irrlicht/source/Irrlicht/CImageLoaderPVR.cpp

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// Copyright (C) 2013-2016 Patryk Nadrowski
// This file is part of the "Irrlicht Engine".
// For conditions of distribution and use, see copyright notice in irrlicht.h
#include "CImageLoaderPVR.h"
#ifdef _IRR_COMPILE_WITH_PVR_LOADER_
#include "IReadFile.h"
#include "os.h"
#include "CImage.h"
#include "irrString.h"
namespace irr
{
namespace video
{
bool CImageLoaderPVR::isALoadableFileExtension(const io::path& filename) const
{
return core::hasFileExtension(filename, "pvr");
}
bool CImageLoaderPVR::isALoadableFileFormat(io::IReadFile* file) const
{
if (!file)
return false;
c8 fourCC[4];
file->seek(0);
file->read(&fourCC, 4);
/*if (header.Version == 0x03525650) // TO-DO - fix endiannes
{
fourCC[0] = os::Byteswap::byteswap(fourCC[0]);
fourCC[1] = os::Byteswap::byteswap(fourCC[1]);
fourCC[2] = os::Byteswap::byteswap(fourCC[2]);
fourCC[3] = os::Byteswap::byteswap(fourCC[3]);
}*/
return (fourCC[0] == 'P' && fourCC[1] == 'V' && fourCC[2] == 'R');
}
IImage* CImageLoaderPVR::loadImage(io::IReadFile* file) const
{
core::array<IImage*> imageArray = loadImages(file, 0);
const u32 imageCount = imageArray.size();
for (u32 i = 1; i < imageCount; ++i)
{
if (imageArray[i])
imageArray[i]->drop();
}
if (imageCount > 1)
imageArray.erase(1, imageCount - 1);
return (imageCount > 1) ? imageArray[0] : 0;
}
core::array<IImage*> CImageLoaderPVR::loadImages(io::IReadFile* file, E_TEXTURE_TYPE* type) const
{
// TO-DO -> use 'move' feature from C++11 standard.
SPVRHeader header;
core::array<IImage*> imageArray;
core::array<u8*> mipMapsDataArray;
ECOLOR_FORMAT format = ECF_UNKNOWN;
u32 dataSize = 0;
file->seek(0);
file->read(&header, sizeof(SPVRHeader));
/*if (header.Version == 0x03525650) // TO-DO - fix endiannes
{
header.Flags = os::Byteswap::byteswap(header.Flags);
header.PixelFormat = os::Byteswap::byteswap(header.PixelFormat);
header.ColourSpace = os::Byteswap::byteswap(header.ColourSpace);
header.ChannelType = os::Byteswap::byteswap(header.ChannelType);
header.Height = os::Byteswap::byteswap(header.Height);
header.Width = os::Byteswap::byteswap(header.Width);
header.Depth = os::Byteswap::byteswap(header.Depth);
header.NumSurfaces = os::Byteswap::byteswap(header.NumSurfaces);
header.NumFaces = os::Byteswap::byteswap(header.NumFaces);
header.MipMapCount = os::Byteswap::byteswap(header.MipMapCount);
header.MetDataSize = os::Byteswap::byteswap(header.MetDataSize);
}*/
c8 fourCC[4];
u32 key;
u32 helperDataSize;
if (header.MetDataSize > 0)
{
file->read(&fourCC, 4);
file->read(&key, sizeof(u32));
file->read(&helperDataSize, sizeof(u32));
file->seek(helperDataSize, true);
}
if (header.PixelFormat & 0xFFFFFFFF00000000)
{
switch (header.PixelFormat)
{
case 0x505050162677261:
format = ECF_A1R5G5B5;
break;
case 0x5060500626772:
format = ECF_R5G6B5;
break;
case 0x8080800626772:
format = ECF_R8G8B8;
break;
case 0x808080861726762:
format = ECF_A8R8G8B8;
break;
default:
break;
}
}
else // Compressed texture formats
{
switch (header.PixelFormat)
{
case 0: // PVRTC 2bpp RGB
format = ECF_PVRTC_RGB2;
break;
case 1: // PVRTC 2bpp RGBA
format = ECF_PVRTC_ARGB2;
break;
case 2: // PVRTC 4bpp RGB
format = ECF_PVRTC_RGB4;
break;
case 3: // PVRTC 4bpp RGBA
format = ECF_PVRTC_ARGB4;
break;
case 4: // PVRTC-II 2bpp
format = ECF_PVRTC2_ARGB2;
break;
case 5: // PVRTC-II 4bpp
format = ECF_PVRTC2_ARGB4;
break;
case 6: // ETC1
format = ECF_ETC1;
break;
case 7: // DXT1 / BC1
format = ECF_DXT1;
break;
case 8: // DXT2
case 9: // DXT3 / BC2
format = ECF_DXT3;
break;
case 10: // DXT4
case 11: // DXT5 / BC3
format = ECF_DXT5;
break;
case 22: // ETC2 RGB
format = ECF_ETC2_RGB;
break;
case 23: // ETC2 RGBA
format = ECF_ETC2_ARGB;
break;
default:
format = ECF_UNKNOWN;
break;
}
}
if (format != ECF_UNKNOWN)
{
imageArray.set_used(1);
E_TEXTURE_TYPE tmpType = ETT_2D;
// check for texture type
if (header.NumFaces == 6) // cube map
{
imageArray.set_used(6);
tmpType = ETT_CUBEMAP;
}
else if (header.Depth > 1) // 3d texture
{
// TO-DO
}
else if (header.NumSurfaces > 1) // texture array
{
// To-DO
}
if (type)
*type = tmpType;
// prepare mipmaps data
dataSize = 0;
for (u32 i = 1; i < header.MipMapCount; ++i)
{
u32 tmpWidth = header.Width >> i;
u32 tmpHeight = header.Height >> i;
dataSize += IImage::getDataSizeFromFormat(format, tmpWidth, tmpHeight);
}
if (header.MipMapCount > 1)
{
mipMapsDataArray.set_used(imageArray.size());
for (u32 j = 0; j < mipMapsDataArray.size(); ++j)
mipMapsDataArray[j] = new u8[dataSize];
}
// read texture
dataSize = 0;
long offset = 0;
for (u32 i = 0; i < header.MipMapCount; ++i)
{
if (i == 0)
{
for (u32 j = 0; j < imageArray.size(); ++j)
{
dataSize = IImage::getDataSizeFromFormat(format, header.Width, header.Height);
u8* data = new u8[dataSize];
file->read(data, dataSize);
imageArray[j] = new CImage(format, core::dimension2d<u32>(header.Width, header.Height), data, true, true);
}
}
else
{
u32 tmpWidth = header.Width >> i;
u32 tmpHeight = header.Height >> i;
dataSize = IImage::getDataSizeFromFormat(format, tmpWidth, tmpHeight);
for (u32 j = 0; j < imageArray.size(); ++j)
file->read(mipMapsDataArray[j] + offset, dataSize);
offset += dataSize;
}
}
// assign mipmaps data
for (u32 i = 0; i < mipMapsDataArray.size(); ++i)
imageArray[i]->setMipMapsData(mipMapsDataArray[i], true, true);
}
return imageArray;
}
IImageLoader* createImageLoaderPVR()
{
return new CImageLoaderPVR();
}
}
}
#endif