framework/opengl/gluShaderUtil.hpp - third_party/vulkan-cts - Git at Google

 #ifndef _GLUSHADERUTIL_HPP
 #define _GLUSHADERUTIL_HPP
 /*-------------------------------------------------------------------------
  * drawElements Quality Program OpenGL ES 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 Shader utilities.
  *//*--------------------------------------------------------------------*/

 #include "tcuDefs.hpp"
 #include "deInt32.h"
 #include "gluRenderContext.hpp"
 #include "tcuVector.hpp"
 #include "tcuVector.hpp"
 #include "tcuMatrix.hpp"

 namespace glu
 {

 // ShadingLanguageVersion

 enum GLSLVersion
 {
 	GLSL_VERSION_100_ES = 0,	//!< GLSL ES 1.0
 	GLSL_VERSION_300_ES,		//!< GLSL ES 3.0
 	GLSL_VERSION_310_ES,		//!< GLSL ES 3.1
 	GLSL_VERSION_320_ES,		//!< GLSL ES 3.2

 	GLSL_VERSION_130,			//!< GLSL 1.3
 	GLSL_VERSION_140,			//!< GLSL 1.4
 	GLSL_VERSION_150,			//!< GLSL 1.5
 	GLSL_VERSION_330,			//!< GLSL 3.0
 	GLSL_VERSION_400,			//!< GLSL 4.0
 	GLSL_VERSION_410,			//!< GLSL 4.1
 	GLSL_VERSION_420,			//!< GLSL 4.2
 	GLSL_VERSION_430,			//!< GLSL 4.3
 	GLSL_VERSION_440,			//!< GLSL 4.4
 	GLSL_VERSION_450,			//!< GLSL 4.5
 	GLSL_VERSION_460,			//!< GLSL 4.6

 	GLSL_VERSION_LAST
 };

 const char*		getGLSLVersionName				(GLSLVersion version);
 const char*		getGLSLVersionDeclaration		(GLSLVersion version);
 bool			glslVersionUsesInOutQualifiers	(GLSLVersion version);
 bool			glslVersionIsES					(GLSLVersion version);
 bool			isGLSLVersionSupported			(ContextType type, GLSLVersion version);
 GLSLVersion		getContextTypeGLSLVersion		(ContextType type);

 // ShaderType

 enum ShaderType
 {
 	SHADERTYPE_VERTEX = 0,
 	SHADERTYPE_FRAGMENT,
 	SHADERTYPE_GEOMETRY,
 	SHADERTYPE_TESSELLATION_CONTROL,
 	SHADERTYPE_TESSELLATION_EVALUATION,
 	SHADERTYPE_COMPUTE,

 	SHADERTYPE_LAST
 };

 const char*	getShaderTypeName (ShaderType shaderType);

 // Precision

 enum Precision
 {
 	PRECISION_LOWP = 0,
 	PRECISION_MEDIUMP,
 	PRECISION_HIGHP,

 	PRECISION_LAST
 };

 const char* getPrecisionName (Precision precision);

 // DataType

 enum DataType
 {
 	TYPE_INVALID	= 0,

 	TYPE_FLOAT,
 	TYPE_FLOAT_VEC2,
 	TYPE_FLOAT_VEC3,
 	TYPE_FLOAT_VEC4,
 	TYPE_FLOAT_MAT2,
 	TYPE_FLOAT_MAT2X3,
 	TYPE_FLOAT_MAT2X4,
 	TYPE_FLOAT_MAT3X2,
 	TYPE_FLOAT_MAT3,
 	TYPE_FLOAT_MAT3X4,
 	TYPE_FLOAT_MAT4X2,
 	TYPE_FLOAT_MAT4X3,
 	TYPE_FLOAT_MAT4,

 	TYPE_DOUBLE,
 	TYPE_DOUBLE_VEC2,
 	TYPE_DOUBLE_VEC3,
 	TYPE_DOUBLE_VEC4,
 	TYPE_DOUBLE_MAT2,
 	TYPE_DOUBLE_MAT2X3,
 	TYPE_DOUBLE_MAT2X4,
 	TYPE_DOUBLE_MAT3X2,
 	TYPE_DOUBLE_MAT3,
 	TYPE_DOUBLE_MAT3X4,
 	TYPE_DOUBLE_MAT4X2,
 	TYPE_DOUBLE_MAT4X3,
 	TYPE_DOUBLE_MAT4,

 	TYPE_INT,
 	TYPE_INT_VEC2,
 	TYPE_INT_VEC3,
 	TYPE_INT_VEC4,

 	TYPE_UINT,
 	TYPE_UINT_VEC2,
 	TYPE_UINT_VEC3,
 	TYPE_UINT_VEC4,

 	TYPE_BOOL,
 	TYPE_BOOL_VEC2,
 	TYPE_BOOL_VEC3,
 	TYPE_BOOL_VEC4,

 	TYPE_SAMPLER_1D,
 	TYPE_SAMPLER_2D,
 	TYPE_SAMPLER_CUBE,
 	TYPE_SAMPLER_1D_ARRAY,
 	TYPE_SAMPLER_2D_ARRAY,
 	TYPE_SAMPLER_3D,
 	TYPE_SAMPLER_CUBE_ARRAY,

