660 lines
24 KiB
C
660 lines
24 KiB
C
/* -*- tab-width: 4; -*- */
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/* vi: set sw=2 ts=4 expandtab: */
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/* Copyright 2019-2020 The Khronos Group Inc.
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* SPDX-License-Identifier: Apache-2.0
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*/
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/**
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* @file
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* @~English
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* @brief Utilities for creating data format descriptors.
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*/
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/*
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* Author: Andrew Garrard
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*/
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#include <stdlib.h>
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#include <KHR/khr_df.h>
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#include "dfd.h"
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typedef enum { i_COLOR, i_NON_COLOR } channels_infotype;
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static uint32_t *writeHeader(int numSamples, int bytes, int suffix,
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channels_infotype infotype)
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{
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uint32_t *DFD = (uint32_t *) malloc(sizeof(uint32_t) *
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(1 + KHR_DF_WORD_SAMPLESTART +
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numSamples * KHR_DF_WORD_SAMPLEWORDS));
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uint32_t* BDFD = DFD+1;
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DFD[0] = sizeof(uint32_t) *
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(1 + KHR_DF_WORD_SAMPLESTART +
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numSamples * KHR_DF_WORD_SAMPLEWORDS);
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BDFD[KHR_DF_WORD_VENDORID] =
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(KHR_DF_VENDORID_KHRONOS << KHR_DF_SHIFT_VENDORID) |
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(KHR_DF_KHR_DESCRIPTORTYPE_BASICFORMAT << KHR_DF_SHIFT_DESCRIPTORTYPE);
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BDFD[KHR_DF_WORD_VERSIONNUMBER] =
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(KHR_DF_VERSIONNUMBER_LATEST << KHR_DF_SHIFT_VERSIONNUMBER) |
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(((uint32_t)sizeof(uint32_t) *
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(KHR_DF_WORD_SAMPLESTART +
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numSamples * KHR_DF_WORD_SAMPLEWORDS)
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<< KHR_DF_SHIFT_DESCRIPTORBLOCKSIZE));
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BDFD[KHR_DF_WORD_MODEL] =
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((KHR_DF_MODEL_RGBSDA << KHR_DF_SHIFT_MODEL) | /* Only supported model */
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(KHR_DF_FLAG_ALPHA_STRAIGHT << KHR_DF_SHIFT_FLAGS));
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if (infotype == i_COLOR) {
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BDFD[KHR_DF_WORD_PRIMARIES] |= KHR_DF_PRIMARIES_BT709 << KHR_DF_SHIFT_PRIMARIES; /* Assumed */
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} else {
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BDFD[KHR_DF_WORD_PRIMARIES] |= KHR_DF_PRIMARIES_UNSPECIFIED << KHR_DF_SHIFT_PRIMARIES;
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}
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if (suffix == s_SRGB) {
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BDFD[KHR_DF_WORD_TRANSFER] |= KHR_DF_TRANSFER_SRGB << KHR_DF_SHIFT_TRANSFER;
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} else {
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BDFD[KHR_DF_WORD_TRANSFER] |= KHR_DF_TRANSFER_LINEAR << KHR_DF_SHIFT_TRANSFER;
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}
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BDFD[KHR_DF_WORD_TEXELBLOCKDIMENSION0] = 0; /* Only 1x1x1x1 texel blocks supported */
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BDFD[KHR_DF_WORD_BYTESPLANE0] = bytes; /* bytesPlane0 = bytes, bytesPlane3..1 = 0 */
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BDFD[KHR_DF_WORD_BYTESPLANE4] = 0; /* bytesPlane7..5 = 0 */
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return DFD;
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}
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static uint32_t setChannelFlags(uint32_t channel, enum VkSuffix suffix)
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{
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switch (suffix) {
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case s_UNORM: break;
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case s_SNORM:
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channel |=
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KHR_DF_SAMPLE_DATATYPE_SIGNED;
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break;
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case s_USCALED: break;
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case s_SSCALED:
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channel |=
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KHR_DF_SAMPLE_DATATYPE_SIGNED;
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break;
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case s_UINT: break;
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case s_SINT:
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channel |=
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KHR_DF_SAMPLE_DATATYPE_SIGNED;
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break;
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case s_SFLOAT:
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channel |=
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KHR_DF_SAMPLE_DATATYPE_FLOAT |
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KHR_DF_SAMPLE_DATATYPE_SIGNED;
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break;
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case s_UFLOAT:
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channel |=
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KHR_DF_SAMPLE_DATATYPE_FLOAT;
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break;
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case s_SRGB:
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if (channel == KHR_DF_CHANNEL_RGBSDA_ALPHA) {
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channel |= KHR_DF_SAMPLE_DATATYPE_LINEAR;
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}
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break;
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}
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return channel;
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}
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static void writeSample(uint32_t *DFD, int sampleNo, int channel,
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int bits, int offset,
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int topSample, int bottomSample, enum VkSuffix suffix)
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{
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// Use this to avoid type-punning complaints from the gcc optimizer
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// with -Wall.
