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kraken/kraken/KRTextureTGA.cpp
kearwood 4a13f3c832 Added VkImage parameter to KRTexture::uploadTexture and all overrides. 
Converted KRTextureTGA from OpenGL to Vulkan
2022-07-19 00:13:42 -07:00

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//
// KRTextureTGA.cpp
// Kraken Engine
//
// Copyright 2022 Kearwood Gilbert. All rights reserved.
//
// Redistribution and use in source and binary forms, with or without modification, are
// permitted provided that the following conditions are met:
//
// 1. Redistributions of source code must retain the above copyright notice, this list of
// conditions and the following disclaimer.
//
// 2. Redistributions in binary form must reproduce the above copyright notice, this list
// of conditions and the following disclaimer in the documentation and/or other materials
// provided with the distribution.
//
// THIS SOFTWARE IS PROVIDED BY KEARWOOD GILBERT ''AS IS'' AND ANY EXPRESS OR IMPLIED
// WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
// FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL KEARWOOD GILBERT OR
// CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
// CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
// SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
// ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
// NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
// ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
//
// The views and conclusions contained in the software and documentation are those of the
// authors and should not be interpreted as representing official policies, either expressed
// or implied, of Kearwood Gilbert.
//
#include "KRTextureTGA.h"
#include "KREngine-common.h"
#include "KRContext.h"
#include "KRTextureKTX.h"
#if defined(_WIN32) || defined(_WIN64)
#pragma pack(1)
typedef struct {
char idlength;
char colourmaptype;
char imagetype;
short int colourmaporigin;
short int colourmaplength;
char colourmapdepth;
short int x_origin;
short int y_origin;
short width;
short height;
char bitsperpixel;
char imagedescriptor;
} TGA_HEADER;
#pragma pack()
#else
typedef struct {
char idlength;
char colourmaptype;
char imagetype;
short int colourmaporigin;
short int colourmaplength;
char colourmapdepth;
short int x_origin;
short int y_origin;
short width;
short height;
char bitsperpixel;
char imagedescriptor;
} __attribute__((packed)) TGA_HEADER;
#endif
KRTextureTGA::KRTextureTGA(KRContext &context, KRDataBlock *data, std::string name) : KRTexture2D(context, data, name)
{
data->lock();
TGA_HEADER *pHeader = (TGA_HEADER *)data->getStart();
m_dimensions.x = pHeader->width;
m_dimensions.y = pHeader->height;
m_max_lod_max_dim = pHeader->width > pHeader->height ? pHeader->width : pHeader->height;
m_min_lod_max_dim = m_max_lod_max_dim; // Mipmaps not yet supported for TGA images
switch(pHeader->imagetype) {
case 2: // rgb
case 10: // rgb + rle
switch(pHeader->bitsperpixel) {
case 24:
{
m_imageSize = pHeader->width * pHeader->height * 4;
}
break;
case 32:
{
m_imageSize = pHeader->width * pHeader->height * 4;
}
break;
default:
{
assert(false);
}
break;
}
break;
default:
{
assert(false);
break;
}
}
data->unlock();
}
KRTextureTGA::~KRTextureTGA()
{
}
bool KRTextureTGA::uploadTexture(KRDevice& device, VkImage& image, int lod_max_dim, int &current_lod_max_dim, bool compress, bool premultiply_alpha)
{
// TODO - Vulkan Refactoring - Perhaps it would be more efficient to reformat the color channels during the copy to the staging buffer.