 	TYPE_SAMPLER_1D_SHADOW,
 	TYPE_SAMPLER_2D_SHADOW,
 	TYPE_SAMPLER_CUBE_SHADOW,
 	TYPE_SAMPLER_1D_ARRAY_SHADOW,
 	TYPE_SAMPLER_2D_ARRAY_SHADOW,
 	TYPE_SAMPLER_CUBE_ARRAY_SHADOW,

 	TYPE_INT_SAMPLER_1D,
 	TYPE_INT_SAMPLER_2D,
 	TYPE_INT_SAMPLER_CUBE,
 	TYPE_INT_SAMPLER_1D_ARRAY,
 	TYPE_INT_SAMPLER_2D_ARRAY,
 	TYPE_INT_SAMPLER_3D,
 	TYPE_INT_SAMPLER_CUBE_ARRAY,

 	TYPE_UINT_SAMPLER_1D,
 	TYPE_UINT_SAMPLER_2D,
 	TYPE_UINT_SAMPLER_CUBE,
 	TYPE_UINT_SAMPLER_1D_ARRAY,
 	TYPE_UINT_SAMPLER_2D_ARRAY,
 	TYPE_UINT_SAMPLER_3D,
 	TYPE_UINT_SAMPLER_CUBE_ARRAY,

 	TYPE_SAMPLER_2D_MULTISAMPLE,
 	TYPE_INT_SAMPLER_2D_MULTISAMPLE,
 	TYPE_UINT_SAMPLER_2D_MULTISAMPLE,

 	TYPE_IMAGE_2D,
 	TYPE_IMAGE_CUBE,
 	TYPE_IMAGE_2D_ARRAY,
 	TYPE_IMAGE_3D,
 	TYPE_IMAGE_CUBE_ARRAY,

 	TYPE_INT_IMAGE_2D,
 	TYPE_INT_IMAGE_CUBE,
 	TYPE_INT_IMAGE_2D_ARRAY,
 	TYPE_INT_IMAGE_3D,
 	TYPE_INT_IMAGE_CUBE_ARRAY,

 	TYPE_UINT_IMAGE_2D,
 	TYPE_UINT_IMAGE_CUBE,
 	TYPE_UINT_IMAGE_2D_ARRAY,
 	TYPE_UINT_IMAGE_3D,
 	TYPE_UINT_IMAGE_CUBE_ARRAY,

 	TYPE_UINT_ATOMIC_COUNTER,

 	TYPE_SAMPLER_BUFFER,
 	TYPE_INT_SAMPLER_BUFFER,
 	TYPE_UINT_SAMPLER_BUFFER,

 	TYPE_SAMPLER_2D_MULTISAMPLE_ARRAY,
 	TYPE_INT_SAMPLER_2D_MULTISAMPLE_ARRAY,
 	TYPE_UINT_SAMPLER_2D_MULTISAMPLE_ARRAY,

 	TYPE_IMAGE_BUFFER,
 	TYPE_INT_IMAGE_BUFFER,
 	TYPE_UINT_IMAGE_BUFFER,

 	TYPE_UINT8,
 	TYPE_UINT8_VEC2,
 	TYPE_UINT8_VEC3,
 	TYPE_UINT8_VEC4,

 	TYPE_INT8,
 	TYPE_INT8_VEC2,
 	TYPE_INT8_VEC3,
 	TYPE_INT8_VEC4,

 	TYPE_UINT16,
 	TYPE_UINT16_VEC2,
 	TYPE_UINT16_VEC3,
 	TYPE_UINT16_VEC4,

 	TYPE_INT16,
 	TYPE_INT16_VEC2,
 	TYPE_INT16_VEC3,
 	TYPE_INT16_VEC4,

 	TYPE_FLOAT16,
 	TYPE_FLOAT16_VEC2,
 	TYPE_FLOAT16_VEC3,
 	TYPE_FLOAT16_VEC4,
 	TYPE_FLOAT16_MAT2,
 	TYPE_FLOAT16_MAT2X3,
 	TYPE_FLOAT16_MAT2X4,
 	TYPE_FLOAT16_MAT3X2,
 	TYPE_FLOAT16_MAT3,
 	TYPE_FLOAT16_MAT3X4,
 	TYPE_FLOAT16_MAT4X2,
 	TYPE_FLOAT16_MAT4X3,
 	TYPE_FLOAT16_MAT4,

 	TYPE_LAST
 };

 const char*		getDataTypeName				(DataType dataType);
 int				getDataTypeScalarSize		(DataType dataType);
 DataType		getDataTypeScalarType		(DataType dataType);
 DataType		getDataTypeFloat16Scalars	(DataType dataType);
 DataType		getDataTypeFloatScalars		(DataType dataType);
 DataType		getDataTypeDoubleScalars	(DataType dataType);
 DataType		getDataTypeVector			(DataType scalarType, int size);
 DataType		getDataTypeFloatVec			(int vecSize);
 DataType		getDataTypeIntVec			(int vecSize);
 DataType		getDataTypeUintVec			(int vecSize);
 DataType		getDataTypeBoolVec			(int vecSize);
 DataType		getDataTypeMatrix			(int numCols, int numRows);
 DataType		getDataTypeFromGLType		(deUint32 glType);

