/* * Copyright (c) 2003 Sun Microsystems, Inc. All Rights Reserved. * Copyright (c) 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: * * - 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 * MICROSYSTEMS, 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 jogamp.opengl; import java.nio.Buffer; import java.util.HashMap; import java.util.Iterator; import java.util.Map; import java.util.Set; import com.jogamp.nativewindow.AbstractGraphicsConfiguration; import com.jogamp.nativewindow.AbstractGraphicsDevice; import com.jogamp.nativewindow.AbstractGraphicsScreen; import com.jogamp.nativewindow.NativeSurface; import com.jogamp.nativewindow.NativeWindowFactory; import com.jogamp.nativewindow.OffscreenLayerSurface; import com.jogamp.nativewindow.ProxySurface; import com.jogamp.nativewindow.MutableSurface; import com.jogamp.nativewindow.UpstreamSurfaceHook; import com.jogamp.opengl.FBObject; import com.jogamp.opengl.GLAutoDrawable; import com.jogamp.opengl.GLCapabilities; import com.jogamp.opengl.GLCapabilitiesChooser; import com.jogamp.opengl.GLCapabilitiesImmutable; import com.jogamp.opengl.GLContext; import com.jogamp.opengl.GLDrawable; import com.jogamp.opengl.GLDrawableFactory; import com.jogamp.opengl.GLException; import com.jogamp.opengl.GLFBODrawable; import com.jogamp.opengl.GLOffscreenAutoDrawable; import com.jogamp.opengl.GLProfile; import com.jogamp.common.ExceptionUtils; import com.jogamp.nativewindow.MutableGraphicsConfiguration; import com.jogamp.nativewindow.DelegatedUpstreamSurfaceHookWithSurfaceSize; import com.jogamp.nativewindow.GenericUpstreamSurfacelessHook; import com.jogamp.nativewindow.UpstreamSurfaceHookMutableSize; import com.jogamp.opengl.GLAutoDrawableDelegate; import com.jogamp.opengl.GLRendererQuirks; /** Extends GLDrawableFactory with a few methods for handling typically software-accelerated offscreen rendering (Device Independent Bitmaps on Windows, pixmaps on X11). Direct access to these GLDrawables is not supplied directly to end users, though they may be instantiated by the GLJPanel implementation. */ public abstract class GLDrawableFactoryImpl extends GLDrawableFactory { protected static final boolean DEBUG = GLDrawableFactory.DEBUG; // allow package access protected GLDrawableFactoryImpl() { super(); } /** * Returns {@code true} if context is capable of operating without a surface, * otherwise returns {@code false} and sets the {@link GLRendererQuirks#NoSurfacelessCtx}. *

* Method will skip probing in case {@link GLRendererQuirks#NoSurfacelessCtx} has been already set. *

*

* Caller shall skip probing in case surfaceless support is not possible, * e.g. OpenGL ES without {@code EGL_KHR_surfaceless_context} or EGL < 1.5, * or desktop OpenGL context < 3.0 and instead call {@link #setNoSurfacelessCtxQuirk(GLContext)}! *

