/*
* 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 javax.media.opengl;
import java.nio.IntBuffer;
import java.util.HashMap;
import java.util.IdentityHashMap;
import java.util.Iterator;
import java.util.Set;
import javax.media.nativewindow.AbstractGraphicsDevice;
import jogamp.opengl.Debug;
import jogamp.opengl.GLContextImpl;
import com.jogamp.common.os.Platform;
import com.jogamp.common.util.VersionNumber;
import com.jogamp.common.util.VersionNumberString;
import com.jogamp.common.util.locks.LockFactory;
import com.jogamp.common.util.locks.RecursiveLock;
import com.jogamp.opengl.GLExtensions;
import com.jogamp.opengl.GLRendererQuirks;
/** Abstraction for an OpenGL rendering context. In order to perform
OpenGL rendering, a context must be "made current" on the current
thread. OpenGL rendering semantics specify that only one context
may be current on the current thread at any given time, and also
that a given context may be current on only one thread at any
given time. Because components can be added to and removed from
the component hierarchy at any time, it is possible that the
underlying OpenGL context may need to be destroyed and recreated
multiple times over the lifetime of a given component. This
process is handled by the implementation, and the GLContext
abstraction provides a stable object which clients can use to
refer to a given context. */
public abstract class GLContext {
public static final boolean DEBUG = Debug.debug("GLContext");
public static final boolean TRACE_SWITCH = Debug.isPropertyDefined("jogl.debug.GLContext.TraceSwitch", true);
public static final boolean DEBUG_TRACE_SWITCH = DEBUG || TRACE_SWITCH;
/**
* If true
(default), bootstrapping the available GL profiles
* will use the highest compatible GL context for each profile,
* hence skipping querying lower profiles if a compatible higher one is found:
*
* Can be turned off with property jogl.debug.GLContext.NoProfileAliasing
.
*
GL_ARB_ES3_compatibility
*/
public static final VersionNumber Version430 = new VersionNumber(4, 3, 0);
protected static final VersionNumber Version800 = new VersionNumber(8, 0, 0);
//
// Cached keys, bits [0..15]
//
/** Context option bits, full bit mask covering 16 bits [0..15], i.e. 0x0000FFFF
, {@value}. */
protected static final int CTX_IMPL_FULL_MASK = 0x0000FFFF;
/** Context option bits, cached bit mask covering 10 bits [0..9], i.e. 0x000003FF
, {@value}. Leaving 6 bits for non cached options, i.e. 10:6. */
protected static final int CTX_IMPL_CACHE_MASK = 0x000003FF;
/** ARB_create_context
related: created via ARB_create_context. Cache key value. See {@link #getAvailableContextProperties(AbstractGraphicsDevice, GLProfile)}. */
protected static final int CTX_IS_ARB_CREATED = 1 << 0;
/** ARB_create_context
related: desktop compatibility profile. Cache key value. See {@link #isGLCompatibilityProfile()}, {@link #getAvailableContextProperties(AbstractGraphicsDevice, GLProfile)}. */
protected static final int CTX_PROFILE_COMPAT = 1 << 1;
/** ARB_create_context
related: desktop core profile. Cache key value. See {@link #isGLCoreProfile()}, {@link #getAvailableContextProperties(AbstractGraphicsDevice, GLProfile)}. */
protected static final int CTX_PROFILE_CORE = 1 << 2;
/** ARB_create_context
related: ES profile. Cache key value. See {@link #isGLES()}, {@link #getAvailableContextProperties(AbstractGraphicsDevice, GLProfile)}. */
protected static final int CTX_PROFILE_ES = 1 << 3;
/** ARB_create_context
related: flag forward compatible. Cache key value. See {@link #getAvailableContextProperties(AbstractGraphicsDevice, GLProfile)}. */
protected static final int CTX_OPTION_FORWARD = 1 << 4;
/** ARB_create_context
related: flag debug. Cache key value. See {@link #setContextCreationFlags(int)}, {@link GLAutoDrawable#setContextCreationFlags(int)}, {@link #getAvailableContextProperties(AbstractGraphicsDevice, GLProfile)}. */
public static final int CTX_OPTION_DEBUG = 1 << 5;
/** Context uses software rasterizer, otherwise hardware rasterizer. Cache key value. See {@link #isHardwareRasterizer()}, {@link #getAvailableContextProperties(AbstractGraphicsDevice, GLProfile)}. */
protected static final int CTX_IMPL_ACCEL_SOFT = 1 << 6;
//
// Non cached keys, 6 bits [10..15]
//
/** GL_ARB_ES2_compatibility
implementation related: Context is compatible w/ ES2. Not a cache key. See {@link #isGLES2Compatible()}, {@link #getAvailableContextProperties(AbstractGraphicsDevice, GLProfile)}. */
protected static final int CTX_IMPL_ES2_COMPAT = 1 << 10;
/** GL_ARB_ES3_compatibility
implementation related: Context is compatible w/ ES3. Not a cache key. See {@link #isGLES3Compatible()}, {@link #getAvailableContextProperties(AbstractGraphicsDevice, GLProfile)}. */
protected static final int CTX_IMPL_ES3_COMPAT = 1 << 11;
/**
* Context supports basic FBO, details see {@link #hasBasicFBOSupport()}.
* Not a cache key.
* @see #hasBasicFBOSupport()
* @see #getAvailableContextProperties(AbstractGraphicsDevice, GLProfile)
*/
protected static final int CTX_IMPL_FBO = 1 << 12;
/**
* Context supports OES_single_precision
, fp32, fixed function point (FFP) compatibility entry points,
* see {@link #hasFP32CompatAPI()}.
* Not a cache key.
* @see #hasFP32CompatAPI()
* @see #getAvailableContextProperties(AbstractGraphicsDevice, GLProfile)
*/
protected static final int CTX_IMPL_FP32_COMPAT_API = 1 << 13;
private static final ThreadLocalnull
.
*/
public final GLRendererQuirks getRendererQuirks() { return glRendererQuirks; }
/**
* Returns true if the quirk
exist in {@link #getRendererQuirks()}, otherwise false.
* * Convenience method for: *
* final GLRendererQuirks glrq = ctx.getRendererQuirks(); * boolean hasQuirk = null != glrq ? glrq.exist(quirk) : false ; ** * @param quirk the quirk to be tested, e.g. {@link GLRendererQuirks#NoDoubleBufferedPBuffer}. * @throws IllegalArgumentException if the quirk is out of range */ public final boolean hasRendererQuirk(int quirk) throws IllegalArgumentException { return null != glRendererQuirks ? glRendererQuirks.exist(quirk) : false ; } /** * Sets the read/write drawable for framebuffer operations. *
* If the arguments reflect the current state of this context * this method is a no-operation and returns the old and current {@link GLDrawable}. *
** If the context was current on this thread, it is being released before switching the drawable * and made current afterwards. However the user shall take extra care that not other thread * attempts to make this context current. Otherwise a race condition may happen. *
* @param readWrite The read/write drawable for framebuffer operations, maybenull
to remove association.