 inline bool		isDataTypeFloat16OrVec				(DataType dataType)	{ return (dataType >= TYPE_FLOAT16)    && (dataType <= TYPE_FLOAT16_MAT4); }
 inline bool		isDataTypeFloatOrVec				(DataType dataType)	{ return (dataType >= TYPE_FLOAT)      && (dataType <= TYPE_FLOAT_VEC4);   }
 inline bool		isDataTypeFloatType					(DataType dataType)	{ return (dataType >= TYPE_FLOAT)      && (dataType <= TYPE_FLOAT_MAT4);   }
 inline bool		isDataTypeDoubleOrDVec				(DataType dataType)	{ return (dataType >= TYPE_DOUBLE)     && (dataType <= TYPE_DOUBLE_VEC4);  }
 inline bool		isDataTypeMatrix					(DataType dataType)	{
 																			return ((dataType >= TYPE_FLOAT_MAT2) && (dataType <= TYPE_FLOAT_MAT4))
 																				|| ((dataType >= TYPE_DOUBLE_MAT2) && (dataType <= TYPE_DOUBLE_MAT4))
 																				|| ((dataType >= TYPE_FLOAT16_MAT2) && (dataType <= TYPE_FLOAT16_MAT4))
 																				;
 																		}
 inline bool		isDataTypeIntOrIVec					(DataType dataType)	{ return (dataType >= TYPE_INT)        && (dataType <= TYPE_INT_VEC4);     }
 inline bool		isDataTypeUintOrUVec				(DataType dataType)	{ return (dataType >= TYPE_UINT)       && (dataType <= TYPE_UINT_VEC4);    }
 inline bool		isDataTypeBoolOrBVec				(DataType dataType)	{ return (dataType >= TYPE_BOOL)       && (dataType <= TYPE_BOOL_VEC4);    }
 inline bool		isDataTypeScalar					(DataType dataType) {
 																			return (dataType == TYPE_FLOAT)
 																				|| (dataType == TYPE_DOUBLE)
 																				|| (dataType == TYPE_INT)
 																				|| (dataType == TYPE_UINT)
 																				|| (dataType == TYPE_BOOL)
 																				|| (dataType == TYPE_UINT8)
 																				|| (dataType == TYPE_INT8)
 																				|| (dataType == TYPE_UINT16)
 																				|| (dataType == TYPE_INT16)
 																				|| (dataType == TYPE_FLOAT16)
 																				;
 																		}
 inline bool		isDataTypeVector					(DataType dataType) {
 																			return deInRange32(dataType, TYPE_FLOAT_VEC2, TYPE_FLOAT_VEC4)
 																				|| deInRange32(dataType, TYPE_DOUBLE_VEC2, TYPE_DOUBLE_VEC4)
 																				|| deInRange32(dataType, TYPE_INT_VEC2, TYPE_INT_VEC4)
 																				|| deInRange32(dataType, TYPE_UINT_VEC2, TYPE_UINT_VEC4)
 																				|| deInRange32(dataType, TYPE_BOOL_VEC2, TYPE_BOOL_VEC4)
 																				|| deInRange32(dataType, TYPE_UINT8_VEC2, TYPE_UINT8_VEC4)
 																				|| deInRange32(dataType, TYPE_INT8_VEC2, TYPE_INT8_VEC4)
 																				|| deInRange32(dataType, TYPE_UINT16_VEC2, TYPE_UINT16_VEC4)
 																				|| deInRange32(dataType, TYPE_INT16_VEC2, TYPE_INT16_VEC4)
 																				|| deInRange32(dataType, TYPE_FLOAT16_VEC2, TYPE_FLOAT16_VEC4)
 																				;
 																		}
 inline bool		isDataTypeScalarOrVector			(DataType dataType) {
 																			return deInRange32(dataType, TYPE_FLOAT, TYPE_FLOAT_VEC4)
 																				|| deInRange32(dataType, TYPE_DOUBLE, TYPE_DOUBLE_VEC4)
 																				|| deInRange32(dataType, TYPE_INT, TYPE_INT_VEC4)
 																				|| deInRange32(dataType, TYPE_UINT, TYPE_UINT_VEC4)
 																				|| deInRange32(dataType, TYPE_BOOL, TYPE_BOOL_VEC4)
 																				|| deInRange32(dataType, TYPE_UINT8, TYPE_UINT8_VEC4)
 																				|| deInRange32(dataType, TYPE_INT8, TYPE_INT8_VEC4)
 																				|| deInRange32(dataType, TYPE_UINT16, TYPE_UINT16_VEC4)
 																				|| deInRange32(dataType, TYPE_INT16, TYPE_INT16_VEC4)
 																				|| deInRange32(dataType, TYPE_FLOAT16, TYPE_FLOAT16_VEC4)
 																				;
 																		}
 inline bool		isDataTypeSampler					(DataType dataType)	{ return (dataType >= TYPE_SAMPLER_1D) && (dataType <= TYPE_UINT_SAMPLER_2D_MULTISAMPLE); }
 inline bool		isDataTypeImage						(DataType dataType)	{ return (dataType >= TYPE_IMAGE_2D) && (dataType <= TYPE_UINT_IMAGE_3D); }
 inline bool		isDataTypeSamplerMultisample		(DataType dataType)	{ return (dataType >= TYPE_SAMPLER_2D_MULTISAMPLE) && (dataType <= TYPE_UINT_SAMPLER_2D_MULTISAMPLE); }
 inline bool		isDataTypeAtomicCounter				(DataType dataType)	{ return dataType == TYPE_UINT_ATOMIC_COUNTER; }
 inline bool		isDataTypeSamplerBuffer				(DataType dataType)	{ return (dataType >= TYPE_SAMPLER_BUFFER) && (dataType <= TYPE_UINT_SAMPLER_BUFFER); }
 inline bool		isDataTypeSamplerMSArray			(DataType dataType)	{ return (dataType >= TYPE_SAMPLER_2D_MULTISAMPLE_ARRAY) && (dataType <= TYPE_UINT_SAMPLER_2D_MULTISAMPLE_ARRAY); }
 inline bool		isDataTypeImageBuffer				(DataType dataType)	{ return (dataType >= TYPE_IMAGE_BUFFER) && (dataType <= TYPE_UINT_IMAGE_BUFFER); }
 inline bool		isDataTypeExplicitPrecision			(DataType dataType)	{
 																			return deInRange32(dataType, TYPE_UINT8, TYPE_UINT8_VEC4)
 																				|| deInRange32(dataType, TYPE_INT8, TYPE_INT8_VEC4)
 																				|| deInRange32(dataType, TYPE_UINT16, TYPE_UINT16_VEC4)
 																				|| deInRange32(dataType, TYPE_INT16, TYPE_INT16_VEC4)
 																				|| deInRange32(dataType, TYPE_FLOAT16, TYPE_FLOAT16_VEC4)
 																				;
 																		}
 inline bool		dataTypeSupportsPrecisionModifier	(DataType dataType)	{ return !isDataTypeBoolOrBVec(dataType) && !isDataTypeExplicitPrecision(dataType);    }