* * @param context the context to probe, must be current * @param restoreDrawable If {@code true}, the initial drawable will be restored after probing * and the temporary {@code zeroDrawable} will be released. * If {@code false}, the temporary {@code zeroDrawable} will be kept (bound) to the context. * Restoration may be skipped, if the drawable and context will be destroyed anyways. * * @see GLRendererQuirks#NoSurfacelessCtx */ protected final boolean probeSurfacelessCtx(final GLContext context, final boolean restoreDrawable) { final GLDrawable origDrawable = context.getGLDrawable(); final AbstractGraphicsDevice device = origDrawable.getNativeSurface().getGraphicsConfiguration().getScreen().getDevice(); final boolean noSurfacelessCtxQuirk = context.hasRendererQuirk(GLRendererQuirks.NoSurfacelessCtx); boolean allowsSurfacelessCtx = false; if( !noSurfacelessCtxQuirk ) { GLDrawable zeroDrawable = null; try { final GLCapabilitiesImmutable caps = origDrawable.getRequestedGLCapabilities(); final ProxySurface zeroSurface = createSurfacelessImpl(device, true, caps, caps, null, 64, 64); zeroDrawable = createOnscreenDrawableImpl(zeroSurface); zeroDrawable.setRealized(true); // Since context is still current, // will keep context current w/ zeroDrawable or throws GLException context.setGLDrawable(zeroDrawable, false); allowsSurfacelessCtx = true; // if setGLDrawable is successful, i.e. no GLException if( restoreDrawable ) { context.setGLDrawable(origDrawable, false); } } catch (final Throwable t) { if( DEBUG || GLContext.DEBUG ) { ExceptionUtils.dumpThrowable("", t); } } finally { if( null != zeroDrawable && restoreDrawable ) { zeroDrawable.setRealized(false); } } } if( !noSurfacelessCtxQuirk && !allowsSurfacelessCtx ) { setNoSurfacelessCtxQuirkImpl(device, context); } return allowsSurfacelessCtx; } /** * Method will set the {@link GLRendererQuirks#NoSurfacelessCtx} * if it has not been set already. * * @param context the context to probe, must be current * @see GLRendererQuirks#NoSurfacelessCtx */ protected final void setNoSurfacelessCtxQuirk(final GLContext context) { final boolean noSurfacelessCtxQuirk = context.hasRendererQuirk(GLRendererQuirks.NoSurfacelessCtx); if( !noSurfacelessCtxQuirk ) { final GLDrawable origDrawable = context.getGLDrawable(); final AbstractGraphicsDevice device = origDrawable.getNativeSurface().getGraphicsConfiguration().getScreen().getDevice(); setNoSurfacelessCtxQuirkImpl(device, context); } } private final void setNoSurfacelessCtxQuirkImpl(final AbstractGraphicsDevice device, final GLContext context) { final int quirk = GLRendererQuirks.NoSurfacelessCtx; if(DEBUG || GLContext.DEBUG) { System.err.println("Quirk: "+GLRendererQuirks.toString(quirk)+" -> "+device+": cause: probe"); } final GLRendererQuirks glrq = context.getRendererQuirks(); if( null != glrq ) { glrq.addQuirk(quirk); } GLRendererQuirks.addStickyDeviceQuirk(device, quirk); } /** * Returns the shared resource mapped to the device {@link AbstractGraphicsDevice#getConnection()}, * either a pre-existing or newly created, or null if creation failed or not supported.
* Creation of the shared resource is tried only once. * * @param device which {@link com.jogamp.nativewindow.AbstractGraphicsDevice#getConnection() connection} denotes the shared the target device, may be null for the platform's default device. */ protected final SharedResourceRunner.Resource getOrCreateSharedResource(AbstractGraphicsDevice device) { try { device = validateDevice(device); if( null != device) { return getOrCreateSharedResourceImpl( device ); } } catch (final GLException gle) { if(DEBUG) { System.err.println("Caught exception on thread "+getThreadName()); gle.printStackTrace(); } } return null; } protected abstract SharedResourceRunner.Resource getOrCreateSharedResourceImpl(AbstractGraphicsDevice device); /** * Returns the shared context mapped to the device {@link AbstractGraphicsDevice#getConnection()}, * either a pre-existing or newly created, or null if creation failed or not supported.
* Creation of the shared context is tried only once. * * @param device which {@link com.jogamp.nativewindow.AbstractGraphicsDevice#getConnection() connection} denotes the shared the target device, may be null for the platform's default device. */ public final GLContext getOrCreateSharedContext(final AbstractGraphicsDevice device) { final SharedResourceRunner.Resource sr = getOrCreateSharedResource( device ); if(null!=sr) { return sr.getContext(); } return null; } @Override protected final boolean createSharedResourceImpl(final AbstractGraphicsDevice device) { final SharedResourceRunner.Resource sr = getOrCreateSharedResource( device ); if(null!=sr) { return sr.isAvailable(); } return false; } @Override public final GLRendererQuirks getRendererQuirks(final AbstractGraphicsDevice device, final GLProfile glp) { final SharedResourceRunner.Resource sr = getOrCreateSharedResource( device ); if(null!=sr) { return sr.getRendererQuirks(glp); } return null; } /** * Method returns {@code true} if underlying {@link #createContextARBImpl(long, boolean, int, int, int) ARB context creation} * supports {@code major} and {@code minor} version number. *

* Otherwise only the {@code major} version number is supported for context creation. *

*/ public abstract boolean hasMajorMinorCreateContextARB(); /** * Returns the shared device mapped to the device {@link AbstractGraphicsDevice#getConnection()}, * either a preexisting or newly created, or null if creation failed or not supported.
* Creation of the shared context is tried only once. * * @param device which {@link com.jogamp.nativewindow.AbstractGraphicsDevice#getConnection() connection} denotes the shared device to be used, may be null for the platform's default device. */ protected final AbstractGraphicsDevice getOrCreateSharedDevice(final AbstractGraphicsDevice device) { final SharedResourceRunner.Resource sr = getOrCreateSharedResource( device ); if(null!=sr) { return sr.getDevice(); } return null; } /** * Returns the GLDynamicLookupHelper if installed, otherwise {@code null}. * @param majorVersion the major OpenGL profile version * @param contextOptions the context profile options */ public abstract GLDynamicLookupHelper getGLDynamicLookupHelper(final int majorVersion, final int contextOptions); /** * Extends definition of {@link FBObject.Attachment.StorageDefinition} * for general onscreen FBO layer storage requirements. *