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union {
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uint32_t i;
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float f;
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} lower, upper;
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uint32_t *sample = DFD + 1 + KHR_DF_WORD_SAMPLESTART + sampleNo * KHR_DF_WORD_SAMPLEWORDS;
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if (channel == 3) channel = KHR_DF_CHANNEL_RGBSDA_ALPHA;
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if (channel == 3) channel = KHR_DF_CHANNEL_RGBSDA_ALPHA;
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channel = setChannelFlags(channel, suffix);
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sample[KHR_DF_SAMPLEWORD_BITOFFSET] =
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(offset << KHR_DF_SAMPLESHIFT_BITOFFSET) |
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((bits - 1) << KHR_DF_SAMPLESHIFT_BITLENGTH) |
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(channel << KHR_DF_SAMPLESHIFT_CHANNELID);
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sample[KHR_DF_SAMPLEWORD_SAMPLEPOSITION_ALL] = 0;
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switch (suffix) {
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case s_UNORM:
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case s_SRGB:
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default:
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if (bits > 32) {
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upper.i = 0xFFFFFFFFU;
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} else {
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upper.i = (uint32_t)((1U << bits) - 1U);
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}
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lower.i = 0U;
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break;
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case s_SNORM:
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if (bits > 32) {
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upper.i = 0x7FFFFFFF;
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} else {
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upper.i = topSample ? (1U << (bits - 1)) - 1 : (1U << bits) - 1;
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}
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lower.i = ~upper.i;
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if (bottomSample) lower.i += 1;
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break;
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case s_USCALED:
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case s_UINT:
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upper.i = bottomSample ? 1U : 0U;
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lower.i = 0U;
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break;
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case s_SSCALED:
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case s_SINT:
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upper.i = bottomSample ? 1U : 0U;
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lower.i = ~0U;
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break;
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case s_SFLOAT:
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upper.f = 1.0f;
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lower.f = -1.0f;
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break;
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case s_UFLOAT:
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upper.f = 1.0f;
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lower.f = 0.0f;
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break;
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}
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sample[KHR_DF_SAMPLEWORD_SAMPLELOWER] = lower.i;
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sample[KHR_DF_SAMPLEWORD_SAMPLEUPPER] = upper.i;
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}
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/**
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* @~English
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* @brief Create a Data Format Descriptor for an unpacked format.
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*
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* @param bigEndian Set to 1 for big-endian byte ordering and
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0 for little-endian byte ordering.
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* @param numChannels The number of color channels.
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* @param bytes The number of bytes per channel.
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* @param redBlueSwap Normally channels appear in consecutive R, G, B, A order
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* in memory; redBlueSwap inverts red and blue, allowing
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* B, G, R, A.
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* @param suffix Indicates the format suffix for the type.
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*
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* @return A data format descriptor in malloc'd data. The caller is responsible
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* for freeing the descriptor.