 int				getDataTypeMatrixNumRows	(DataType dataType);
 int				getDataTypeMatrixNumColumns	(DataType dataType);

 int				getDataTypeNumLocations		(DataType dataType);
 int				getDataTypeNumComponents	(DataType dataType);

 template <typename T>
 struct DataTypeTraits;

 template <> struct DataTypeTraits<deUint16>			{ enum { DATATYPE = TYPE_FLOAT16			}; };
 template <> struct DataTypeTraits<float>			{ enum { DATATYPE = TYPE_FLOAT				}; };
 template <> struct DataTypeTraits<bool>				{ enum { DATATYPE = TYPE_BOOL				}; };
 template <> struct DataTypeTraits<int>				{ enum { DATATYPE = TYPE_INT				}; };
 template <> struct DataTypeTraits<deUint32>			{ enum { DATATYPE = TYPE_UINT				}; };
 template <> struct DataTypeTraits<tcu::Mat2>		{ enum { DATATYPE = TYPE_FLOAT_MAT2			}; };
 template <> struct DataTypeTraits<tcu::Mat2x3>		{ enum { DATATYPE = TYPE_FLOAT_MAT2X3		}; };
 template <> struct DataTypeTraits<tcu::Mat2x4>		{ enum { DATATYPE = TYPE_FLOAT_MAT2X4		}; };
 template <> struct DataTypeTraits<tcu::Mat3x2>		{ enum { DATATYPE = TYPE_FLOAT_MAT3X2		}; };
 template <> struct DataTypeTraits<tcu::Mat3>		{ enum { DATATYPE = TYPE_FLOAT_MAT3			}; };
 template <> struct DataTypeTraits<tcu::Mat3x4>		{ enum { DATATYPE = TYPE_FLOAT_MAT3X4		}; };
 template <> struct DataTypeTraits<tcu::Mat4x2>		{ enum { DATATYPE = TYPE_FLOAT_MAT4X2		}; };
 template <> struct DataTypeTraits<tcu::Mat4x3>		{ enum { DATATYPE = TYPE_FLOAT_MAT4X3		}; };
 template <> struct DataTypeTraits<tcu::Mat4>		{ enum { DATATYPE = TYPE_FLOAT_MAT4			}; };
 template <> struct DataTypeTraits<tcu::Mat2_16b>	{ enum { DATATYPE = TYPE_FLOAT16_MAT2		}; };
 template <> struct DataTypeTraits<tcu::Mat2x3_16b>	{ enum { DATATYPE = TYPE_FLOAT16_MAT2X3		}; };
 template <> struct DataTypeTraits<tcu::Mat2x4_16b>	{ enum { DATATYPE = TYPE_FLOAT16_MAT2X4		}; };
 template <> struct DataTypeTraits<tcu::Mat3x2_16b>	{ enum { DATATYPE = TYPE_FLOAT16_MAT3X2		}; };
 template <> struct DataTypeTraits<tcu::Mat3_16b>	{ enum { DATATYPE = TYPE_FLOAT16_MAT3		}; };
 template <> struct DataTypeTraits<tcu::Mat3x4_16b>	{ enum { DATATYPE = TYPE_FLOAT16_MAT3X4		}; };
 template <> struct DataTypeTraits<tcu::Mat4x2_16b>	{ enum { DATATYPE = TYPE_FLOAT16_MAT4X2		}; };
 template <> struct DataTypeTraits<tcu::Mat4x3_16b>	{ enum { DATATYPE = TYPE_FLOAT16_MAT4X3		}; };
 template <> struct DataTypeTraits<tcu::Mat4_16b>	{ enum { DATATYPE = TYPE_FLOAT16_MAT4		}; };

 template <typename T, int Size>
 struct DataTypeTraits<tcu::Vector<T, Size> >
 {
 	DE_STATIC_ASSERT(TYPE_FLOAT_VEC4 == TYPE_FLOAT + 3);
 	DE_STATIC_ASSERT(TYPE_INT_VEC4 == TYPE_INT + 3);
 	DE_STATIC_ASSERT(TYPE_UINT_VEC4 == TYPE_UINT + 3);
 	DE_STATIC_ASSERT(TYPE_BOOL_VEC4 == TYPE_BOOL + 3);
 	enum { DATATYPE = DataTypeTraits<T>::DATATYPE + Size - 1 };
 };

 template <typename T>
 inline DataType	dataTypeOf (void) { return DataType(DataTypeTraits<T>::DATATYPE); }

