public void snapshot(int sn, GL gl, String fileSuffix, String destPath) { final GLDrawable drawable = gl.getContext().getGLReadDrawable(); final String postSNDetail = String.format("awt-usr%03d", textRendererGLEL.userCounter); final String filenameAWT = getSnapshotFilename( sn, postSNDetail, drawable.getChosenGLCapabilities(), drawable.getWidth(), drawable.getHeight(), glReadBufferUtil.hasAlpha(), fileSuffix, destPath); if (swapBuffersBeforeRead) { drawable.swapBuffers(); // Just to test whether we use the right buffer, // i.e. back-buffer shall no more be required .. gl.glClear(GL.GL_COLOR_BUFFER_BIT); } else { gl.glFinish(); // just make sure rendering finished .. } final boolean awtOrientation = drawable.isGLOriented(); System.err.println( Thread.currentThread().getName() + ": ** screenshot: awtOrient/v-flip " + awtOrientation + ", swapBuffersBeforeRead " + swapBuffersBeforeRead + ", " + filenameAWT); final BufferedImage image = glReadBufferUtil.readPixelsToBufferedImage(gl, awtOrientation); final File fout = new File(filenameAWT); try { ImageIO.write(image, "png", fout); } catch (IOException e) { e.printStackTrace(); } /** * final String filenameJGL = getSnapshotFilename(sn, "jgl", * drawable.getChosenGLCapabilities(), drawable.getWidth(), drawable.getHeight(), * glReadBufferUtil.hasAlpha(), fileSuffix, destPath); glReadBufferUtil.write(new * File(filenameJGL)); */ }
@Override public final void setRealized(boolean realized) { final RecursiveLock _lock = getLock(); _lock.lock(); try { final GLDrawable _drawable = drawable; if (null == _drawable || realized && (0 >= _drawable.getWidth() || 0 >= _drawable.getHeight())) { return; } _drawable.setRealized(realized); if (realized && _drawable.isRealized()) { sendReshape = true; // ensure a reshape is being send .. } } finally { _lock.unlock(); } }
@Test public void testShaderState01Validation() throws InterruptedException { // preset .. final NEWTGLContext.WindowContext winctx = NEWTGLContext.createOnscreenWindow(GLProfile.getGL2ES2(), 480, 480, true); final GLDrawable drawable = winctx.context.getGLDrawable(); final GL2ES2 gl = winctx.context.getGL().getGL2ES2(); System.err.println(winctx.context); Assert.assertEquals(GL.GL_NO_ERROR, gl.glGetError()); // test code .. final ShaderState st = new ShaderState(); final ShaderCode rsVp = ShaderCode.create( gl, GL2ES2.GL_VERTEX_SHADER, 1, RedSquare0.class, "shader", "shader/bin", "RedSquareShader"); final ShaderCode rsFp = ShaderCode.create( gl, GL2ES2.GL_FRAGMENT_SHADER, 1, RedSquare0.class, "shader", "shader/bin", "RedSquareShader"); final ShaderProgram sp = new ShaderProgram(); Assert.assertTrue(0 > sp.program()); sp.add(gl, rsVp, System.err); sp.add(gl, rsFp, System.err); Assert.assertTrue(0 <= sp.program()); Assert.assertTrue(!sp.inUse()); Assert.assertTrue(!sp.linked()); Assert.assertEquals(GL.GL_NO_ERROR, gl.glGetError()); st.attachShaderProgram(gl, sp); // Allocate Vertex Array0 final GLArrayDataServer vertices0 = GLSLMiscHelper.createRSVertices0(gl, st, vertices0_loc); System.err.println("vertices0: " + vertices0); vertices0.enableBuffer(gl, false); Assert.assertEquals(vertices0_loc, vertices0.getLocation()); st.ownAttribute(vertices0, true); // Allocate Color Array0 final GLArrayDataServer colors0 = GLSLMiscHelper.createRSColors0(gl, st, colors0_loc); System.err.println("colors0: " + colors0); colors0.enableBuffer(gl, false); Assert.assertEquals(colors0_loc, colors0.getLocation()); st.ownAttribute(colors0, true); Assert.assertTrue(sp.link(gl, System.err)); Assert.assertTrue(sp.linked()); Assert.assertEquals(GL.GL_NO_ERROR, gl.glGetError()); Assert.assertEquals(vertices0_loc, vertices0.getLocation()); GLSLMiscHelper.validateGLArrayDataServerState(gl, st, vertices0); Assert.assertEquals(colors0_loc, colors0.getLocation()); GLSLMiscHelper.validateGLArrayDataServerState(gl, st, colors0); Assert.assertEquals(null, ShaderState.getShaderState(gl)); st.useProgram(gl, true); Assert.assertTrue(sp.inUse()); Assert.assertEquals(GL.GL_NO_ERROR, gl.glGetError()); Assert.assertEquals(st, ShaderState.getShaderState(gl)); // setup mgl_PMVMatrix final PMVMatrix pmvMatrix = new PMVMatrix(); final GLUniformData pmvMatrixUniform = new GLUniformData("mgl_PMVMatrix", 4, 4, pmvMatrix.glGetPMvMatrixf()); Assert.assertEquals(GL.GL_NO_ERROR, gl.glGetError()); st.ownUniform(pmvMatrixUniform); st.uniform(gl, pmvMatrixUniform); Assert.assertEquals(GL.GL_NO_ERROR, gl.glGetError()); Assert.assertEquals(pmvMatrixUniform, st.getUniform("mgl_PMVMatrix")); // Allocate Vertex Array1 final GLArrayDataServer vertices1 = GLSLMiscHelper.createRSVertices1(gl, st); System.err.println("vertices1: " + vertices1); vertices1.enableBuffer(gl, false); GLSLMiscHelper.validateGLArrayDataServerState(gl, st, vertices1); st.ownAttribute(vertices1, true); // Allocate Color Array1 final GLArrayDataServer colors1 = GLSLMiscHelper.createRSColors1(gl, st); System.err.println("colors1: " + colors1); colors1.enableBuffer(gl, false); GLSLMiscHelper.validateGLArrayDataServerState(gl, st, colors1); st.ownAttribute(colors0, true); // misc GL setup gl.glClearColor(0, 0, 0, 1); gl.glEnable(GL2ES2.GL_DEPTH_TEST); Assert.assertEquals(GL.GL_NO_ERROR, gl.glGetError()); // reshape pmvMatrix.glMatrixMode(PMVMatrix.GL_PROJECTION); pmvMatrix.glLoadIdentity(); pmvMatrix.gluPerspective( 45.0F, (float) drawable.getWidth() / (float) drawable.getHeight(), 1.0F, 100.0F); pmvMatrix.glMatrixMode(PMVMatrix.GL_MODELVIEW); pmvMatrix.glLoadIdentity(); pmvMatrix.glTranslatef(0, 0, -10); st.uniform(gl, pmvMatrixUniform); gl.glViewport(0, 0, drawable.getWidth(), drawable.getHeight()); Assert.assertEquals(GL.GL_NO_ERROR, gl.glGetError()); // display #1 vertices0 / colors0 (post-disable) GLSLMiscHelper.displayVCArrays( drawable, gl, st, true, vertices0, colors0, true, 1, durationPerTest); // display #2 #1 vertices1 / colors1 (post-disable) GLSLMiscHelper.displayVCArrays( drawable, gl, st, true, vertices1, colors1, true, 2, durationPerTest); // display #3 vertices0 / colors0 (post-disable) GLSLMiscHelper.displayVCArrays( drawable, gl, st, true, vertices0, colors0, true, 3, durationPerTest); // cleanup st.destroy(gl); NEWTGLContext.destroyWindow(winctx); }
