protected static void sendToGL( final GLSLShaderObjectsState state, final ContextCapabilities caps) { final GL gl = GLContext.getCurrentGL(); if (state.getVertexShader() == null && state.getFragmentShader() == null) { logger.warning("Could not find shader resources!" + "(both inputbuffers are null)"); state._needSendShader = false; return; } if (state._programID == -1) { if (gl.isGL2()) { state._programID = gl.getGL2().glCreateProgramObjectARB(); } else { if (gl.isGL2ES2()) { state._programID = gl.getGL2ES2().glCreateProgram(); } } } if (state.getVertexShader() != null) { if (state._vertexShaderID != -1) { removeVertShader(state); } if (gl.isGL2()) { state._vertexShaderID = gl.getGL2().glCreateShaderObjectARB(GL2ES2.GL_VERTEX_SHADER); } else { if (gl.isGL2ES2()) { state._vertexShaderID = gl.getGL2ES2().glCreateShader(GL2ES2.GL_VERTEX_SHADER); } } // Create the sources final byte array[] = new byte[state.getVertexShader().limit()]; state.getVertexShader().rewind(); state.getVertexShader().get(array); if (gl.isGL2()) { gl.getGL2() .glShaderSourceARB( state._vertexShaderID, 1, new String[] {new String(array)}, new int[] {array.length}, 0); } else { if (gl.isGL2ES2()) { gl.getGL2ES2() .glShaderSource( state._vertexShaderID, 1, new String[] {new String(array)}, new int[] {array.length}, 0); } } // Compile the vertex shader final JoglRenderContext context = (JoglRenderContext) ContextManager.getCurrentContext(); final IntBuffer compiled = context.getDirectNioBuffersSet().getSingleIntBuffer(); compiled.clear(); if (gl.isGL2()) { gl.getGL2().glCompileShaderARB(state._vertexShaderID); gl.getGL2() .glGetObjectParameterivARB( state._vertexShaderID, GL2.GL_OBJECT_COMPILE_STATUS_ARB, compiled); } else { if (gl.isGL2ES2()) { gl.getGL2ES2().glCompileShader(state._vertexShaderID); gl.getGL2ES2().glGetShaderiv(state._vertexShaderID, GL2ES2.GL_COMPILE_STATUS, compiled); } } checkProgramError(compiled.get(0), state._vertexShaderID, state._vertexShaderName); // Attach the program if (gl.isGL2()) { gl.getGL2().glAttachObjectARB(state._programID, state._vertexShaderID); } else { if (gl.isGL2ES2()) { gl.getGL2ES2().glAttachShader(state._programID, state._vertexShaderID); } } } else if (state._vertexShaderID != -1) { removeVertShader(state); state._vertexShaderID = -1; } if (state.getFragmentShader() != null) { if (state._fragmentShaderID != -1) { removeFragShader(state); } if (gl.isGL2()) { state._fragmentShaderID = gl.getGL2().glCreateShaderObjectARB(GL2ES2.GL_FRAGMENT_SHADER); } else { if (gl.isGL2ES2()) { state._fragmentShaderID = gl.getGL2ES2().glCreateShader(GL2ES2.GL_FRAGMENT_SHADER); } } // Create the sources final byte array[] = new byte[state.getFragmentShader().limit()]; state.getFragmentShader().rewind(); state.getFragmentShader().get(array); if (gl.isGL2()) { gl.getGL2() .glShaderSourceARB( state._fragmentShaderID, 1, new String[] {new String(array)}, new int[] {array.length}, 0); } else { if (gl.isGL2ES2()) { gl.getGL2ES2() .glShaderSource( state._fragmentShaderID, 1, new String[] {new String(array)}, new int[] {array.length}, 0); } } // Compile the fragment shader final JoglRenderContext context = (JoglRenderContext) ContextManager.getCurrentContext(); final IntBuffer compiled = context.getDirectNioBuffersSet().getSingleIntBuffer(); compiled.clear(); if (gl.isGL2()) { gl.getGL2().glCompileShaderARB(state._fragmentShaderID); gl.getGL2() .glGetObjectParameterivARB( state._fragmentShaderID, GL2.GL_OBJECT_COMPILE_STATUS_ARB, compiled); } else { if (gl.isGL2ES2()) { gl.getGL2ES2().glCompileShader(state._fragmentShaderID); gl.getGL2ES2().glGetShaderiv(state._fragmentShaderID, GL2ES2.GL_COMPILE_STATUS, compiled); } } checkProgramError(compiled.get(0), state._fragmentShaderID, state._vertexShaderName); // Attach the program if (gl.isGL2()) { gl.getGL2().glAttachObjectARB(state._programID, state._fragmentShaderID); } else { if (gl.isGL2ES2()) { gl.getGL2ES2().glAttachShader(state._programID, state._fragmentShaderID); } } } else if (state._fragmentShaderID != -1) { removeFragShader(state); state._fragmentShaderID = -1; } if (caps.isGeometryShader4Supported()) { if (state.getGeometryShader() != null) { if (state._geometryShaderID != -1) { removeGeomShader(state); } if (gl.isGL2()) { state._geometryShaderID = gl.getGL2().glCreateShaderObjectARB(GL3.GL_GEOMETRY_SHADER); } else { if (gl.isGL2ES2()) { state._geometryShaderID = gl.getGL2ES2().glCreateShader(GL3.GL_GEOMETRY_SHADER); } } // Create the sources final byte array[] = new byte[state.getGeometryShader().limit()]; state.getGeometryShader().rewind(); state.getGeometryShader().get(array); if (gl.isGL2()) { gl.getGL2() .glShaderSourceARB( state._geometryShaderID, 1, new String[] {new String(array)}, new int[] {array.length}, 0); } else { if (gl.isGL2ES2()) { gl.getGL2ES2() .glShaderSource( state._geometryShaderID, 1, new String[] {new String(array)}, new int[] {array.length}, 0); } } // Compile the geometry shader final JoglRenderContext context = (JoglRenderContext) ContextManager.getCurrentContext(); final IntBuffer compiled = context.getDirectNioBuffersSet().getSingleIntBuffer(); compiled.clear(); if (gl.isGL2()) { gl.getGL2().glCompileShaderARB(state._geometryShaderID); gl.getGL2() .glGetObjectParameterivARB( state._geometryShaderID, GL2.GL_OBJECT_COMPILE_STATUS_ARB, compiled); } else { if (gl.isGL2ES2()) { gl.getGL2ES2().glCompileShader(state._geometryShaderID); gl.getGL2ES2() .glGetShaderiv(state._geometryShaderID, GL2ES2.GL_COMPILE_STATUS, compiled); } } checkProgramError(compiled.get(0), state._geometryShaderID, state._geometryShaderName); // Attach the program if (gl.isGL2()) { gl.getGL2().glAttachObjectARB(state._programID, state._geometryShaderID); } else { if (gl.isGL2ES2()) { gl.getGL2ES2().glAttachShader(state._programID, state._geometryShaderID); } } } else if (state._geometryShaderID != -1) { removeGeomShader(state); state._geometryShaderID = -1; } } if (caps.isTessellationShadersSupported()) { if (state.getTessellationControlShader() != null) { if (state._tessellationControlShaderID != -1) { removeTessControlShader(state); } if (gl.isGL2()) { state._tessellationControlShaderID = gl.getGL2().glCreateShaderObjectARB(GL4.GL_TESS_CONTROL_SHADER); } else { if (gl.isGL2ES2()) { state._tessellationControlShaderID = gl.getGL2ES2().glCreateShader(GL4.GL_TESS_CONTROL_SHADER); } } // Create the sources final byte array[] = new byte[state.getTessellationControlShader().limit()]; state.getTessellationControlShader().rewind(); state.getTessellationControlShader().get(array); if (gl.isGL2()) { gl.getGL2() .glShaderSourceARB( state._tessellationControlShaderID, 1, new String[] {new String(array)}, new int[] {array.length}, 0); } else { if (gl.isGL2ES2()) { gl.getGL2ES2() .glShaderSource( state._tessellationControlShaderID, 1, new String[] {new String(array)}, new int[] {array.length}, 0); } } // Compile the tessellation control shader final JoglRenderContext context = (JoglRenderContext) ContextManager.getCurrentContext(); final IntBuffer compiled = context.getDirectNioBuffersSet().getSingleIntBuffer(); compiled.clear(); if (gl.isGL2()) { gl.getGL2().glCompileShaderARB(state._tessellationControlShaderID); gl.getGL2() .glGetObjectParameterivARB( state._tessellationControlShaderID, GL2.GL_OBJECT_COMPILE_STATUS_ARB, compiled); } else { if (gl.isGL2ES2()) { gl.getGL2ES2().glCompileShader(state._tessellationControlShaderID); gl.getGL2ES2() .glGetShaderiv( state._tessellationControlShaderID, GL2ES2.GL_COMPILE_STATUS, compiled); } } checkProgramError( compiled.get(0), state._tessellationControlShaderID, state._tessellationControlShaderName); // Attach the program if (gl.isGL2()) { gl.getGL2().glAttachObjectARB(state._programID, state._tessellationControlShaderID); } else { if (gl.isGL2ES2()) { gl.getGL2ES2().glAttachShader(state._programID, state._tessellationControlShaderID); } } } else if (state._tessellationControlShaderID != -1) { removeTessControlShader(state); state._tessellationControlShaderID = -1; } if (state.getTessellationEvaluationShader() != null) { if (state._tessellationEvaluationShaderID != -1) { removeTessEvalShader(state); } if (gl.isGL2()) { state._tessellationEvaluationShaderID = gl.getGL2().glCreateShaderObjectARB(GL4.GL_TESS_CONTROL_SHADER); } else { if (gl.isGL2ES2()) { state._tessellationEvaluationShaderID = gl.getGL2ES2().glCreateShader(GL4.GL_TESS_CONTROL_SHADER); } } // Create the sources final byte array[] = new