package jogamp.opengl; import javax.media.nativewindow.NativeSurface; import javax.media.nativewindow.NativeWindowException; import javax.media.nativewindow.ProxySurface; import javax.media.nativewindow.UpstreamSurfaceHook; import javax.media.opengl.GL; import javax.media.opengl.GLCapabilities; import javax.media.opengl.GLCapabilitiesImmutable; import javax.media.opengl.GLContext; import javax.media.opengl.GLException; import javax.media.opengl.GLFBODrawable; import com.jogamp.common.util.PropertyAccess; import com.jogamp.common.util.VersionUtil; import com.jogamp.nativewindow.MutableGraphicsConfiguration; import com.jogamp.opengl.FBObject; import com.jogamp.opengl.GLRendererQuirks; import com.jogamp.opengl.FBObject.Attachment; import com.jogamp.opengl.FBObject.Colorbuffer; import com.jogamp.opengl.FBObject.TextureAttachment; import com.jogamp.opengl.JoglVersion; /** * {@link FBObject} offscreen GLDrawable implementation, i.e. {@link GLFBODrawable}. *

* It utilizes the context lifecycle hook {@link #contextRealized(GLContext, boolean)} * to initialize the {@link FBObject} instance. *

*

* It utilizes the context current hook {@link #contextMadeCurrent(GLContext, boolean) contextMadeCurrent(context, true)} * to {@link FBObject#bind(GL) bind} the FBO. *

* See {@link GLFBODrawable} for double buffering details. * * @see GLDrawableImpl#contextRealized(GLContext, boolean) * @see GLDrawableImpl#contextMadeCurrent(GLContext, boolean) * @see GLDrawableImpl#getDefaultDrawFramebuffer() * @see GLDrawableImpl#getDefaultReadFramebuffer() */ public class GLFBODrawableImpl extends GLDrawableImpl implements GLFBODrawable { protected static final boolean DEBUG; protected static final boolean DEBUG_SWAP; static { Debug.initSingleton(); DEBUG = GLDrawableImpl.DEBUG || Debug.debug("FBObject"); DEBUG_SWAP = PropertyAccess.isPropertyDefined("jogl.debug.FBObject.Swap", true); } private final GLDrawableImpl parent; private GLCapabilitiesImmutable origParentChosenCaps; private boolean initialized; private int fboModeBits; private int texUnit; private int samples; private boolean fboResetQuirk; private FBObject[] fbos; private int fboIBack; // points to GL_BACK buffer private int fboIFront; // points to GL_FRONT buffer private int pendingFBOReset = -1; /** Indicates whether the FBO is bound. */ private boolean fboBound; /** Indicates whether the FBO is swapped, resets to false after makeCurrent -> contextMadeCurrent. */ private boolean fboSwapped; /** dump fboResetQuirk info only once pre ClassLoader and only in DEBUG mode */ private static volatile boolean resetQuirkInfoDumped = false; /** number of FBOs for double buffering. TODO: Possible to configure! */ private static final int bufferCount = 2; // private DoubleBufferMode doubleBufferMode; // TODO: Add or remove TEXTURE (only) DoubleBufferMode support private SwapBufferContext swapBufferContext; public static interface SwapBufferContext { public void swapBuffers(boolean doubleBuffered); } /** * @param factory * @param parent * @param surface * @param fboCaps the requested FBO capabilities * @param textureUnit */ protected GLFBODrawableImpl(final GLDrawableFactoryImpl factory, final GLDrawableImpl parent, final NativeSurface surface, final GLCapabilitiesImmutable fboCaps, final int textureUnit) { super(factory, surface, fboCaps, false); this.initialized = false; this.fboModeBits = FBOMODE_USE_TEXTURE; this.parent = parent; this.origParentChosenCaps = getChosenGLCapabilities(); // just