* @param setWriteOnly Only change the write-drawable, if setWriteOnly
is true
and
* if the {@link #getGLReadDrawable() read-drawable} differs
* from the {@link #getGLDrawable() write-drawable}.
* Otherwise set both drawables, read and write.
* @return The previous read/write drawable
*
* @throws GLException in case null
is being passed or
* this context is made current on another thread.
*
* @see #isGLReadDrawableAvailable()
* @see #setGLReadDrawable(GLDrawable)
* @see #getGLReadDrawable()
* @see #setGLDrawable(GLDrawable, boolean)
* @see #getGLDrawable()
*/
public abstract GLDrawable setGLDrawable(GLDrawable readWrite, boolean setWriteOnly);
/**
* Returns the write-drawable this context uses for framebuffer operations.
* * If the read-drawable has not been changed manually via {@link #setGLReadDrawable(GLDrawable)}, * it equals to the write-drawable (default). *
* @see #setGLDrawable(GLDrawable, boolean) * @see #setGLReadDrawable(GLDrawable) */ public abstract GLDrawable getGLDrawable(); /** * Query whether using a distinguished read-drawable is supported. * @return true if using a read-drawable is supported with your driver/OS, otherwise false. */ public abstract boolean isGLReadDrawableAvailable(); /** * Set the read-Drawable for read framebuffer operations.* If the context was current on this thread, it is being released before switching the drawable * and made current afterwards. However the user shall take extra care that not other thread * attempts to make this context current. Otherwise a race condition may happen. *
* * @param read the read-drawable for read framebuffer operations. * If null is passed, the default write drawable will be set. * @return the previous read-drawable * * @throws GLException in case a read drawable is not supported or * this context is made current on another thread. * * @see #isGLReadDrawableAvailable() * @see #getGLReadDrawable() */ public abstract GLDrawable setGLReadDrawable(GLDrawable read); /** * Returns the read-Drawable this context uses for read framebuffer operations. ** If the read-drawable has not been changed manually via {@link #setGLReadDrawable(GLDrawable)}, * it equals to the write-drawable (default). *
* @see #isGLReadDrawableAvailable() * @see #setGLReadDrawable(GLDrawable) * @see #getGLReadDrawable() */ public abstract GLDrawable getGLReadDrawable(); /** * Makes this GLContext current on the calling thread. ** Recursive call to {@link #makeCurrent()} and hence {@link #release()} are supported. *
** There are two return values that indicate success and one that * indicates failure. *
** A return value of {@link #CONTEXT_CURRENT_NEW} * indicates that that context has been made current for the 1st time, * or that the state of the underlying context or drawable has * changed since the last time this context was current. * In this case, the application may wish to initialize the render state. *
** A return value of {@link #CONTEXT_CURRENT} indicates that the context has * been made current, with its previous state restored. *
** If the context could not be made current (for example, because * the underlying drawable has not ben realized on the display) , * a value of {@link #CONTEXT_NOT_CURRENT} is returned. *
** This method is blocking, i.e. waits until another thread has * released the context. *
** The drawable's surface is being locked at entry * and unlocked at {@link #release()} *
* * @return* Recursive call to {@link #release()} and hence {@link #makeCurrent()} are supported. *
** The drawable's surface is being unlocked at exit, * assumed to be locked by {@link #makeCurrent()}. *
* * @throws GLException if the context had not previously been made * current on the current thread */ public abstract void release() throws GLException; /** * Copies selected groups of OpenGL state variables from the * supplied source context into this one. Themask
* parameter indicates which groups of state variables are to be
* copied. mask
contains the bitwise OR of the same
* symbolic names that are passed to the GL command {@link
* GL2#glPushAttrib glPushAttrib}. The single symbolic constant
* {@link GL2#GL_ALL_ATTRIB_BITS GL_ALL_ATTRIB_BITS} can be used to
* copy the maximum possible portion of rendering state. * * Not all values for GL state can be copied. For example, pixel * pack and unpack state, render mode state, and select and feedback * state are not copied. The state that can be copied is exactly the * state that is manipulated by the GL command {@link * GL2#glPushAttrib glPushAttrib}.
* * On most platforms, this context may not be current to any thread, * including the calling thread, when this method is called. Some * platforms have additional requirements such as whether this * context or the source context must occasionally be made current * in order for the results of the copy to be seen; these * requirements are beyond the scope of this specification. * * @param source the source OpenGL context from which to copy state * @param mask a mask of symbolic names indicating which groups of state to copy * @throws GLException if an OpenGL-related error occurred */ public abstract void copy(GLContext source, int mask) throws GLException; /** * Returns the GL object bound to this thread current context. * If no context is current, throw an GLException * * @return the current context's GL object on this thread * @throws GLException if no context is current */ public static GL getCurrentGL() throws GLException { GLContext glc = getCurrent(); if(null==glc) { throw new GLException(getThreadName()+": No OpenGL context current on this thread"); } return glc.getGL(); } /** * Returns this thread current context. * If no context is current, returns null. * * @return the context current on this thread, or null if no context * is current. */ public static GLContext getCurrent() { return currentContext.get(); } /** * @return true if this GLContext is current on this thread */ public final boolean isCurrent() { return getCurrent() == this ; } /** * @throws GLException if this GLContext is not current on this thread */ public final void validateCurrent() throws GLException { if(getCurrent() != this) { throw new GLException(getThreadName()+": This context is not current. Current context: "+getCurrent()+", this context "+this); } } /** Returns a String representation of the {@link #makeCurrent()} result. */ public static final String makeCurrentResultToString(int res) { switch(res) { case CONTEXT_NOT_CURRENT: return "CONTEXT_NOT_CURRENT"; case CONTEXT_CURRENT: return "CONTEXT_CURRENT"; case CONTEXT_CURRENT_NEW: return "CONTEXT_NOT_CURRENT"; default: return "INVALID_VALUE"; } } /** * Sets the thread-local variable returned by {@link #getCurrent} * and has no other side-effects. For use by third parties adding * new GLContext implementations; not for use by end users. */ protected static void setCurrent(GLContext cur) { if( TRACE_SWITCH ) { if(null == cur) { System.err.println(getThreadName()+": GLContext.ContextSwitch: - setCurrent() - NULL"); } else { System.err.println(getThreadName()+": GLContext.ContextSwitch: - setCurrent() - obj " + toHexString(cur.hashCode()) + ", ctx " + toHexString(cur.getHandle())); } } currentContext.set(cur); } /** * Destroys this OpenGL context and frees its associated * resources. *
* The context may be current w/o recursion when calling destroy()
,
* in which case this method destroys the context and releases the lock.