@Test(timeout = 120000) public void testShaderState01PerformanceDouble() throws InterruptedException { // preset .. final NEWTGLContext.WindowContext winctx = NEWTGLContext.createOnscreenWindow(GLProfile.getGL2ES2(), 480, 480, false); final GLDrawable drawable = winctx.context.getGLDrawable(); final GL2ES2 gl = winctx.context.getGL().getGL2ES2(); System.err.println(winctx.context); gl.setSwapInterval(0); Assert.assertEquals(GL.GL_NO_ERROR, gl.glGetError()); // test code .. final ShaderState st = new ShaderState(); final ShaderCode rsVp = ShaderCode.create( gl, GL2ES2.GL_VERTEX_SHADER, 1, RedSquare0.class, "shader", "shader/bin", "RedSquareShader"); final ShaderCode rsFp = ShaderCode.create( gl, GL2ES2.GL_FRAGMENT_SHADER, 1, RedSquare0.class, "shader", "shader/bin", "RedSquareShader"); final ShaderProgram sp = new ShaderProgram(); sp.add(rsVp); sp.add(rsFp); sp.init(gl); Assert.assertTrue(sp.link(gl, System.err)); st.attachShaderProgram(gl, sp); st.useProgram(gl, true); // setup mgl_PMVMatrix final PMVMatrix pmvMatrix = new PMVMatrix(); final GLUniformData pmvMatrixUniform = new GLUniformData("mgl_PMVMatrix", 4, 4, pmvMatrix.glGetPMvMatrixf()); st.ownUniform(pmvMatrixUniform); st.uniform(gl, pmvMatrixUniform); // Allocate Vertex Array0 final GLArrayDataServer vertices0 = GLSLMiscHelper.createRSVertices0(gl, st, -1); st.ownAttribute(vertices0, true); vertices0.enableBuffer(gl, false); // Allocate Vertex Array1 final GLArrayDataServer vertices1 = GLSLMiscHelper.createRSVertices1(gl, st); st.ownAttribute(vertices1, true); vertices1.enableBuffer(gl, false); // Allocate Color Array0 final GLArrayDataServer colors0 = GLSLMiscHelper.createRSColors0(gl, st, -1); st.ownAttribute(colors0, true); colors0.enableBuffer(gl, false); // Allocate Color Array1 final GLArrayDataServer colors1 = GLSLMiscHelper.createRSColors1(gl, st); st.ownAttribute(colors1, true); colors1.enableBuffer(gl, false); // misc GL setup gl.glClearColor(0, 0, 0, 1); gl.glEnable(GL2ES2.GL_DEPTH_TEST); // reshape pmvMatrix.glMatrixMode(PMVMatrix.GL_PROJECTION); pmvMatrix.glLoadIdentity(); pmvMatrix.gluPerspective( 45.0F, (float) drawable.getWidth() / (float) drawable.getHeight(), 1.0F, 100.0F); pmvMatrix.glMatrixMode(PMVMatrix.GL_MODELVIEW); pmvMatrix.glLoadIdentity(); pmvMatrix.glTranslatef(0, 0, -10); st.uniform(gl, pmvMatrixUniform); gl.glViewport(0, 0, drawable.getWidth(), drawable.getHeight()); gl.setSwapInterval(0); // validation .. GLSLMiscHelper.displayVCArrays(drawable, gl, st, true, vertices0, colors0, true, 1, 0); GLSLMiscHelper.displayVCArrays(drawable, gl, st, true, vertices1, colors1, true, 2, 0); // warmup .. for (int frames = 0; frames < GLSLMiscHelper.frames_warmup; frames += 2) { GLSLMiscHelper.displayVCArraysNoChecks(drawable, gl, true, vertices0, colors0, true); GLSLMiscHelper.displayVCArraysNoChecks(drawable, gl, true, vertices1, colors1, true); } // measure .. long t0 = System.currentTimeMillis(); int frames; for (frames = 0; frames < GLSLMiscHelper.frames_perftest; frames += 2) { GLSLMiscHelper.displayVCArraysNoChecks(drawable, gl, true, vertices0, colors0, true); GLSLMiscHelper.displayVCArraysNoChecks(drawable, gl, true, vertices1, colors1, true); } final long t1 = System.currentTimeMillis(); final long dt = t1 - t0; final double fps = (frames * 1000.0) / (double) dt; final String fpsS = String.valueOf(fps); final int fpsSp = fpsS.indexOf('.'); System.err.println( "testShaderState01PerformanceDouble: " + dt / 1000.0 + "s: " + frames + "f, " + fpsS.substring(0, fpsSp + 2) + " fps, " + dt / frames + " ms/f"); // cleanup st.destroy(gl); NEWTGLContext.destroyWindow(winctx); }
@Override public int getWidth() { final GLDrawable _drawable = drawable; return null != _drawable ? _drawable.getWidth() : 0; }