* Implementations are allowed to specialize {@link FBObject.Attachment.StorageDefinition} * for the special use-case of: *

*

* @see {@link FBObject.Attachment.StorageDefinition} * @see {@link FBObject.Attachment#setStorageDefinition(FBObject.Attachment.StorageDefinition)} */ public static interface OnscreenFBOColorbufferStorageDefinition extends FBObject.Attachment.StorageDefinition { /** * Returns true if underlying implementation supports double buffering */ public boolean isDoubleBufferSupported(); /** * Texture-Unit to be used for the FBO colorbuffer. *

* If a valid unit is returned, i.e. >= 0, a color texturebuffer is used, otherwise a color renderbuffer. *

*/ public int getTextureUnit(); } protected OnscreenFBOColorbufferStorageDefinition getOnscreenFBOColorbufStorageDef() { return null; } //--------------------------------------------------------------------------- // Dispatching GLDrawable construction in respect to the NativeSurface Capabilities // @Override public final GLDrawable createGLDrawable(final NativeSurface target) { if (target == null) { throw new IllegalArgumentException("Null target"); } final MutableGraphicsConfiguration config = (MutableGraphicsConfiguration) target.getGraphicsConfiguration(); final GLCapabilitiesImmutable reqCaps = (GLCapabilitiesImmutable) config.getRequestedCapabilities(); final GLCapabilitiesImmutable chosenCaps = (GLCapabilitiesImmutable) config.getChosenCapabilities(); final AbstractGraphicsDevice adevice = config.getScreen().getDevice(); final boolean isFBOAvailable = GLContext.isFBOAvailable(adevice, chosenCaps.getGLProfile()); GLDrawable result = null; adevice.lock(); try { final OnscreenFBOColorbufferStorageDefinition onscreenFBOColorbufStorageDef = getOnscreenFBOColorbufStorageDef(); final boolean forceOnscreenFBOLayer; final int fboTextureUnit; if( reqCaps.isOnscreen() && null != onscreenFBOColorbufStorageDef) { forceOnscreenFBOLayer = true; fboTextureUnit = onscreenFBOColorbufStorageDef.getTextureUnit(); } else { forceOnscreenFBOLayer = false; fboTextureUnit = 0; // assume texture unit 0 (default) is used at all } final OffscreenLayerSurface ols = NativeWindowFactory.getOffscreenLayerSurface(target, true); if(null != ols || forceOnscreenFBOLayer ) { final GLCapabilitiesImmutable chosenCapsMod0 = GLGraphicsConfigurationUtil.fixOffscreenGLCapabilities(chosenCaps, this, adevice); final GLCapabilitiesImmutable chosenCapsMod; if( forceOnscreenFBOLayer && !onscreenFBOColorbufStorageDef.isDoubleBufferSupported() ) { chosenCapsMod = GLGraphicsConfigurationUtil.fixDoubleBufferedGLCapabilities(chosenCapsMod0, false); } else { chosenCapsMod = chosenCapsMod0; } if( forceOnscreenFBOLayer ) { if( !chosenCapsMod.isFBO() ) { throw new GLException("FBO is not available for "+chosenCapsMod+", "+target); } } else { // layered surface -> Offscreen/[FBO|PBuffer] if( !chosenCapsMod.isFBO() && !chosenCapsMod.isPBuffer() ) { throw new GLException("Neither FBO nor Pbuffer is available for "+chosenCapsMod+", "+target); } } config.setChosenCapabilities(chosenCapsMod); if( null != ols ) { ols.setChosenCapabilities(chosenCapsMod); } if(DEBUG) { System.err.println("GLDrawableFactoryImpl.createGLDrawable -> OnscreenDrawable -> Offscreen-Layer"); System.err.println("requestedCaps: "+reqCaps); System.err.println("chosenCaps: "+chosenCaps); System.err.println("chosenCapsMod: "+chosenCapsMod); System.err.println("OffscreenLayerSurface: **** "+ols); System.err.println("forceOnscreenFBOLayer: **** "+forceOnscreenFBOLayer+", fboTextureUnit "+fboTextureUnit); System.err.println("Target: **** "+target); ExceptionUtils.dumpStack(System.err); } if( ! ( target instanceof MutableSurface ) ) { throw new IllegalArgumentException("Passed NativeSurface must implement SurfaceChangeable for offscreen layered surface: "+target); } if( chosenCapsMod.isFBO() ) { final GLFBODrawableImpl fboDrawable = (GLFBODrawableImpl) createFBODrawableImpl(target, chosenCapsMod, fboTextureUnit); if( forceOnscreenFBOLayer ) { fboDrawable.setColorRenderbufferStorageDef(onscreenFBOColorbufStorageDef); } result = fboDrawable; } else { result = createOffscreenDrawableImpl(target); } } else if(chosenCaps.isOnscreen()) { // onscreen final GLCapabilitiesImmutable chosenCapsMod = GLGraphicsConfigurationUtil.fixOnscreenGLCapabilities(chosenCaps); config.setChosenCapabilities(chosenCapsMod); if(DEBUG) { System.err.println("GLDrawableFactoryImpl.createGLDrawable -> OnscreenDrawable: "+target); } result = createOnscreenDrawableImpl(target); } else { // offscreen if(DEBUG) { System.err.println("GLDrawableFactoryImpl.createGLDrawable -> OffScreenDrawable, FBO chosen / avail, PBuffer: "+ chosenCaps.isFBO()+" / "+isFBOAvailable+", "+chosenCaps.isPBuffer()+": "+target); } if( ! ( target instanceof