framework/opengl/gluDrawUtil.cpp - third_party/vulkan-cts - Git at Google

 /*-------------------------------------------------------------------------
  * drawElements Quality Program OpenGL Utilities
  * ---------------------------------------------
  *
  * Copyright 2014 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  *
  *//*!
  * \file
  * \brief Draw call utilities.
  *//*--------------------------------------------------------------------*/

 #include "gluDrawUtil.hpp"
 #include "gluRenderContext.hpp"
 #include "gluObjectWrapper.hpp"
 #include "glwFunctions.hpp"
 #include "glwEnums.hpp"
 #include "deInt32.h"
 #include "deMemory.h"

 #include <vector>
 #include <set>
 #include <iterator>

 namespace glu
 {
 namespace
 {

 struct VertexAttributeDescriptor
 {
 	int							location;
 	VertexComponentType			componentType;
 	VertexComponentConversion	convert;
 	int							numComponents;
 	int							numElements;
 	int							stride;				//!< Stride or 0 if using default stride.
 	const void*					pointer;			//!< Pointer or offset.

 	VertexAttributeDescriptor (int							location_,
 							   VertexComponentType			componentType_,
 							   VertexComponentConversion	convert_,
 							   int							numComponents_,
 							   int							numElements_,
 							   int							stride_,
 							   const void*					pointer_)
 		: location		(location_)
 		, componentType	(componentType_)
 		, convert		(convert_)
 		, numComponents	(numComponents_)
 		, numElements	(numElements_)
 		, stride		(stride_)
 		, pointer		(pointer_)
 	{
 	}

 	VertexAttributeDescriptor (void)
 		: location		(0)
 		, componentType	(VTX_COMP_TYPE_LAST)
 		, convert		(VTX_COMP_CONVERT_LAST)
 		, numComponents	(0)
 		, numElements	(0)
 		, stride		(0)
 		, pointer		(0)
 	{
 	}
 };

 struct VertexBufferLayout
 {
 	int										size;
 	std::vector<VertexAttributeDescriptor>	attributes;

 	VertexBufferLayout (int size_ = 0)
 		: size(size_)
 	{
 	}
 };

 struct VertexBufferDescriptor
 {
 	deUint32								buffer;
 	std::vector<VertexAttributeDescriptor>	attributes;

 	VertexBufferDescriptor (deUint32 buffer_ = 0)
 		: buffer(buffer_)
 	{
 	}
 };

 class VertexBuffer : public Buffer
 {
 public:
 	enum Type
 	{
 		TYPE_PLANAR = 0,	//!< Data for each vertex array resides in a separate contiguous block in buffer.
 		TYPE_STRIDED,		//!< Vertex arrays are interleaved.

 		TYPE_LAST
 	};

 									VertexBuffer		(const RenderContext& context, int numBindings, const VertexArrayBinding* bindings, Type type = TYPE_PLANAR);
 									~VertexBuffer		(void);

 	const VertexBufferDescriptor&	getDescriptor		(void) const { return m_layout; }

 private:
 									VertexBuffer		(const VertexBuffer& other);
 	VertexBuffer&					operator=			(const VertexBuffer& other);

 	VertexBufferDescriptor			m_layout;
 };

 class IndexBuffer : public Buffer
 {
 public:
 									IndexBuffer			(const RenderContext& context, IndexType indexType, int numIndices, const void* indices);
 									~IndexBuffer		(void);

 private:
 									IndexBuffer			(const IndexBuffer& other);
 	IndexBuffer&					operator=			(const IndexBuffer& other);
 };

 static deUint32 getVtxCompGLType (VertexComponentType type)
 {
 	switch (type)
 	{
 		case VTX_COMP_UNSIGNED_INT8:	return GL_UNSIGNED_BYTE;
 		case VTX_COMP_UNSIGNED_INT16:	return GL_UNSIGNED_SHORT;
 		case VTX_COMP_UNSIGNED_INT32:	return GL_UNSIGNED_INT;
 		case VTX_COMP_SIGNED_INT8:		return GL_BYTE;
 		case VTX_COMP_SIGNED_INT16:		return GL_SHORT;
 		case VTX_COMP_SIGNED_INT32:		return GL_INT;
 		case VTX_COMP_FIXED:			return GL_FIXED;
 		case VTX_COMP_HALF_FLOAT:		return GL_HALF_FLOAT;
 		case VTX_COMP_FLOAT:			return GL_FLOAT;
 		default:
 			DE_ASSERT(false);
 			return GL_NONE;
 	}
 }

 static int getVtxCompSize (VertexComponentType type)
 {
 	switch (type)
 	{
 		case VTX_COMP_UNSIGNED_INT8:	return 1;
 		case VTX_COMP_UNSIGNED_INT16:	return 2;
 		case VTX_COMP_UNSIGNED_INT32:	return 4;
 		case VTX_COMP_SIGNED_INT8:		return 1;
 		case VTX_COMP_SIGNED_INT16:		return 2;
 		case VTX_COMP_SIGNED_INT32:		return 4;
 		case VTX_COMP_FIXED:			return 4;
 		case VTX_COMP_HALF_FLOAT:		return 2;
 		case VTX_COMP_FLOAT:			return 4;
 		default:
 			DE_ASSERT(false);
 			return 0;
 	}
 }

 static deUint32 getIndexGLType (IndexType type)
 {
 	switch (type)
 	{
 		case INDEXTYPE_UINT8:	return GL_UNSIGNED_BYTE;
 		case INDEXTYPE_UINT16:	return GL_UNSIGNED_SHORT;
 		case INDEXTYPE_UINT32:	return GL_UNSIGNED_INT;
 		default:
 			DE_ASSERT(false);
 			return 0;
 	}
 }

 static int getIndexSize (IndexType type)
 {
 	switch (type)
 	{
 		case INDEXTYPE_UINT8:	return 1;
 		case INDEXTYPE_UINT16:	return 2;
 		case INDEXTYPE_UINT32:	return 4;
 		default:
 			DE_ASSERT(false);
 			return 0;
 	}
 }

