external/vulkancts/modules/vulkan/ubo/vktUniformBlockCase.hpp - third_party/vulkan-cts - Git at Google

 #ifndef _VKTUNIFORMBLOCKCASE_HPP
 #define _VKTUNIFORMBLOCKCASE_HPP
 /*------------------------------------------------------------------------
  * Vulkan Conformance Tests
  * ------------------------
  *
  * Copyright (c) 2015 The Khronos Group Inc.
  * Copyright (c) 2015 Samsung Electronics Co., Ltd.
  *
  * 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 Uniform block tests.
  *//*--------------------------------------------------------------------*/

 #include "deSharedPtr.hpp"
 #include "vktTestCase.hpp"
 #include "tcuDefs.hpp"
 #include "gluShaderUtil.hpp"

 #include <map>

 namespace vkt
 {
 namespace ubo
 {

 // Uniform block details.

 enum UniformFlags
 {
 	PRECISION_LOW		= (1<<0),
 	PRECISION_MEDIUM	= (1<<1),
 	PRECISION_HIGH		= (1<<2),
 	PRECISION_MASK		= PRECISION_LOW|PRECISION_MEDIUM|PRECISION_HIGH,

 	LAYOUT_SHARED		= (1<<3),
 	LAYOUT_PACKED		= (1<<4),
 	LAYOUT_STD140		= (1<<5),
 	LAYOUT_ROW_MAJOR	= (1<<6),
 	LAYOUT_COLUMN_MAJOR	= (1<<7),	//!< \note Lack of both flags means column-major matrix.
 	LAYOUT_OFFSET		= (1<<8),
 	LAYOUT_MASK			= LAYOUT_SHARED|LAYOUT_PACKED|LAYOUT_STD140|LAYOUT_ROW_MAJOR|LAYOUT_COLUMN_MAJOR|LAYOUT_OFFSET,

 	DECLARE_VERTEX		= (1<<9),
 	DECLARE_FRAGMENT	= (1<<10),
 	DECLARE_BOTH		= DECLARE_VERTEX|DECLARE_FRAGMENT,

 	UNUSED_VERTEX		= (1<<11),	//!< Uniform or struct member is not read in vertex shader.
 	UNUSED_FRAGMENT		= (1<<12),	//!< Uniform or struct member is not read in fragment shader.
 	UNUSED_BOTH			= UNUSED_VERTEX|UNUSED_FRAGMENT
 };

 enum MatrixLoadFlags
 {
 	LOAD_FULL_MATRIX		= 0,
 	LOAD_MATRIX_COMPONENTS	= 1,
 };

 class StructType;

 class VarType
 {
 public:
 						VarType			(void);
 						VarType			(const VarType& other);
 						VarType			(glu::DataType basicType, deUint32 flags);
 						VarType			(const VarType& elementType, int arraySize);
 	explicit			VarType			(const StructType* structPtr, deUint32 flags = 0u);
 						~VarType		(void);

 	bool				isBasicType		(void) const	{ return m_type == TYPE_BASIC;	}
 	bool				isArrayType		(void) const	{ return m_type == TYPE_ARRAY;	}
 	bool				isStructType	(void) const	{ return m_type == TYPE_STRUCT;	}

 	deUint32			getFlags		(void) const	{ return m_flags;					}
 	glu::DataType		getBasicType	(void) const	{ return m_data.basicType;			}

 	const VarType&		getElementType	(void) const	{ return *m_data.array.elementType;	}
 	int					getArraySize	(void) const	{ return m_data.array.size;			}

 	const StructType&	getStruct		(void) const	{ return *m_data.structPtr;			}

 	VarType&			operator=		(const VarType& other);

 private:
 	enum Type
 	{
 		TYPE_BASIC,
 		TYPE_ARRAY,
 		TYPE_STRUCT,

 		TYPE_LAST
 	};

 	Type				m_type;
 	deUint32			m_flags;
 	union Data
 	{
 		glu::DataType		basicType;
 		struct
 		{
 			VarType*		elementType;
 			int				size;
 		} array;
 		const StructType*	structPtr;