MutableSurface ) ) { throw new IllegalArgumentException("Passed NativeSurface must implement MutableSurface for offscreen: "+target); } if( chosenCaps.isFBO() && isFBOAvailable ) { // need to hook-up a native dummy surface since source may not have & use minimum GLCapabilities for it w/ same profile final ProxySurface dummySurface = createDummySurfaceImpl(adevice, false, new GLCapabilities(chosenCaps.getGLProfile()), (GLCapabilitiesImmutable)config.getRequestedCapabilities(), null, 64, 64); dummySurface.setUpstreamSurfaceHook(new DelegatedUpstreamSurfaceHookWithSurfaceSize(dummySurface.getUpstreamSurfaceHook(), target)); result = createFBODrawableImpl(dummySurface, chosenCaps, 0); } else { result = createOffscreenDrawableImpl(target); } } } finally { adevice.unlock(); } if(DEBUG) { System.err.println("GLDrawableFactoryImpl.createGLDrawable: "+result); } return result; } //--------------------------------------------------------------------------- // // Onscreen GLDrawable construction // protected abstract GLDrawableImpl createOnscreenDrawableImpl(NativeSurface target); //--------------------------------------------------------------------------- // // PBuffer Offscreen GLAutoDrawable construction // @Override public abstract boolean canCreateGLPbuffer(AbstractGraphicsDevice device, GLProfile glp); //--------------------------------------------------------------------------- // // Offscreen GLDrawable construction // @Override public final boolean canCreateFBO(final AbstractGraphicsDevice deviceReq, final GLProfile glp) { final AbstractGraphicsDevice device = getOrCreateSharedDevice(deviceReq); if(null == device) { throw new GLException("No shared device for requested: "+deviceReq); } return GLContext.isFBOAvailable(device, glp); } @Override public final GLOffscreenAutoDrawable createOffscreenAutoDrawable(final AbstractGraphicsDevice deviceReq, final GLCapabilitiesImmutable capsRequested, final GLCapabilitiesChooser chooser, final int width, final int height) { final GLDrawable drawable = createOffscreenDrawable( deviceReq, capsRequested, chooser, width, height ); try { drawable.setRealized(true); } catch( final GLException gle) { try { drawable.setRealized(false); } catch( final GLException gle2) { /* ignore */ } throw gle; } if(drawable instanceof GLFBODrawableImpl) { return new GLOffscreenAutoDrawableImpl.FBOImpl( (GLFBODrawableImpl)drawable, null, null, null ); } return new GLOffscreenAutoDrawableImpl( drawable, null, null, null); } @Override public final GLAutoDrawable createDummyAutoDrawable(final AbstractGraphicsDevice deviceReq, final boolean createNewDevice, final GLCapabilitiesImmutable capsRequested, final GLCapabilitiesChooser chooser) { final GLDrawable drawable = createDummyDrawable(deviceReq, createNewDevice, capsRequested, chooser); try { drawable.setRealized(true); } catch( final GLException gle) { try { drawable.setRealized(false); } catch( final GLException gle2) { /* ignore */ } throw gle; } final GLAutoDrawable sharedDrawable = new GLAutoDrawableDelegate(drawable, null, null, true /*ownDevice*/, null) { }; return sharedDrawable; } @Override public final GLDrawable createOffscreenDrawable(final AbstractGraphicsDevice deviceReq, final GLCapabilitiesImmutable capsRequested, final GLCapabilitiesChooser chooser, final int width, final int height) { if(width<=0 || height<=0) { throw new GLException("initial size must be positive (were (" + width + " x " + height + "))"); } final SharedResourceRunner.Resource sr = getOrCreateSharedResource( deviceReq ); if( null == sr ) { throw new GLException("No shared device for requested: "+deviceReq); } final AbstractGraphicsDevice device = sr.getDevice(); final GLCapabilitiesImmutable capsChosen = GLGraphicsConfigurationUtil.fixOffscreenGLCapabilities(capsRequested, this, device); if( capsChosen.isFBO() ) { // Use minimum GLCapabilities for the dummy surface w/ same profile final GLProfile glp = capsChosen.getGLProfile(); final GLCapabilitiesImmutable glCapsMin = new GLCapabilities(glp); final GLRendererQuirks glrq = sr.getRendererQuirks(glp); final ProxySurface surface; if( null != glrq && !glrq.exist(GLRendererQuirks.NoSurfacelessCtx) ) { surface = createSurfacelessImpl(device, true, glCapsMin, capsRequested, null, width, height); } else { surface = createDummySurfaceImpl(device, true, glCapsMin, capsRequested, null, width, height); } final GLDrawableImpl drawable = createOnscreenDrawableImpl(surface); return new GLFBODrawableImpl.ResizeableImpl(this, drawable, surface, capsChosen, 0); } return createOffscreenDrawableImpl( createMutableSurfaceImpl(device, true, capsChosen, capsRequested, chooser, new UpstreamSurfaceHookMutableSize(width, height) ) ); } /** * Quick path to produce a Surfaceless resizable FBO Drawable. *