*
* major.minor ([option]?[options,]*) - gl-version *
ES profile
ES profileCompatibility profile
Compatibility profile including fixed function pipeline and deprecated functionalityCore profile
Core profileforward
Forward profile excluding deprecated functionalityarb
refers to an ARB_create_context created contextdebug
refers to a debug contextES2 compatible
refers to an ES2 compatible implementationsoftware
refers to a software implementation of the rasterizerhardware
refers to a hardware implementation of the rasterizerrow 2, cell 1 | *row 2, cell 2 | *
ES2 | 2.0 (ES profile, ES2 compatible, hardware) - 2.0 ES Profile | |
ATI | GL2 | 3.0 (Compatibility profile, arb, hardware) - 3.2.9704 Compatibility Profile Context |
ATI | GL3 | 3.3 (Core profile, any, new, hardware) - 1.4 (3.2.9704 Compatibility Profile Context) |
ATI | GL3bc | 3.3 (Compatibility profile, arb, hardware) - 1.4 (3.2.9704 Compatibility Profile Context) |
NV | GL2 | 3.0 (Compatibility profile, arb, hardware) - 3.0.0 NVIDIA 195.36.07.03 |
NV | GL3 | 3.3 (Core profile, arb, hardware) - 3.3.0 NVIDIA 195.36.07.03 |
NV | GL3bc | 3.3 (Compatibility profile, arb, hardware) - 3.3.0 NVIDIA 195.36.07.03 |
NV | GL2 | 3.0 (Compatibility profile, arb, ES2 compatible, hardware) - 3.0.0 NVIDIA 290.10 |
GL_VERSION
not being the GL version.
*
* In case no such version exists within GL_VERSION
,
* the {@link VersionNumberString#zeroVersion zero version} instance is returned.
*
* The vendor's version is usually the vendor's OpenGL driver version. *
*/ public final VersionNumberString getGLVendorVersionNumber() { return ctxVendorVersion; } public final boolean isGLCompatibilityProfile() { return ( 0 != ( CTX_PROFILE_COMPAT & ctxOptions ) ); } public final boolean isGLCoreProfile() { return ( 0 != ( CTX_PROFILE_CORE & ctxOptions ) ); } public final boolean isGLESProfile() { return ( 0 != ( CTX_PROFILE_ES & ctxOptions ) ); } public final boolean isGLForwardCompatible() { return ( 0 != ( CTX_OPTION_FORWARD & ctxOptions ) ); } public final boolean isGLDebugEnabled() { return ( 0 != ( CTX_OPTION_DEBUG & ctxOptions ) ); } public final boolean isCreatedWithARBMethod() { return ( 0 != ( CTX_IS_ARB_CREATED & ctxOptions ) ); } /** * Returns the matching GLSL version number, queried by this context GL * via {@link GL2ES2#GL_SHADING_LANGUAGE_VERSION} if ≥ ES2.0 or GL2.0, * otherwise a static match is being utilized. ** The context must have been current once, * otherwise the {@link VersionNumberString#zeroVersion zero version} instance is returned. *
*
* Examples w/ major.minor
:
*
* 1.00 (ES 2.0), 3.00 (ES 3.0) * 1.10 (GL 2.0), 1.20 (GL 2.1), 1.50 (GL 3.2), * 3.30 (GL 3.3), 4.00 (GL 4.0), 4.10 (GL 4.1), 4.20 (GL 4.2) ** *
* Matching could also refer to the maximum GLSL version usable by this context * since normal GL implementations are capable of using a lower GLSL version as well. * The latter is not true on OSX w/ a GL3 context. *
* * @return GLSL version number if context has been made current at least once, * otherwise the {@link VersionNumberString#zeroVersion zero version} instance is returned. * * @see #getGLVersionNumber() */ public final VersionNumber getGLSLVersionNumber() { return ctxGLSLVersion; } /** * Returns the GLSL version string as to be used in a shader program, including a terminating newline '\n', * i.e. for desktop ** #version 110 * .. * #version 150 * #version 330 * ... ** And for ES: *
* #version 100 * #version 300 es * .. **
* If context has not been made current yet, a string of zero length is returned. *
* @see #getGLSLVersionNumber() */ public final String getGLSLVersionString() { if( ctxGLSLVersion.isZero() ) { return ""; } final int minor = ctxGLSLVersion.getMinor(); final String esSuffix = isGLES() && ctxGLSLVersion.compareTo(Version300) >= 0 ? " es" : ""; return "#version " + ctxGLSLVersion.getMajor() + ( minor < 10 ? "0"+minor : minor ) + esSuffix + "\n" ; } protected static final VersionNumber getStaticGLSLVersionNumber(int glMajorVersion, int glMinorVersion, int ctxOptions) { if( 0 != ( CTX_PROFILE_ES & ctxOptions ) ) { if( 3 == glMajorVersion ) { return Version300; // ES 3.0 -> GLSL 3.00 } else if( 2 == glMajorVersion ) { return Version100; // ES 2.0 -> GLSL 1.00 } } else if( 1 == glMajorVersion ) { return Version110; // GL 1.x -> GLSL 1.10 } else if( 2 == glMajorVersion ) { switch ( glMinorVersion ) { case 0: return Version110; // GL 2.0 -> GLSL 1.10 default: return Version120; // GL 2.1 -> GLSL 1.20 } } else if( 3 == glMajorVersion && 2 >= glMinorVersion ) { switch ( glMinorVersion ) { case 0: return Version130; // GL 3.0 -> GLSL 1.30 case 1: return Version140; // GL 3.1 -> GLSL 1.40 default: return Version150; // GL 3.2 -> GLSL 1.50 } } // The new default: GL >= 3.3, ES >= 3.0 return new VersionNumber(glMajorVersion, glMinorVersion * 10, 0); // GL M.N -> GLSL M.N } /** * @return true if this context is an ES2 context or implements * the extensionGL_ARB_ES3_compatibility
or GL_ARB_ES2_compatibility
, otherwise false
*/
public final boolean isGLES2Compatible() {
return 0 != ( ctxOptions & ( CTX_IMPL_ES3_COMPAT | CTX_IMPL_ES2_COMPAT ) ) ;
}
/**
* Return true if this context is an ES3 context or implements
* the extension GL_ARB_ES3_compatibility
, otherwise false.