 } // glu

 #endif // _GLUSHADERUTIL_HPP
	#ifndef _GLUSHADERUTIL_HPP
	#define _GLUSHADERUTIL_HPP
	/*-------------------------------------------------------------------------
	* drawElements Quality Program OpenGL ES 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 Shader utilities.
	//--------------------------------------------------------------------*/

	#include "tcuDefs.hpp"
	#include "deInt32.h"
	#include "gluRenderContext.hpp"
	#include "tcuVector.hpp"
	#include "tcuVector.hpp"
	#include "tcuMatrix.hpp"

	namespace glu
	{

	// ShadingLanguageVersion

	enum GLSLVersion
	{
	GLSL_VERSION_100_ES = 0, //!< GLSL ES 1.0
	GLSL_VERSION_300_ES, //!< GLSL ES 3.0
	GLSL_VERSION_310_ES, //!< GLSL ES 3.1
	GLSL_VERSION_320_ES, //!< GLSL ES 3.2

	GLSL_VERSION_130, //!< GLSL 1.3
	GLSL_VERSION_140, //!< GLSL 1.4
	GLSL_VERSION_150, //!< GLSL 1.5
	GLSL_VERSION_330, //!< GLSL 3.0
	GLSL_VERSION_400, //!< GLSL 4.0
	GLSL_VERSION_410, //!< GLSL 4.1
	GLSL_VERSION_420, //!< GLSL 4.2
	GLSL_VERSION_430, //!< GLSL 4.3
	GLSL_VERSION_440, //!< GLSL 4.4
	GLSL_VERSION_450, //!< GLSL 4.5
	GLSL_VERSION_460, //!< GLSL 4.6

	GLSL_VERSION_LAST
	};

	const char* getGLSLVersionName (GLSLVersion version);
	const char* getGLSLVersionDeclaration (GLSLVersion version);
	bool glslVersionUsesInOutQualifiers (GLSLVersion version);
	bool glslVersionIsES (GLSLVersion version);
	bool isGLSLVersionSupported (ContextType type, GLSLVersion version);
	GLSLVersion getContextTypeGLSLVersion (ContextType type);

	// ShaderType

	enum ShaderType
	{
	SHADERTYPE_VERTEX = 0,
	SHADERTYPE_FRAGMENT,
	SHADERTYPE_GEOMETRY,
	SHADERTYPE_TESSELLATION_CONTROL,
	SHADERTYPE_TESSELLATION_EVALUATION,
	SHADERTYPE_COMPUTE,

	SHADERTYPE_LAST
	};

	const char* getShaderTypeName (ShaderType shaderType);

	// Precision

	enum Precision
	{
	PRECISION_LOWP = 0,
	PRECISION_MEDIUMP,
	PRECISION_HIGHP,

	PRECISION_LAST
	};

	const char* getPrecisionName (Precision precision);

	// DataType

	enum DataType
	{
	TYPE_INVALID = 0,

	TYPE_FLOAT,
	TYPE_FLOAT_VEC2,
	TYPE_FLOAT_VEC3,
	TYPE_FLOAT_VEC4,
	TYPE_FLOAT_MAT2,
	TYPE_FLOAT_MAT2X3,
	TYPE_FLOAT_MAT2X4,
	TYPE_FLOAT_MAT3X2,
	TYPE_FLOAT_MAT3,
	TYPE_FLOAT_MAT3X4,
	TYPE_FLOAT_MAT4X2,
	TYPE_FLOAT_MAT4X3,
	TYPE_FLOAT_MAT4,

	TYPE_DOUBLE,
	TYPE_DOUBLE_VEC2,
	TYPE_DOUBLE_VEC3,
	TYPE_DOUBLE_VEC4,
	TYPE_DOUBLE_MAT2,
	TYPE_DOUBLE_MAT2X3,
	TYPE_DOUBLE_MAT2X4,
	TYPE_DOUBLE_MAT3X2,
	TYPE_DOUBLE_MAT3,
	TYPE_DOUBLE_MAT3X4,
	TYPE_DOUBLE_MAT4X2,
	TYPE_DOUBLE_MAT4X3,
	TYPE_DOUBLE_MAT4,

	TYPE_INT,
	TYPE_INT_VEC2,
	TYPE_INT_VEC3,
	TYPE_INT_VEC4,

	TYPE_UINT,
	TYPE_UINT_VEC2,
	TYPE_UINT_VEC3,
	TYPE_UINT_VEC4,

	TYPE_BOOL,
	TYPE_BOOL_VEC2,
	TYPE_BOOL_VEC3,
	TYPE_BOOL_VEC4,

	TYPE_SAMPLER_1D,
	TYPE_SAMPLER_2D,
	TYPE_SAMPLER_CUBE,
	TYPE_SAMPLER_1D_ARRAY,
	TYPE_SAMPLER_2D_ARRAY,
	TYPE_SAMPLER_3D,
	TYPE_SAMPLER_CUBE_ARRAY,

