virtualx-engine/thirdparty/libktx/lib/dfdutils/dfd.h
2024-04-05 12:18:00 +02:00

236 lines
9.5 KiB
C++

/* -*- tab-width: 4; -*- */
/* vi: set sw=2 ts=4 expandtab: */
/* Copyright 2019-2020 The Khronos Group Inc.
* SPDX-License-Identifier: Apache-2.0
*/
/**
* @file
* @~English
* @brief Header file defining the data format descriptor utilities API.
*/
/*
* Author: Andrew Garrard
*/
#ifndef _DFD_H_
#define _DFD_H_
#include <KHR/khr_df.h>
#include <stdbool.h>
#ifdef __cplusplus
extern "C" {
#endif
/** Qualifier suffix to the format, in Vulkan terms. */
enum VkSuffix {
s_UNORM, /*!< Unsigned normalized format. */
s_SNORM, /*!< Signed normalized format. */
s_USCALED, /*!< Unsigned scaled format. */
s_SSCALED, /*!< Signed scaled format. */
s_UINT, /*!< Unsigned integer format. */
s_SINT, /*!< Signed integer format. */
s_SFLOAT, /*!< Signed float format. */
s_UFLOAT, /*!< Unsigned float format. */
s_SRGB, /*!< sRGB normalized format. */
s_S10_5 /*!< 2's complement fixed-point; 5 fractional bits. */
};
/** Compression scheme, in Vulkan terms. */
enum VkCompScheme {
c_BC1_RGB, /*!< BC1, aka DXT1, no alpha. */
c_BC1_RGBA, /*!< BC1, aka DXT1, punch-through alpha. */
c_BC2, /*!< BC2, aka DXT2 and DXT3. */
c_BC3, /*!< BC3, aka DXT4 and DXT5. */
c_BC4, /*!< BC4. */
c_BC5, /*!< BC5. */
c_BC6H, /*!< BC6h HDR format. */
c_BC7, /*!< BC7. */
c_ETC2_R8G8B8, /*!< ETC2 no alpha. */
c_ETC2_R8G8B8A1, /*!< ETC2 punch-through alpha. */
c_ETC2_R8G8B8A8, /*!< ETC2 independent alpha. */
c_EAC_R11, /*!< R11 ETC2 single-channel. */
c_EAC_R11G11, /*!< R11G11 ETC2 dual-channel. */
c_ASTC, /*!< ASTC. */
c_ETC1S, /*!< ETC1S. */
c_PVRTC, /*!< PVRTC(1). */
c_PVRTC2 /*!< PVRTC2. */
};
typedef unsigned int uint32_t;
#if !defined(LIBKTX)
#include <vulkan/vulkan_core.h>
#else
#include "../vkformat_enum.h"
#endif
uint32_t* vk2dfd(enum VkFormat format);
enum VkFormat dfd2vk(uint32_t* dfd);
/* Create a Data Format Descriptor for an unpacked format. */
uint32_t *createDFDUnpacked(int bigEndian, int numChannels, int bytes,
int redBlueSwap, enum VkSuffix suffix);
/* Create a Data Format Descriptor for a packed padded format. */
uint32_t *createDFDPackedShifted(int bigEndian, int numChannels,
int bits[], int shiftBits[],
int channels[], enum VkSuffix suffix);
/* Create a Data Format Descriptor for a packed format. */
uint32_t *createDFDPacked(int bigEndian, int numChannels,
int bits[], int channels[],
enum VkSuffix suffix);
/* Create a Data Format Descriptor for a 4:2:2 format. */
uint32_t *createDFD422(int bigEndian, int numChannels,
int bits[], int shiftBits[], int channels[],
int position_xs[], int position_ys[],
enum VkSuffix suffix);
/* Create a Data Format Descriptor for a compressed format. */
uint32_t *createDFDCompressed(enum VkCompScheme compScheme,
int bwidth, int bheight, int bdepth,
enum VkSuffix suffix);
/* Create a Data Format Descriptor for a depth/stencil format. */
uint32_t *createDFDDepthStencil(int depthBits,
int stencilBits,
int sizeBytes);
/* Create a Data Format Descriptor for an alpha-only format */
uint32_t *createDFDAlpha(int bigEndian, int bytes,
enum VkSuffix suffix);
/** @brief Result of interpreting the data format descriptor. */
enum InterpretDFDResult {
i_LITTLE_ENDIAN_FORMAT_BIT = 0, /*!< Confirmed little-endian (default for 8bpc). */
i_BIG_ENDIAN_FORMAT_BIT = 1u << 0u, /*!< Confirmed big-endian. */
i_PACKED_FORMAT_BIT = 1u << 1u, /*!< Packed format. */
i_SRGB_FORMAT_BIT = 1u << 2u, /*!< sRGB transfer function. */
i_NORMALIZED_FORMAT_BIT = 1u << 3u, /*!< Normalized (UNORM or SNORM). */
i_SIGNED_FORMAT_BIT = 1u << 4u, /*!< Format is signed. */
i_FIXED_FORMAT_BIT = 1u << 5u, /*!< Format is a fixed-point representation. */
i_FLOAT_FORMAT_BIT = 1u << 6u, /*!< Format is floating point. */
i_COMPRESSED_FORMAT_BIT = 1u << 7u, /*!< Format is block compressed (422). */
i_YUVSDA_FORMAT_BIT = 1u << 8u, /*!< Color model is YUVSDA. */
i_UNSUPPORTED_ERROR_BIT = 1u << 9u, /*!< Format not successfully interpreted. */
/** "NONTRIVIAL_ENDIANNESS" means not big-endian, not little-endian
* (a channel has bits that are not consecutive in either order). **/
i_UNSUPPORTED_NONTRIVIAL_ENDIANNESS = i_UNSUPPORTED_ERROR_BIT,
/** "MULTIPLE_SAMPLE_LOCATIONS" is an error because only single-sample
* texel blocks (with coordinates 0,0,0,0 for all samples) are supported. **/