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**/
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uint32_t *createDFDUnpacked(int bigEndian, int numChannels, int bytes,
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int redBlueSwap, enum VkSuffix suffix)
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{
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uint32_t *DFD;
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if (bigEndian) {
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int channelCounter, channelByte;
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/* Number of samples = number of channels * bytes per channel */
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DFD = writeHeader(numChannels * bytes, numChannels * bytes, suffix, i_COLOR);
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/* First loop over the channels */
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for (channelCounter = 0; channelCounter < numChannels; ++channelCounter) {
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int channel = channelCounter;
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if (redBlueSwap && (channel == 0 || channel == 2)) {
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channel ^= 2;
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}
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/* Loop over the bytes that constitute a channel */
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for (channelByte = 0; channelByte < bytes; ++channelByte) {
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writeSample(DFD, channelCounter * bytes + channelByte, channel,
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8, 8 * (channelCounter * bytes + bytes - channelByte - 1),
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channelByte == bytes-1, channelByte == 0, suffix);
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}
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}
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} else { /* Little-endian */
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int sampleCounter;
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/* One sample per channel */
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DFD = writeHeader(numChannels, numChannels * bytes, suffix, i_COLOR);
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for (sampleCounter = 0; sampleCounter < numChannels; ++sampleCounter) {
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int channel = sampleCounter;
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if (redBlueSwap && (channel == 0 || channel == 2)) {
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channel ^= 2;
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}
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writeSample(DFD, sampleCounter, channel,
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8 * bytes, 8 * sampleCounter * bytes,
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1, 1, suffix);
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}
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}
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return DFD;
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}
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/**
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* @~English
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* @brief Create a Data Format Descriptor for a packed format.
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*
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* @param bigEndian Big-endian flag: Set to 1 for big-endian byte ordering and
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* 0 for little-endian byte ordering.
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* @param numChannels The number of color channels.
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* @param bits[] An array of length numChannels.
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* Each entry is the number of bits composing the channel, in
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* order starting at bit 0 of the packed type.
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* @param channels[] An array of length numChannels.
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* Each entry enumerates the channel type: 0 = red, 1 = green,
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* 2 = blue, 15 = alpha, in order starting at bit 0 of the
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* packed type. These values match channel IDs for RGBSDA in
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* the Khronos Data Format header. To simplify iteration
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* through channels, channel id 3 is a synonym for alpha.
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* @param suffix Indicates the format suffix for the type.
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*
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* @return A data format descriptor in malloc'd data. The caller is responsible
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* for freeing the descriptor.
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**/
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uint32_t *createDFDPacked(int bigEndian, int numChannels,
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int bits[], int channels[],
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enum VkSuffix suffix)
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{
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uint32_t *DFD = 0;
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if (numChannels == 6) {
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/* Special case E5B9G9R9 */
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DFD = writeHeader(numChannels, 4, s_UFLOAT, i_COLOR);
