There is now a semi-reasonable amount of screen output again.

Machines/Electron/Electron.cpp

@@ -30,10 +30,10 @@ Machine::Machine() :
 	_crt(Outputs::CRT(crt_cycles_per_line, Outputs::CRT::DisplayType::PAL50, 1, 1))
 {
 	_crt.set_rgb_sampling_function(
-		"vec4 sample(vec2 coordinate)\n"
+		"vec3 rgb_sample(vec2 coordinate)"
-		"{\n"
+		"{"
-			"float texValue = texture(texID, coordinate).r;\n"
+			"float texValue = texture(texID, coordinate).r;"
-			"return vec4( step(4.0/256.0, mod(texValue, 8.0/256.0)), step(2.0/256.0, mod(texValue, 4.0/256.0)), step(1.0/256.0, mod(texValue, 2.0/256.0)), 1.0);\n"
+			"return vec3(step(4.0/256.0, mod(texValue, 8.0/256.0)), step(2.0/256.0, mod(texValue, 4.0/256.0)), step(1.0/256.0, mod(texValue, 2.0/256.0)));"
 		"}");
 
 	memset(_keyStates, 0, sizeof(_keyStates));

OSBindings/Mac/Clock Signal/Views/CSCathodeRayView.m

@@ -186,110 +186,6 @@ static CVReturn DisplayLinkCallback(CVDisplayLinkRef displayLink, const CVTimeSt
 //	self.frameBounds = CGRectMake(0.0, 0.0, 1.0, 1.0);
 }
 