	TYPE_SAMPLER_1D_SHADOW,
	TYPE_SAMPLER_2D_SHADOW,
	TYPE_SAMPLER_CUBE_SHADOW,
	TYPE_SAMPLER_1D_ARRAY_SHADOW,
	TYPE_SAMPLER_2D_ARRAY_SHADOW,
	TYPE_SAMPLER_CUBE_ARRAY_SHADOW,

	TYPE_INT_SAMPLER_1D,
	TYPE_INT_SAMPLER_2D,
	TYPE_INT_SAMPLER_CUBE,
	TYPE_INT_SAMPLER_1D_ARRAY,
	TYPE_INT_SAMPLER_2D_ARRAY,
	TYPE_INT_SAMPLER_3D,
	TYPE_INT_SAMPLER_CUBE_ARRAY,

	TYPE_UINT_SAMPLER_1D,
	TYPE_UINT_SAMPLER_2D,
	TYPE_UINT_SAMPLER_CUBE,
	TYPE_UINT_SAMPLER_1D_ARRAY,
	TYPE_UINT_SAMPLER_2D_ARRAY,
	TYPE_UINT_SAMPLER_3D,
	TYPE_UINT_SAMPLER_CUBE_ARRAY,

	TYPE_SAMPLER_2D_MULTISAMPLE,
	TYPE_INT_SAMPLER_2D_MULTISAMPLE,
	TYPE_UINT_SAMPLER_2D_MULTISAMPLE,

	TYPE_IMAGE_2D,
	TYPE_IMAGE_CUBE,
	TYPE_IMAGE_2D_ARRAY,
	TYPE_IMAGE_3D,
	TYPE_IMAGE_CUBE_ARRAY,

	TYPE_INT_IMAGE_2D,
	TYPE_INT_IMAGE_CUBE,
	TYPE_INT_IMAGE_2D_ARRAY,
	TYPE_INT_IMAGE_3D,
	TYPE_INT_IMAGE_CUBE_ARRAY,

	TYPE_UINT_IMAGE_2D,
	TYPE_UINT_IMAGE_CUBE,
	TYPE_UINT_IMAGE_2D_ARRAY,
	TYPE_UINT_IMAGE_3D,
	TYPE_UINT_IMAGE_CUBE_ARRAY,

	TYPE_UINT_ATOMIC_COUNTER,

	TYPE_SAMPLER_BUFFER,
	TYPE_INT_SAMPLER_BUFFER,
	TYPE_UINT_SAMPLER_BUFFER,

	TYPE_SAMPLER_2D_MULTISAMPLE_ARRAY,
	TYPE_INT_SAMPLER_2D_MULTISAMPLE_ARRAY,
	TYPE_UINT_SAMPLER_2D_MULTISAMPLE_ARRAY,

	TYPE_IMAGE_BUFFER,
	TYPE_INT_IMAGE_BUFFER,
	TYPE_UINT_IMAGE_BUFFER,

	TYPE_UINT8,
	TYPE_UINT8_VEC2,
	TYPE_UINT8_VEC3,
	TYPE_UINT8_VEC4,

	TYPE_INT8,
	TYPE_INT8_VEC2,
	TYPE_INT8_VEC3,
	TYPE_INT8_VEC4,

	TYPE_UINT16,
	TYPE_UINT16_VEC2,
	TYPE_UINT16_VEC3,
	TYPE_UINT16_VEC4,

	TYPE_INT16,
	TYPE_INT16_VEC2,
	TYPE_INT16_VEC3,
	TYPE_INT16_VEC4,

	TYPE_FLOAT16,
	TYPE_FLOAT16_VEC2,
	TYPE_FLOAT16_VEC3,
	TYPE_FLOAT16_VEC4,
	TYPE_FLOAT16_MAT2,
	TYPE_FLOAT16_MAT2X3,
	TYPE_FLOAT16_MAT2X4,
	TYPE_FLOAT16_MAT3X2,
	TYPE_FLOAT16_MAT3,
	TYPE_FLOAT16_MAT3X4,
	TYPE_FLOAT16_MAT4X2,
	TYPE_FLOAT16_MAT4X3,
	TYPE_FLOAT16_MAT4,

	TYPE_LAST
	};

	const char* getDataTypeName (DataType dataType);
	int getDataTypeScalarSize (DataType dataType);
	DataType getDataTypeScalarType (DataType dataType);
	DataType getDataTypeFloat16Scalars (DataType dataType);
	DataType getDataTypeFloatScalars (DataType dataType);
	DataType getDataTypeDoubleScalars (DataType dataType);
	DataType getDataTypeVector (DataType scalarType, int size);
	DataType getDataTypeFloatVec (int vecSize);
	DataType getDataTypeIntVec (int vecSize);
	DataType getDataTypeUintVec (int vecSize);
	DataType getDataTypeBoolVec (int vecSize);
	DataType getDataTypeMatrix (int numCols, int numRows);
	DataType getDataTypeFromGLType (deUint32 glType);