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writeSample(DFD, 0, 0,
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9, 0,
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1, 1, s_UNORM);
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KHR_DFDSETSVAL((DFD+1), 0, SAMPLEUPPER, 8448);
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writeSample(DFD, 1, 0 | KHR_DF_SAMPLE_DATATYPE_EXPONENT,
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5, 27,
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1, 1, s_UNORM);
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KHR_DFDSETSVAL((DFD+1), 1, SAMPLELOWER, 15);
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KHR_DFDSETSVAL((DFD+1), 1, SAMPLEUPPER, 31);
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writeSample(DFD, 2, 1,
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9, 9,
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1, 1, s_UNORM);
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KHR_DFDSETSVAL((DFD+1), 2, SAMPLEUPPER, 8448);
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writeSample(DFD, 3, 1 | KHR_DF_SAMPLE_DATATYPE_EXPONENT,
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5, 27,
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1, 1, s_UNORM);
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KHR_DFDSETSVAL((DFD+1), 3, SAMPLELOWER, 15);
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KHR_DFDSETSVAL((DFD+1), 3, SAMPLEUPPER, 31);
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writeSample(DFD, 4, 2,
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9, 18,
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1, 1, s_UNORM);
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KHR_DFDSETSVAL((DFD+1), 4, SAMPLEUPPER, 8448);
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writeSample(DFD, 5, 2 | KHR_DF_SAMPLE_DATATYPE_EXPONENT,
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5, 27,
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1, 1, s_UNORM);
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KHR_DFDSETSVAL((DFD+1), 5, SAMPLELOWER, 15);
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KHR_DFDSETSVAL((DFD+1), 5, SAMPLEUPPER, 31);
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} else if (bigEndian) {
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/* No packed format is larger than 32 bits. */
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/* No packed channel crosses more than two bytes. */
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int totalBits = 0;
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int bitChannel[32];
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int beChannelStart[4];
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int channelCounter;
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int bitOffset = 0;
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int BEMask;
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int numSamples = numChannels;
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int sampleCounter;
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for (channelCounter = 0; channelCounter < numChannels; ++channelCounter) {
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beChannelStart[channelCounter] = totalBits;
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totalBits += bits[channelCounter];
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}
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BEMask = (totalBits - 1) & 0x18;
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for (channelCounter = 0; channelCounter < numChannels; ++channelCounter) {
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bitChannel[bitOffset ^ BEMask] = channelCounter;
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if (((bitOffset + bits[channelCounter] - 1) & ~7) != (bitOffset & ~7)) {
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/* Continuation sample */
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bitChannel[((bitOffset + bits[channelCounter] - 1) & ~7) ^ BEMask] = channelCounter;
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numSamples++;
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}
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bitOffset += bits[channelCounter];
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}
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DFD = writeHeader(numSamples, totalBits >> 3, suffix, i_COLOR);
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sampleCounter = 0;
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for (bitOffset = 0; bitOffset < totalBits;) {
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if (bitChannel[bitOffset] == -1) {
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/* Done this bit, so this is the lower half of something. */
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/* We must therefore jump to the end of the byte and continue. */
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bitOffset = (bitOffset + 8) & ~7;
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} else {
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/* Start of a channel? */
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int thisChannel = bitChannel[bitOffset];
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if ((beChannelStart[thisChannel] ^ BEMask) == bitOffset) {
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/* Must be just one sample if we hit it first. */
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writeSample(DFD, sampleCounter++, channels[thisChannel],
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bits[thisChannel], bitOffset,
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1, 1, suffix);
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bitOffset += bits[thisChannel];
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} else {
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/* Two samples. Move to the end of the first one we hit when we're done. */