-/*
-
-#pragma mark - Frame output
-
-#if defined(DEBUG)
-- (void)logErrorForObject:(GLuint)object
-{
-	GLint isCompiled = 0;
-	glGetShaderiv(object, GL_COMPILE_STATUS, &isCompiled);
-	if(isCompiled == GL_FALSE)
-	{
-		GLint logLength;
-		glGetShaderiv(object, GL_INFO_LOG_LENGTH, &logLength);
-		if (logLength > 0) {
-			GLchar *log = (GLchar *)malloc((size_t)logLength);
-			glGetShaderInfoLog(object, logLength, &logLength, log);
-			NSLog(@"Compile log:\n%s", log);
-			free(log);
-		}
-	}
-}
-#endif
-
-- (GLuint)compileShader:(const char *)source type:(GLenum)type
-{
-	GLuint shader = glCreateShader(type);
-	glShaderSource(shader, 1, &source, NULL);
-	glCompileShader(shader);
-
-#ifdef DEBUG
-	[self logErrorForObject:shader];
-#endif
-
-	return shader;
-}
-
-- (void)setSignalDecoder:(nonnull NSString *)signalDecoder type:(CSCathodeRayViewSignalType)type
-{
-	_signalType	= type;
-	_signalDecoder = [signalDecoder copy];
-	OSAtomicIncrement32(&_signalDecoderGeneration);
-}
-
-- (void)prepareShader
-{
-	if(_shaderProgram)
-	{
-		glDeleteProgram(_shaderProgram);
-		glDeleteShader(_vertexShader);
-		glDeleteShader(_fragmentShader);
-	}
-
-	if(!_signalDecoder)
-		return;
-
-	NSString *const vertexShader = [self vertexShaderForType:_signalType];
-	NSString *const fragmentShader = [self fragmentShaderForType:_signalType];
-
-	_shaderProgram = glCreateProgram();
-	_vertexShader = [self compileShader:[vertexShader UTF8String] type:GL_VERTEX_SHADER];
-	_fragmentShader = [self compileShader:_signalDecoder ?
-							[[NSString stringWithFormat:fragmentShader, _signalDecoder] UTF8String] :
-							[fragmentShader UTF8String]
-						type:GL_FRAGMENT_SHADER];
-
-	glAttachShader(_shaderProgram, _vertexShader);
-	glAttachShader(_shaderProgram, _fragmentShader);
-	glLinkProgram(_shaderProgram);
-
-#ifdef DEBUG
-//	[self logErrorForObject:_shaderProgram];
-#endif
-
-
-	glUseProgram(_shaderProgram);
-
-	_positionAttribute				= glGetAttribLocation(_shaderProgram, "position");
-	_textureCoordinatesAttribute	= glGetAttribLocation(_shaderProgram, "srcCoordinates");
-	_lateralAttribute				= glGetAttribLocation(_shaderProgram, "lateral");
-	_alphaUniform					= glGetUniformLocation(_shaderProgram, "alpha");
-	_textureSizeUniform				= glGetUniformLocation(_shaderProgram, "textureSize");
-	_windowSizeUniform				= glGetUniformLocation(_shaderProgram, "windowSize");
-	_boundsSizeUniform				= glGetUniformLocation(_shaderProgram, "boundsSize");
-	_boundsOriginUniform			= glGetUniformLocation(_shaderProgram, "boundsOrigin");
-
-	GLint texIDUniform				= glGetUniformLocation(_shaderProgram, "texID");
-	GLint shadowMaskTexIDUniform	= glGetUniformLocation(_shaderProgram, "shadowMaskTexID");
-
-	[self pushSizeUniforms];
-
-	glUniform1i(texIDUniform, 0);
-	glUniform1i(shadowMaskTexIDUniform, 1);
-
-	glEnableVertexAttribArray((GLuint)_positionAttribute);
-	glEnableVertexAttribArray((GLuint)_textureCoordinatesAttribute);
-	glEnableVertexAttribArray((GLuint)_lateralAttribute);
-
-	const GLsizei vertexStride = kCRTSizeOfVertex;
-	glVertexAttribPointer((GLuint)_positionAttribute,			2, GL_UNSIGNED_SHORT,	GL_TRUE,	vertexStride, (void *)kCRTVertexOffsetOfPosition);
-	glVertexAttribPointer((GLuint)_textureCoordinatesAttribute, 2, GL_UNSIGNED_SHORT,	GL_FALSE,	vertexStride, (void *)kCRTVertexOffsetOfTexCoord);
-	glVertexAttribPointer((GLuint)_lateralAttribute,			1, GL_UNSIGNED_BYTE,	GL_FALSE,	vertexStride, (void *)kCRTVertexOffsetOfLateral);
-
-}*/
-
 - (void)drawRect:(NSRect)dirtyRect
 {
 	[self drawViewOnlyIfDirty:NO];

Outputs/CRT/CRT.hpp

@@ -294,9 +294,12 @@ class CRT {
 
 		void construct_openGL();
 		void destruct_openGL();
+		void prepare_shader();
+		void push_size_uniforms(unsigned int output_width, unsigned int output_height);
 
 		char *get_vertex_shader();
 		char *get_fragment_shader();
+		char *get_compound_shader(const char *base, const char *insert);
 };
 
 }

Outputs/CRT/CRTOpenGL.cpp

@@ -31,6 +31,32 @@ struct CRT::OpenGLState {
 	GLuint textureName, shadowMaskTextureName;
 
 	CRTSize textureSize;
+
+	GLuint compile_shader(const char *source, GLenum type)
+	{
+		GLuint shader = glCreateShader(type);
+		glShaderSource(shader, 1, &source, NULL);
+		glCompileShader(shader);
+
+#if defined(DEBUG)
+		GLint isCompiled = 0;
+		glGetShaderiv(shader, GL_COMPILE_STATUS, &isCompiled);
+		if(isCompiled == GL_FALSE)
+		{
+			GLint logLength;
+			glGetShaderiv(shader, GL_INFO_LOG_LENGTH, &logLength);
+			if (logLength > 0) {
+				GLchar *log = (GLchar *)malloc((size_t)logLength);
+				glGetShaderInfoLog(shader, logLength, &logLength, log);
+				printf("Compile log:\n%s\n", log);
+				free(log);
+			}
+		}
+#endif
+
+		return shader;
+	}
+
 };
 
 static GLenum formatForDepth(unsigned int depth)
@@ -86,8 +112,12 @@ void CRT::draw_frame(int output_width, int output_height, bool only_if_dirty)
 			glBindVertexArray(_openGL_state->vertexArray);
 			glGenBuffers(1, &_openGL_state->arrayBuffer);
 			glBindBuffer(GL_ARRAY_BUFFER, _openGL_state->arrayBuffer);
+
+			prepare_shader();
 		}
 