	inline bool isDataTypeFloat16OrVec (DataType dataType) { return (dataType >= TYPE_FLOAT16) && (dataType <= TYPE_FLOAT16_MAT4); }
	inline bool isDataTypeFloatOrVec (DataType dataType) { return (dataType >= TYPE_FLOAT) && (dataType <= TYPE_FLOAT_VEC4); }
	inline bool isDataTypeFloatType (DataType dataType) { return (dataType >= TYPE_FLOAT) && (dataType <= TYPE_FLOAT_MAT4); }
	inline bool isDataTypeDoubleOrDVec (DataType dataType) { return (dataType >= TYPE_DOUBLE) && (dataType <= TYPE_DOUBLE_VEC4); }
	inline bool isDataTypeMatrix (DataType dataType) {
	return ((dataType >= TYPE_FLOAT_MAT2) && (dataType <= TYPE_FLOAT_MAT4))
	\|\| ((dataType >= TYPE_DOUBLE_MAT2) && (dataType <= TYPE_DOUBLE_MAT4))
	\|\| ((dataType >= TYPE_FLOAT16_MAT2) && (dataType <= TYPE_FLOAT16_MAT4))
	;
	}
	inline bool isDataTypeIntOrIVec (DataType dataType) { return (dataType >= TYPE_INT) && (dataType <= TYPE_INT_VEC4); }
	inline bool isDataTypeUintOrUVec (DataType dataType) { return (dataType >= TYPE_UINT) && (dataType <= TYPE_UINT_VEC4); }
	inline bool isDataTypeBoolOrBVec (DataType dataType) { return (dataType >= TYPE_BOOL) && (dataType <= TYPE_BOOL_VEC4); }
	inline bool isDataTypeScalar (DataType dataType) {
	return (dataType == TYPE_FLOAT)
	\|\| (dataType == TYPE_DOUBLE)
	\|\| (dataType == TYPE_INT)
	\|\| (dataType == TYPE_UINT)
	\|\| (dataType == TYPE_BOOL)
	\|\| (dataType == TYPE_UINT8)
	\|\| (dataType == TYPE_INT8)
	\|\| (dataType == TYPE_UINT16)
	\|\| (dataType == TYPE_INT16)
	\|\| (dataType == TYPE_FLOAT16)
	;
	}
	inline bool isDataTypeVector (DataType dataType) {
	return deInRange32(dataType, TYPE_FLOAT_VEC2, TYPE_FLOAT_VEC4)
	\|\| deInRange32(dataType, TYPE_DOUBLE_VEC2, TYPE_DOUBLE_VEC4)
	\|\| deInRange32(dataType, TYPE_INT_VEC2, TYPE_INT_VEC4)
	\|\| deInRange32(dataType, TYPE_UINT_VEC2, TYPE_UINT_VEC4)
	\|\| deInRange32(dataType, TYPE_BOOL_VEC2, TYPE_BOOL_VEC4)
	\|\| deInRange32(dataType, TYPE_UINT8_VEC2, TYPE_UINT8_VEC4)
	\|\| deInRange32(dataType, TYPE_INT8_VEC2, TYPE_INT8_VEC4)
	\|\| deInRange32(dataType, TYPE_UINT16_VEC2, TYPE_UINT16_VEC4)
	\|\| deInRange32(dataType, TYPE_INT16_VEC2, TYPE_INT16_VEC4)
	\|\| deInRange32(dataType, TYPE_FLOAT16_VEC2, TYPE_FLOAT16_VEC4)
	;
	}
	inline bool isDataTypeScalarOrVector (DataType dataType) {
	return deInRange32(dataType, TYPE_FLOAT, TYPE_FLOAT_VEC4)
	\|\| deInRange32(dataType, TYPE_DOUBLE, TYPE_DOUBLE_VEC4)
	\|\| deInRange32(dataType, TYPE_INT, TYPE_INT_VEC4)
	\|\| deInRange32(dataType, TYPE_UINT, TYPE_UINT_VEC4)
	\|\| deInRange32(dataType, TYPE_BOOL, TYPE_BOOL_VEC4)
	\|\| deInRange32(dataType, TYPE_UINT8, TYPE_UINT8_VEC4)
	\|\| deInRange32(dataType, TYPE_INT8, TYPE_INT8_VEC4)
	\|\| deInRange32(dataType, TYPE_UINT16, TYPE_UINT16_VEC4)
	\|\| deInRange32(dataType, TYPE_INT16, TYPE_INT16_VEC4)
	\|\| deInRange32(dataType, TYPE_FLOAT16, TYPE_FLOAT16_VEC4)
	;
	}
	inline bool isDataTypeSampler (DataType dataType) { return (dataType >= TYPE_SAMPLER_1D) && (dataType <= TYPE_UINT_SAMPLER_2D_MULTISAMPLE); }
	inline bool isDataTypeImage (DataType dataType) { return (dataType >= TYPE_IMAGE_2D) && (dataType <= TYPE_UINT_IMAGE_3D); }
	inline bool isDataTypeSamplerMultisample (DataType dataType) { return (dataType >= TYPE_SAMPLER_2D_MULTISAMPLE) && (dataType <= TYPE_UINT_SAMPLER_2D_MULTISAMPLE); }
	inline bool isDataTypeAtomicCounter (DataType dataType) { return dataType == TYPE_UINT_ATOMIC_COUNTER; }
	inline bool isDataTypeSamplerBuffer (DataType dataType) { return (dataType >= TYPE_SAMPLER_BUFFER) && (dataType <= TYPE_UINT_SAMPLER_BUFFER); }
	inline bool isDataTypeSamplerMSArray (DataType dataType) { return (dataType >= TYPE_SAMPLER_2D_MULTISAMPLE_ARRAY) && (dataType <= TYPE_UINT_SAMPLER_2D_MULTISAMPLE_ARRAY); }
	inline bool isDataTypeImageBuffer (DataType dataType) { return (dataType >= TYPE_IMAGE_BUFFER) && (dataType <= TYPE_UINT_IMAGE_BUFFER); }
	inline bool isDataTypeExplicitPrecision (DataType dataType) {
	return deInRange32(dataType, TYPE_UINT8, TYPE_UINT8_VEC4)
	\|\| deInRange32(dataType, TYPE_INT8, TYPE_INT8_VEC4)
	\|\| deInRange32(dataType, TYPE_UINT16, TYPE_UINT16_VEC4)
	\|\| deInRange32(dataType, TYPE_INT16, TYPE_INT16_VEC4)
	\|\| deInRange32(dataType, TYPE_FLOAT16, TYPE_FLOAT16_VEC4)
	;
	}
	inline bool dataTypeSupportsPrecisionModifier (DataType dataType) { return !isDataTypeBoolOrBVec(dataType) && !isDataTypeExplicitPrecision(dataType); }