 		Data (void)
 		{
 			array.elementType	= DE_NULL;
 			array.size			= 0;
 		};
 	} m_data;
 };

 class StructMember
 {
 public:
 						StructMember	(const std::string& name, const VarType& type, deUint32 flags)
 							: m_name(name), m_type(type), m_flags(flags)
 						{}
 						StructMember	(void)
 							: m_flags(0)
 						{}

 	const std::string&	getName			(void) const { return m_name;	}
 	const VarType&		getType			(void) const { return m_type;	}
 	deUint32			getFlags		(void) const { return m_flags;	}

 private:
 	std::string			m_name;
 	VarType				m_type;
 	deUint32			m_flags;
 };

 class StructType
 {
 public:
 	typedef std::vector<StructMember>::iterator			Iterator;
 	typedef std::vector<StructMember>::const_iterator	ConstIterator;

 								StructType		(const std::string& typeName) : m_typeName(typeName) {}
 								~StructType		(void) {}

 	const std::string&			getTypeName		(void) const	{ return m_typeName;			}
 	bool						hasTypeName		(void) const	{ return !m_typeName.empty();	}

 	inline Iterator				begin			(void)			{ return m_members.begin();		}
 	inline ConstIterator		begin			(void) const	{ return m_members.begin();		}
 	inline Iterator				end				(void)			{ return m_members.end();		}
 	inline ConstIterator		end				(void) const	{ return m_members.end();		}

 	void						addMember		(const std::string& name, const VarType& type, deUint32 flags = 0);

 private:
 	std::string					m_typeName;
 	std::vector<StructMember>	m_members;
 };

 class Uniform
 {
 public:
 						Uniform			(const std::string& name, const VarType& type, deUint32 flags = 0);

 	const std::string&	getName			(void) const { return m_name;	}
 	const VarType&		getType			(void) const { return m_type;	}
 	deUint32			getFlags		(void) const { return m_flags;	}

 private:
 	std::string			m_name;
 	VarType				m_type;
 	deUint32			m_flags;
 };

 class UniformBlock
 {
 public:
 	typedef std::vector<Uniform>::iterator			Iterator;
 	typedef std::vector<Uniform>::const_iterator	ConstIterator;

 							UniformBlock		(const std::string& blockName);

 	const std::string&		getBlockName		(void) const { return m_blockName;		}
 	const std::string&		getInstanceName		(void) const { return m_instanceName;	}
 	bool					hasInstanceName		(void) const { return !m_instanceName.empty();	}
 	bool					isArray				(void) const { return m_arraySize > 0;			}
 	int						getArraySize		(void) const { return m_arraySize;				}
 	deUint32				getFlags			(void) const { return m_flags;					}

 	void					setInstanceName		(const std::string& name)	{ m_instanceName = name;			}
 	void					setFlags			(deUint32 flags)			{ m_flags = flags;					}
 	void					setArraySize		(int arraySize)				{ m_arraySize = arraySize;			}
 	void					addUniform			(const Uniform& uniform)	{ m_uniforms.push_back(uniform);	}

 	inline Iterator			begin				(void)			{ return m_uniforms.begin();	}
 	inline ConstIterator	begin				(void) const	{ return m_uniforms.begin();	}
 	inline Iterator			end					(void)			{ return m_uniforms.end();		}
 	inline ConstIterator	end					(void) const	{ return m_uniforms.end();		}

 private:
 	std::string				m_blockName;
 	std::string				m_instanceName;
 	std::vector<Uniform>	m_uniforms;
 	int						m_arraySize;	//!< Array size or 0 if not interface block array.
 	deUint32				m_flags;
 };

 typedef de::SharedPtr<StructType>	StructTypeSP;
 typedef de::SharedPtr<UniformBlock>	UniformBlockSP;

 class ShaderInterface
 {
 public:
 								ShaderInterface			(void);
 								~ShaderInterface		(void);

 	StructType&					allocStruct				(const std::string& name);
 	void						getNamedStructs			(std::vector<const StructType*>& structs) const;

