2.setFBO( useFBO ); caps2.setPBuffer( usePbuffer ); caps2.setBitmap( useBitmap ); if( !doubleBufferAvailable ) { caps2.setDoubleBuffered(false); } return caps2; } return capsRequested; } public static GLCapabilitiesImmutable fixGLPBufferGLCapabilities(GLCapabilitiesImmutable capsRequested) { if( capsRequested.isOnscreen() || !capsRequested.isPBuffer() || capsRequested.isFBO() ) { // fix caps .. final GLCapabilities caps2 = (GLCapabilities) capsRequested.cloneMutable(); caps2.setOnscreen(false); caps2.setFBO(false); caps2.setPBuffer(true); caps2.setBitmap(false); return caps2; } return capsRequested; } /** Fix opaque setting while preserve alpha bits */ public static GLCapabilities fixOpaqueGLCapabilities(GLCapabilities capsRequested, boolean isOpaque) { if( capsRequested.isBackgroundOpaque() != isOpaque) { final int alphaBits = capsRequested.getAlphaBits(); capsRequested.setBackgroundOpaque(isOpaque); capsRequested.setAlphaBits(alphaBits); } return capsRequested; } /** Fix double buffered setting */ public static GLCapabilitiesImmutable fixDoubleBufferedGLCapabilities(GLCapabilitiesImmutable capsRequested, boolean doubleBuffered) { if( capsRequested.getDoubleBuffered() != doubleBuffered) { final GLCapabilities caps2 = (GLCapabilities) capsRequested.cloneMutable(); caps2.setDoubleBuffered(doubleBuffered); return caps2; } return capsRequested; } public static GLCapabilitiesImmutable clipRGBAGLCapabilities(GLCapabilitiesImmutable caps, boolean allowRGB555, boolean allowAlpha) { final int iR = caps.getRedBits(); final int iG = caps.getGreenBits(); final int iB = caps.getBlueBits(); final int iA = caps.getAlphaBits(); final int oR = clipColor(iR, allowRGB555); final int oG = clipColor(iG, allowRGB555); final int oB = clipColor(iB, allowRGB555); final int oA = ( allowAlpha && 0 < iA ) ? oR : 0 ; // align alpha to red if requested and allowed if( iR != oR || iG != oG || iB != oB || iA != oA ) { final GLCapabilities caps2 = (GLCapabilities) caps.cloneMutable(); caps2.setRedBits(oR); caps2.setGreenBits(oG); caps2.setBlueBits(oB); caps2.setAlphaBits(oA); return caps2; } return caps; } public static int clipColor(final int compIn, final boolean allowRGB555) { final int compOut; if( 5 < compIn || !allowRGB555 ) { compOut = 8; } else { compOut = 5; } return compOut; } public static GLCapabilitiesImmutable fixGLProfile(GLCapabilitiesImmutable caps, GLProfile glp) { if( caps.getGLProfile() != glp ) { final GLCapabilities caps2 = (GLCapabilities) caps.cloneMutable(); caps2.setGLProfile(glp); return caps2; } return caps; } }