 static deUint32 getPrimitiveGLType (PrimitiveType type)
 {
 	switch (type)
 	{
 		case PRIMITIVETYPE_TRIANGLES:		return GL_TRIANGLES;
 		case PRIMITIVETYPE_TRIANGLE_STRIP:	return GL_TRIANGLE_STRIP;
 		case PRIMITIVETYPE_TRIANGLE_FAN:	return GL_TRIANGLE_FAN;
 		case PRIMITIVETYPE_LINES:			return GL_LINES;
 		case PRIMITIVETYPE_LINE_STRIP:		return GL_LINE_STRIP;
 		case PRIMITIVETYPE_LINE_LOOP:		return GL_LINE_LOOP;
 		case PRIMITIVETYPE_POINTS:			return GL_POINTS;
 		case PRIMITIVETYPE_PATCHES:			return GL_PATCHES;
 		default:
 			DE_ASSERT(false);
 			return 0;
 	}
 }

 //! Lower named bindings to locations and eliminate bindings that are not used by program.
 template<typename InputIter, typename OutputIter>
 static OutputIter namedBindingsToProgramLocations (const glw::Functions& gl, deUint32 program, InputIter first, InputIter end, OutputIter out)
 {
 	for (InputIter cur = first; cur != end; ++cur)
 	{
 		const BindingPoint& binding = cur->binding;
 		if (binding.type == BindingPoint::BPTYPE_NAME)
 		{
 			DE_ASSERT(binding.location >= 0);
 			int location = gl.getAttribLocation(program, binding.name.c_str());
 			if (location >= 0)
 			{
 				// Add binding.location as an offset to accommodate matrices.
 				*out = VertexArrayBinding(BindingPoint(location + binding.location), cur->pointer);
 				++out;
 			}
 		}
 		else
 		{
 			*out = *cur;
 			++out;
 		}
 	}

 	return out;
 }

 static deUint32 getMinimumAlignment (const VertexArrayPointer& pointer)
 {
 	// \todo [2013-05-07 pyry] What is the actual min?
 	DE_UNREF(pointer);
 	return (deUint32)sizeof(float);
 }

 template<typename BindingIter>
 static bool areVertexArrayLocationsValid (BindingIter first, BindingIter end)
 {
 	std::set<int> usedLocations;
 	for (BindingIter cur = first; cur != end; ++cur)
 	{
 		const BindingPoint& binding = cur->binding;

 		if (binding.type != BindingPoint::BPTYPE_LOCATION)
 			return false;

 		if (usedLocations.find(binding.location) != usedLocations.end())
 			return false;

 		usedLocations.insert(binding.location);
 	}

 	return true;
 }

 // \todo [2013-05-08 pyry] Buffer upload should try to match pointers to reduce dataset size.

 static void appendAttributeNonStrided (VertexBufferLayout& layout, const VertexArrayBinding& va)
 {
 	const int	offset		= deAlign32(layout.size, getMinimumAlignment(va.pointer));
 	const int	elementSize	= getVtxCompSize(va.pointer.componentType)*va.pointer.numComponents;
 	const int	size		= elementSize*va.pointer.numElements;

 	// Must be assigned to location at this point.
 	DE_ASSERT(va.binding.type == BindingPoint::BPTYPE_LOCATION);

 	layout.attributes.push_back(VertexAttributeDescriptor(va.binding.location,
 														  va.pointer.componentType,
 														  va.pointer.convert,
 														  va.pointer.numComponents,
 														  va.pointer.numElements,
 														  0, // default stride
 														  (const void*)(deUintptr)offset));
 	layout.size = offset+size;
 }

 template<typename BindingIter>
 static void computeNonStridedBufferLayout (VertexBufferLayout& layout, BindingIter first, BindingIter end)
 {
 	for (BindingIter iter = first; iter != end; ++iter)
 		appendAttributeNonStrided(layout, *iter);
 }

 static void copyToLayout (void* dstBasePtr, const VertexAttributeDescriptor& dstVA, const VertexArrayPointer& srcPtr)
 {
 	DE_ASSERT(dstVA.componentType	== srcPtr.componentType &&
 			  dstVA.numComponents	== srcPtr.numComponents &&
 			  dstVA.numElements		== srcPtr.numElements);

 	const int	elementSize			= getVtxCompSize(dstVA.componentType)*dstVA.numComponents;
 	const bool	srcHasCustomStride	= srcPtr.stride != 0 && srcPtr.stride != elementSize;
 	const bool	dstHasCustomStride	= dstVA.stride != 0 && dstVA.stride != elementSize;

 	if (srcHasCustomStride || dstHasCustomStride)
 	{
 		const int	dstStride	= dstVA.stride != 0 ? dstVA.stride : elementSize;
 		const int	srcStride	= srcPtr.stride != 0 ? srcPtr.stride : elementSize;

 		for (int ndx = 0; ndx < dstVA.numElements; ndx++)
 			deMemcpy((deUint8*)dstBasePtr + (deUintptr)dstVA.pointer + ndx*dstStride, (const deUint8*)srcPtr.data + ndx*srcStride, elementSize);
 	}
 	else
 		deMemcpy((deUint8*)dstBasePtr + (deUintptr)dstVA.pointer, srcPtr.data, elementSize*dstVA.numElements);
 }

 void uploadBufferData (const glw::Functions& gl, deUint32 buffer, deUint32 usage, const VertexBufferLayout& layout, const VertexArrayPointer* srcArrays)
 {
 	// Create temporary data buffer for upload.
 	std::vector<deUint8> localBuf(layout.size);

 	for (int attrNdx = 0; attrNdx < (int)layout.attributes.size(); ++attrNdx)
 		copyToLayout(&localBuf[0], layout.attributes[attrNdx], srcArrays[attrNdx]);

 	gl.bindBuffer(GL_ARRAY_BUFFER, buffer);
 	gl.bufferData(GL_ARRAY_BUFFER, (int)localBuf.size(), &localBuf[0], usage);
 	gl.bindBuffer(GL_ARRAY_BUFFER, 0);
 	GLU_EXPECT_NO_ERROR(gl.getError(), "Uploading buffer data failed");
 }