 	UniformBlock&				allocBlock				(const std::string& name);

 	int							getNumUniformBlocks		(void) const	{ return (int)m_uniformBlocks.size();	}
 	const UniformBlock&			getUniformBlock			(int ndx) const	{ return *m_uniformBlocks[ndx];			}

 private:
 	std::vector<StructTypeSP>		m_structs;
 	std::vector<UniformBlockSP>		m_uniformBlocks;
 };

 struct BlockLayoutEntry
 {
 	BlockLayoutEntry (void)
 		: size					(0)
 		, blockDeclarationNdx	(-1)
 		, bindingNdx			(-1)
 		, instanceNdx			(-1)
 	{
 	}

 	std::string			name;
 	int					size;
 	std::vector<int>	activeUniformIndices;
 	int					blockDeclarationNdx;
 	int					bindingNdx;
 	int					instanceNdx;
 };

 struct UniformLayoutEntry
 {
 	UniformLayoutEntry (void)
 		: type			(glu::TYPE_LAST)
 		, size			(0)
 		, blockLayoutNdx(-1)
 		, offset		(-1)
 		, arrayStride	(-1)
 		, matrixStride	(-1)
 		, isRowMajor	(false)
 		, instanceNdx	(0)
 	{
 	}

 	std::string			name;
 	glu::DataType		type;
 	int					size;
 	int					blockLayoutNdx;
 	int					offset;
 	int					arrayStride;
 	int					matrixStride;
 	bool				isRowMajor;
 	int					instanceNdx;
 };

 class UniformLayout
 {
 public:
 	std::vector<BlockLayoutEntry>		blocks;
 	std::vector<UniformLayoutEntry>		uniforms;

 	int									getUniformLayoutIndex	(int blockDeclarationNdx, const std::string& name) const;
 	int									getBlockLayoutIndex		(int blockDeclarationNdx, int instanceNdx) const;
 };

 class UniformBlockCase : public vkt::TestCase
 {
 public:
 	enum BufferMode
 	{
 		BUFFERMODE_SINGLE = 0,	//!< Single buffer shared between uniform blocks.
 		BUFFERMODE_PER_BLOCK,	//!< Per-block buffers

 		BUFFERMODE_LAST
 	};

 								UniformBlockCase			(tcu::TestContext&	testCtx,
 															 const std::string&	name,
 															 const std::string&	description,
 															 BufferMode			bufferMode,
 															 MatrixLoadFlags	matrixLoadFlag,
 															 bool				shuffleUniformMembers = false);
 								~UniformBlockCase			(void);

 	virtual	void				initPrograms				(vk::SourceCollections& programCollection) const;
 	virtual TestInstance*		createInstance				(Context& context) const;

 protected:
 	void						init						(void);

 	BufferMode					m_bufferMode;
 	ShaderInterface				m_interface;
 	MatrixLoadFlags				m_matrixLoadFlag;
 	const bool					m_shuffleUniformMembers;	//!< Used with explicit offsets to test out of order member offsets

 private:
 	std::string					m_vertShaderSource;
 	std::string					m_fragShaderSource;

 	std::vector<deUint8>		m_data;						//!< Data.
 	std::map<int, void*>		m_blockPointers;			//!< Reference block pointers.
 	UniformLayout				m_uniformLayout;			//!< std140 layout.
 };

 } // ubo
 } // vkt

 #endif // _VKTUNIFORMBLOCKCASE_HPP
	#ifndef _VKTUNIFORMBLOCKCASE_HPP
	#define _VKTUNIFORMBLOCKCASE_HPP
	/*------------------------------------------------------------------------
	* Vulkan Conformance Tests
	* ------------------------
	*
	* Copyright (c) 2015 The Khronos Group Inc.
	* Copyright (c) 2015 Samsung Electronics Co., Ltd.
	*
	* 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 Uniform block tests.
	//--------------------------------------------------------------------*/

	#include "deSharedPtr.hpp"
	#include "vktTestCase.hpp"
	#include "tcuDefs.hpp"
	#include "gluShaderUtil.hpp"

	#include <map>

	namespace vkt
	{
	namespace ubo
	{

	// Uniform block details.

	enum UniformFlags
	{
	PRECISION_LOW = (1<<0),
	PRECISION_MEDIUM = (1<<1),
	PRECISION_HIGH = (1<<2),
	PRECISION_MASK = PRECISION_LOW\|PRECISION_MEDIUM\|PRECISION_HIGH,

	LAYOUT_SHARED = (1<<3),
	LAYOUT_PACKED = (1<<4),
	LAYOUT_STD140 = (1<<5),
	LAYOUT_ROW_MAJOR = (1<<6),
	LAYOUT_COLUMN_MAJOR = (1<<7), //!< \note Lack of both flags means column-major matrix.
	LAYOUT_OFFSET = (1<<8),
	LAYOUT_MASK = LAYOUT_SHARED\|LAYOUT_PACKED\|LAYOUT_STD140\|LAYOUT_ROW_MAJOR\|LAYOUT_COLUMN_MAJOR\|LAYOUT_OFFSET,