* * Includes [ GL ≥ 4.3, GL ≥ 3.1 w/ GL_ARB_ES3_compatibility and GLES3 ] *
*/ public final boolean isGLES3Compatible() { return 0 != ( ctxOptions & CTX_IMPL_ES3_COMPAT ) ; } /** * @return true if impl. is a hardware rasterizer, otherwise false. * @see #isHardwareRasterizer(AbstractGraphicsDevice, GLProfile) * @see GLProfile#isHardwareRasterizer() */ public final boolean isHardwareRasterizer() { return 0 == ( ctxOptions & CTX_IMPL_ACCEL_SOFT ) ; } /** * @return true if context supports GLSL, i.e. is either {@link #isGLES3()}, {@link #isGLES2()}, {@link #isGL3()} or {@link #isGL2()} and major-version > 1. * @see GLProfile#hasGLSL() */ public final boolean hasGLSL() { return isGLES3() || isGLES2() || isGL3() || isGL2() && ctxVersion.getMajor()>1 ; } /** * Returnstrue
if basic FBO support is available, otherwise false
.
*
* Basic FBO is supported if the context is either GL-ES >= 2.0, GL >= core 3.0 or implements the extensions
* GL_ARB_ES2_compatibility
, GL_ARB_framebuffer_object
, GL_EXT_framebuffer_object
or GL_OES_framebuffer_object
.
*
* Basic FBO support may only include one color attachment and no multisampling, * as well as limited internal formats for renderbuffer. *
* @see #CTX_IMPL_FBO */ public final boolean hasBasicFBOSupport() { return 0 != ( ctxOptions & CTX_IMPL_FBO ) ; } /** * Returnstrue
if OES_single_precision
, fp32, fixed function point (FFP) compatibility entry points available,
* otherwise false
.
* @see #CTX_IMPL_FP32_COMPAT_API
*/
public final boolean hasFP32CompatAPI() {
return 0 != ( ctxOptions & CTX_IMPL_FP32_COMPAT_API ) ;
}
/**
* Returns true
if full FBO support is available, otherwise false
.
*
* Full FBO is supported if the context is either GL >= core 3.0 or implements the extensions
* ARB_framebuffer_object
, or all of
* EXT_framebuffer_object
, EXT_framebuffer_multisample
,
* EXT_framebuffer_blit
, GL_EXT_packed_depth_stencil
.
*
* Full FBO support includes multiple color attachments and multisampling. *
*/ public final boolean hasFullFBOSupport() { return hasBasicFBOSupport() && !hasRendererQuirk(GLRendererQuirks.NoFullFBOSupport) && ( isGL3() || // GL >= 3.0 isExtensionAvailable(GLExtensions.ARB_framebuffer_object) || // ARB_framebuffer_object ( isExtensionAvailable(GLExtensions.EXT_framebuffer_object) && // All EXT_framebuffer_object* isExtensionAvailable(GLExtensions.EXT_framebuffer_multisample) && isExtensionAvailable(GLExtensions.EXT_framebuffer_blit) && isExtensionAvailable(GLExtensions.EXT_packed_depth_stencil) ) ) ; } /** * Returns the maximum number of FBO RENDERBUFFER samples * if {@link #hasFullFBOSupport() full FBO is supported}, otherwise false. */ public final int getMaxRenderbufferSamples() { if( hasFullFBOSupport() ) { final GL gl = getGL(); final int[] val = new int[] { 0 } ; try { gl.glGetIntegerv(GL2GL3.GL_MAX_SAMPLES, val, 0); final int glerr = gl.glGetError(); if(GL.GL_NO_ERROR == glerr) { return val[0]; } else if(DEBUG) { System.err.println("GLContext.getMaxRenderbufferSamples: GL_MAX_SAMPLES query GL Error 0x"+Integer.toHexString(glerr)); } } catch (GLException gle) { gle.printStackTrace(); } } return 0; } /** Note: The GL impl. may return a const value, ie {@link GLES2#isNPOTTextureAvailable()} always returnstrue
. */
public boolean isNPOTTextureAvailable() {
return isGL3() || isGLES2Compatible() || isExtensionAvailable(GLExtensions.ARB_texture_non_power_of_two);
}
public boolean isTextureFormatBGRA8888Available() {
return isGL2GL3() ||
isExtensionAvailable(GLExtensions.EXT_texture_format_BGRA8888) ||
isExtensionAvailable(GLExtensions.IMG_texture_format_BGRA8888) ;
}
/**
* Indicates whether this GLContext is capable of GL4bc. Includes [ GL4bc ].
* @see GLProfile#isGL4bc() */ public final boolean isGL4bc() { return 0 != (ctxOptions & CTX_IS_ARB_CREATED) && 0 != (ctxOptions & CTX_PROFILE_COMPAT) && ctxVersion.getMajor() >= 4; } /** * Indicates whether this GLContext is capable of GL4.Includes [ GL4bc, GL4 ].
* @see GLProfile#isGL4() */ public final boolean isGL4() { return 0 != (ctxOptions & CTX_IS_ARB_CREATED) && 0 != (ctxOptions & (CTX_PROFILE_COMPAT|CTX_PROFILE_CORE)) && ctxVersion.getMajor() >= 4; } /** * Indicates whether this GLContext uses a GL4 core profile.Includes [ GL4 ].
*/ public final boolean isGL4core() { return 0 != ( ctxOptions & CTX_IS_ARB_CREATED ) && 0 != ( ctxOptions & CTX_PROFILE_CORE ) && ctxVersion.getMajor() >= 4; } /** * Indicates whether this GLContext is capable of GL3bc.Includes [ GL4bc, GL3bc ].
* @see GLProfile#isGL3bc() */ public final boolean isGL3bc() { return 0 != (ctxOptions & CTX_IS_ARB_CREATED) && 0 != (ctxOptions & CTX_PROFILE_COMPAT) && ctxVersion.compareTo(Version310) >= 0 ; } /** * Indicates whether this GLContext is capable of GL3.Includes [ GL4bc, GL4, GL3bc, GL3 ].
* @see GLProfile#isGL3() */ public final boolean isGL3() { return 0 != (ctxOptions & CTX_IS_ARB_CREATED) && 0 != (ctxOptions & (CTX_PROFILE_COMPAT|CTX_PROFILE_CORE)) && ctxVersion.compareTo(Version310) >= 0 ; } /** * Indicates whether this GLContext uses a GL3 core profile.Includes [ GL4, GL3 ].
*/ public final boolean isGL3core() { return 0 != ( ctxOptions & CTX_IS_ARB_CREATED ) && 0 != ( ctxOptions & CTX_PROFILE_CORE ) && ctxVersion.compareTo(Version310) >= 0; } /** * Indicates whether this GLContext uses a GL core profile.Includes [ GL4, GL3, GLES3, GLES2 ].