+		push_size_uniforms(output_width, output_height);
+
 		glBufferData(GL_ARRAY_BUFFER, (GLsizeiptr)(_current_frame->number_of_vertices * _current_frame->size_per_vertex), _current_frame->vertices, GL_DYNAMIC_DRAW);
 
 		glBindTexture(GL_TEXTURE_2D, _openGL_state->textureName);
@@ -112,6 +142,28 @@ void CRT::set_openGL_context_will_change(bool should_delete_resources)
 {
 }
 
+void CRT::push_size_uniforms(unsigned int output_width, unsigned int output_height)
+{
+	if(_openGL_state->windowSizeUniform >= 0)
+	{
+		glUniform2f(_openGL_state->windowSizeUniform, output_width, output_height);
+	}
+
+//	GLfloat outputAspectRatioMultiplier = 1.0;//(viewSize.x / viewSize.y) / (4.0 / 3.0);
+
+//	_aspectRatioCorrectedBounds = _frameBounds;
+
+//	CGFloat bonusWidth = (outputAspectRatioMultiplier - 1.0f) * _frameBounds.size.width;
+//	_aspectRatioCorrectedBounds.origin.x -= bonusWidth * 0.5f * _aspectRatioCorrectedBounds.size.width;
+//	_aspectRatioCorrectedBounds.size.width *= outputAspectRatioMultiplier;
+
+	if(_openGL_state->boundsOriginUniform >= 0)
+		glUniform2f(_openGL_state->boundsOriginUniform, 0.0, 0.0); //(GLfloat)_aspectRatioCorrectedBounds.origin.x, (GLfloat)_aspectRatioCorrectedBounds.origin.y);
+
+	if(_openGL_state->boundsSizeUniform >= 0)
+		glUniform2f(_openGL_state->boundsSizeUniform, 1.0, 1.0);//(GLfloat)_aspectRatioCorrectedBounds.size.width, (GLfloat)_aspectRatioCorrectedBounds.size.height);
+}
+
 void CRT::set_composite_sampling_function(const char *shader)
 {
 	_composite_shader = strdup(shader);
@@ -128,140 +180,156 @@ char *CRT::get_vertex_shader()
 	// top left to OpenGL's [-1,1]x[-1,1] with the origin in the lower left, and to convert input data coordinates
 	// from integral to floating point; there's also some setup for NTSC, PAL or whatever.
 
-	const char *const ntscVertexShaderGlobals =
+//	const char *const ntscVertexShaderGlobals =
-		"out vec2 srcCoordinatesVarying[4];\n"
+//		"out vec2 srcCoordinatesVarying[4];\n"
-		"out float phase;\n";
+//		"out float phase;\n";
+//
+//	const char *const ntscVertexShaderBody =
+//		"phase = srcCoordinates.x * 6.283185308;\n"
+//		"\n"
+//		"srcCoordinatesVarying[0] = vec2(srcCoordinates.x / textureSize.x, (srcCoordinates.y + 0.5) / textureSize.y);\n"
+//		"srcCoordinatesVarying[3] = srcCoordinatesVarying[0] + vec2(0.375 / textureSize.x, 0.0);\n"
+//		"srcCoordinatesVarying[2] = srcCoordinatesVarying[0] + vec2(0.125 / textureSize.x, 0.0);\n"
+//		"srcCoordinatesVarying[1] = srcCoordinatesVarying[0] - vec2(0.125 / textureSize.x, 0.0);\n"
+//		"srcCoordinatesVarying[0] = srcCoordinatesVarying[0] - vec2(0.325 / textureSize.x, 0.0);\n";
 