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int firstSampleBits = 8 - (beChannelStart[thisChannel] & 0x7); /* Rest of the byte */
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int secondSampleBits = bits[thisChannel] - firstSampleBits; /* Rest of the bits */
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writeSample(DFD, sampleCounter++, channels[thisChannel],
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firstSampleBits, beChannelStart[thisChannel] ^ BEMask,
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0, 1, suffix);
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/* Mark that we've already handled this sample */
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bitChannel[beChannelStart[thisChannel] ^ BEMask] = -1;
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writeSample(DFD, sampleCounter++, channels[thisChannel],
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secondSampleBits, bitOffset,
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1, 0, suffix);
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bitOffset += secondSampleBits;
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}
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}
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}
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} else { /* Little-endian */
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int sampleCounter;
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int totalBits = 0;
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int bitOffset = 0;
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for (sampleCounter = 0; sampleCounter < numChannels; ++sampleCounter) {
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totalBits += bits[sampleCounter];
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}
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/* One sample per channel */
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DFD = writeHeader(numChannels, totalBits >> 3, suffix, i_COLOR);
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for (sampleCounter = 0; sampleCounter < numChannels; ++sampleCounter) {
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writeSample(DFD, sampleCounter, channels[sampleCounter],
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bits[sampleCounter], bitOffset,
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1, 1, suffix);
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bitOffset += bits[sampleCounter];
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}
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}
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return DFD;
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}
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static khr_df_model_e compModelMapping[] = {
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KHR_DF_MODEL_BC1A, /*!< BC1, aka DXT1, no alpha. */
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KHR_DF_MODEL_BC1A, /*!< BC1, aka DXT1, punch-through alpha. */
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KHR_DF_MODEL_BC2, /*!< BC2, aka DXT2 and DXT3. */
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KHR_DF_MODEL_BC3, /*!< BC3, aka DXT4 and DXT5. */
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KHR_DF_MODEL_BC4, /*!< BC4. */
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KHR_DF_MODEL_BC5, /*!< BC5. */
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KHR_DF_MODEL_BC6H, /*!< BC6h HDR format. */
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KHR_DF_MODEL_BC7, /*!< BC7. */
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KHR_DF_MODEL_ETC2, /*!< ETC2 no alpha. */
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KHR_DF_MODEL_ETC2, /*!< ETC2 punch-through alpha. */
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KHR_DF_MODEL_ETC2, /*!< ETC2 independent alpha. */
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KHR_DF_MODEL_ETC2, /*!< R11 ETC2 single-channel. */
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KHR_DF_MODEL_ETC2, /*!< R11G11 ETC2 dual-channel. */
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KHR_DF_MODEL_ASTC, /*!< ASTC. */
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KHR_DF_MODEL_ETC1S, /*!< ETC1S. */
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KHR_DF_MODEL_PVRTC, /*!< PVRTC(1). */
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KHR_DF_MODEL_PVRTC2 /*!< PVRTC2. */
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};
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static uint32_t compSampleCount[] = {
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1U, /*!< BC1, aka DXT1, no alpha. */
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1U, /*!< BC1, aka DXT1, punch-through alpha. */
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2U, /*!< BC2, aka DXT2 and DXT3. */
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2U, /*!< BC3, aka DXT4 and DXT5. */
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1U, /*!< BC4. */
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2U, /*!< BC5. */
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1U, /*!< BC6h HDR format. */
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1U, /*!< BC7. */
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1U, /*!< ETC2 no alpha. */
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2U, /*!< ETC2 punch-through alpha. */
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2U, /*!< ETC2 independent alpha. */
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1U, /*!< R11 ETC2 single-channel. */
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2U, /*!< R11G11 ETC2 dual-channel. */
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1U, /*!< ASTC. */
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1U, /*!< ETC1S. */
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1U, /*!< PVRTC. */