*/ public final boolean isGLcore() { return ( 0 != ( ctxOptions & CTX_PROFILE_ES ) && ctxVersion.getMajor() >= 2 ) || ( 0 != ( ctxOptions & CTX_IS_ARB_CREATED ) && 0 != ( ctxOptions & CTX_PROFILE_CORE ) && ctxVersion.compareTo(Version310) >= 0 ) ; } /** * Indicates whether this GLContext allows CPU data sourcing (indices, vertices ..) as opposed to using a GPU buffer source (VBO), * e.g. {@link GL2#glDrawElements(int, int, int, java.nio.Buffer)}. *Includes [GL2ES1, GLES2] == [ GL4bc, GL3bc, GL2, GLES1, GL2ES1, GLES2 ].
*See Bug 852 - https://jogamp.org/bugzilla/show_bug.cgi?id=852
*/ public final boolean isCPUDataSourcingAvail() { return isGL2ES1() || isGLES2(); } /** * Indicates whether this GLContext's native profile does not implement a default vertex array object (VAO), * starting w/ OpenGL 3.1 core and GLES3. *Includes [ GL4, GL3, GLES3 ].
*Due to GL 3.1 core spec: E.1. DEPRECATED AND REMOVED FEATURES (p 296), GL 3.2 core spec: E.2. DEPRECATED AND REMOVED FEATURES (p 331) there is no more default VAO buffer 0 bound, hence generating and binding one to avoid INVALID_OPERATION at VertexAttribPointer. More clear is GL 4.3 core spec: 10.4 (p 307). **
GLES3 is included, since upcoming ES releases > 3.0 may behave the same: GL ES 3.0 spec F.1. Legacy Features (p 322). **
* If no default VAO is implemented in the native OpenGL profile, * an own default VAO is being used, see {@link #getDefaultVAO()}. *
* @see #getDefaultVAO() */ public final boolean hasNoDefaultVAO() { return ( 0 != ( ctxOptions & CTX_PROFILE_ES ) && ctxVersion.getMajor() >= 3 ) || ( 0 != ( ctxOptions & CTX_IS_ARB_CREATED ) && 0 != ( ctxOptions & CTX_PROFILE_CORE ) && ctxVersion.compareTo(Version310) >= 0 ) ; } /** * If this GLContext does not implement a default VAO, see {@link #hasNoDefaultVAO()}, * an own default VAO will be created and bound at context creation. *
* If this GLContext does implement a default VAO, i.e. {@link #hasNoDefaultVAO()}
* returns false
, this method returns 0
.
*
* Otherwise this method returns the VAO object name * representing this GLContext's own default VAO. *
* @see #hasNoDefaultVAO() */ public abstract int getDefaultVAO(); /** * Indicates whether this GLContext is capable of GL2.Includes [ GL4bc, GL3bc, GL2 ].
* @see GLProfile#isGL2() */ public final boolean isGL2() { return 0 != ( ctxOptions & CTX_PROFILE_COMPAT ) && ctxVersion.getMajor()>=1 ; } /** * Indicates whether this GLContext is capable of GL2GL3.Includes [ GL4bc, GL4, GL3bc, GL3, GL2, GL2GL3 ].
* @see GLProfile#isGL2GL3() */ public final boolean isGL2GL3() { return isGL2() || isGL3(); } /** * Indicates whether this GLContext is capable of GLES1.Includes [ GLES1 ].
* @see GLProfile#isGLES1() */ public final boolean isGLES1() { return 0 != ( ctxOptions & CTX_PROFILE_ES ) && ctxVersion.getMajor() == 1 ; } /** * Indicates whether this GLContext is capable of GLES2.Includes [ GLES2 ].
* @see GLProfile#isGLES2() */ public final boolean isGLES2() { return 0 != ( ctxOptions & CTX_PROFILE_ES ) && ctxVersion.getMajor() == 2 ; } /** * Indicates whether this GLContext is capable of GLES3.Includes [ GLES3 ].
* @see GLProfile#isGLES3() */ public final boolean isGLES3() { return 0 != ( ctxOptions & CTX_PROFILE_ES ) && ctxVersion.getMajor() >= 3 ; } /** * Indicates whether this GLContext is capable of GLES.Includes [ GLES3, GLES1, GLES2 ].
* @see GLProfile#isGLES() */ public final boolean isGLES() { return 0 != ( CTX_PROFILE_ES & ctxOptions ) ; } /** * Indicates whether this GLContext is capable of GL2ES1.Includes [ GL4bc, GL3bc, GL2, GLES1, GL2ES1 ].
* @see GLProfile#isGL2ES1() */ public final boolean isGL2ES1() { return isGLES1() || isGL2(); } /** * Indicates whether this GLContext is capable of GL2ES2.Includes [ GL4bc, GL4, GL3bc, GL3, GLES3, GL2, GL2GL3, GL2ES2, GLES2 ].
* @see GLProfile#isGL2ES2() */ public final boolean isGL2ES2() { return isGLES2() || isGL2GL3(); } /** * Indicates whether this GLContext is capable of GL2ES3.Includes [ GL4bc, GL4, GL3bc, GL3, GLES3, GL3ES3, GL2, GL2GL3 ].
* @see GLProfile#isGL2ES3() * @see #isGL3ES3() * @see #isGL2GL3() */ public final boolean isGL2ES3() { return isGL3ES3() || isGL2GL3(); } /** * Indicates whether this GLContext is capable of GL3ES3.Includes [ GL4bc, GL4, GL3bc, GL3, GLES3 ].
* @see GLProfile#isGL3ES3() */ public final boolean isGL3ES3() { return isGL4ES3() || isGL3(); } /** * Returns true if this profile is capable of GL4ES3, i.e. if {@link #isGLES3Compatible()} returns true. *Includes [ GL ≥ 4.3, GL ≥ 3.1 w/ GL_ARB_ES3_compatibility and GLES3 ]
* @see GLProfile#isGL4ES3() */ public final boolean isGL4ES3() { return isGLES3Compatible() ; } /** * Set the swap interval of the current context and attached drawable. * @param interval Should be ≥ 0. 0 disables the vertical synchronization, * where ≥ 1 is the number of vertical refreshes before a swap buffer occurs. * A value < 0 is ignored. * @return true if the operation was successful, otherwise false * * @throws GLException if the context is not current. */ public final boolean setSwapInterval(int interval) throws GLException { validateCurrent(); if(0<=interval) { if( !drawableRetargeted || !hasRendererQuirk(GLRendererQuirks.NoSetSwapIntervalPostRetarget) ) { if( setSwapIntervalImpl(interval) ) { currentSwapInterval = interval; return true; } } } return false; } protected boolean setSwapIntervalImpl(int interval) { return false; } /** Return the current swap interval. *
* If the context has not been made current at all,
* the default value -1
is returned.