-	const char *const ntscVertexShaderBody =
+	return strdup(
-		"phase = srcCoordinates.x * 6.283185308;\n"
-		"\n"
-		"srcCoordinatesVarying[0] = vec2(srcCoordinates.x / textureSize.x, (srcCoordinates.y + 0.5) / textureSize.y);\n"
-		"srcCoordinatesVarying[3] = srcCoordinatesVarying[0] + vec2(0.375 / textureSize.x, 0.0);\n"
-		"srcCoordinatesVarying[2] = srcCoordinatesVarying[0] + vec2(0.125 / textureSize.x, 0.0);\n"
-		"srcCoordinatesVarying[1] = srcCoordinatesVarying[0] - vec2(0.125 / textureSize.x, 0.0);\n"
-		"srcCoordinatesVarying[0] = srcCoordinatesVarying[0] - vec2(0.325 / textureSize.x, 0.0);\n";
-
-//	const char *const rgbVertexShaderGlobals =
-//		"out vec2 srcCoordinatesVarying[5];\n";
-
-//	const char *const rgbVertexShaderBody =
-//		"srcCoordinatesVarying[2] = vec2(srcCoordinates.x / textureSize.x, (srcCoordinates.y + 0.5) / textureSize.y);\n"
-//		"srcCoordinatesVarying[0] = srcCoordinatesVarying[1] - vec2(1.0 / textureSize.x, 0.0);\n"
-//		"srcCoordinatesVarying[1] = srcCoordinatesVarying[1] - vec2(0.5 / textureSize.x, 0.0);\n"
-//		"srcCoordinatesVarying[3] = srcCoordinatesVarying[1] + vec2(0.5 / textureSize.x, 0.0);\n"
-//		"srcCoordinatesVarying[4] = srcCoordinatesVarying[1] + vec2(1.0 / textureSize.x, 0.0);\n";
-
-	const char *const vertexShader =
 		"#version 150\n"
-		"\n"
+
-		"in vec2 position;\n"
+		"in vec2 position;"
-		"in vec2 srcCoordinates;\n"
+		"in vec2 srcCoordinates;"
-		"in float lateral;\n"
+		"in float lateral;"
-		"\n"
+
-		"uniform vec2 boundsOrigin;\n"
+		"uniform vec2 boundsOrigin;"
-		"uniform vec2 boundsSize;\n"
+		"uniform vec2 boundsSize;"
-		"\n"
+
-		"out float lateralVarying;\n"
+		"out float lateralVarying;"
-		"out vec2 shadowMaskCoordinates;\n"
+		"out vec2 shadowMaskCoordinates;"
-		"\n"
+
-		"uniform vec2 textureSize;\n"
+		"uniform vec2 textureSize;"
-		"\n"
+
-		"const float shadowMaskMultiple = 600;\n"
+		"const float shadowMaskMultiple = 600;"
-		"\n"
+
-		"%@\n"
+		"out vec2 srcCoordinatesVarying;"
-		"void main (void)\n"
+
-		"{\n"
+		"void main(void)"
-			"lateralVarying = lateral + 1.0707963267949;\n"
+		"{"
-			"\n"
+			"lateralVarying = lateral + 1.0707963267949;"
-			"shadowMaskCoordinates = position * vec2(shadowMaskMultiple, shadowMaskMultiple * 0.85057471264368);\n"
+
-			"\n"
+			"shadowMaskCoordinates = position * vec2(shadowMaskMultiple, shadowMaskMultiple * 0.85057471264368);"
-			"%@\n"
+
-			"\n"
+			"srcCoordinatesVarying = vec2(srcCoordinates.x / textureSize.x, (srcCoordinates.y + 0.5) / textureSize.y);\n"
+
 			"vec2 mappedPosition = (position - boundsOrigin) / boundsSize;"
-			"gl_Position = vec4(mappedPosition.x * 2.0 - 1.0, 1.0 - mappedPosition.y * 2.0, 0.0, 1.0);\n"
+			"gl_Position = vec4(mappedPosition.x * 2.0 - 1.0, 1.0 - mappedPosition.y * 2.0, 0.0, 1.0);"
-		"}\n";
+		"}");
-
-	return nullptr;
-// + mappedPosition.x / 131.0
-
-//	switch(_signalType)
-//	{
-//		case CSCathodeRayViewSignalTypeNTSC: return [NSString stringWithFormat:vertexShader, ntscVertexShaderGlobals, ntscVertexShaderBody];
-//		case CSCathodeRayViewSignalTypeRGB:	 return [NSString stringWithFormat:vertexShader, rgbVertexShaderGlobals, rgbVertexShaderBody];
-//	}
 }
 