to avoid null, will be reset at initialize(..) this.texUnit = textureUnit; this.samples = fboCaps.getNumSamples(); this.fboResetQuirk = false; this.swapBufferContext = null; } private final void setupFBO(final GL gl, final int idx, final int width, final int height, final int samples, final boolean useAlpha, final int depthBits, final int stencilBits, final boolean useTexture, final boolean realUnbind) { final FBObject fbo = new FBObject(); fbos[idx] = fbo; final boolean useDepth = depthBits > 0 || 0 != ( FBOMODE_USE_DEPTH & fboModeBits ); final boolean useStencil = stencilBits > 0; fbo.init(gl, width, height, samples); if(fbo.getNumSamples() != samples) { throw new InternalError("Sample number mismatch: "+samples+", fbos["+idx+"] "+fbo); } if(samples > 0 || !useTexture) { fbo.attachColorbuffer(gl, 0, useAlpha); } else { fbo.attachTexture2D(gl, 0, useAlpha); } if( useStencil ) { if( useDepth ) { fbo.attachRenderbuffer(gl, Attachment.Type.DEPTH_STENCIL, depthBits); } else { fbo.attachRenderbuffer(gl, Attachment.Type.STENCIL, stencilBits); } } else if( useDepth ) { fbo.attachRenderbuffer(gl, Attachment.Type.DEPTH, depthBits); } if(samples > 0) { final FBObject ssink = new FBObject(); { ssink.init(gl, width, height, 0); if( !useTexture ) { ssink.attachColorbuffer(gl, 0, useAlpha); } else { ssink.attachTexture2D(gl, 0, useAlpha); } if( useStencil ) { if( useDepth ) { ssink.attachRenderbuffer(gl, Attachment.Type.DEPTH_STENCIL, depthBits); } else { ssink.attachRenderbuffer(gl, Attachment.Type.STENCIL, stencilBits); } } else if( useDepth ) { ssink.attachRenderbuffer(gl, Attachment.Type.DEPTH, depthBits); } } fbo.setSamplingSink(ssink); fbo.resetSamplingSink(gl); // validate } // Clear the framebuffer allowing defined state not exposing previous content. // Also remedy for Bug 1020, i.e. OSX/Nvidia's FBO needs to be cleared before blitting, // otherwise first MSAA frame lacks antialiasing. fbo.bind(gl); if( useDepth ) { gl.glClear(GL.GL_COLOR_BUFFER_BIT | GL.GL_DEPTH_BUFFER_BIT); } else { gl.glClear(GL.GL_COLOR_BUFFER_BIT); } if( realUnbind ) { fbo.unbind(gl); } else { fbo.markUnbound(); } } private final void initialize(final boolean realize, final GL gl) { if( !initialized && !realize ) { if( DEBUG ) { System.err.println("GLFBODrawableImpl.initialize(): WARNING - Already unrealized!"); Thread.dumpStack(); } return; // NOP, no exception for de-init twice or no init! } if( initialized == realize ) { throw new IllegalStateException("initialize already in state "+realize+": "+this); } if(realize) { final GLCapabilities chosenFBOCaps = (GLCapabilities) getChosenGLCapabilities(); // cloned at setRealized(true) final int maxSamples = gl.getMaxRenderbufferSamples(); { final int newSamples = samples <= maxSamples ? samples : maxSamples; if(DEBUG) { System.err.println("GLFBODrawableImpl.initialize(): samples "+samples+" -> "+newSamples+"/"+maxSamples); } samples = newSamples; } final int fbosN; if(samples > 0) { fbosN = 1; } else if( chosenFBOCaps.getDoubleBuffered() ) { fbosN = bufferCount; } else { fbosN = 1; } fbos = new FBObject[fbosN]; fboIBack = 0; // head fboIFront = fbos.length - 1; // tail if( 0 == ( FBOMODE_USE_TEXTURE & fboModeBits ) && gl.getContext().hasRendererQuirk(GLRendererQuirks.BuggyColorRenderbuffer) ) { // GLRendererQuirks.BuggyColorRenderbuffer also disables MSAA, i.e. full FBO support fboModeBits |= FBOMODE_USE_TEXTURE; } final boolean useTexture = 0 != ( FBOMODE_USE_TEXTURE & fboModeBits ); final boolean useAlpha = chosenFBOCaps.getAlphaBits() > 0; final int width = getSurfaceWidth(); final int height = getSurfaceHeight(); for(int i=0; i 0 ); } else { for(int i=0; i "+newSamples+"/"+maxSamples); } initialize(false, gl); samples = newSamples; initialize(true, gl); } else { if(DEBUG) { System.err.println("GLFBODrawableImpl.reset(): simple reconfig: "+samples+" -> "+newSamples+"/"+maxSamples); } final int nWidth = getSurfaceWidth(); final int nHeight = getSurfaceHeight(); samples = newSamples; pendingFBOReset = ( 1 < fbos.length ) ? fboIFront : -1; // pending-front reset only w/ double buffering (or zero samples) final GLCapabilitiesImmutable caps = (GLCapabilitiesImmutable) surface.getGraphicsConfiguration().getChosenCapabilities(); for(int i=0; i0, caps.getDepthBits(), caps.getStencilBits()); } } final GLCapabilities fboCapsNative = (GLCapabilities) surface.getGraphicsConfiguration().getChosenCapabilities(); fbos[0].formatToGLCapabilities(fboCapsNative); } } catch (final Throwable t) { tFBO = t; } finally { try { ourContext.release(); if(ctxSwitch) { curContext.makeCurrent(); } } catch (final Throwable t) { tGL = t; } } if(null != tFBO) { throw GLException.newGLException(tFBO); } if(null != tGL) { throw GLException.newGLException(tGL); } if(DEBUG) { System.err.println("GLFBODrawableImpl.reset(newSamples "+newSamples+"): END "+this); } } // // GLDrawable // @Override public final GLContext createContext(final GLContext shareWith) { final GLContext ctx = parent.createContext(shareWith); ctx.setGLDrawable(this, false); return ctx; } // // GLDrawableImpl // @Override public final GLDynamicLookupHelper getGLDynamicLookupHelper() { return parent.getGLDynamicLookupHelper(); } @Override protected final int getDefaultDrawFramebuffer() { return initialized ? fbos[fboIBack].getWriteFramebuffer() : 0; } @Override protected final int getDefaultReadFramebuffer() { return initialized ? fbos[fboIFront].getReadFramebuffer() : 0; } @Override protected final int getDefaultReadBuffer(final GL gl, final boolean hasDedicatedDrawableRead) { return initialized ? fbos[fboIFront].getDefaultReadBuffer() : GL.GL_COLOR_ATTACHMENT0 ; } @Override protected final void setRealizedImpl() { final MutableGraphicsConfiguration msConfig = (MutableGraphicsConfiguration) surface.getGraphicsConfiguration(); if(realized) { parent.setRealized(true); origParentChosenCaps = (GLCapabilitiesImmutable) msConfig.getChosenCapabilities(); final GLCapabilities chosenFBOCaps = (GLCapabilities) origParentChosenCaps.cloneMutable(); // incl. GLCapabilities, e.g. X11GLCapabilities chosenFBOCaps.copyFrom(getRequestedGLCapabilities()); // copy user values msConfig.setChosenCapabilities(chosenFBOCaps); } else { msConfig.setChosenCapabilities(origParentChosenCaps); parent.setRealized(false); } } @Override protected void associateContext(final GLContext glc, final boolean bound) { initialize(bound, glc.getGL()); } @Override protected final void contextMadeCurrent(final GLContext glc, final boolean current) { final GL gl = glc.getGL(); if(current) { if( !initialized ) { throw new GLException("Not initialized: "+this); } fbos[fboIBack].bind(gl); fboBound = true; fboSwapped = false; } else if( fboBound && !fboSwapped ) { swapFBOImpl(glc); swapFBOImplPost(glc); fboBound=false; fboSwapped=true; if(DEBUG_SWAP) { System.err.println("Post FBO swap(@release): done"); } } } @Override protected void swapBuffersImpl(final boolean doubleBuffered) { final