*
* For a valid context the default value is 1
* in case of an EGL based profile (ES1 or ES2) and -1
* (undefined) for desktop.
*
* May differ from it's default zero
* in case an framebuffer object ({@link com.jogamp.opengl.FBObject}) based drawable
* is being used.
*
* May differ from it's default zero
* in case an framebuffer object ({@link com.jogamp.opengl.FBObject}) based drawable
* is being used.
*
* For offscreen framebuffer objects this is {@link GL#GL_COLOR_ATTACHMENT0}, * otherwise this is {@link GL#GL_FRONT} for single buffer configurations * and {@link GL#GL_BACK} for double buffer configurations. *
*/ public abstract int getDefaultReadBuffer(); /** Get the default pixel data type, as required by e.g. {@link GL#glReadPixels(int, int, int, int, int, int, java.nio.Buffer)}. */ public abstract int getDefaultPixelDataType(); /** Get the default pixel data format, as required by e.g. {@link GL#glReadPixels(int, int, int, int, int, int, java.nio.Buffer)}. */ public abstract int getDefaultPixelDataFormat(); /** * @return The extension implementing the GLDebugOutput feature, * either {@link GLExtensions#ARB_debug_output} or {@link GLExtensions#AMD_debug_output}. * If unavailable or called before initialized via {@link #makeCurrent()}, null is returned. */ public abstract String getGLDebugMessageExtension(); /** * @return the current synchronous debug behavior, set via {@link #setGLDebugSynchronous(boolean)}. */ public abstract boolean isGLDebugSynchronous(); /** * Enables or disables the synchronous debug behavior via * {@link GL2GL3#GL_DEBUG_OUTPUT_SYNCHRONOUS glEnable/glDisable(GL_DEBUG_OUTPUT_SYNCHRONOUS)}, * if extension is {@link GLExtensions#ARB_debug_output}. * There is no equivalent for {@link GLExtensions#AMD_debug_output}. * The default is true
, ie {@link GL2GL3#GL_DEBUG_OUTPUT_SYNCHRONOUS}.
To enable the GLDebugOutput feature {@link #enableGLDebugMessage(boolean) enableGLDebugMessage(true)} * or {@link #setContextCreationFlags(int) setContextCreationFlags}({@link GLContext#CTX_OPTION_DEBUG}) * shall be called before context creation via {@link #makeCurrent()}!
* *In case {@link GLAutoDrawable} are being used, * {@link GLAutoDrawable#setContextCreationFlags(int) glAutoDrawable.setContextCreationFlags}({@link GLContext#CTX_OPTION_DEBUG}) * shall be issued before context creation via {@link #makeCurrent()}!
* *After context creation, the GLDebugOutput feature may be enabled or disabled at any time using this method.
* * @param enable If true enables, otherwise disables the GLDebugOutput feature. * * @throws GLException if this context is not current or GLDebugOutput registration failed (enable) * * @see #setContextCreationFlags(int) * @see #addGLDebugListener(GLDebugListener) * @see GLAutoDrawable#setContextCreationFlags(int) */ public abstract void enableGLDebugMessage(boolean enable) throws GLException; /** * Add {@link GLDebugListener}.* The minor version number is ignored by the upper limit validation * and the major version number may exceed by one. *
** The upper limit check is relaxed since we don't want to cut-off * unforseen new GL version since the release of JOGL. *
** Hence it is important to iterate through GL version from the upper limit * and {@link #decrementGLVersion(int, int[], int[])} until invalid. *
*/ public static final boolean isValidGLVersion(int ctxProfile, int major, int minor) { if( 1>major || 0>minor ) { return false; } if( 0 != ( CTX_PROFILE_ES & ctxProfile ) ) { if( major >= ES_VERSIONS.length + 1 ) return false; } else { if( major>=GL_VERSIONS.length + 1 ) return false; } return true; } /** * Clip the given GL version to the maximum known valid version if exceeding. * @return true if clipped, i.e. given value exceeds maximum, otherwise false. */ public static final boolean clipGLVersion(int ctxProfile, int major[], int minor[]) { final int m = major[0]; final int n = minor[0]; if( 0 != ( CTX_PROFILE_ES & ctxProfile ) ) { if( m >= ES_VERSIONS.length ) { major[0] = ES_VERSIONS.length - 1; minor[0] = ES_VERSIONS[major[0]].length - 1; return true; } if( n >= ES_VERSIONS[m].length ) { minor[0] = ES_VERSIONS[m].length - 1; return true; } } else if( m >= GL_VERSIONS.length ) { // !isES major[0] = GL_VERSIONS.length - 1; minor[0] = GL_VERSIONS[major[0]].length - 1; return true; } else if( n >= GL_VERSIONS[m].length ) { // !isES minor[0] = GL_VERSIONS[m].length - 1; return true; } return false; } /** * Decrement the given GL version by one * and return true if still valid, otherwise false. ** If the given version exceeds the maximum known valid version, * it is {@link #clipGLVersion(int, int[], int[]) clipped} and * true is returned. *
* * @param ctxProfile * @param major * @param minor * @return */ public static final boolean decrementGLVersion(int ctxProfile, int major[], int minor[]) { if( !clipGLVersion(ctxProfile, major, minor) ) { int m = major[0]; int n = minor[0] - 1; if(n < 0) { if( 0 != ( CTX_PROFILE_ES & ctxProfile ) ) { if( m >= 3 ) { m -= 1; } else { m = 0; // major decr [1,2] -> 0 } n = ES_VERSIONS[m].length-1; } else { m -= 1; n = GL_VERSIONS[m].length-1; } } if( !isValidGLVersion(ctxProfile, m, n) ) { return false; } major[0]=m; minor[0]=n; } return true; } protected static int composeBits(int a8, int b8, int c16) { return ( ( a8 & 0x000000FF ) << 24 ) | ( ( b8 & 0x000000FF ) << 16 ) | ( ( c16 & 0x0000FFFF ) ) ; } private static void validateProfileBits(int bits, String argName) { int num = 0; if( 0 != ( CTX_PROFILE_COMPAT & bits ) ) { num++; } if( 0 != ( CTX_PROFILE_CORE & bits ) ) { num++; } if( 0 != ( CTX_PROFILE_ES & bits ) ) { num++; } if(1!=num) { throw new GLException("Internal Error: "+argName+": 1 != num-profiles: "+num); } } // // version mapping // /** * @see #getDeviceVersionAvailableKey(javax.media.nativewindow.AbstractGraphicsDevice, int, int) */ protected static final IdentityHashMapnull
*/
protected static Integer getAvailableGLVersion(AbstractGraphicsDevice device, int reqMajor, int reqProfile) {
final String objectKey = getDeviceVersionAvailableKey(device, reqMajor, reqProfile);
Integer val;
synchronized(deviceVersionAvailable) {
val = deviceVersionAvailable.get( objectKey );
}
return val;
}
/**
* @param reqMajor Key Value either 1, 2, 3 or 4
* @param reqProfile Key Value either {@link #CTX_PROFILE_COMPAT}, {@link #CTX_PROFILE_CORE} or {@link #CTX_PROFILE_ES}
* @param major if not null, returns the used major version
* @param minor if not null, returns the used minor version
* @param ctp if not null, returns the used context profile
*/
protected static boolean getAvailableGLVersion(AbstractGraphicsDevice device, int reqMajor, int reqProfile,
int[] major, int minor[], int ctp[]) {
final Integer valI = getAvailableGLVersion(device, reqMajor, reqProfile);
if(null==valI) {
return false;
}
final int bits32 = valI.intValue();
if(null!=major) {
major[0] = ( bits32 & 0xFF000000 ) >> 24 ;
}
if(null!=minor) {
minor[0] = ( bits32 & 0x00FF0000 ) >> 16 ;
}
if(null!=ctp) {
ctp[0] = ( bits32 & 0x0000FFFF ) ;
}
return true;
}
/**
* returns the highest GLProfile string regarding the implementation version and context profile bits.