 char *CRT::get_fragment_shader()
 {
 	// assumes y = [0, 1], i and q = [-0.5, 0.5]; therefore i components are multiplied by 1.1914 versus standard matrices, q by 1.0452
-	const char *const yiqToRGB = "const mat3 yiqToRGB = mat3(1.0, 1.0, 1.0, 1.1389784, -0.3240608, -1.3176884, 0.6490692, -0.6762444, 1.7799756);";
+//	const char *const yiqToRGB = "const mat3 yiqToRGB = mat3(1.0, 1.0, 1.0, 1.1389784, -0.3240608, -1.3176884, 0.6490692, -0.6762444, 1.7799756);";
 
 	// assumes y = [0,1], u and v = [-0.5, 0.5]; therefore u components are multiplied by 1.14678899082569, v by 0.8130081300813
-	const char *const yuvToRGB = "const mat3 yiqToRGB = mat3(1.0, 1.0, 1.0, 0.0, -0.75213899082569, 2.33040137614679, 0.92669105691057, -0.4720325203252, 0.0);";
+//	const char *const yuvToRGB = "const mat3 yiqToRGB = mat3(1.0, 1.0, 1.0, 0.0, -0.75213899082569, 2.33040137614679, 0.92669105691057, -0.4720325203252, 0.0);";
 
-	const char *const fragmentShader =
+//	const char *const ntscFragmentShaderGlobals =
-		"#version 150\n"
+//		"in vec2 srcCoordinatesVarying[4];\n"
-		"\n"
+//		"in float phase;\n"
-		"in float lateralVarying;\n"
+//		"\n"
-		"in vec2 shadowMaskCoordinates;\n"
+//		"// for conversion from i and q are in the range [-0.5, 0.5] (so i needs to be multiplied by 1.1914 and q by 1.0452)\n"
-		"out vec4 fragColour;\n"
+//		"const mat3 yiqToRGB = mat3(1.0, 1.0, 1.0, 1.1389784, -0.3240608, -1.3176884, 0.6490692, -0.6762444, 1.7799756);\n";
-		"\n"
-		"uniform sampler2D texID;\n"
-		"uniform sampler2D shadowMaskTexID;\n"
-		"uniform float alpha;\n"
-		"\n"
-		"in vec2 srcCoordinatesVarying[4];\n"
-		"in float phase;\n"
-		"%@\n"
-		"%@\n"
-		"\n"
-		"void main(void)\n"
-		"{\n"
-			"%@\n"
-		"}\n";
 
