/** * \file format_utils.h * A collection of format conversion utility functions. */ /* * Mesa 3-D graphics library * * Copyright (C) 1999-2006 Brian Paul All Rights Reserved. * Copyright (C) 2014 Intel Corporation All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. */ #ifndef FORMAT_UTILS_H #define FORMAT_UTILS_H #include "imports.h" #include "macros.h" extern const mesa_array_format RGBA32_FLOAT; extern const mesa_array_format RGBA8_UBYTE; extern const mesa_array_format RGBA32_UINT; extern const mesa_array_format RGBA32_INT; /* Only guaranteed to work for BITS <= 32 */ #define MAX_UINT(BITS) ((BITS) == 32 ? UINT32_MAX : ((1u << (BITS)) - 1)) #define MAX_INT(BITS) ((int)MAX_UINT((BITS) - 1)) #define MIN_INT(BITS) ((BITS) == 32 ? INT32_MIN : (-(1 << (BITS - 1)))) /* Extends an integer of size SRC_BITS to one of size DST_BITS linearly */ #define EXTEND_NORMALIZED_INT(X, SRC_BITS, DST_BITS) \ (((X) * (int)(MAX_UINT(DST_BITS) / MAX_UINT(SRC_BITS))) + \ ((DST_BITS % SRC_BITS) ? ((X) >> (SRC_BITS - DST_BITS % SRC_BITS)) : 0)) static inline float _mesa_unorm_to_float(unsigned x, unsigned src_bits) { return x * (1.0f / (float)MAX_UINT(src_bits)); } static inline float _mesa_snorm_to_float(int x, unsigned src_bits) { if (x <= -MAX_INT(src_bits)) return -1.0f; else return x * (1.0f / (float)MAX_INT(src_bits)); } static inline uint16_t _mesa_unorm_to_half(unsigned x, unsigned src_bits) { return _mesa_float_to_half(_mesa_unorm_to_float(x, src_bits)); } static inline uint16_t _mesa_snorm_to_half(int x, unsigned src_bits) { return _mesa_float_to_half(_mesa_snorm_to_float(x, src_bits)); } static inline unsigned _mesa_float_to_unorm(float x, unsigned dst_bits) { if (x < 0.0f) return 0; else if (x > 1.0f) return MAX_UINT(dst_bits); else return F_TO_I(x * MAX_UINT(dst_bits)); } static inline unsigned _mesa_half_to_unorm(uint16_t x, unsigned dst_bits) { return _mesa_float_to_unorm(_mesa_half_to_float(x), dst_bits); } static inline unsigned _mesa_unorm_to_unorm(unsigned x, unsigned src_bits, unsigned dst_bits) { if (src_bits < dst_bits) return EXTEND_NORMALIZED_INT(x, src_bits, dst_bits); else return x >> (src_bits - dst_bits); } static inline unsigned _mesa_snorm_to_unorm(int x, unsigned src_bits, unsigned dst_bits) { if (x < 0) return 0; else return _mesa_unorm_to_unorm(x, src_bits - 1, dst_bits); } static inline int _mesa_float_to_snorm(float x, unsigned dst_bits) { if (x < -1.0f) return -MAX_INT(dst_bits); else if (x > 1.0f) return MAX_INT(dst_bits); else return F_TO_I(x * MAX_INT(dst_bits)); } static inline int _mesa_half_to_snorm(uint16_t x, unsigned dst_bits) { return _mesa_float_to_snorm(_mesa_half_to_float(x), dst_bits); } static inline int _mesa_unorm_to_snorm(unsigned x, unsigned src_bits, unsigned dst_bits) { return _mesa_unorm_to_unorm(x, src_bits, dst_bits - 1); } static inline int _mesa_snorm_to_snorm(int x, unsigned src_bits, unsigned dst_bits) { if (x < -MAX_INT(src_bits)) return -MAX_INT(dst_bits); else if (src_bits < dst_bits) return EXTEND_NORMALIZED_INT(x, src_bits - 1, dst_bits - 1); else return x >> (src_bits - dst_bits); } static inline unsigned _mesa_unsigned_to_unsigned(unsigned src, unsigned dst_size) { return MIN2(src, MAX_UINT(dst_size)); } static inline int _mesa_unsigned_to_signed(unsigned src, unsigned dst_size) { return MIN2(src, MAX_INT(dst_size)); } static inline int _mesa_signed_to_signed(int src, unsigned dst_size) { return CLAMP(src, MIN_INT(dst_size), MAX_INT(dst_size)); } static inline unsigned _mesa_signed_to_unsigned(int src, unsigned dst_size) { return CLAMP(src, 0, MAX_UINT(dst_size)); } static inline unsigned _mesa_float_to_unsigned(float src, unsigned dst_bits) { if (src < 0.0f) return 0; if (src > (float)MAX_UINT(dst_bits)) return MAX_UINT(dst_bits); return _mesa_signed_to_unsigned(src, dst_bits); } static inline unsigned _mesa_float_to_signed(float src, unsigned dst_bits) { if (src < (float)(-MAX_INT(dst_bits))) return -MAX_INT(dst_bits); if (src > (float)MAX_INT(dst_bits)) return MAX_INT(dst_bits); return _mesa_signed_to_signed(src, dst_bits); } static inline unsigned _mesa_half_to_unsigned(uint16_t src, unsigned dst_bits) { if (_mesa_half_is_negative(src)) return 0; return _mesa_unsigned_to_unsigned(_mesa_float_to_half(src), dst_bits); } static inline unsigned _mesa_half_to_signed(uint16_t src, unsigned dst_bits) { return _mesa_float_to_signed(_mesa_half_to_float(src), dst_bits); } bool _mesa_format_to_array(mesa_format, GLenum *type, int *num_components, uint8_t swizzle[4], bool *normalized); void _mesa_swizzle_and_convert(void *dst, enum mesa_array_format_datatype dst_type, int num_dst_channels, const void *src, enum mesa_array_format_datatype src_type, int num_src_channels, const uint8_t swizzle[4], bool normalized, int count); bool _mesa_compute_rgba2base2rgba_component_mapping(GLenum baseFormat, uint8_t *map); void _mesa_format_convert(void *void_dst, uint32_t dst_format, size_t dst_stride, void *void_src, uint32_t src_format, size_t src_stride, size_t width, size_t height, uint8_t *rebase_swizzle); #endif