* @throws GLException if version and context profile bits could not be mapped to a GLProfile
*/
protected static String getGLProfile(int major, int minor, int ctp)
throws GLException {
if(0 != ( CTX_PROFILE_COMPAT & ctp )) {
if(major >= 4) { return GLProfile.GL4bc; }
else if(major == 3 && minor >= 1) { return GLProfile.GL3bc; }
else { return GLProfile.GL2; }
} else if(0 != ( CTX_PROFILE_CORE & ctp )) {
if(major >= 4) { return GLProfile.GL4; }
else if(major == 3 && minor >= 1) { return GLProfile.GL3; }
} else if(0 != ( CTX_PROFILE_ES & ctp )) {
if(major == 3) { return GLProfile.GLES3; }
else if(major == 2) { return GLProfile.GLES2; }
else if(major == 1) { return GLProfile.GLES1; }
}
throw new GLException("Unhandled OpenGL version/profile: "+GLContext.getGLVersion(major, minor, ctp, null));
}
/**
* Returns the GLProfile's major version number at reqMajorCTP[0] and it's context property (CTP) at reqMajorCTP[1] for availability mapping request.
*/
protected static final void getRequestMajorAndCompat(final GLProfile glp, int[/*2*/] reqMajorCTP) {
final GLProfile glpImpl = glp.getImpl();
if( glpImpl.isGL4() ) {
reqMajorCTP[0]=4;
} else if ( glpImpl.isGL3() || glpImpl.isGLES3() ) {
reqMajorCTP[0]=3;
} else if (glpImpl.isGLES1()) {
reqMajorCTP[0]=1;
} else /* if (glpImpl.isGL2() || glpImpl.isGLES2()) */ {
reqMajorCTP[0]=2;
}
if( glpImpl.isGLES() ) {
reqMajorCTP[1]=CTX_PROFILE_ES;
} else if( glpImpl.isGL2() ) { // incl GL3bc and GL4bc
reqMajorCTP[1]=CTX_PROFILE_COMPAT;
} else {
reqMajorCTP[1]=CTX_PROFILE_CORE;
}
}
/**
* @param device the device the context profile is being requested for
* @param GLProfile the GLProfile the context profile is being requested for
* @return the GLProfile's context property (CTP) if available, otherwise 0
*/
protected static final int getAvailableContextProperties(final AbstractGraphicsDevice device, final GLProfile glp) {
final int[] reqMajorCTP = new int[] { 0, 0 };
getRequestMajorAndCompat(glp, reqMajorCTP);
int _major[] = { 0 };
int _minor[] = { 0 };
int _ctp[] = { 0 };
if( GLContext.getAvailableGLVersion(device, reqMajorCTP[0], reqMajorCTP[1], _major, _minor, _ctp)) {
return _ctp[0];
}
return 0; // n/a
}
/**
* @param device the device the profile is being requested
* @param major Key Value either 1, 2, 3 or 4
* @param profile Key Value either {@link #CTX_PROFILE_COMPAT}, {@link #CTX_PROFILE_CORE} or {@link #CTX_PROFILE_ES}
* @return the highest GLProfile for the device regarding availability, version and profile bits.
*/
protected static GLProfile getAvailableGLProfile(AbstractGraphicsDevice device, int reqMajor, int reqProfile)
throws GLException {
final String glpName = getAvailableGLProfileName(device, reqMajor, reqProfile);
return null != glpName ? GLProfile.get(device, glpName) : null;
}
/**
* @param device the device the profile is being requested
* @param major Key Value either 1, 2, 3 or 4
* @param profile Key Value either {@link #CTX_PROFILE_COMPAT}, {@link #CTX_PROFILE_CORE} or {@link #CTX_PROFILE_ES}
* @return the highest GLProfile name for the device regarding availability, version and profile bits.
*/
/* package */ static String getAvailableGLProfileName(AbstractGraphicsDevice device, int reqMajor, int reqProfile)
throws GLException {
int major[] = { 0 };
int minor[] = { 0 };
int ctp[] = { 0 };
if(GLContext.getAvailableGLVersion(device, reqMajor, reqProfile, major, minor, ctp)) {
return GLContext.getGLProfile(major[0], minor[0], ctp[0]);
}
return null;
}
/**
* @param device the device the profile is being requested
* @param major Key Value either 1, 2, 3 or 4
* @param profile Key Value either {@link #CTX_PROFILE_COMPAT}, {@link #CTX_PROFILE_CORE} or {@link #CTX_PROFILE_ES}
*/
protected static String getAvailableGLVersionAsString(AbstractGraphicsDevice device, int major, int profile) {
int _major[] = { 0 };
int _minor[] = { 0 };
int _ctp[] = { 0 };
if(getAvailableGLVersion(device, major, profile, _major, _minor, _ctp)) {
return getGLVersion(_major[0], _minor[0], _ctp[0], null);
}
return null;
}
/**
* Returns true if it is possible to create an framebuffer object (FBO).