 // VertexBuffer

 VertexBuffer::VertexBuffer (const RenderContext& context, int numBindings, const VertexArrayBinding* bindings, Type type)
 	: Buffer(context)
 {
 	const glw::Functions&	gl		= context.getFunctions();
 	const deUint32			usage	= GL_STATIC_DRAW;
 	VertexBufferLayout		layout;

 	if (!areVertexArrayLocationsValid(bindings, bindings+numBindings))
 		throw tcu::TestError("Invalid vertex array locations");

 	if (type == TYPE_PLANAR)
 		computeNonStridedBufferLayout(layout, bindings, bindings+numBindings);
 	else
 		throw tcu::InternalError("Strided layout is not yet supported");

 	std::vector<VertexArrayPointer> srcPtrs(numBindings);
 	for (int ndx = 0; ndx < numBindings; ndx++)
 		srcPtrs[ndx] = bindings[ndx].pointer;

 	DE_ASSERT(srcPtrs.size() == layout.attributes.size());
 	if (!srcPtrs.empty())
 		uploadBufferData(gl, m_object, usage, layout, &srcPtrs[0]);

 	// Construct descriptor.
 	m_layout.buffer		= m_object;
 	m_layout.attributes	= layout.attributes;
 }

 VertexBuffer::~VertexBuffer (void)
 {
 }

 // IndexBuffer

 IndexBuffer::IndexBuffer (const RenderContext& context, IndexType indexType, int numIndices, const void* indices)
 	: Buffer(context)
 {
 	const glw::Functions&	gl		= context.getFunctions();
 	const deUint32			usage	= GL_STATIC_DRAW;

 	gl.bindBuffer(GL_ELEMENT_ARRAY_BUFFER, m_object);
 	gl.bufferData(GL_ELEMENT_ARRAY_BUFFER, numIndices*getIndexSize(indexType), indices, usage);
 	gl.bindBuffer(GL_ELEMENT_ARRAY_BUFFER, 0);
 	GLU_EXPECT_NO_ERROR(gl.getError(), "Uploading index data failed");
 }

 IndexBuffer::~IndexBuffer (void)
 {
 }

 static inline VertexAttributeDescriptor getUserPointerDescriptor (const VertexArrayBinding& vertexArray)
 {
 	DE_ASSERT(vertexArray.binding.type == BindingPoint::BPTYPE_LOCATION);

 	return VertexAttributeDescriptor(vertexArray.binding.location,
 									 vertexArray.pointer.componentType,
 									 vertexArray.pointer.convert,
 									 vertexArray.pointer.numComponents,
 									 vertexArray.pointer.numElements,
 									 vertexArray.pointer.stride,
 									 vertexArray.pointer.data);
 }

 //! Setup VA according to allocation spec. Assumes that other state (VAO binding, buffer) is set already.
 static void setVertexAttribPointer (const glw::Functions& gl, const VertexAttributeDescriptor& va)
 {
 	const bool		isIntType		= de::inRange<int>(va.componentType, VTX_COMP_UNSIGNED_INT8, VTX_COMP_SIGNED_INT32);
 	const bool		isSpecialType	= de::inRange<int>(va.componentType, VTX_COMP_FIXED, VTX_COMP_FLOAT);
 	const deUint32	compTypeGL		= getVtxCompGLType(va.componentType);

 	DE_ASSERT(isIntType != isSpecialType); // Must be either int or special type.
 	DE_ASSERT(isIntType || va.convert == VTX_COMP_CONVERT_NONE); // Conversion allowed only for special types.
 	DE_UNREF(isSpecialType);

 	gl.enableVertexAttribArray(va.location);

 	if (isIntType && va.convert == VTX_COMP_CONVERT_NONE)
 		gl.vertexAttribIPointer(va.location, va.numComponents, compTypeGL, va.stride, va.pointer);
 	else
 		gl.vertexAttribPointer(va.location, va.numComponents, compTypeGL, va.convert == VTX_COMP_CONVERT_NORMALIZE_TO_FLOAT ? GL_TRUE : GL_FALSE, va.stride, va.pointer);
 }

 //! Setup vertex buffer and attributes.
 static void setVertexBufferAttributes (const glw::Functions& gl, const VertexBufferDescriptor& buffer)
 {
 	gl.bindBuffer(GL_ARRAY_BUFFER, buffer.buffer);

 	for (std::vector<VertexAttributeDescriptor>::const_iterator vaIter = buffer.attributes.begin(); vaIter != buffer.attributes.end(); ++vaIter)
 		setVertexAttribPointer(gl, *vaIter);

 	gl.bindBuffer(GL_ARRAY_BUFFER, 0);
 }

 static void disableVertexArrays (const glw::Functions& gl, const std::vector<VertexArrayBinding>& bindings)
 {
 	for (std::vector<VertexArrayBinding>::const_iterator vaIter = bindings.begin(); vaIter != bindings.end(); ++vaIter)
 	{
 		DE_ASSERT(vaIter->binding.type == BindingPoint::BPTYPE_LOCATION);
 		gl.disableVertexAttribArray(vaIter->binding.location);
 	}
 }