* Caller has to be sure Surfaceless context as well as FBO is supported * on the platform, no checks will be made. *

* @param device2Use actual device to be used * @param capsRequested * @param width * @param height */ protected final GLFBODrawableImpl createSurfacelessFBODrawable(final AbstractGraphicsDevice device2Use, final GLCapabilitiesImmutable capsRequested, final int width, final int height) { if(width<=0 || height<=0) { throw new GLException("initial size must be positive (were (" + width + " x " + height + "))"); } final GLCapabilities capsChosen = (GLCapabilities) capsRequested.cloneMutable(); { capsChosen.setOnscreen(false); capsChosen.setFBO( true ); capsChosen.setPBuffer( false ); capsChosen.setBitmap( false ); } // final ProxySurface surface = createSurfacelessImpl(device2Use, false, glCapsMin, capsRequested, null, width, height); final GLCapabilitiesImmutable surfaceCaps = GLGraphicsConfigurationUtil.fixOnscreenGLCapabilities(capsRequested); final ProxySurface surface = createMutableSurfaceImpl(device2Use, false /* createNewDevice */, surfaceCaps, capsRequested, null, new GenericUpstreamSurfacelessHook(width, height)); final GLDrawableImpl dummyDrawable = createOnscreenDrawableImpl(surface); return new GLFBODrawableImpl.ResizeableImpl(this, dummyDrawable, surface, capsChosen, 0); } /** * Quick path to produce a Surfaceless Drawable. *

* Caller has to be sure Surfaceless context is supported * on the platform, no checks will be made. *

* @param device2Use actual device to be used * @param capsRequested * @param width * @param height */ protected final GLDrawableImpl createSurfacelessDrawable(final AbstractGraphicsDevice device2Use, final GLCapabilitiesImmutable capsRequested, final int width, final int height) { if(width<=0 || height<=0) { throw new GLException("initial size must be positive (were (" + width + " x " + height + "))"); } // final ProxySurface surface = createSurfacelessImpl(device2Use, false, glCapsMin, capsRequested, null, width, height); final GLCapabilitiesImmutable surfaceCaps = GLGraphicsConfigurationUtil.fixOnscreenGLCapabilities(capsRequested); final ProxySurface surface = createMutableSurfaceImpl(device2Use, false /* createNewDevice */, surfaceCaps, capsRequested, null, new GenericUpstreamSurfacelessHook(width, height)); return createOnscreenDrawableImpl(surface); } @Override public final GLDrawable createDummyDrawable(final AbstractGraphicsDevice deviceReq, final boolean createNewDevice, final GLCapabilitiesImmutable capsRequested, final GLCapabilitiesChooser chooser) { final AbstractGraphicsDevice device = createNewDevice ? getOrCreateSharedDevice(deviceReq) : deviceReq; if(null == device) { throw new GLException("No shared device for requested: "+deviceReq+", createNewDevice "+createNewDevice); } if( !createNewDevice ) { device.lock(); } try { final ProxySurface dummySurface = createDummySurfaceImpl(device, createNewDevice, capsRequested, capsRequested, chooser, 64, 64); return createOnscreenDrawableImpl(dummySurface); } finally { if( !createNewDevice ) { device.unlock(); } } } /** * Creates a platform independent unrealized FBO offscreen GLDrawable * @param dummySurface used for dummy-drawable and as surface for {@link GLFBODrawable} * @param fboCaps * @param textureUnit if valid, i.e. >= 0, signals using a color texturebuffer {@link GLFBODrawable#FBOMODE_USE_TEXTURE}, otherwise a color renderbuffer is used. * @return */ protected final GLFBODrawable createFBODrawableImpl(final NativeSurface dummySurface, final GLCapabilitiesImmutable fboCaps, final int textureUnit) { final GLDrawableImpl dummyDrawable = createOnscreenDrawableImpl(dummySurface); return new GLFBODrawableImpl(this, dummyDrawable, dummySurface, fboCaps, textureUnit); } /** Creates a platform dependent unrealized offscreen pbuffer/pixmap GLDrawable instance */ protected abstract GLDrawableImpl createOffscreenDrawableImpl(NativeSurface target) ; /** * Creates a mutable {@link ProxySurface} w/o defined surface handle. *