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1U /*!< PVRTC2. */
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};
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static khr_df_model_channels_e compFirstChannel[] = {
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KHR_DF_CHANNEL_BC1A_COLOR, /*!< BC1, aka DXT1, no alpha. */
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KHR_DF_CHANNEL_BC1A_ALPHAPRESENT, /*!< BC1, aka DXT1, punch-through alpha. */
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KHR_DF_CHANNEL_BC2_ALPHA, /*!< BC2, aka DXT2 and DXT3. */
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KHR_DF_CHANNEL_BC3_ALPHA, /*!< BC3, aka DXT4 and DXT5. */
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KHR_DF_CHANNEL_BC4_DATA, /*!< BC4. */
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KHR_DF_CHANNEL_BC5_RED, /*!< BC5. */
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KHR_DF_CHANNEL_BC6H_COLOR, /*!< BC6h HDR format. */
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KHR_DF_CHANNEL_BC7_COLOR, /*!< BC7. */
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KHR_DF_CHANNEL_ETC2_COLOR, /*!< ETC2 no alpha. */
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KHR_DF_CHANNEL_ETC2_COLOR, /*!< ETC2 punch-through alpha. */
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KHR_DF_CHANNEL_ETC2_ALPHA, /*!< ETC2 independent alpha. */
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KHR_DF_CHANNEL_ETC2_RED, /*!< R11 ETC2 single-channel. */
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KHR_DF_CHANNEL_ETC2_RED, /*!< R11G11 ETC2 dual-channel. */
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KHR_DF_CHANNEL_ASTC_DATA, /*!< ASTC. */
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KHR_DF_CHANNEL_ETC1S_RGB, /*!< ETC1S. */
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KHR_DF_CHANNEL_PVRTC_COLOR, /*!< PVRTC. */
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KHR_DF_CHANNEL_PVRTC2_COLOR /*!< PVRTC2. */
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};
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static khr_df_model_channels_e compSecondChannel[] = {
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KHR_DF_CHANNEL_BC1A_COLOR, /*!< BC1, aka DXT1, no alpha. */
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KHR_DF_CHANNEL_BC1A_ALPHAPRESENT, /*!< BC1, aka DXT1, punch-through alpha. */
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KHR_DF_CHANNEL_BC2_COLOR, /*!< BC2, aka DXT2 and DXT3. */
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KHR_DF_CHANNEL_BC3_COLOR, /*!< BC3, aka DXT4 and DXT5. */
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KHR_DF_CHANNEL_BC4_DATA, /*!< BC4. */
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KHR_DF_CHANNEL_BC5_GREEN, /*!< BC5. */
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KHR_DF_CHANNEL_BC6H_COLOR, /*!< BC6h HDR format. */
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KHR_DF_CHANNEL_BC7_COLOR, /*!< BC7. */
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KHR_DF_CHANNEL_ETC2_COLOR, /*!< ETC2 no alpha. */
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KHR_DF_CHANNEL_ETC2_ALPHA, /*!< ETC2 punch-through alpha. */
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KHR_DF_CHANNEL_ETC2_COLOR, /*!< ETC2 independent alpha. */
|
|
KHR_DF_CHANNEL_ETC2_RED, /*!< R11 ETC2 single-channel. */
|
|
KHR_DF_CHANNEL_ETC2_GREEN, /*!< R11G11 ETC2 dual-channel. */
|
|
KHR_DF_CHANNEL_ASTC_DATA, /*!< ASTC. */
|
|
KHR_DF_CHANNEL_ETC1S_RGB, /*!< ETC1S. */
|
|
KHR_DF_CHANNEL_PVRTC_COLOR, /*!< PVRTC. */
|
|
KHR_DF_CHANNEL_PVRTC2_COLOR /*!< PVRTC2. */
|
|
};
|
|
|
|
static uint32_t compSecondChannelOffset[] = {
|
|
0U, /*!< BC1, aka DXT1, no alpha. */
|
|
0U, /*!< BC1, aka DXT1, punch-through alpha. */
|
|
64U, /*!< BC2, aka DXT2 and DXT3. */
|
|
64U, /*!< BC3, aka DXT4 and DXT5. */
|
|
0U, /*!< BC4. */
|
|
64U, /*!< BC5. */
|
|
0U, /*!< BC6h HDR format. */
|
|
0U, /*!< BC7. */
|
|
0U, /*!< ETC2 no alpha. */
|
|
0U, /*!< ETC2 punch-through alpha. */
|
|
64U, /*!< ETC2 independent alpha. */
|
|
0U, /*!< R11 ETC2 single-channel. */
|
|
64U, /*!< R11G11 ETC2 dual-channel. */
|
|
0U, /*!< ASTC. */
|
|
0U, /*!< ETC1S. */
|
|
0U, /*!< PVRTC. */
|
|
0U /*!< PVRTC2. */
|
|
};
|
|
|
|
static uint32_t compChannelBits[] = {
|
|
64U, /*!< BC1, aka DXT1, no alpha. */
|
|
64U, /*!< BC1, aka DXT1, punch-through alpha. */
|
|
64U, /*!< BC2, aka DXT2 and DXT3. */
|
|
64U, /*!< BC3, aka DXT4 and DXT5. */
|
|
64U, /*!< BC4. */
|
|
64U, /*!< BC5. */
|
|
128U, /*!< BC6h HDR format. */
|
|
128U, /*!< BC7. */
|
|
64U, /*!< ETC2 no alpha. */
|
|
64U, /*!< ETC2 punch-through alpha. */
|
|
64U, /*!< ETC2 independent alpha. */
|
|
64U, /*!< R11 ETC2 single-channel. */
|
|
64U, /*!< R11G11 ETC2 dual-channel. */
|
|
128U, /*!< ASTC. */
|
|
64U, /*!< ETC1S. */
|
|
64U, /*!< PVRTC. */
|
|
64U /*!< PVRTC2. */
|
|
};
|
|
|
|
static uint32_t compBytes[] = {
|
|
8U, /*!< BC1, aka DXT1, no alpha. */
|
|
8U, /*!< BC1, aka DXT1, punch-through alpha. */
|
|
16U, /*!< BC2, aka DXT2 and DXT3. */
|
|
16U, /*!< BC3, aka DXT4 and DXT5. */
|
|
8U, /*!< BC4. */
|
|
16U, /*!< BC5. */
|
|
16U, /*!< BC6h HDR format. */
|
|
16U, /*!< BC7. */
|
|
8U, /*!< ETC2 no alpha. */
|
|
8U, /*!< ETC2 punch-through alpha. */
|
|
16U, /*!< ETC2 independent alpha. */
|
|
8U, /*!< R11 ETC2 single-channel. */
|
|
16U, /*!< R11G11 ETC2 dual-channel. */
|
|
16U, /*!< ASTC. */
|
|
8U, /*!< ETC1S. */
|
|
8U, /*!< PVRTC. */
|
|
8U /*!< PVRTC2. */
|
|
};
|
|
|
|
/**
|
|
* @~English
|
|
* @brief Create a Data Format Descriptor for a compressed format.
|
|
*
|
|
* @param compScheme Vulkan-style compression scheme enumeration.
|
|
* @param bwidth Block width in texel coordinates.
|
|
* @param bheight Block height in texel coordinates.
|
|
* @param bdepth Block depth in texel coordinates.
|
|
* @author Mark Callow, Edgewise Consulting.
|
|
* @param suffix Indicates the format suffix for the type.