-	const char *const ntscFragmentShaderGlobals =
+//	const char *const ntscFragmentShaderBody =
-		"in vec2 srcCoordinatesVarying[4];\n"
+//		"vec4 angles = vec4(phase) + vec4(-2.35619449019234, -0.78539816339745, 0.78539816339745, 2.35619449019234);\n"
-		"in float phase;\n"
+//		"vec4 samples = vec4("
-		"\n"
+//		"   sample(srcCoordinatesVarying[0], angles.x),"
-		"// for conversion from i and q are in the range [-0.5, 0.5] (so i needs to be multiplied by 1.1914 and q by 1.0452)\n"
+//		"	sample(srcCoordinatesVarying[1], angles.y),"
-		"const mat3 yiqToRGB = mat3(1.0, 1.0, 1.0, 1.1389784, -0.3240608, -1.3176884, 0.6490692, -0.6762444, 1.7799756);\n";
+//		"	sample(srcCoordinatesVarying[2], angles.z),"
-
+//		"	sample(srcCoordinatesVarying[3], angles.w)"
-	const char *const ntscFragmentShaderBody =
+//		");\n"
-		"vec4 angles = vec4(phase) + vec4(-2.35619449019234, -0.78539816339745, 0.78539816339745, 2.35619449019234);\n"
+//		"\n"
-		"vec4 samples = vec4("
+//		"float y = dot(vec4(0.25), samples);\n"
-		"   sample(srcCoordinatesVarying[0], angles.x),"
+//		"samples -= vec4(y);\n"
-		"	sample(srcCoordinatesVarying[1], angles.y),"
+//		"\n"
-		"	sample(srcCoordinatesVarying[2], angles.z),"
+//		"float i = dot(cos(angles), samples);\n"
-		"	sample(srcCoordinatesVarying[3], angles.w)"
+//		"float q = dot(sin(angles), samples);\n"
-		");\n"
+//		"\n"
-		"\n"
+//		"fragColour = 5.0 * texture(shadowMaskTexID, shadowMaskCoordinates) * vec4(yiqToRGB * vec3(y, i, q), 1.0);//sin(lateralVarying));\n";
-		"float y = dot(vec4(0.25), samples);\n"
-		"samples -= vec4(y);\n"
-		"\n"
-		"float i = dot(cos(angles), samples);\n"
-		"float q = dot(sin(angles), samples);\n"
-		"\n"
-		"fragColour = 5.0 * texture(shadowMaskTexID, shadowMaskCoordinates) * vec4(yiqToRGB * vec3(y, i, q), 1.0);//sin(lateralVarying));\n";
-
-//	const char *const rgbFragmentShaderGlobals =
-//		"in vec2 srcCoordinatesVarying[5];\n"; // texture(shadowMaskTexID, shadowMaskCoordinates) *
-
-//	const char *const rgbFragmentShaderBody =
-//		"fragColour =	sample(srcCoordinatesVarying[2]);";
-//		@"fragColour =	(sample(srcCoordinatesVarying[0]) * -0.1) + \
-//						(sample(srcCoordinatesVarying[1]) * 0.3) + \
-//						(sample(srcCoordinatesVarying[2]) * 0.6) + \
-//						(sample(srcCoordinatesVarying[3]) * 0.3) + \
-//						(sample(srcCoordinatesVarying[4]) * -0.1);";
 
 //		dot(vec3(1.0/6.0, 2.0/3.0, 1.0/6.0), vec3(sample(srcCoordinatesVarying[0]), sample(srcCoordinatesVarying[0]), sample(srcCoordinatesVarying[0])));//sin(lateralVarying));\n";
 
-	return nullptr;
+	return get_compound_shader(
+		"#version 150\n"
 