* * FBO feature is implemented in OpenGL, hence it is {@link GLProfile} dependent. *
** FBO support is queried as described in {@link #hasBasicFBOSupport()}. *
* * @param device the device to request whether FBO is available for * @param glp {@link GLProfile} to check for FBO capabilities * @see GLContext#hasBasicFBOSupport() */ public static final boolean isFBOAvailable(AbstractGraphicsDevice device, GLProfile glp) { return 0 != ( CTX_IMPL_FBO & getAvailableContextProperties(device, glp) ); } /** * @return1
if using a hardware rasterizer, 0
if using a software rasterizer and -1
if not determined yet.
* @see GLContext#isHardwareRasterizer()
* @see GLProfile#isHardwareRasterizer()
*/
public static final int isHardwareRasterizer(AbstractGraphicsDevice device, GLProfile glp) {
final int r;
final int ctp = getAvailableContextProperties(device, glp);
if(0 == ctp) {
r = -1;
} else if( 0 == ( CTX_IMPL_ACCEL_SOFT & ctp ) ) {
r = 1;
} else {
r = 0;
}
return r;
}
/**
* @param device the device to request whether the profile is available for
* @param reqMajor Key Value either 1, 2, 3 or 4
* @param reqProfile Key Value either {@link #CTX_PROFILE_COMPAT}, {@link #CTX_PROFILE_CORE} or {@link #CTX_PROFILE_ES}
* @param isHardware return value of one boolean, whether the profile is a hardware rasterizer or not
* @return true if the requested GL version is available regardless of a software or hardware rasterizer, otherwise false.
*/
protected static boolean isGLVersionAvailable(AbstractGraphicsDevice device, int reqMajor, int reqProfile, boolean isHardware[]) {
Integer valI = getAvailableGLVersion(device, reqMajor, reqProfile);
if(null==valI) {
return false;
}
isHardware[0] = 0 == ( valI.intValue() & GLContext.CTX_IMPL_ACCEL_SOFT ) ;
return true;
}
public static boolean isGLES1Available(AbstractGraphicsDevice device, boolean isHardware[]) {
return isGLVersionAvailable(device, 1, GLContext.CTX_PROFILE_ES, isHardware);
}
public static boolean isGLES2Available(AbstractGraphicsDevice device, boolean isHardware[]) {
return isGLVersionAvailable(device, 2, GLContext.CTX_PROFILE_ES, isHardware);
}
public static boolean isGLES3Available(AbstractGraphicsDevice device, boolean isHardware[]) {
return isGLVersionAvailable(device, 3, GLContext.CTX_PROFILE_ES, isHardware);
}
/**
* Returns true if a ES3 compatible profile is available,
* i.e. either a ≥ 4.3 context or a ≥ 3.1 context supporting GL_ARB_ES3_compatibility
,
* otherwise false.
* * Includes [ GL ≥ 4.3, GL ≥ 3.1 w/ GL_ARB_ES3_compatibility and GLES3 ] *
*/ public static final boolean isGLES3CompatibleAvailable(AbstractGraphicsDevice device) { int major[] = { 0 }; int minor[] = { 0 }; int ctp[] = { 0 }; boolean ok; ok = GLContext.getAvailableGLVersion(device, 3, GLContext.CTX_PROFILE_ES, major, minor, ctp); if( !ok ) { ok = GLContext.getAvailableGLVersion(device, 3, GLContext.CTX_PROFILE_CORE, major, minor, ctp); } if( !ok ) { ok = GLContext.getAvailableGLVersion(device, 3, GLContext.CTX_PROFILE_COMPAT, major, minor, ctp); } return 0 != ( ctp[0] & CTX_IMPL_ES3_COMPAT ); } public static boolean isGL4bcAvailable(AbstractGraphicsDevice device, boolean isHardware[]) { return isGLVersionAvailable(device, 4, CTX_PROFILE_COMPAT, isHardware); } public static boolean isGL4Available(AbstractGraphicsDevice device, boolean isHardware[]) { return isGLVersionAvailable(device, 4, CTX_PROFILE_CORE, isHardware); } public static boolean isGL3bcAvailable(AbstractGraphicsDevice device, boolean isHardware[]) { return isGLVersionAvailable(device, 3, CTX_PROFILE_COMPAT, isHardware); } public static boolean isGL3Available(AbstractGraphicsDevice device, boolean isHardware[]) { return isGLVersionAvailable(device, 3, CTX_PROFILE_CORE, isHardware); } public static boolean isGL2Available(AbstractGraphicsDevice device, boolean isHardware[]) { return isGLVersionAvailable(device, 2, CTX_PROFILE_COMPAT, isHardware); } protected static String getGLVersion(int major, int minor, int ctp, String gl_version) { boolean needColon = false; StringBuilder sb = new StringBuilder(); sb.append(major); sb.append("."); sb.append(minor); sb.append(" ("); needColon = appendString(sb, "ES profile", needColon, 0 != ( CTX_PROFILE_ES & ctp )); needColon = appendString(sb, "Compat profile", needColon, 0 != ( CTX_PROFILE_COMPAT & ctp )); needColon = appendString(sb, "Core profile", needColon, 0 != ( CTX_PROFILE_CORE & ctp )); needColon = appendString(sb, "forward", needColon, 0 != ( CTX_OPTION_FORWARD & ctp )); needColon = appendString(sb, "arb", needColon, 0 != ( CTX_IS_ARB_CREATED & ctp )); needColon = appendString(sb, "debug", needColon, 0 != ( CTX_OPTION_DEBUG & ctp )); needColon = appendString(sb, "ES2 compat", needColon, 0 != ( CTX_IMPL_ES2_COMPAT & ctp )); needColon = appendString(sb, "ES3 compat", needColon, 0 != ( CTX_IMPL_ES3_COMPAT & ctp )); needColon = appendString(sb, "FBO", needColon, 0 != ( CTX_IMPL_FBO & ctp )); needColon = appendString(sb, "FP32 compat", needColon, 0 != ( CTX_IMPL_FP32_COMPAT_API & ctp )); if( 0 != ( CTX_IMPL_ACCEL_SOFT & ctp ) ) { needColon = appendString(sb, "software", needColon, true); } else { needColon = appendString(sb, "hardware", needColon, true); } sb.append(")"); if(null!=gl_version) { sb.append(" - "); sb.append(gl_version); } return sb.toString(); } // // internal string utils // protected static String toHexString(int hex) { return "0x" + Integer.toHexString(hex); } protected static String toHexString(long hex) { return "0x" + Long.toHexString(hex); } private static boolean appendString(StringBuilder sb, String string, boolean needColon, boolean condition) { if(condition) { if(needColon) { sb.append(", "); } sb.append(string); needColon=true; } return needColon; } protected static String getThreadName() { return Thread.currentThread().getName(); } }