|
|
*
|
|
* @return A data format descriptor in malloc'd data. The caller is responsible
|
|
* for freeing the descriptor.
|
|
**/
|
|
uint32_t *createDFDCompressed(enum VkCompScheme compScheme, int bwidth, int bheight, int bdepth,
|
|
enum VkSuffix suffix)
|
|
{
|
|
uint32_t *DFD = 0;
|
|
uint32_t numSamples = compSampleCount[compScheme];
|
|
uint32_t* BDFD;
|
|
uint32_t *sample;
|
|
uint32_t channel;
|
|
// Use union to avoid type-punning complaints from gcc optimizer
|
|
// with -Wall.
|
|
union {
|
|
uint32_t i;
|
|
float f;
|
|
} lower, upper;
|
|
|
|
DFD = (uint32_t *) malloc(sizeof(uint32_t) *
|
|
(1 + KHR_DF_WORD_SAMPLESTART +
|
|
numSamples * KHR_DF_WORD_SAMPLEWORDS));
|
|
BDFD = DFD+1;
|
|
DFD[0] = sizeof(uint32_t) *
|
|
(1 + KHR_DF_WORD_SAMPLESTART +
|
|
numSamples * KHR_DF_WORD_SAMPLEWORDS);
|
|
BDFD[KHR_DF_WORD_VENDORID] =
|
|
(KHR_DF_VENDORID_KHRONOS << KHR_DF_SHIFT_VENDORID) |
|
|
(KHR_DF_KHR_DESCRIPTORTYPE_BASICFORMAT << KHR_DF_SHIFT_DESCRIPTORTYPE);
|
|
BDFD[KHR_DF_WORD_VERSIONNUMBER] =
|
|
(KHR_DF_VERSIONNUMBER_LATEST << KHR_DF_SHIFT_VERSIONNUMBER) |
|
|
(((uint32_t)sizeof(uint32_t) *
|
|
(KHR_DF_WORD_SAMPLESTART +
|
|
numSamples * KHR_DF_WORD_SAMPLEWORDS)
|
|
<< KHR_DF_SHIFT_DESCRIPTORBLOCKSIZE));
|
|
BDFD[KHR_DF_WORD_MODEL] =
|
|
((compModelMapping[compScheme] << KHR_DF_SHIFT_MODEL) |
|
|
(KHR_DF_PRIMARIES_BT709 << KHR_DF_SHIFT_PRIMARIES) | /* Assumed */
|
|
(KHR_DF_FLAG_ALPHA_STRAIGHT << KHR_DF_SHIFT_FLAGS));
|
|
|
|
if (suffix == s_SRGB) {
|
|
BDFD[KHR_DF_WORD_TRANSFER] |= KHR_DF_TRANSFER_SRGB << KHR_DF_SHIFT_TRANSFER;
|
|
} else {
|
|
BDFD[KHR_DF_WORD_TRANSFER] |= KHR_DF_TRANSFER_LINEAR << KHR_DF_SHIFT_TRANSFER;
|
|
}
|
|
BDFD[KHR_DF_WORD_TEXELBLOCKDIMENSION0] =
|
|
(bwidth - 1) | ((bheight - 1) << KHR_DF_SHIFT_TEXELBLOCKDIMENSION1) | ((bdepth - 1) << KHR_DF_SHIFT_TEXELBLOCKDIMENSION2);
|
|
/* bytesPlane0 = bytes, bytesPlane3..1 = 0 */
|
|
BDFD[KHR_DF_WORD_BYTESPLANE0] = compBytes[compScheme];
|
|
BDFD[KHR_DF_WORD_BYTESPLANE4] = 0; /* bytesPlane7..5 = 0 */
|
|
|
|
sample = BDFD + KHR_DF_WORD_SAMPLESTART;
|
|
channel = compFirstChannel[compScheme];
|
|
channel = setChannelFlags(channel, suffix);
|
|
|
|
sample[KHR_DF_SAMPLEWORD_BITOFFSET] =
|
|
(0 << KHR_DF_SAMPLESHIFT_BITOFFSET) |
|
|
((compChannelBits[compScheme] - 1) << KHR_DF_SAMPLESHIFT_BITLENGTH) |
|
|
(channel << KHR_DF_SAMPLESHIFT_CHANNELID);
|
|
|
|
sample[KHR_DF_SAMPLEWORD_SAMPLEPOSITION_ALL] = 0;
|
|
switch (suffix) {
|