* It's {@link AbstractGraphicsConfiguration} is properly set according to the given {@link GLCapabilitiesImmutable}. *

*

* Lifecycle (destruction) of the TBD surface handle shall be handled by the caller. *

* @param device a valid platform dependent target device. * @param createNewDevice if true a new independent device instance is created using device details, * otherwise device instance is used as-is. * @param capsChosen * @param capsRequested * @param chooser the custom chooser, may be null for default * @param upstreamHook surface size information and optional control of the surface's lifecycle * @return the created {@link MutableSurface} instance w/o defined surface handle */ protected abstract ProxySurface createMutableSurfaceImpl(AbstractGraphicsDevice device, boolean createNewDevice, GLCapabilitiesImmutable capsChosen, GLCapabilitiesImmutable capsRequested, GLCapabilitiesChooser chooser, UpstreamSurfaceHook upstreamHook); /** * A dummy surface is not visible on screen, it may be on- or offscreen. *

* It is used to allow the creation of a {@link GLDrawable} and {@link GLContext} to query information. * It also allows creation of framebuffer objects which are used for rendering or using a shared GLContext w/o actually rendering to a usable framebuffer. *

*

* Creates a new independent device instance using deviceReq details. *

* @param deviceReq which {@link com.jogamp.nativewindow.AbstractGraphicsDevice#getConnection() connection} denotes the shared device to be used, may be null for the platform's default device. * @param requestedCaps * @param chooser the custom chooser, may be null for default * @param width the initial width as returned by {@link NativeSurface#getSurfaceWidth()}, not the actual dummy surface width. * The latter is platform specific and small * @param height the initial height as returned by {@link NativeSurface#getSurfaceHeight()}, not the actual dummy surface height, * The latter is platform specific and small * * @return the created {@link ProxySurface} instance w/o defined surface handle but platform specific {@link UpstreamSurfaceHook}. */ public final ProxySurface createDummySurface(final AbstractGraphicsDevice deviceReq, final GLCapabilitiesImmutable requestedCaps, final GLCapabilitiesChooser chooser, final int width, final int height) { final AbstractGraphicsDevice device = getOrCreateSharedDevice(deviceReq); if(null == device) { throw new GLException("No shared device for requested: "+deviceReq); } return createDummySurfaceImpl(device, true, requestedCaps, requestedCaps, chooser, width, height); } /** * A dummy surface is not visible on screen and may be on- or offscreen. *

* It is used to allow the creation of a {@link GLDrawable} and {@link GLContext} to query information. * It also allows creation of framebuffer objects which are used for rendering or using a shared GLContext w/o actually rendering to a usable framebuffer. *

* @param device a valid platform dependent target device. * @param createNewDevice if true a new device instance is created using device details, * otherwise device instance is used as-is. * @param chosenCaps * @param requestedCaps * @param chooser the custom chooser, may be null for default * @param width the initial width as returned by {@link NativeSurface#getSurfaceWidth()}, not the actual dummy surface width. * The latter is platform specific and small * @param height the initial height as returned by {@link NativeSurface#getSurfaceHeight()}, not the actual dummy surface height, * The latter is platform specific and small * @return the created {@link ProxySurface} instance w/o defined surface handle but platform specific {@link UpstreamSurfaceHook}. */ public abstract ProxySurface createDummySurfaceImpl(AbstractGraphicsDevice device, boolean createNewDevice, GLCapabilitiesImmutable chosenCaps, GLCapabilitiesImmutable requestedCaps, GLCapabilitiesChooser chooser, int width, int height); /** * A surfaceless {@link ProxySurface} is a non-existing surface and will not be used as a render target. *