 #if defined(DE_DEBUG)
 static bool isProgramActive (const RenderContext& context, deUint32 program)
 {
 	// \todo [2013-05-08 pyry] Is this query broken?
 /*	deUint32 activeProgram = 0;
 	context.getFunctions().getIntegerv(GL_ACTIVE_PROGRAM, (int*)&activeProgram);
 	GLU_EXPECT_NO_ERROR(context.getFunctions().getError(), "oh");
 	return activeProgram == program;*/
 	DE_UNREF(context);
 	DE_UNREF(program);
 	return true;
 }

 static bool isDrawCallValid (int numVertexArrays, const VertexArrayBinding* vertexArrays, const PrimitiveList& primitives)
 {
 	if (numVertexArrays < 0)
 		return false;

 	if ((primitives.indexType == INDEXTYPE_LAST) != (primitives.indices == 0))
 		return false;

 	if (primitives.numElements < 0)
 		return false;

 	if (!primitives.indices)
 	{
 		for (int ndx = 0; ndx < numVertexArrays; ndx++)
 		{
 			if (primitives.numElements > vertexArrays[ndx].pointer.numElements)
 				return false;
 		}
 	}
 	// \todo [2013-05-08 pyry] We could walk whole index array and determine index range

 	return true;
 }
 #endif // DE_DEBUG

 static inline void drawNonIndexed (const glw::Functions& gl, PrimitiveType type, int numElements)
 {
 	deUint32 mode = getPrimitiveGLType(type);
 	gl.drawArrays(mode, 0, numElements);
 }

 static inline void drawIndexed (const glw::Functions& gl, PrimitiveType type, int numElements, IndexType indexType, const void* indexPtr)
 {
 	deUint32	mode		= getPrimitiveGLType(type);
 	deUint32	indexGLType	= getIndexGLType(indexType);

 	gl.drawElements(mode, numElements, indexGLType, indexPtr);
 }

 } // anonymous

 void drawFromUserPointers (const RenderContext& context, deUint32 program, int numVertexArrays, const VertexArrayBinding* vertexArrays, const PrimitiveList& primitives, DrawUtilCallback* callback)
 {
 	const glw::Functions&				gl		= context.getFunctions();
 	std::vector<VertexArrayBinding>		bindingsWithLocations;

 	DE_ASSERT(isDrawCallValid(numVertexArrays, vertexArrays, primitives));
 	DE_ASSERT(isProgramActive(context, program));

 	// Lower bindings to locations.
 	namedBindingsToProgramLocations(gl, program, vertexArrays, vertexArrays+numVertexArrays, std::inserter(bindingsWithLocations, bindingsWithLocations.begin()));

 	TCU_CHECK(areVertexArrayLocationsValid(bindingsWithLocations.begin(), bindingsWithLocations.end()));

 	// Set VA state.
 	for (std::vector<VertexArrayBinding>::const_iterator vaIter = bindingsWithLocations.begin(); vaIter != bindingsWithLocations.end(); ++vaIter)
 		setVertexAttribPointer(gl, getUserPointerDescriptor(*vaIter));

 	if (callback)
 		callback->beforeDrawCall();

 	if (primitives.indices)
 		drawIndexed(gl, primitives.type, primitives.numElements, primitives.indexType, primitives.indices);
 	else
 		drawNonIndexed(gl, primitives.type, primitives.numElements);

 	if (callback)
 		callback->afterDrawCall();

 	// Disable attribute arrays or otherwise someone later on might get crash thanks to invalid pointers.
 	disableVertexArrays(gl, bindingsWithLocations);
 }

 void drawFromBuffers (const RenderContext& context, deUint32 program, int numVertexArrays, const VertexArrayBinding* vertexArrays, const PrimitiveList& primitives, DrawUtilCallback* callback)
 {
 	const glw::Functions&				gl		= context.getFunctions();
 	std::vector<VertexArrayBinding>		bindingsWithLocations;

 	DE_ASSERT(isDrawCallValid(numVertexArrays, vertexArrays, primitives));
 	DE_ASSERT(isProgramActive(context, program));

 	// Lower bindings to locations.
 	namedBindingsToProgramLocations(gl, program, vertexArrays, vertexArrays+numVertexArrays, std::inserter(bindingsWithLocations, bindingsWithLocations.begin()));

 	TCU_CHECK(areVertexArrayLocationsValid(bindingsWithLocations.begin(), bindingsWithLocations.end()));

 	// Create buffers for duration of draw call.
 	{
 		VertexBuffer vertexBuffer (context, (int)bindingsWithLocations.size(), (bindingsWithLocations.empty()) ? (DE_NULL) : (&bindingsWithLocations[0]));

 		// Set state.
 		setVertexBufferAttributes(gl, vertexBuffer.getDescriptor());

 		if (primitives.indices)
 		{
 			IndexBuffer indexBuffer(context, primitives.indexType, primitives.numElements, primitives.indices);

 			gl.bindBuffer(GL_ELEMENT_ARRAY_BUFFER, *indexBuffer);

 			if (callback)
 				callback->beforeDrawCall();

 			drawIndexed(gl, primitives.type, primitives.numElements, primitives.indexType, 0);

 			if (callback)
 				callback->afterDrawCall();

 			gl.bindBuffer(GL_ELEMENT_ARRAY_BUFFER, 0);
 		}
 		else
 		{
 			if (callback)
 				callback->beforeDrawCall();

 			drawNonIndexed(gl, primitives.type, primitives.numElements);

 			if (callback)
 				callback->afterDrawCall();
 		}
 	}

 	// Disable attribute arrays or otherwise someone later on might get crash thanks to invalid pointers.
 	for (std::vector<VertexArrayBinding>::const_iterator vaIter = bindingsWithLocations.begin(); vaIter != bindingsWithLocations.end(); ++vaIter)
 		gl.disableVertexAttribArray(vaIter->binding.location);
 }

 void drawFromVAOBuffers (const RenderContext& context, deUint32 program, int numVertexArrays, const VertexArrayBinding* vertexArrays, const PrimitiveList& primitives, DrawUtilCallback* callback)
 {
 	const glw::Functions&	gl		= context.getFunctions();
 	VertexArray				vao		(context);

 	gl.bindVertexArray(*vao);
 	drawFromBuffers(context, program, numVertexArrays, vertexArrays, primitives, callback);
 	gl.bindVertexArray(0);
 }

 void draw (const RenderContext& context, deUint32 program, int numVertexArrays, const VertexArrayBinding* vertexArrays, const PrimitiveList& primitives, DrawUtilCallback* callback)
 {
 	const glu::ContextType ctxType = context.getType();

 	if (isContextTypeGLCore(ctxType) || contextSupports(ctxType, ApiType::es(3,1)))
 		drawFromVAOBuffers(context, program, numVertexArrays, vertexArrays, primitives, callback);
 	else
 	{
 		DE_ASSERT(isContextTypeES(ctxType));
 		drawFromUserPointers(context, program, numVertexArrays, vertexArrays, primitives, callback);
 	}
 }