GLContext ctx = GLContext.getCurrent(); boolean doPostSwap; if( null != ctx && ctx.getGLDrawable() == this && fboBound ) { swapFBOImpl(ctx); doPostSwap = true; fboSwapped = true; if(DEBUG_SWAP) { System.err.println("Post FBO swap(@swap): done"); } } else { doPostSwap = false; } if( null != swapBufferContext ) { swapBufferContext.swapBuffers(doubleBuffered); } if(doPostSwap) { swapFBOImplPost(ctx); } } private final void swapFBOImplPost(final GLContext glc) { // Safely reset the previous front FBO - after completing propagating swap if(0 <= pendingFBOReset) { final GLCapabilitiesImmutable caps = (GLCapabilitiesImmutable) surface.getGraphicsConfiguration().getChosenCapabilities(); reset(glc.getGL(), pendingFBOReset, getSurfaceWidth(), getSurfaceHeight(), samples, caps.getAlphaBits()>0, caps.getDepthBits(), caps.getStencilBits()); pendingFBOReset = -1; } } private final void swapFBOImpl(final GLContext glc) { final GL gl = glc.getGL(); fbos[fboIBack].markUnbound(); // fast path, use(gl,..) is called below if(DEBUG) { final int _fboIFront = ( fboIFront + 1 ) % fbos.length; if(_fboIFront != fboIBack) { throw new InternalError("XXX: "+_fboIFront+"!="+fboIBack); } } fboIFront = fboIBack; fboIBack = ( fboIBack + 1 ) % fbos.length; final Colorbuffer colorbuffer = samples > 0 ? fbos[fboIFront].getSamplingSink() : fbos[fboIFront].getColorbuffer(0); if(null == colorbuffer) { throw new GLException("Front colorbuffer is null: samples "+samples+", "+this); } final TextureAttachment texAttachment; if( colorbuffer.isTextureAttachment() ) { texAttachment = colorbuffer.getTextureAttachment(); gl.glActiveTexture(GL.GL_TEXTURE0 + texUnit); } else { texAttachment = null; } fbos[fboIFront].use(gl, texAttachment); /* Included in above use command: gl.glBindFramebuffer(GL2GL3.GL_DRAW_FRAMEBUFFER, fbos[fboIBack].getDrawFramebuffer()); gl.glBindFramebuffer(GL2GL3.GL_READ_FRAMEBUFFER, fbos[fboIFront].getReadFramebuffer()); } */ if(DEBUG_SWAP) { System.err.println("Post FBO swap(X): fboI back "+fboIBack+", front "+fboIFront+", num "+fbos.length); } } // // GLFBODrawable // @Override public final boolean isInitialized() { return initialized; } @Override public final void setFBOMode(final int modeBits) throws IllegalStateException { if( isInitialized() ) { throw new IllegalStateException("Already initialized: "+this); } this.fboModeBits = modeBits; } @Override public final int getFBOMode() { return fboModeBits; } @Override public final void resetSize(final GL gl) throws GLException { reset(gl, samples); } @Override public final int getTextureUnit() { return texUnit; } @Override public final void setTextureUnit(final int u) { texUnit = u; } @Override public final int getNumSamples() { return samples; } @Override public void setNumSamples(final GL gl, final int newSamples) throws GLException { if(samples != newSamples) { reset(gl, newSamples); } } @Override public final int setNumBuffers(final int bufferCount) throws /* IllegalStateException, */ GLException { if( isInitialized() ) { throw new IllegalStateException("Already initialized: "+this); } // FIXME: Implement return GLFBODrawableImpl.bufferCount; } @Override public final int getNumBuffers() { return bufferCount; } /** // TODO: Add or remove TEXTURE (only) DoubleBufferMode support @Override public final DoubleBufferMode getDoubleBufferMode() { return doubleBufferMode; } @Override public final void setDoubleBufferMode(DoubleBufferMode mode) throws GLException { if(initialized) { throw