* It is used to allow the creation of a {@link GLDrawable} and {@link GLContext} w/o default framebuffer to query information. * It also allows creation of framebuffer objects which are used for rendering or using a shared GLContext w/o actually rendering to a usable framebuffer. *

* @param device a valid platform dependent target device. * @param createNewDevice if true a new device instance is created using device details, * otherwise device instance is used as-is. * @param chosenCaps * @param requestedCaps * @param chooser the custom chooser, may be null for default * @param width the initial width as returned by {@link NativeSurface#getSurfaceWidth()}, not the actual dummy surface width. * The latter is platform specific and small * @param height the initial height as returned by {@link NativeSurface#getSurfaceHeight()}, not the actual dummy surface height, * The latter is platform specific and small * @return the created {@link ProxySurface} instance w/o defined surface handle but platform specific {@link UpstreamSurfaceHook}. */ public abstract ProxySurface createSurfacelessImpl(AbstractGraphicsDevice device, boolean createNewDevice, GLCapabilitiesImmutable chosenCaps, GLCapabilitiesImmutable requestedCaps, GLCapabilitiesChooser chooser, int width, int height); //--------------------------------------------------------------------------- // // ProxySurface (Wrapped pre-existing native surface) construction // @Override public ProxySurface createProxySurface(final AbstractGraphicsDevice deviceReq, final int screenIdx, final long windowHandle, final GLCapabilitiesImmutable capsRequested, final GLCapabilitiesChooser chooser, final UpstreamSurfaceHook upstream) { final AbstractGraphicsDevice device = getOrCreateSharedDevice(deviceReq); if(null == device) { throw new GLException("No shared device for requested: "+deviceReq); } if(0 == windowHandle) { throw new IllegalArgumentException("Null windowHandle"); } device.lock(); try { return createProxySurfaceImpl(device, screenIdx, windowHandle, capsRequested, chooser, upstream); } finally { device.unlock(); } } /** * Creates a {@link ProxySurface} with a set surface handle. *

* Implementation is also required to allocate it's own {@link AbstractGraphicsDevice} instance. *