 } // glu
	/*-------------------------------------------------------------------------
	* drawElements Quality Program OpenGL Utilities
	* ---------------------------------------------
	*
	* Copyright 2014 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*
	//!
	* \file
	* \brief Draw call utilities.
	//--------------------------------------------------------------------*/

	#include "gluDrawUtil.hpp"
	#include "gluRenderContext.hpp"
	#include "gluObjectWrapper.hpp"
	#include "glwFunctions.hpp"
	#include "glwEnums.hpp"
	#include "deInt32.h"
	#include "deMemory.h"

	#include <vector>
	#include <set>
	#include <iterator>

	namespace glu
	{
	namespace
	{

	struct VertexAttributeDescriptor
	{
	int location;
	VertexComponentType componentType;
	VertexComponentConversion convert;
	int numComponents;
	int numElements;
	int stride; //!< Stride or 0 if using default stride.
	const void* pointer; //!< Pointer or offset.

	VertexAttributeDescriptor (int location_,
	VertexComponentType componentType_,
	VertexComponentConversion convert_,
	int numComponents_,
	int numElements_,
	int stride_,
	const void* pointer_)
	: location (location_)
	, componentType (componentType_)
	, convert (convert_)
	, numComponents (numComponents_)
	, numElements (numElements_)
	, stride (stride_)
	, pointer (pointer_)
	{
	}

	VertexAttributeDescriptor (void)
	: location (0)
	, componentType (VTX_COMP_TYPE_LAST)
	, convert (VTX_COMP_CONVERT_LAST)
	, numComponents (0)
	, numElements (0)
	, stride (0)
	, pointer (0)
	{
	}
	};

	struct VertexBufferLayout
	{
	int size;
	std::vector<VertexAttributeDescriptor> attributes;

	VertexBufferLayout (int size_ = 0)
	: size(size_)
	{
	}
	};

	struct VertexBufferDescriptor
	{
	deUint32 buffer;
	std::vector<VertexAttributeDescriptor> attributes;

	VertexBufferDescriptor (deUint32 buffer_ = 0)
	: buffer(buffer_)
	{
	}
	};

	class VertexBuffer : public Buffer
	{
	public:
	enum Type
	{
	TYPE_PLANAR = 0, //!< Data for each vertex array resides in a separate contiguous block in buffer.
	TYPE_STRIDED, //!< Vertex arrays are interleaved.

	TYPE_LAST
	};

	VertexBuffer (const RenderContext& context, int numBindings, const VertexArrayBinding* bindings, Type type = TYPE_PLANAR);
	~VertexBuffer (void);

	const VertexBufferDescriptor& getDescriptor (void) const { return m_layout; }

	private:
	VertexBuffer (const VertexBuffer& other);
	VertexBuffer& operator= (const VertexBuffer& other);

	VertexBufferDescriptor m_layout;
	};

	class IndexBuffer : public Buffer
	{
	public:
	IndexBuffer (const RenderContext& context, IndexType indexType, int numIndices, const void* indices);
	~IndexBuffer (void);

	private:
	IndexBuffer (const IndexBuffer& other);
	IndexBuffer& operator= (const IndexBuffer& other);
	};

	static deUint32 getVtxCompGLType (VertexComponentType type)
	{
	switch (type)
	{
	case VTX_COMP_UNSIGNED_INT8: return GL_UNSIGNED_BYTE;
	case VTX_COMP_UNSIGNED_INT16: return GL_UNSIGNED_SHORT;
	case VTX_COMP_UNSIGNED_INT32: return GL_UNSIGNED_INT;
	case VTX_COMP_SIGNED_INT8: return GL_BYTE;
	case VTX_COMP_SIGNED_INT16: return GL_SHORT;
	case VTX_COMP_SIGNED_INT32: return GL_INT;
	case VTX_COMP_FIXED: return GL_FIXED;
	case VTX_COMP_HALF_FLOAT: return GL_HALF_FLOAT;
	case VTX_COMP_FLOAT: return GL_FLOAT;
	default:
	DE_ASSERT(false);
	return GL_NONE;
	}
	}

	static int getVtxCompSize (VertexComponentType type)
	{
	switch (type)
	{
	case VTX_COMP_UNSIGNED_INT8: return 1;
	case VTX_COMP_UNSIGNED_INT16: return 2;
	case VTX_COMP_UNSIGNED_INT32: return 4;
	case VTX_COMP_SIGNED_INT8: return 1;
	case VTX_COMP_SIGNED_INT16: return 2;
	case VTX_COMP_SIGNED_INT32: return 4;
	case VTX_COMP_FIXED: return 4;
	case VTX_COMP_HALF_FLOAT: return 2;
	case VTX_COMP_FLOAT: return 4;
	default:
	DE_ASSERT(false);
	return 0;
	}
	}

	static deUint32 getIndexGLType (IndexType type)
	{
	switch (type)
	{
	case INDEXTYPE_UINT8: return GL_UNSIGNED_BYTE;
	case INDEXTYPE_UINT16: return GL_UNSIGNED_SHORT;
	case INDEXTYPE_UINT32: return GL_UNSIGNED_INT;
	default:
	DE_ASSERT(false);
	return 0;
	}
	}