m_pData->lock();
TGA_HEADER *pHeader = (TGA_HEADER *)m_pData->getStart();
unsigned char *pData = (unsigned char *)pHeader + (long)pHeader->idlength + (long)pHeader->colourmaplength * (long)pHeader->colourmaptype + sizeof(TGA_HEADER);
/*
* TODO - Vulkan refactoring to support compressing textures on load
GLenum internal_format = GL_RGBA;
if(compress) {
internal_format = pHeader->bitsperpixel == 24 ? GL_COMPRESSED_RGB_S3TC_DXT1_EXT : GL_COMPRESSED_RGBA_S3TC_DXT5_EXT;
}
*/
if(pHeader->colourmaptype != 0) {
m_pData->unlock();
return false; // Mapped colors not supported
}
Vector2i dimensions = { pHeader->width, pHeader->height };
switch(pHeader->imagetype) {
case 2: // rgb
switch(pHeader->bitsperpixel) {
case 24:
{
unsigned char *converted_image = (unsigned char *)malloc(pHeader->width * pHeader->height * 4);
unsigned char *pSource = pData;
unsigned char *pDest = converted_image;
unsigned char *pEnd = pData + pHeader->height * pHeader->width * 3;
while(pSource < pEnd) {
*pDest++ = pSource[2];
*pDest++ = pSource[1];
*pDest++ = pSource[0];
*pDest++ = 0xff;
pSource += 3;
}
assert(pSource <= m_pData->getEnd());
device.streamUpload((void *)converted_image, pDest - converted_image, dimensions, image);
free(converted_image);
current_lod_max_dim = m_max_lod_max_dim;
}
break;
case 32:
{
if(premultiply_alpha) {
unsigned char *converted_image = (unsigned char *)malloc(pHeader->width * pHeader->height * 4);
unsigned char *pSource = pData;
unsigned char *pDest = converted_image;
unsigned char *pEnd = pData + pHeader->height * pHeader->width * 3;
while(pSource < pEnd) {
*pDest++ = (__uint32_t)pSource[2] * (__uint32_t)pSource[3] / 0xff;
*pDest++ = (__uint32_t)pSource[1] * (__uint32_t)pSource[3] / 0xff;
*pDest++ = (__uint32_t)pSource[0] * (__uint32_t)pSource[3] / 0xff;
*pDest++ = pSource[3];
pSource += 4;
}
assert(pSource <= m_pData->getEnd());
device.streamUpload((void*)converted_image, pDest - converted_image, dimensions, image);
free(converted_image);
} else {
unsigned char *converted_image = (unsigned char *)malloc(pHeader->width * pHeader->height * 4);
unsigned char *pSource = pData;
unsigned char *pDest = converted_image;
unsigned char *pEnd = pData + pHeader->height * pHeader->width * 3;
while(pSource < pEnd) {
*pDest++ = (__uint32_t)pSource[2];
*pDest++ = (__uint32_t)pSource[1];
*pDest++ = (__uint32_t)pSource[0];
*pDest++ = pSource[3];
pSource += 4;
}
assert(pSource <= m_pData->getEnd());
device.streamUpload((void*)converted_image, pDest - converted_image, dimensions, image);
free(converted_image);
}
current_lod_max_dim = m_max_lod_max_dim;
}
break;
default:
m_pData->unlock();
return false; // 16-bit images not yet supported
}
break;
case 10: // rgb + rle
switch(pHeader->bitsperpixel) {
case 32:
{
unsigned char *converted_image = (unsigned char *)malloc(pHeader->width * pHeader->height * 4);
unsigned char *pSource = pData;
unsigned char *pDest = converted_image;
unsigned char *pEnd = converted_image + pHeader->height * pHeader->width * 4;
if(premultiply_alpha) {
while(pDest < pEnd) {
int count = (*pSource & 0x7f) + 1;
if(*pSource & 0x80) {
// RLE Packet
pSource++;
while(count--) {
*pDest++ = (__uint32_t)pSource[2] * (__uint32_t)pSource[3] / 0xff;
*pDest++ = (__uint32_t)pSource[1] * (__uint32_t)pSource[3] / 0xff;
*pDest++ = (__uint32_t)pSource[0] * (__uint32_t)pSource[3] / 0xff;
*pDest++ = pSource[3];
}
pSource += 4;
} else {
// RAW Packet
pSource++;
while(count--) {
*pDest++ = (__uint32_t)pSource[2] * (__uint32_t)pSource[3] / 0xff;
*pDest++ = (__uint32_t)pSource[1] * (__uint32_t)pSource[3] / 0xff;
*pDest++ = (__uint32_t)pSource[0] * (__uint32_t)pSource[3] / 0xff;
*pDest++ = pSource[3];
pSource += 4;
}
}
}
assert(pSource <= m_pData->getEnd());
assert(pDest == pEnd);
} else {
while(pDest < pEnd) {
int count = (*pSource & 0x7f) + 1;
if(*pSource & 0x80) {
// RLE Packet
pSource++;
while(count--) {
*pDest++ = pSource[2];
*pDest++ = pSource[1];
*pDest++ = pSource[0];
*pDest++ = pSource[3];
}
pSource += 4;
} else {
// RAW Packet
pSource++;
while(count--) {
*pDest++ = pSource[2];
*pDest++ = pSource[1];
*pDest++ = pSource[0];
*pDest++ = pSource[3];
pSource += 4;
}
}
}
assert(pSource <= m_pData->getEnd());
assert(pDest == pEnd);
}
device.streamUpload((void*)converted_image, pDest - converted_image, dimensions, image);
free(converted_image);
current_lod_max_dim = m_max_lod_max_dim;
}
break;
case 24:
{
unsigned char *converted_image = (unsigned char *)malloc(pHeader->width * pHeader->height * 4);
unsigned char *pSource = pData;
unsigned char *pDest = converted_image;
unsigned char *pEnd = converted_image + pHeader->height * pHeader->width * 4;
while(pDest < pEnd) {
int count = (*pSource & 0x7f) + 1;
if(*pSource & 0x80) {
// RLE Packet
pSource++;
while(count--) {
*pDest++ = pSource[2];
*pDest++ = pSource[1];
*pDest++ = pSource[0];
*pDest++ = 0xff;
}
pSource += 3;
} else {
// RAW Packet
pSource++;
while(count--) {
*pDest++ = pSource[2];
*pDest++ = pSource[1];
*pDest++ = pSource[0];
*pDest++ = 0xff;
pSource += 3;
}
}
}
assert(pSource <= m_pData->getEnd());
assert(pDest == pEnd);
device.streamUpload((void*)converted_image, pDest - converted_image, dimensions, image);
free(converted_image);
current_lod_max_dim = m_max_lod_max_dim;
}
break;
default:
m_pData->unlock();
return false; // 16-bit images not yet supported
}
break;
default:
m_pData->unlock();
return false; // Image type not yet supported
}
m_pData->unlock();
return true;
}
#if !TARGET_OS_IPHONE && !defined(ANDROID)
KRTexture *KRTextureTGA::compress(bool premultiply_alpha)
{
// TODO - Vulkan refactoring...