	DECLARE_VERTEX = (1<<9),
	DECLARE_FRAGMENT = (1<<10),
	DECLARE_BOTH = DECLARE_VERTEX\|DECLARE_FRAGMENT,

	UNUSED_VERTEX = (1<<11), //!< Uniform or struct member is not read in vertex shader.
	UNUSED_FRAGMENT = (1<<12), //!< Uniform or struct member is not read in fragment shader.
	UNUSED_BOTH = UNUSED_VERTEX\|UNUSED_FRAGMENT
	};

	enum MatrixLoadFlags
	{
	LOAD_FULL_MATRIX = 0,
	LOAD_MATRIX_COMPONENTS = 1,
	};

	class StructType;

	class VarType
	{
	public:
	VarType (void);
	VarType (const VarType& other);
	VarType (glu::DataType basicType, deUint32 flags);
	VarType (const VarType& elementType, int arraySize);
	explicit VarType (const StructType* structPtr, deUint32 flags = 0u);
	~VarType (void);

	bool isBasicType (void) const { return m_type == TYPE_BASIC; }
	bool isArrayType (void) const { return m_type == TYPE_ARRAY; }
	bool isStructType (void) const { return m_type == TYPE_STRUCT; }

	deUint32 getFlags (void) const { return m_flags; }
	glu::DataType getBasicType (void) const { return m_data.basicType; }

	const VarType& getElementType (void) const { return *m_data.array.elementType; }
	int getArraySize (void) const { return m_data.array.size; }

	const StructType& getStruct (void) const { return *m_data.structPtr; }

	VarType& operator= (const VarType& other);

	private:
	enum Type
	{
	TYPE_BASIC,
	TYPE_ARRAY,
	TYPE_STRUCT,

	TYPE_LAST
	};

	Type m_type;
	deUint32 m_flags;
	union Data
	{
	glu::DataType basicType;
	struct
	{
	VarType* elementType;
	int size;
	} array;
	const StructType* structPtr;

	Data (void)
	{
	array.elementType = DE_NULL;
	array.size = 0;
	};
	} m_data;
	};

	class StructMember
	{
	public:
	StructMember (const std::string& name, const VarType& type, deUint32 flags)
	: m_name(name), m_type(type), m_flags(flags)
	{}
	StructMember (void)
	: m_flags(0)
	{}

	const std::string& getName (void) const { return m_name; }
	const VarType& getType (void) const { return m_type; }
	deUint32 getFlags (void) const { return m_flags; }

	private:
	std::string m_name;
	VarType m_type;
	deUint32 m_flags;
	};

	class StructType
	{
	public:
	typedef std::vector<StructMember>::iterator Iterator;
	typedef std::vector<StructMember>::const_iterator ConstIterator;

	StructType (const std::string& typeName) : m_typeName(typeName) {}
	~StructType (void) {}

	const std::string& getTypeName (void) const { return m_typeName; }
	bool hasTypeName (void) const { return !m_typeName.empty(); }

	inline Iterator begin (void) { return m_members.begin(); }
	inline ConstIterator begin (void) const { return m_members.begin(); }
	inline Iterator end (void) { return m_members.end(); }
	inline ConstIterator end (void) const { return m_members.end(); }

	void addMember (const std::string& name, const VarType& type, deUint32 flags = 0);

	private:
	std::string m_typeName;
	std::vector<StructMember> m_members;
	};

	class Uniform
	{
	public:
	Uniform (const std::string& name, const VarType& type, deUint32 flags = 0);

	const std::string& getName (void) const { return m_name; }
	const VarType& getType (void) const { return m_type; }
	deUint32 getFlags (void) const { return m_flags; }

	private:
	std::string m_name;
	VarType m_type;
	deUint32 m_flags;
	};

	class UniformBlock
	{
	public:
	typedef std::vector<Uniform>::iterator Iterator;
	typedef std::vector<Uniform>::const_iterator ConstIterator;