	static int getIndexSize (IndexType type)
	{
	switch (type)
	{
	case INDEXTYPE_UINT8: return 1;
	case INDEXTYPE_UINT16: return 2;
	case INDEXTYPE_UINT32: return 4;
	default:
	DE_ASSERT(false);
	return 0;
	}
	}

	static deUint32 getPrimitiveGLType (PrimitiveType type)
	{
	switch (type)
	{
	case PRIMITIVETYPE_TRIANGLES: return GL_TRIANGLES;
	case PRIMITIVETYPE_TRIANGLE_STRIP: return GL_TRIANGLE_STRIP;
	case PRIMITIVETYPE_TRIANGLE_FAN: return GL_TRIANGLE_FAN;
	case PRIMITIVETYPE_LINES: return GL_LINES;
	case PRIMITIVETYPE_LINE_STRIP: return GL_LINE_STRIP;
	case PRIMITIVETYPE_LINE_LOOP: return GL_LINE_LOOP;
	case PRIMITIVETYPE_POINTS: return GL_POINTS;
	case PRIMITIVETYPE_PATCHES: return GL_PATCHES;
	default:
	DE_ASSERT(false);
	return 0;
	}
	}

	//! Lower named bindings to locations and eliminate bindings that are not used by program.
	template<typename InputIter, typename OutputIter>
	static OutputIter namedBindingsToProgramLocations (const glw::Functions& gl, deUint32 program, InputIter first, InputIter end, OutputIter out)
	{
	for (InputIter cur = first; cur != end; ++cur)
	{
	const BindingPoint& binding = cur->binding;
	if (binding.type == BindingPoint::BPTYPE_NAME)
	{
	DE_ASSERT(binding.location >= 0);
	int location = gl.getAttribLocation(program, binding.name.c_str());
	if (location >= 0)
	{
	// Add binding.location as an offset to accommodate matrices.
	*out = VertexArrayBinding(BindingPoint(location + binding.location), cur->pointer);
	++out;
	}
	}
	else
	{
	out = cur;
	++out;
	}
	}

	return out;
	}

	static deUint32 getMinimumAlignment (const VertexArrayPointer& pointer)
	{
	// \todo [2013-05-07 pyry] What is the actual min?
	DE_UNREF(pointer);
	return (deUint32)sizeof(float);
	}

	template<typename BindingIter>
	static bool areVertexArrayLocationsValid (BindingIter first, BindingIter end)
	{
	std::set<int> usedLocations;
	for (BindingIter cur = first; cur != end; ++cur)
	{
	const BindingPoint& binding = cur->binding;

	if (binding.type != BindingPoint::BPTYPE_LOCATION)
	return false;

	if (usedLocations.find(binding.location) != usedLocations.end())
	return false;

	usedLocations.insert(binding.location);
	}

	return true;
	}

	// \todo [2013-05-08 pyry] Buffer upload should try to match pointers to reduce dataset size.

	static void appendAttributeNonStrided (VertexBufferLayout& layout, const VertexArrayBinding& va)
	{
	const int offset = deAlign32(layout.size, getMinimumAlignment(va.pointer));
	const int elementSize = getVtxCompSize(va.pointer.componentType)*va.pointer.numComponents;
	const int size = elementSize*va.pointer.numElements;

	// Must be assigned to location at this point.
	DE_ASSERT(va.binding.type == BindingPoint::BPTYPE_LOCATION);

	layout.attributes.push_back(VertexAttributeDescriptor(va.binding.location,
	va.pointer.componentType,
	va.pointer.convert,
	va.pointer.numComponents,
	va.pointer.numElements,
	0, // default stride
	(const void*)(deUintptr)offset));
	layout.size = offset+size;
	}

	template<typename BindingIter>
	static void computeNonStridedBufferLayout (VertexBufferLayout& layout, BindingIter first, BindingIter end)
	{
	for (BindingIter iter = first; iter != end; ++iter)
	appendAttributeNonStrided(layout, *iter);
	}

	static void copyToLayout (void* dstBasePtr, const VertexAttributeDescriptor& dstVA, const VertexArrayPointer& srcPtr)
	{
	DE_ASSERT(dstVA.componentType == srcPtr.componentType &&
	dstVA.numComponents == srcPtr.numComponents &&
	dstVA.numElements == srcPtr.numElements);

	const int elementSize = getVtxCompSize(dstVA.componentType)*dstVA.numComponents;
	const bool srcHasCustomStride = srcPtr.stride != 0 && srcPtr.stride != elementSize;
	const bool dstHasCustomStride = dstVA.stride != 0 && dstVA.stride != elementSize;

	if (srcHasCustomStride \|\| dstHasCustomStride)
	{
	const int dstStride = dstVA.stride != 0 ? dstVA.stride : elementSize;
	const int srcStride = srcPtr.stride != 0 ? srcPtr.stride : elementSize;

	for (int ndx = 0; ndx < dstVA.numElements; ndx++)
	deMemcpy((deUint8)dstBasePtr + (deUintptr)dstVA.pointer + ndxdstStride, (const deUint8)srcPtr.data + ndxsrcStride, elementSize);
	}
	else
	deMemcpy((deUint8)dstBasePtr + (deUintptr)dstVA.pointer, srcPtr.data, elementSizedstVA.numElements);
	}

	void uploadBufferData (const glw::Functions& gl, deUint32 buffer, deUint32 usage, const VertexBufferLayout& layout, const VertexArrayPointer* srcArrays)
	{
	// Create temporary data buffer for upload.
	std::vector<deUint8> localBuf(layout.size);

	for (int attrNdx = 0; attrNdx < (int)layout.attributes.size(); ++attrNdx)
	copyToLayout(&localBuf[0], layout.attributes[attrNdx], srcArrays[attrNdx]);

	gl.bindBuffer(GL_ARRAY_BUFFER, buffer);
	gl.bufferData(GL_ARRAY_BUFFER, (int)localBuf.size(), &localBuf[0], usage);
	gl.bindBuffer(GL_ARRAY_BUFFER, 0);
	GLU_EXPECT_NO_ERROR(gl.getError(), "Uploading buffer data failed");
	}