	int getDataTypeMatrixNumRows (DataType dataType);
	int getDataTypeMatrixNumColumns (DataType dataType);

	int getDataTypeNumLocations (DataType dataType);
	int getDataTypeNumComponents (DataType dataType);

	template <typename T>
	struct DataTypeTraits;

	template <> struct DataTypeTraits<deUint16> { enum { DATATYPE = TYPE_FLOAT16 }; };
	template <> struct DataTypeTraits<float> { enum { DATATYPE = TYPE_FLOAT }; };
	template <> struct DataTypeTraits<bool> { enum { DATATYPE = TYPE_BOOL }; };
	template <> struct DataTypeTraits<int> { enum { DATATYPE = TYPE_INT }; };
	template <> struct DataTypeTraits<deUint32> { enum { DATATYPE = TYPE_UINT }; };
	template <> struct DataTypeTraits<tcu::Mat2> { enum { DATATYPE = TYPE_FLOAT_MAT2 }; };
	template <> struct DataTypeTraits<tcu::Mat2x3> { enum { DATATYPE = TYPE_FLOAT_MAT2X3 }; };
	template <> struct DataTypeTraits<tcu::Mat2x4> { enum { DATATYPE = TYPE_FLOAT_MAT2X4 }; };
	template <> struct DataTypeTraits<tcu::Mat3x2> { enum { DATATYPE = TYPE_FLOAT_MAT3X2 }; };
	template <> struct DataTypeTraits<tcu::Mat3> { enum { DATATYPE = TYPE_FLOAT_MAT3 }; };
	template <> struct DataTypeTraits<tcu::Mat3x4> { enum { DATATYPE = TYPE_FLOAT_MAT3X4 }; };
	template <> struct DataTypeTraits<tcu::Mat4x2> { enum { DATATYPE = TYPE_FLOAT_MAT4X2 }; };
	template <> struct DataTypeTraits<tcu::Mat4x3> { enum { DATATYPE = TYPE_FLOAT_MAT4X3 }; };
	template <> struct DataTypeTraits<tcu::Mat4> { enum { DATATYPE = TYPE_FLOAT_MAT4 }; };
	template <> struct DataTypeTraits<tcu::Mat2_16b> { enum { DATATYPE = TYPE_FLOAT16_MAT2 }; };
	template <> struct DataTypeTraits<tcu::Mat2x3_16b> { enum { DATATYPE = TYPE_FLOAT16_MAT2X3 }; };
	template <> struct DataTypeTraits<tcu::Mat2x4_16b> { enum { DATATYPE = TYPE_FLOAT16_MAT2X4 }; };
	template <> struct DataTypeTraits<tcu::Mat3x2_16b> { enum { DATATYPE = TYPE_FLOAT16_MAT3X2 }; };
	template <> struct DataTypeTraits<tcu::Mat3_16b> { enum { DATATYPE = TYPE_FLOAT16_MAT3 }; };
	template <> struct DataTypeTraits<tcu::Mat3x4_16b> { enum { DATATYPE = TYPE_FLOAT16_MAT3X4 }; };
	template <> struct DataTypeTraits<tcu::Mat4x2_16b> { enum { DATATYPE = TYPE_FLOAT16_MAT4X2 }; };
	template <> struct DataTypeTraits<tcu::Mat4x3_16b> { enum { DATATYPE = TYPE_FLOAT16_MAT4X3 }; };
	template <> struct DataTypeTraits<tcu::Mat4_16b> { enum { DATATYPE = TYPE_FLOAT16_MAT4 }; };

	template <typename T, int Size>
	struct DataTypeTraits<tcu::Vector<T, Size> >
	{
	DE_STATIC_ASSERT(TYPE_FLOAT_VEC4 == TYPE_FLOAT + 3);
	DE_STATIC_ASSERT(TYPE_INT_VEC4 == TYPE_INT + 3);
	DE_STATIC_ASSERT(TYPE_UINT_VEC4 == TYPE_UINT + 3);
	DE_STATIC_ASSERT(TYPE_BOOL_VEC4 == TYPE_BOOL + 3);
	enum { DATATYPE = DataTypeTraits<T>::DATATYPE + Size - 1 };
	};

	template <typename T>
	inline DataType dataTypeOf (void) { return DataType(DataTypeTraits<T>::DATATYPE); }

	} // glu

	#endif // _GLUSHADERUTIL_HPP