	UniformBlock (const std::string& blockName);

	const std::string& getBlockName (void) const { return m_blockName; }
	const std::string& getInstanceName (void) const { return m_instanceName; }
	bool hasInstanceName (void) const { return !m_instanceName.empty(); }
	bool isArray (void) const { return m_arraySize > 0; }
	int getArraySize (void) const { return m_arraySize; }
	deUint32 getFlags (void) const { return m_flags; }

	void setInstanceName (const std::string& name) { m_instanceName = name; }
	void setFlags (deUint32 flags) { m_flags = flags; }
	void setArraySize (int arraySize) { m_arraySize = arraySize; }
	void addUniform (const Uniform& uniform) { m_uniforms.push_back(uniform); }

	inline Iterator begin (void) { return m_uniforms.begin(); }
	inline ConstIterator begin (void) const { return m_uniforms.begin(); }
	inline Iterator end (void) { return m_uniforms.end(); }
	inline ConstIterator end (void) const { return m_uniforms.end(); }

	private:
	std::string m_blockName;
	std::string m_instanceName;
	std::vector<Uniform> m_uniforms;
	int m_arraySize; //!< Array size or 0 if not interface block array.
	deUint32 m_flags;
	};

	typedef de::SharedPtr<StructType> StructTypeSP;
	typedef de::SharedPtr<UniformBlock> UniformBlockSP;

	class ShaderInterface
	{
	public:
	ShaderInterface (void);
	~ShaderInterface (void);

	StructType& allocStruct (const std::string& name);
	void getNamedStructs (std::vector<const StructType*>& structs) const;

	UniformBlock& allocBlock (const std::string& name);

	int getNumUniformBlocks (void) const { return (int)m_uniformBlocks.size(); }
	const UniformBlock& getUniformBlock (int ndx) const { return *m_uniformBlocks[ndx]; }

	private:
	std::vector<StructTypeSP> m_structs;
	std::vector<UniformBlockSP> m_uniformBlocks;
	};

	struct BlockLayoutEntry
	{
	BlockLayoutEntry (void)
	: size (0)
	, blockDeclarationNdx (-1)
	, bindingNdx (-1)
	, instanceNdx (-1)
	{
	}

	std::string name;
	int size;
	std::vector<int> activeUniformIndices;
	int blockDeclarationNdx;
	int bindingNdx;
	int instanceNdx;
	};

	struct UniformLayoutEntry
	{
	UniformLayoutEntry (void)
	: type (glu::TYPE_LAST)
	, size (0)
	, blockLayoutNdx(-1)
	, offset (-1)
	, arrayStride (-1)
	, matrixStride (-1)
	, isRowMajor (false)
	, instanceNdx (0)
	{
	}

	std::string name;
	glu::DataType type;
	int size;
	int blockLayoutNdx;
	int offset;
	int arrayStride;
	int matrixStride;
	bool isRowMajor;
	int instanceNdx;
	};

	class UniformLayout
	{
	public:
	std::vector<BlockLayoutEntry> blocks;
	std::vector<UniformLayoutEntry> uniforms;

	int getUniformLayoutIndex (int blockDeclarationNdx, const std::string& name) const;
	int getBlockLayoutIndex (int blockDeclarationNdx, int instanceNdx) const;
	};

	class UniformBlockCase : public vkt::TestCase
	{
	public:
	enum BufferMode
	{
	BUFFERMODE_SINGLE = 0, //!< Single buffer shared between uniform blocks.
	BUFFERMODE_PER_BLOCK, //!< Per-block buffers

	BUFFERMODE_LAST
	};

	UniformBlockCase (tcu::TestContext& testCtx,
	const std::string& name,
	const std::string& description,
	BufferMode bufferMode,
	MatrixLoadFlags matrixLoadFlag,
	bool shuffleUniformMembers = false);
	~UniformBlockCase (void);

	virtual void initPrograms (vk::SourceCollections& programCollection) const;
	virtual TestInstance* createInstance (Context& context) const;

	protected:
	void init (void);

	BufferMode m_bufferMode;
	ShaderInterface m_interface;
	MatrixLoadFlags m_matrixLoadFlag;
	const bool m_shuffleUniformMembers; //!< Used with explicit offsets to test out of order member offsets

	private:
	std::string m_vertShaderSource;
	std::string m_fragShaderSource;

	std::vector<deUint8> m_data; //!< Data.
	std::map<int, void*> m_blockPointers; //!< Reference block pointers.
	UniformLayout m_uniformLayout; //!< std140 layout.
	};

	} // ubo
	} // vkt

	#endif // _VKTUNIFORMBLOCKCASE_HPP