|
case s_UNORM:
|
|
case s_SRGB:
|
|
default:
|
|
upper.i = 0xFFFFFFFFU;
|
|
lower.i = 0U;
|
|
break;
|
|
case s_SNORM:
|
|
upper.i = 0x7FFFFFFF;
|
|
lower.i = ~upper.i;
|
|
break;
|
|
case s_USCALED:
|
|
case s_UINT:
|
|
upper.i = 1U;
|
|
lower.i = 0U;
|
|
break;
|
|
case s_SSCALED:
|
|
case s_SINT:
|
|
upper.i = 1U;
|
|
lower.i = ~0U;
|
|
break;
|
|
case s_SFLOAT:
|
|
upper.f = 1.0f;
|
|
lower.f = -1.0f;
|
|
break;
|
|
case s_UFLOAT:
|
|
upper.f = 1.0f;
|
|
lower.f = 0.0f;
|
|
break;
|
|
}
|
|
sample[KHR_DF_SAMPLEWORD_SAMPLELOWER] = lower.i;
|
|
sample[KHR_DF_SAMPLEWORD_SAMPLEUPPER] = upper.i;
|
|
|
|
if (compSampleCount[compScheme] > 1) {
|
|
sample += KHR_DF_WORD_SAMPLEWORDS;
|
|
channel = compSecondChannel[compScheme];
|
|
channel = setChannelFlags(channel, suffix);
|
|
|
|
sample[KHR_DF_SAMPLEWORD_BITOFFSET] =
|
|
(compSecondChannelOffset[compScheme] << KHR_DF_SAMPLESHIFT_BITOFFSET) |
|
|
((compChannelBits[compScheme] - 1) << KHR_DF_SAMPLESHIFT_BITLENGTH) |
|
|
(channel << KHR_DF_SAMPLESHIFT_CHANNELID);
|
|
|
|
sample[KHR_DF_SAMPLEWORD_SAMPLEPOSITION_ALL] = 0;
|
|
|
|
sample[KHR_DF_SAMPLEWORD_SAMPLELOWER] = lower.i;
|
|
sample[KHR_DF_SAMPLEWORD_SAMPLEUPPER] = upper.i;
|
|
}
|
|
return DFD;
|
|
}
|
|
|
|
/**
|
|
* @~English
|
|
* @brief Create a Data Format Descriptor for a depth-stencil format.
|
|
*
|
|
* @param depthBits The numeber of bits in the depth channel.
|
|
* @param stencilBits The numeber of bits in the stencil channel.
|
|
* @param sizeBytes The total byte size of the texel.
|
|
*
|
|
* @return A data format descriptor in malloc'd data. The caller is responsible
|
|
* for freeing the descriptor.
|
|
**/
|
|
uint32_t *createDFDDepthStencil(int depthBits,
|
|
int stencilBits,
|
|
int sizeBytes)
|
|
{
|
|
/* N.B. Little-endian is assumed. */
|
|
uint32_t *DFD = 0;
|
|
DFD = writeHeader((depthBits > 0) + (stencilBits > 0),
|
|
sizeBytes, s_UNORM, i_NON_COLOR);
|
|
if (depthBits == 32) {
|
|
writeSample(DFD, 0, KHR_DF_CHANNEL_RGBSDA_DEPTH,
|
|
32, 0,
|
|
1, 1, s_SFLOAT);
|
|
} else if (depthBits > 0) {
|
|
writeSample(DFD, 0, KHR_DF_CHANNEL_RGBSDA_DEPTH,
|
|
depthBits, 0,
|
|
1, 1, s_UNORM);
|
|
}
|
|
if (stencilBits > 0) {
|
|
if (depthBits > 0) {
|
|
writeSample(DFD, 1, KHR_DF_CHANNEL_RGBSDA_STENCIL,
|
|
stencilBits, depthBits,
|
|
1, 1, s_UINT);
|
|
} else {
|
|
writeSample(DFD, 0, KHR_DF_CHANNEL_RGBSDA_STENCIL,
|
|
stencilBits, 0,
|
|
1, 1, s_UINT);
|
|
}
|
|
}
|
|
return DFD;
|
|
}
|