-//	switch(_signalType)
+		"in float lateralVarying;"
-//	{
+		"in vec2 shadowMaskCoordinates;"
-//		case CSCathodeRayViewSignalTypeNTSC: return [NSString stringWithFormat:fragmentShader, ntscFragmentShaderGlobals, ntscFragmentShaderBody];
+		"out vec4 fragColour;"
-//		case CSCathodeRayViewSignalTypeRGB:	 return [NSString stringWithFormat:fragmentShader, rgbFragmentShaderGlobals, rgbFragmentShaderBody];
+
-//	}
+		"uniform sampler2D texID;"
+		"uniform sampler2D shadowMaskTexID;"
+		"uniform float alpha;"
+
+		"in vec2 srcCoordinatesVarying;"
+		"in float phase;\n"
+		"%s\n"
+
+		"void main(void)"
+		"{"
+			"fragColour = vec4(rgb_sample(srcCoordinatesVarying).rgb, 1.0);"
+		"}"
+	, _rgb_shader);
+}
+
+char *CRT::get_compound_shader(const char *base, const char *insert)
+{
+	size_t totalLength = strlen(base) + strlen(insert) + 1;
+	char *text = new char[totalLength];
+	snprintf(text, totalLength, base, insert);
+	return text;
+}
+
+void CRT::prepare_shader()
+{
+	char *vertex_shader = get_vertex_shader();
+	char *fragment_shader = get_fragment_shader();
+
+	_openGL_state->shaderProgram = glCreateProgram();
+	_openGL_state->vertexShader = _openGL_state->compile_shader(vertex_shader, GL_VERTEX_SHADER);
+	_openGL_state->fragmentShader = _openGL_state->compile_shader(fragment_shader, GL_FRAGMENT_SHADER);
+
+	delete vertex_shader;
+	delete fragment_shader;
+
+	glAttachShader(_openGL_state->shaderProgram, _openGL_state->vertexShader);
+	glAttachShader(_openGL_state->shaderProgram, _openGL_state->fragmentShader);
+	glLinkProgram(_openGL_state->shaderProgram);
+
+	glUseProgram(_openGL_state->shaderProgram);
+
+	_openGL_state->positionAttribute			= glGetAttribLocation(_openGL_state->shaderProgram, "position");
+	_openGL_state->textureCoordinatesAttribute	= glGetAttribLocation(_openGL_state->shaderProgram, "srcCoordinates");
+	_openGL_state->lateralAttribute				= glGetAttribLocation(_openGL_state->shaderProgram, "lateral");
+	_openGL_state->alphaUniform					= glGetUniformLocation(_openGL_state->shaderProgram, "alpha");
+	_openGL_state->textureSizeUniform			= glGetUniformLocation(_openGL_state->shaderProgram, "textureSize");
+	_openGL_state->windowSizeUniform			= glGetUniformLocation(_openGL_state->shaderProgram, "windowSize");
+	_openGL_state->boundsSizeUniform			= glGetUniformLocation(_openGL_state->shaderProgram, "boundsSize");
+	_openGL_state->boundsOriginUniform			= glGetUniformLocation(_openGL_state->shaderProgram, "boundsOrigin");
+
+	GLint texIDUniform				= glGetUniformLocation(_openGL_state->shaderProgram, "texID");
+	GLint shadowMaskTexIDUniform	= glGetUniformLocation(_openGL_state->shaderProgram, "shadowMaskTexID");
+
+//	[self pushSizeUniforms];
+
+	glUniform1i(texIDUniform, 0);
+	glUniform1i(shadowMaskTexIDUniform, 1);
+
+	glEnableVertexAttribArray((GLuint)_openGL_state->positionAttribute);
+	glEnableVertexAttribArray((GLuint)_openGL_state->textureCoordinatesAttribute);
+	glEnableVertexAttribArray((GLuint)_openGL_state->lateralAttribute);
+
+	const GLsizei vertexStride = kCRTSizeOfVertex;
+	glVertexAttribPointer((GLuint)_openGL_state->positionAttribute,			2, GL_UNSIGNED_SHORT,	GL_TRUE,	vertexStride, (void *)kCRTVertexOffsetOfPosition);
+	glVertexAttribPointer((GLuint)_openGL_state->textureCoordinatesAttribute, 2, GL_UNSIGNED_SHORT,	GL_FALSE,	vertexStride, (void *)kCRTVertexOffsetOfTexCoord);
+	glVertexAttribPointer((GLuint)_openGL_state->lateralAttribute,			1, GL_UNSIGNED_BYTE,	GL_FALSE,	vertexStride, (void *)kCRTVertexOffsetOfLateral);
 }