byte[state.getTessellationEvaluationShader().limit()]; state.getTessellationEvaluationShader().rewind(); state.getTessellationEvaluationShader().get(array); if (gl.isGL2()) { gl.getGL2() .glShaderSourceARB( state._tessellationEvaluationShaderID, 1, new String[] {new String(array)}, new int[] {array.length}, 0); } else { if (gl.isGL2ES2()) { gl.getGL2ES2() .glShaderSource( state._tessellationEvaluationShaderID, 1, new String[] {new String(array)}, new int[] {array.length}, 0); } } // Compile the tessellation control shader final JoglRenderContext context = (JoglRenderContext) ContextManager.getCurrentContext(); final IntBuffer compiled = context.getDirectNioBuffersSet().getSingleIntBuffer(); compiled.clear(); if (gl.isGL2()) { gl.getGL2().glCompileShaderARB(state._tessellationEvaluationShaderID); gl.getGL2() .glGetObjectParameterivARB( state._tessellationEvaluationShaderID, GL2.GL_OBJECT_COMPILE_STATUS_ARB, compiled); } else { if (gl.isGL2ES2()) { gl.getGL2ES2().glCompileShader(state._tessellationEvaluationShaderID); gl.getGL2ES2() .glGetShaderiv( state._tessellationEvaluationShaderID, GL2ES2.GL_COMPILE_STATUS, compiled); } } checkProgramError( compiled.get(0), state._tessellationEvaluationShaderID, state._tessellationEvaluationShaderName); // Attach the program if (gl.isGL2()) { gl.getGL2().glAttachObjectARB(state._programID, state._tessellationEvaluationShaderID); } else { if (gl.isGL2ES2()) { gl.getGL2ES2().glAttachShader(state._programID, state._tessellationEvaluationShaderID); } } } else if (state._tessellationEvaluationShaderID != -1) { removeTessEvalShader(state); state._tessellationEvaluationShaderID = -1; } } if (gl.isGL2()) { gl.getGL2().glLinkProgramARB(state._programID); } else { if (gl.isGL2ES2()) { gl.getGL2ES2().glLinkProgram(state._programID); } } checkLinkError(state._programID); state.setNeedsRefresh(true); state._needSendShader = false; }
protected static void sendToGL(final GLSLShaderObjectsState state) { final GL gl = GLU.getCurrentGL(); if (state.getVertexShader() == null && state.getFragmentShader() == null) { logger.warning("Could not find shader resources!" + "(both inputbuffers are null)"); state._needSendShader = false; return; } if (state._programID == -1) { state._programID = gl.glCreateProgramObjectARB(); } if (state.getVertexShader() != null) { if (state._vertexShaderID != -1) { removeVertShader(state); } state._vertexShaderID = gl.glCreateShaderObjectARB(GL.GL_VERTEX_SHADER_ARB); // Create the sources final byte array[] = new byte[state.getVertexShader().limit()]; state.getVertexShader().rewind(); state.getVertexShader().get(array); gl.glShaderSourceARB( state._vertexShaderID, 1, new String[] {new String(array)}, new int[] {array.length}, 0); // Compile the vertex shader final IntBuffer compiled = BufferUtils.createIntBuffer(1); gl.glCompileShaderARB(state._vertexShaderID); gl.glGetObjectParameterivARB( state._vertexShaderID, GL.GL_OBJECT_COMPILE_STATUS_ARB, compiled); checkProgramError(compiled, state._vertexShaderID); // Attach the program gl.glAttachObjectARB(state._programID, state._vertexShaderID); } else if (state._vertexShaderID != -1) { removeVertShader(state); state._vertexShaderID = -1; } if (state.getFragmentShader() != null) { if (state._fragmentShaderID != -1) { removeFragShader(state); } state._fragmentShaderID = gl.glCreateShaderObjectARB(GL.GL_FRAGMENT_SHADER_ARB); // Create the sources final byte array[] = new byte[state.getFragmentShader().limit()]; state.getFragmentShader().rewind(); state.getFragmentShader().get(array); gl.glShaderSourceARB( state._fragmentShaderID, 1, new String[] {new String(array)}, new int[] {array.length}, 0); // Compile the fragment shader final IntBuffer compiled = BufferUtils.createIntBuffer(1); gl.glCompileShaderARB(state._fragmentShaderID); gl.glGetObjectParameterivARB( state._fragmentShaderID, GL.GL_OBJECT_COMPILE_STATUS_ARB, compiled); checkProgramError(compiled, state._fragmentShaderID); // Attach the program gl.glAttachObjectARB(state._programID, state._fragmentShaderID); } else if (state._fragmentShaderID != -1) { removeFragShader(state); state._fragmentShaderID = -1; } gl.glLinkProgramARB(state._programID); checkLinkError(state._programID); state.setNeedsRefresh(true); state._needSendShader = false; }