assert(false);
return nullptr;
/*
* TODO - Vulkan refactoring...
m_pData->lock();
std::list<KRDataBlock *> blocks;
getContext().getTextureManager()->_setActiveTexture(0);
GLuint compressed_handle = 0;
GLDEBUG(glGenTextures(1, &compressed_handle));
GLDEBUG(glBindTexture(GL_TEXTURE_2D, compressed_handle));
int current_max_dim = 0;
if(!uploadTexture(m_max_lod_max_dim, current_max_dim, true, premultiply_alpha)) {
assert(false); // Failed to upload the texture
}
GLDEBUG(glGenerateMipmap(GL_TEXTURE_2D));
GLint width = 0, height = 0, internal_format, base_internal_format;
GLDEBUG(glGetTexLevelParameteriv(GL_TEXTURE_2D, 0, GL_TEXTURE_WIDTH, &width));
GLDEBUG(glGetTexLevelParameteriv(GL_TEXTURE_2D, 0, GL_TEXTURE_HEIGHT, &height));
GLDEBUG(glGetTexLevelParameteriv(GL_TEXTURE_2D, 0, GL_TEXTURE_INTERNAL_FORMAT, &internal_format));
switch(internal_format)
{
case GL_COMPRESSED_RGB_S3TC_DXT1_EXT:
base_internal_format = GL_BGRA;
break;
case GL_COMPRESSED_RGBA_S3TC_DXT5_EXT:
base_internal_format = GL_BGRA;
break;
default:
assert(false); // Not yet supported
break;
}
GLuint lod_level = 0;
GLint compressed_size = 0;
int lod_width = width;
while(lod_width > 1) {
GLDEBUG(glGetTexLevelParameteriv(GL_TEXTURE_2D, lod_level, GL_TEXTURE_WIDTH, &lod_width));
GLDEBUG(glGetTexLevelParameteriv(GL_TEXTURE_2D, lod_level, GL_TEXTURE_COMPRESSED_IMAGE_SIZE, &compressed_size));
KRDataBlock *new_block = new KRDataBlock();
new_block->expand(compressed_size);
new_block->lock();
GLDEBUG(glGetCompressedTexImage(GL_TEXTURE_2D, lod_level, new_block->getStart()));
new_block->unlock();
blocks.push_back(new_block);
lod_level++;
}
assert(lod_width == 1);
GLDEBUG(glBindTexture(GL_TEXTURE_2D, 0));
getContext().getTextureManager()->selectTexture(0, NULL, 0.0f, KRTexture::TEXTURE_USAGE_NONE);
GLDEBUG(glDeleteTextures(1, &compressed_handle));
KRTextureKTX *new_texture = new KRTextureKTX(getContext(), getName(), internal_format, base_internal_format, width, height, blocks);
m_pData->unlock();
for(auto block_itr = blocks.begin(); block_itr != blocks.end(); block_itr++) {
KRDataBlock *block = *block_itr;
delete block;
}
return new_texture;
*/
}
#endif
long KRTextureTGA::getMemRequiredForSize(int max_dim)
{
return m_imageSize;
}
Vector2i KRTextureTGA::getDimensions() const
{
return m_dimensions;
}
std::string KRTextureTGA::getExtension()
{
return "tga";
}
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