	// VertexBuffer

	VertexBuffer::VertexBuffer (const RenderContext& context, int numBindings, const VertexArrayBinding* bindings, Type type)
	: Buffer(context)
	{
	const glw::Functions& gl = context.getFunctions();
	const deUint32 usage = GL_STATIC_DRAW;
	VertexBufferLayout layout;

	if (!areVertexArrayLocationsValid(bindings, bindings+numBindings))
	throw tcu::TestError("Invalid vertex array locations");

	if (type == TYPE_PLANAR)
	computeNonStridedBufferLayout(layout, bindings, bindings+numBindings);
	else
	throw tcu::InternalError("Strided layout is not yet supported");

	std::vector<VertexArrayPointer> srcPtrs(numBindings);
	for (int ndx = 0; ndx < numBindings; ndx++)
	srcPtrs[ndx] = bindings[ndx].pointer;

	DE_ASSERT(srcPtrs.size() == layout.attributes.size());
	if (!srcPtrs.empty())
	uploadBufferData(gl, m_object, usage, layout, &srcPtrs[0]);

	// Construct descriptor.
	m_layout.buffer = m_object;
	m_layout.attributes = layout.attributes;
	}

	VertexBuffer::~VertexBuffer (void)
	{
	}

	// IndexBuffer

	IndexBuffer::IndexBuffer (const RenderContext& context, IndexType indexType, int numIndices, const void* indices)
	: Buffer(context)
	{
	const glw::Functions& gl = context.getFunctions();
	const deUint32 usage = GL_STATIC_DRAW;

	gl.bindBuffer(GL_ELEMENT_ARRAY_BUFFER, m_object);
	gl.bufferData(GL_ELEMENT_ARRAY_BUFFER, numIndices*getIndexSize(indexType), indices, usage);
	gl.bindBuffer(GL_ELEMENT_ARRAY_BUFFER, 0);
	GLU_EXPECT_NO_ERROR(gl.getError(), "Uploading index data failed");
	}

	IndexBuffer::~IndexBuffer (void)
	{
	}

	static inline VertexAttributeDescriptor getUserPointerDescriptor (const VertexArrayBinding& vertexArray)
	{
	DE_ASSERT(vertexArray.binding.type == BindingPoint::BPTYPE_LOCATION);

	return VertexAttributeDescriptor(vertexArray.binding.location,
	vertexArray.pointer.componentType,
	vertexArray.pointer.convert,
	vertexArray.pointer.numComponents,
	vertexArray.pointer.numElements,
	vertexArray.pointer.stride,
	vertexArray.pointer.data);
	}

	//! Setup VA according to allocation spec. Assumes that other state (VAO binding, buffer) is set already.
	static void setVertexAttribPointer (const glw::Functions& gl, const VertexAttributeDescriptor& va)
	{
	const bool isIntType = de::inRange<int>(va.componentType, VTX_COMP_UNSIGNED_INT8, VTX_COMP_SIGNED_INT32);
	const bool isSpecialType = de::inRange<int>(va.componentType, VTX_COMP_FIXED, VTX_COMP_FLOAT);
	const deUint32 compTypeGL = getVtxCompGLType(va.componentType);

	DE_ASSERT(isIntType != isSpecialType); // Must be either int or special type.
	DE_ASSERT(isIntType \|\| va.convert == VTX_COMP_CONVERT_NONE); // Conversion allowed only for special types.
	DE_UNREF(isSpecialType);

	gl.enableVertexAttribArray(va.location);

	if (isIntType && va.convert == VTX_COMP_CONVERT_NONE)
	gl.vertexAttribIPointer(va.location, va.numComponents, compTypeGL, va.stride, va.pointer);
	else
	gl.vertexAttribPointer(va.location, va.numComponents, compTypeGL, va.convert == VTX_COMP_CONVERT_NORMALIZE_TO_FLOAT ? GL_TRUE : GL_FALSE, va.stride, va.pointer);
	}

	//! Setup vertex buffer and attributes.
	static void setVertexBufferAttributes (const glw::Functions& gl, const VertexBufferDescriptor& buffer)
	{
	gl.bindBuffer(GL_ARRAY_BUFFER, buffer.buffer);

	for (std::vector<VertexAttributeDescriptor>::const_iterator vaIter = buffer.attributes.begin(); vaIter != buffer.attributes.end(); ++vaIter)
	setVertexAttribPointer(gl, *vaIter);

	gl.bindBuffer(GL_ARRAY_BUFFER, 0);
	}

	static void disableVertexArrays (const glw::Functions& gl, const std::vector<VertexArrayBinding>& bindings)
	{
	for (std::vector<VertexArrayBinding>::const_iterator vaIter = bindings.begin(); vaIter != bindings.end(); ++vaIter)
	{
	DE_ASSERT(vaIter->binding.type == BindingPoint::BPTYPE_LOCATION);
	gl.disableVertexAttribArray(vaIter->binding.location);
	}
	}