* @param upstream TODO */ protected abstract ProxySurface createProxySurfaceImpl(AbstractGraphicsDevice deviceReq, int screenIdx, long windowHandle, GLCapabilitiesImmutable capsRequested, GLCapabilitiesChooser chooser, UpstreamSurfaceHook upstream); //--------------------------------------------------------------------------- // // External GLDrawable construction // protected abstract GLContext createExternalGLContextImpl(); @Override public GLContext createExternalGLContext() { return createExternalGLContextImpl(); } protected abstract GLDrawable createExternalGLDrawableImpl(); @Override public GLDrawable createExternalGLDrawable() { return createExternalGLDrawableImpl(); } //--------------------------------------------------------------------------- // // GLDrawableFactoryImpl details // /** * Returns the sole GLDrawableFactoryImpl instance. * * @param glProfile GLProfile to determine the factory type, ie EGLDrawableFactory, * or one of the native GLDrawableFactory's, ie X11/GLX, Windows/WGL or MacOSX/CGL. */ public static GLDrawableFactoryImpl getFactoryImpl(final GLProfile glp) { return (GLDrawableFactoryImpl) getFactory(glp); } //---------------------------------------------------------------------- // Gamma adjustment support // Thanks to the LWJGL team for illustrating how to make these // adjustments on various OSs. /* * Portions Copyright (c) 2002-2004 LWJGL Project * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * * 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. * * * Neither the name of 'LWJGL' nor the names of * its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "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 THE COPYRIGHT OWNER 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. */ @Override public synchronized final boolean setDisplayGamma(final NativeSurface surface, final float gamma, final float brightness, final float contrast) throws IllegalArgumentException { if ((brightness < -1.0f) || (brightness > 1.0f)) { throw new IllegalArgumentException("Brightness must be between -1.0 and 1.0"); } if (contrast < 0) { throw new IllegalArgumentException("Contrast must be greater than 0.0"); } if( NativeSurface.LOCK_SURFACE_NOT_READY >= surface.lockSurface() ) { return false; } try { // FIXME: ensure gamma is > 1.0? Are smaller / negative values legal? final int rampLength = getGammaRampLength(surface); if (rampLength == 0) { return false; } final float[] gammaRamp = new float[rampLength]; for (int i = 0; i < rampLength; i++) { final float intensity = (float) i / (float) (rampLength - 1); // apply gamma float rampEntry = (float) java.lang.Math.pow(intensity, gamma); // apply brightness rampEntry += brightness; // apply contrast rampEntry = (rampEntry - 0.5f) * contrast + 0.5f; // Clamp entry to [0, 1] if (rampEntry > 1.0f) rampEntry = 1.0f; else if (rampEntry < 0.0f) rampEntry = 0.0f; gammaRamp[i] = rampEntry; } final AbstractGraphicsScreen screen = surface.getGraphicsConfiguration().getScreen(); final DeviceScreenID deviceScreenID = new DeviceScreenID(screen.getDevice().getConnection(), screen.getIndex()); if( null == screen2OrigGammaRamp.get(deviceScreenID) ) { screen2OrigGammaRamp.put(deviceScreenID, getGammaRamp(surface)); // cache original gamma ramp once if( DEBUG ) { System.err.println("DisplayGamma: Stored: "+deviceScreenID); dumpGammaStore(); } } return setGammaRamp(surface, gammaRamp); } finally { surface.unlockSurface(); } } @Override public synchronized final void resetDisplayGamma(final NativeSurface surface) { if( NativeSurface.LOCK_SURFACE_NOT_READY >= surface.lockSurface() ) { return; } try { final AbstractGraphicsScreen screen = surface.getGraphicsConfiguration().getScreen(); final DeviceScreenID deviceScreenID = new DeviceScreenID(screen.getDevice().getConnection(), screen.getIndex()); final Buffer originalGammaRamp = screen2OrigGammaRamp.remove(deviceScreenID); if( null != originalGammaRamp ) { resetGammaRamp(surface, originalGammaRamp); } } finally { surface.unlockSurface(); } } @Override public synchronized final void resetAllDisplayGamma() { resetAllDisplayGammaNoSync(); } @Override protected final void resetAllDisplayGammaNoSync() { if( DEBUG ) { System.err.println("DisplayGamma: Reset"); dumpGammaStore(); } final Set deviceScreenIDs = screen2OrigGammaRamp.keySet(); for( final Iterator i = deviceScreenIDs.iterator(); i.hasNext(); ) { final DeviceScreenID deviceScreenID = i.next(); final Buffer originalGammaRamp = screen2OrigGammaRamp.remove(deviceScreenID); if( null != originalGammaRamp ) { resetGammaRamp(deviceScreenID, originalGammaRamp); } } } private void dumpGammaStore() { final Set deviceScreenIDs = screen2OrigGammaRamp.keySet(); int count = 0; for( final Iterator i = deviceScreenIDs.iterator(); i.hasNext(); count++) { final DeviceScreenID deviceScreenID = i.next(); final Buffer originalGammaRamp = screen2OrigGammaRamp.get(deviceScreenID); System.err.printf("%4d/%4d: %s -> %s%n", count, deviceScreenIDs.size(), deviceScreenID, originalGammaRamp); } } //------------------------------------------------------ // Gamma-related methods to be implemented by subclasses // /** Returns the length of the computed gamma ramp for this OS and hardware. Returns 0 if gamma changes are not supported. * @param surface TODO*/ protected int getGammaRampLength(final NativeSurface surface) { return 0; } /** Sets the gamma ramp for the main screen. Returns false if gamma ramp changes were not supported. * @param surface TODO*/ protected boolean setGammaRamp(final NativeSurface surface, final float[] ramp) { return false; } /** Gets the current gamma ramp. This is basically an opaque value used only on some platforms to reset the gamma ramp to its original settings. * @param surface TODO*/ protected Buffer getGammaRamp(final NativeSurface surface) { return null; } /** Resets the gamma ramp, potentially using the specified Buffer as data to restore the original values. * @param surface TODO*/ protected void resetGammaRamp(final NativeSurface surface, final Buffer originalGammaRamp) { } protected void resetGammaRamp(final DeviceScreenID deviceScreenID, final Buffer originalGammaRamp) { } // Shutdown hook mechanism for resetting gamma public final class DeviceScreenID { public final String deviceConnection; public final int screenIdx; DeviceScreenID(final String deviceConnection, final int screenIdx) { this.deviceConnection = deviceConnection; this.screenIdx = screenIdx; } @Override public int hashCode() { // 31 * x == (x << 5) - x int hash = 31 + deviceConnection.hashCode(); hash = ((hash << 5) - hash) + screenIdx; return hash; } @Override public boolean equals(final Object obj) { if(this == obj) { return true; } if (obj instanceof DeviceScreenID) { final DeviceScreenID other = (DeviceScreenID)obj; return this.deviceConnection.equals(other.deviceConnection) && this.screenIdx == other.screenIdx; } return false; } @Override public String toString() { return "DeviceScreenID[devCon "+deviceConnection+", screenIdx "+screenIdx+", hash 0x"+Integer.toHexString(hashCode())+"]"; } } private final Map screen2OrigGammaRamp = new HashMap(); }