/** * Takes a snapshot of the drawable's current front framebuffer. Example filenames: * * <pre> * TestGLDrawableAutoDelegateOnOffscrnCapsNEWT.testES2OffScreenFBOSglBuf____-n0001-msaa0-GLES2_-sw-fbobject-Bdbl-Frgb__Irgb_-S00_default-0400x0300.png * TestGLDrawableAutoDelegateOnOffscrnCapsNEWT.testES2OffScreenPbufferDblBuf-n0003-msaa0-GLES2_-sw-pbuffer_-Bdbl-Frgb__Irgb_-S00_default-0200x0150.png * TestGLDrawableAutoDelegateOnOffscrnCapsNEWT.testGL2OffScreenPbufferSglBuf-n0003-msaa0-GL2___-hw-pbuffer_-Bone-Frgb__Irgb_-S00_default-0200x0150.png * </pre> * * @param sn sequential number * @param postSNDetail optional detail to be added to the filename after <code>sn</code> * @param gl the current GL context object. It's read drawable is being used as the pixel source * and to gather some details which will end up in the filename. * @param readBufferUtil the {@link GLReadBufferUtil} to be used to read the pixels for the * screenshot. * @param fileSuffix Optional file suffix without a <i>dot</i> defining the file type, i.e. <code> * "png"</code>. If <code>null</code> the <code>"png"</code> as defined in {@link * TextureIO#PNG} is being used. * @param destPath Optional platform dependent file path. It shall use {@link File#separatorChar} * as is directory separator. It shall not end with a directory separator, {@link * File#separatorChar}. If <code>null</code> the current working directory is being used. */ public void snapshot( int sn, String postSNDetail, GL gl, GLReadBufferUtil readBufferUtil, String fileSuffix, String destPath) { if (null == fileSuffix) { fileSuffix = TextureIO.PNG; } final int maxSimpleTestNameLen = getMaxTestNameLen() + getClass().getSimpleName().length() + 1; final String simpleTestName = this.getSimpleTestName("."); final String filenameBaseName; { final GLDrawable drawable = gl.getContext().getGLReadDrawable(); final GLCapabilitiesImmutable caps = drawable.getChosenGLCapabilities(); final String accel = caps.getHardwareAccelerated() ? "hw" : "sw"; final String scrnm; if (caps.isOnscreen()) { scrnm = "onscreen"; } else if (caps.isFBO()) { scrnm = "fbobject"; } else if (caps.isPBuffer()) { scrnm = "pbuffer_"; } else if (caps.isBitmap()) { scrnm = "bitmap__"; } else { scrnm = "unknown_"; } final String dblb = caps.getDoubleBuffered() ? "dbl" : "one"; final String F_pfmt = readBufferUtil.hasAlpha() ? "rgba" : "rgb_"; final String pfmt = caps.getAlphaBits() > 0 ? "rgba" : "rgb_"; final int samples = caps.getNumSamples(); final String aaext = caps.getSampleExtension(); postSNDetail = null != postSNDetail ? "-" + postSNDetail : ""; filenameBaseName = String.format( "%-" + maxSimpleTestNameLen + "s-n%04d%s-%-6s-%s-%s-B%s-F%s_I%s-S%02d_%s-%04dx%04d.%s", simpleTestName, sn, postSNDetail, drawable.getGLProfile().getName(), accel, scrnm, dblb, F_pfmt, pfmt, samples, aaext, drawable.getWidth(), drawable.getHeight(), fileSuffix) .replace(' ', '_'); } final String filename = null != destPath ? destPath + File.separator + filenameBaseName : filenameBaseName; System.err.println( Thread.currentThread().getName() + ": ** screenshot: " + filename + ", maxTestNameLen " + maxSimpleTestNameLen + ", <" + simpleTestName + ">"); gl.glFinish(); // just make sure rendering finished .. if (readBufferUtil.readPixels(gl, false)) { readBufferUtil.write(new File(filename)); } }