	#if defined(DE_DEBUG)
	static bool isProgramActive (const RenderContext& context, deUint32 program)
	{
	// \todo [2013-05-08 pyry] Is this query broken?
	/* deUint32 activeProgram = 0;
	context.getFunctions().getIntegerv(GL_ACTIVE_PROGRAM, (int*)&activeProgram);
	GLU_EXPECT_NO_ERROR(context.getFunctions().getError(), "oh");
	return activeProgram == program;*/
	DE_UNREF(context);
	DE_UNREF(program);
	return true;
	}

	static bool isDrawCallValid (int numVertexArrays, const VertexArrayBinding* vertexArrays, const PrimitiveList& primitives)
	{
	if (numVertexArrays < 0)
	return false;

	if ((primitives.indexType == INDEXTYPE_LAST) != (primitives.indices == 0))
	return false;

	if (primitives.numElements < 0)
	return false;

	if (!primitives.indices)
	{
	for (int ndx = 0; ndx < numVertexArrays; ndx++)
	{
	if (primitives.numElements > vertexArrays[ndx].pointer.numElements)
	return false;
	}
	}
	// \todo [2013-05-08 pyry] We could walk whole index array and determine index range

	return true;
	}
	#endif // DE_DEBUG

	static inline void drawNonIndexed (const glw::Functions& gl, PrimitiveType type, int numElements)
	{
	deUint32 mode = getPrimitiveGLType(type);
	gl.drawArrays(mode, 0, numElements);
	}

	static inline void drawIndexed (const glw::Functions& gl, PrimitiveType type, int numElements, IndexType indexType, const void* indexPtr)
	{
	deUint32 mode = getPrimitiveGLType(type);
	deUint32 indexGLType = getIndexGLType(indexType);

	gl.drawElements(mode, numElements, indexGLType, indexPtr);
	}

	} // anonymous

	void drawFromUserPointers (const RenderContext& context, deUint32 program, int numVertexArrays, const VertexArrayBinding* vertexArrays, const PrimitiveList& primitives, DrawUtilCallback* callback)
	{
	const glw::Functions& gl = context.getFunctions();
	std::vector<VertexArrayBinding> bindingsWithLocations;

	DE_ASSERT(isDrawCallValid(numVertexArrays, vertexArrays, primitives));
	DE_ASSERT(isProgramActive(context, program));

	// Lower bindings to locations.
	namedBindingsToProgramLocations(gl, program, vertexArrays, vertexArrays+numVertexArrays, std::inserter(bindingsWithLocations, bindingsWithLocations.begin()));

	TCU_CHECK(areVertexArrayLocationsValid(bindingsWithLocations.begin(), bindingsWithLocations.end()));

	// Set VA state.
	for (std::vector<VertexArrayBinding>::const_iterator vaIter = bindingsWithLocations.begin(); vaIter != bindingsWithLocations.end(); ++vaIter)
	setVertexAttribPointer(gl, getUserPointerDescriptor(*vaIter));

	if (callback)
	callback->beforeDrawCall();

	if (primitives.indices)
	drawIndexed(gl, primitives.type, primitives.numElements, primitives.indexType, primitives.indices);
	else
	drawNonIndexed(gl, primitives.type, primitives.numElements);

	if (callback)
	callback->afterDrawCall();

	// Disable attribute arrays or otherwise someone later on might get crash thanks to invalid pointers.
	disableVertexArrays(gl, bindingsWithLocations);
	}

	void drawFromBuffers (const RenderContext& context, deUint32 program, int numVertexArrays, const VertexArrayBinding* vertexArrays, const PrimitiveList& primitives, DrawUtilCallback* callback)
	{
	const glw::Functions& gl = context.getFunctions();
	std::vector<VertexArrayBinding> bindingsWithLocations;

	DE_ASSERT(isDrawCallValid(numVertexArrays, vertexArrays, primitives));
	DE_ASSERT(isProgramActive(context, program));

	// Lower bindings to locations.
	namedBindingsToProgramLocations(gl, program, vertexArrays, vertexArrays+numVertexArrays, std::inserter(bindingsWithLocations, bindingsWithLocations.begin()));

	TCU_CHECK(areVertexArrayLocationsValid(bindingsWithLocations.begin(), bindingsWithLocations.end()));

	// Create buffers for duration of draw call.
	{
	VertexBuffer vertexBuffer (context, (int)bindingsWithLocations.size(), (bindingsWithLocations.empty()) ? (DE_NULL) : (&bindingsWithLocations[0]));

	// Set state.
	setVertexBufferAttributes(gl, vertexBuffer.getDescriptor());

	if (primitives.indices)
	{
	IndexBuffer indexBuffer(context, primitives.indexType, primitives.numElements, primitives.indices);

	gl.bindBuffer(GL_ELEMENT_ARRAY_BUFFER, *indexBuffer);

	if (callback)
	callback->beforeDrawCall();

	drawIndexed(gl, primitives.type, primitives.numElements, primitives.indexType, 0);

	if (callback)
	callback->afterDrawCall();

	gl.bindBuffer(GL_ELEMENT_ARRAY_BUFFER, 0);
	}
	else
	{
	if (callback)
	callback->beforeDrawCall();

	drawNonIndexed(gl, primitives.type, primitives.numElements);

	if (callback)
	callback->afterDrawCall();
	}
	}

	// Disable attribute arrays or otherwise someone later on might get crash thanks to invalid pointers.
	for (std::vector<VertexArrayBinding>::const_iterator vaIter = bindingsWithLocations.begin(); vaIter != bindingsWithLocations.end(); ++vaIter)
	gl.disableVertexAttribArray(vaIter->binding.location);
	}

	void drawFromVAOBuffers (const RenderContext& context, deUint32 program, int numVertexArrays, const VertexArrayBinding* vertexArrays, const PrimitiveList& primitives, DrawUtilCallback* callback)
	{
	const glw::Functions& gl = context.getFunctions();
	VertexArray vao (context);

	gl.bindVertexArray(*vao);
	drawFromBuffers(context, program, numVertexArrays, vertexArrays, primitives, callback);
	gl.bindVertexArray(0);
	}

	void draw (const RenderContext& context, deUint32 program, int numVertexArrays, const VertexArrayBinding* vertexArrays, const PrimitiveList& primitives, DrawUtilCallback* callback)
	{
	const glu::ContextType ctxType = context.getType();

	if (isContextTypeGLCore(ctxType) \|\| contextSupports(ctxType, ApiType::es(3,1)))
	drawFromVAOBuffers(context, program, numVertexArrays, vertexArrays, primitives, callback);
	else
	{
	DE_ASSERT(isContextTypeES(ctxType));
	drawFromUserPointers(context, program, numVertexArrays, vertexArrays, primitives, callback);
	}
	}

	} // glu