new GLException("Not allowed past initialization: "+this); } final GLCapabilitiesImmutable caps = (GLCapabilitiesImmutable) surface.getGraphicsConfiguration().getChosenCapabilities(); if(0 == samples && caps.getDoubleBuffered() && DoubleBufferMode.NONE != mode) { doubleBufferMode = mode; } } */ @Override public FBObject getFBObject(final int bufferName) throws IllegalArgumentException { if(!initialized) { return null; } final FBObject res; switch(bufferName) { case GL.GL_FRONT: if( samples > 0 ) { res = fbos[0].getSamplingSinkFBO(); } else { res = fbos[fboIFront]; } break; case GL.GL_BACK: res = fbos[fboIBack]; break; default: throw new IllegalArgumentException(illegalBufferName+toHexString(bufferName)); } return res; } @Override public final Colorbuffer getColorbuffer(final int bufferName) throws IllegalArgumentException { if(!initialized) { return null; } final Colorbuffer res; switch(bufferName) { case GL.GL_FRONT: if( samples > 0 ) { res = fbos[0].getSamplingSink(); } else { res = fbos[fboIFront].getColorbuffer(0); } break; case GL.GL_BACK: if( samples > 0 ) { throw new IllegalArgumentException("Cannot access GL_BACK buffer of MSAA FBO: "+this); } else { res = fbos[fboIBack].getColorbuffer(0); } break; default: throw new IllegalArgumentException(illegalBufferName+toHexString(bufferName)); } return res; } private static final String illegalBufferName = "Only GL_FRONT and GL_BACK buffer are allowed, passed "; @Override public String toString() { return getClass().getSimpleName()+"[Initialized "+initialized+", realized "+isRealized()+", texUnit "+texUnit+", samples "+samples+ ",\n\tFactory "+getFactory()+ ",\n\tHandle "+toHexString(getHandle())+ ",\n\tCaps "+surface.getGraphicsConfiguration().getChosenCapabilities()+ ",\n\tfboI back "+fboIBack+", front "+fboIFront+", num "+(initialized ? fbos.length : 0)+ ",\n\tFBO front read "+getDefaultReadFramebuffer()+", "+getFBObject(GL.GL_FRONT)+ ",\n\tFBO back write "+getDefaultDrawFramebuffer()+", "+getFBObject(GL.GL_BACK)+ ",\n\tSurface "+surface+ "]"; } public static class ResizeableImpl extends GLFBODrawableImpl implements GLFBODrawable.Resizeable { protected ResizeableImpl(final GLDrawableFactoryImpl factory, final GLDrawableImpl parent, final ProxySurface surface, final GLCapabilitiesImmutable fboCaps, final int textureUnit) { super(factory, parent, surface, fboCaps, textureUnit); } @Override public final void setSurfaceSize(final GLContext context, final int newWidth, final int newHeight) throws NativeWindowException, GLException { if(DEBUG) { System.err.println("GLFBODrawableImpl.ResizeableImpl setSize: ("+getThreadName()+"): "+newWidth+"x"+newHeight+" - surfaceHandle 0x"+Long.toHexString(getNativeSurface().getSurfaceHandle())); } final int lockRes = lockSurface(); if (NativeSurface.LOCK_SURFACE_NOT_READY >= lockRes) { throw new NativeWindowException("Could not lock surface: "+this); } try { // propagate new size final ProxySurface ps = (ProxySurface) getNativeSurface(); final UpstreamSurfaceHook ush = ps.getUpstreamSurfaceHook(); if(ush instanceof UpstreamSurfaceHook.MutableSize) { ((UpstreamSurfaceHook.MutableSize)ush).setSurfaceSize(newWidth, newHeight); } else { throw new InternalError("GLFBODrawableImpl.ResizableImpl's ProxySurface doesn't hold a UpstreamSurfaceHookMutableSize but "+ush.getClass().getName()+", "+ps+", ush"); } if( null != context && context.isCreated() ) { resetSize(context.getGL()); } } finally { unlockSurface(); } } } }