i_UNSUPPORTED_MULTIPLE_SAMPLE_LOCATIONS = i_UNSUPPORTED_ERROR_BIT + 1,
/** "MULTIPLE_PLANES" is an error because only contiguous data is supported. */
i_UNSUPPORTED_MULTIPLE_PLANES = i_UNSUPPORTED_ERROR_BIT + 2,
/** Only channels R, G, B and A are supported. */
i_UNSUPPORTED_CHANNEL_TYPES = i_UNSUPPORTED_ERROR_BIT + 3,
/** Only channels with the same flags are supported
* (e.g. we don't support float red with integer green). */
i_UNSUPPORTED_MIXED_CHANNELS = i_UNSUPPORTED_ERROR_BIT + 4,
/** Only 2x1 block is supported for YUVSDA model. */
i_UNSUPPORTED_BLOCK_DIMENSIONS = i_UNSUPPORTED_ERROR_BIT + 5,
};
/** @brief Interpretation of a channel from the data format descriptor. */
typedef struct _InterpretedDFDChannel {
uint32_t offset; /*!< Offset in bits for packed, bytes for unpacked. */
uint32_t size; /*!< Size in bits for packed, bytes for unpacked. */
} InterpretedDFDChannel;
/* Interpret a Data Format Descriptor. */
enum InterpretDFDResult interpretDFD(const uint32_t *DFD,
InterpretedDFDChannel *R,
InterpretedDFDChannel *G,
InterpretedDFDChannel *B,
InterpretedDFDChannel *A,
uint32_t *wordBytes);
/* Returns the string representation.
* If there is no direct match or the value is invalid returns NULL */
const char* dfdToStringVendorID(khr_df_vendorid_e value);
/* Returns the string representation.
* If there is no direct match or the value is invalid returns NULL */
const char* dfdToStringDescriptorType(khr_df_khr_descriptortype_e value);
/* Returns the string representation.
* If there is no direct match or the value is invalid returns NULL */
const char* dfdToStringVersionNumber(khr_df_versionnumber_e value);
/* Returns the string representation of a bit in a khr_df_flags_e.
* If there is no direct match or the value is invalid returns NULL */
const char* dfdToStringFlagsBit(uint32_t bit_index, bool bit_value);
/* Returns the string representation.
* If there is no direct match or the value is invalid returns NULL */
const char* dfdToStringTransferFunction(khr_df_transfer_e value);
/* Returns the string representation.
* If there is no direct match or the value is invalid returns NULL */
const char* dfdToStringColorPrimaries(khr_df_primaries_e value);
/* Returns the string representation.
* If there is no direct match or the value is invalid returns NULL */
const char* dfdToStringColorModel(khr_df_model_e value);
/* Returns the string representation of a bit in a khr_df_sample_datatype_qualifiers_e.
* If there is no direct match or the value is invalid returns NULL */
const char* dfdToStringSampleDatatypeQualifiersBit(uint32_t bit_index, bool bit_value);
/* Returns the string representation.
* If there is no direct match or the value is invalid returns NULL */
const char* dfdToStringChannelId(khr_df_model_e model, khr_df_model_channels_e value);
/* Print a human-readable interpretation of a data format descriptor. */
void printDFD(uint32_t *DFD, uint32_t dataSize);
/* Print a JSON interpretation of a data format descriptor. */
void printDFDJSON(uint32_t *DFD, uint32_t dataSize, uint32_t base_indent, uint32_t indent_width, bool minified);
/* Get the number of components & component size from a DFD for an
* unpacked format.
*/
void
getDFDComponentInfoUnpacked(const uint32_t* DFD, uint32_t* numComponents,
uint32_t* componentByteLength);
/* Return the number of components described by a DFD. */
uint32_t getDFDNumComponents(const uint32_t* DFD);
/* Reconstruct and return the value of bytesPlane0 as it should be for the data
* post-inflation from variable-rate compression.
*/
uint32_t
reconstructDFDBytesPlane0FromSamples(const uint32_t* DFD);
/* Deprecated. For backward compatibility. */
void
recreateBytesPlane0FromSampleInfo(const uint32_t* DFD, uint32_t* bytesPlane0);
/** @brief Colourspace primaries information.
*
* Structure to store the 1931 CIE x,y chromaticities of the red, green, and blue
* display primaries and the reference white point of a colourspace.
*/
typedef struct _Primaries {
float Rx; /*!< Red x. */
float Ry; /*!< Red y. */
float Gx; /*!< Green x. */
float Gy; /*!< Green y. */
float Bx; /*!< Blue x. */
float By; /*!< Blue y. */
float Wx; /*!< White x. */
float Wy; /*!< White y. */
} Primaries;
khr_df_primaries_e findMapping(const Primaries *p, float latitude);
bool getPrimaries(khr_df_primaries_e primaries, Primaries *p);
#ifdef __cplusplus
}
#endif
#endif /* _DFD_H_ */