libcmo21/LibCmo/CK2/ObjImpls/CKTexture.cpp

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#include "CKTexture.hpp"
#include "../CKStateChunk.hpp"
namespace LibCmo::CK2::ObjImpls {
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/**
* @brief A fake struct define.
* This define is served for a buffer read / write in CKTexture.
* Because Virtools directly write a raw struct into file,
* and our defines are different with Virtools.
* So we need create a fake struct.
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* @remark
* All pointers should translate to DWORD(32 bit) for platform independent.
* Otherwise this struct may be corrupted in x64 platform because pointer is QWORD in x64.
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*/
struct FakeBitmapProperties {
CKINT m_Size;
struct {
// fake CKGUID
CKDWORD d1, d2;
}m_ReaderGuid;
struct {
// fake CKFileExtension
CKCHAR m_Data[4];
}m_Ext;
struct {
// fake VxImageDescEx
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CKINT Size; ///< Size of the structure
CKDWORD Flags; ///< Reserved for special formats (such as compressed ) 0 otherwise
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CKINT Width; ///< Width in pixel of the image
CKINT Height; ///< Height in pixel of the image
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union {
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CKINT BytesPerLine; ///< Pitch (width in bytes) of the image
CKINT TotalImageSize; ///< For compressed image (DXT1...) the total size of the image
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};
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CKINT BitsPerPixel; ///< Number of bits per pixel
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union {
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CKDWORD RedMask; ///< Mask for Red component
CKDWORD BumpDuMask; ///< Mask for Bump Du component
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};
union {
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CKDWORD GreenMask; ///< Mask for Green component
CKDWORD BumpDvMask; ///< Mask for Bump Dv component
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};
union {
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CKDWORD BlueMask; ///< Mask for Blue component
CKDWORD BumpLumMask; ///< Mask for Luminance component
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};
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CKDWORD AlphaMask; ///< Mask for Alpha component
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CKWORD BytesPerColorEntry; ///< ColorMap Stride
CKWORD ColorMapEntries; ///< If other than 0 image is palletized
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/*CKBYTE**/CKPTR ColorMap; ///< Palette colors
/*CKBYTE**/CKPTR Image; ///< Image
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}m_Format;
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/*void**/CKPTR m_Data;
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};
CKTexture::CKTexture(CKContext* ctx, CK_ID ckid, CKSTRING name) :
CKBeObject(ctx, ckid, name),
m_ImageHost(ctx),
m_VideoFormat(VxMath::VX_PIXELFORMAT::_16_ARGB1555), m_UseMipMap(false), m_MipmapImages() {}
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CKTexture::~CKTexture() {}
bool CKTexture::Save(CKStateChunk* chunk, CKFileVisitor* file, CKDWORD flags) {
bool suc = CKBeObject::Save(chunk, file, flags);
if (!suc) return false;
return true;
}
bool CKTexture::Load(CKStateChunk* chunk, CKFileVisitor* file) {
bool suc = CKBeObject::Load(chunk, file);
if (!suc) return false;
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// read base image
suc = m_ImageHost.ReadFromChunk(chunk, file, CKBitmapDataReadIdentifiers {
.m_SpecificFormat = static_cast<CKDWORD>(CK_STATESAVEFLAGS_TEXTURE::CK_STATESAVE_TEXREADER),
.m_RawData = static_cast<CKDWORD>(CK_STATESAVEFLAGS_TEXTURE::CK_STATESAVE_TEXCOMPRESSED),
.m_OldRawData = static_cast<CKDWORD>(CK_STATESAVEFLAGS_TEXTURE::CK_STATESAVE_TEXBITMAPS),
.m_FileNames = static_cast<CKDWORD>(CK_STATESAVEFLAGS_TEXTURE::CK_STATESAVE_TEXFILENAMES),
.m_MovieFileName = static_cast<CKDWORD>(CK_STATESAVEFLAGS_TEXTURE::CK_STATESAVE_TEXAVIFILENAME)
});
if (!suc) return false;
if (chunk->GetDataVersion() < CK_STATECHUNK_DATAVERSION::CHUNK_MAJORCHANGE_VERSION) {
// MARK: old data process. i don't want to process it anymore.
// thus return false directly.
return false;
} else {
CKDWORD fmtbytesize;
if (chunk->SeekIdentifierAndReturnSize(CK_STATESAVEFLAGS_TEXTURE::CK_STATESAVE_OLDTEXONLY, &fmtbytesize)) {
// 0xFF (blank) 0xFF (save options) 0xFF (transparent + movie info + video fmt) 0xFF (mip map)
CKDWORD mixdata;
chunk->ReadStruct(mixdata);
m_UseMipMap = (mixdata & 0xFF);
m_ImageHost.SetSaveOptions(static_cast<CK_TEXTURE_SAVEOPTIONS>((mixdata & 0xFF0000) >> 16));
mixdata = mixdata & 0xFF00 >> 8;
m_ImageHost.SetTransparent(mixdata & 0x1);
bool hasVideoFmt = mixdata & 0x2;
// MARK: I ignore 0x4 in there because it involve video.
// set current slot, transparent color, and video format.
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CKDWORD currentSlot, transColor;
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fmtbytesize -= CKSizeof(CKDWORD);
switch (fmtbytesize) {
case (3 * sizeof(CKDWORD)):
chunk->ReadStruct(transColor);
m_ImageHost.SetTransparentColor(transColor);
chunk->ReadStruct(currentSlot);
m_ImageHost.SetCurrentSlot(currentSlot);
chunk->ReadStruct(m_VideoFormat);
break;
case (2 * sizeof(CKDWORD)):
if (m_ImageHost.GetSlotCount() <= 1 || !hasVideoFmt) {
chunk->ReadStruct(transColor);
m_ImageHost.SetTransparentColor(transColor);
}
if (m_ImageHost.GetSlotCount() > 1) {
chunk->ReadStruct(currentSlot);
m_ImageHost.SetCurrentSlot(currentSlot);
}
if (hasVideoFmt) {
chunk->ReadStruct(m_VideoFormat);
}
break;
case (sizeof(CKDWORD)):
if (hasVideoFmt) {
chunk->ReadStruct(m_VideoFormat);
} else if (m_ImageHost.GetSlotCount() <= 1) {
chunk->ReadStruct(transColor);
m_ImageHost.SetTransparentColor(transColor);
} else {
chunk->ReadStruct(currentSlot);
m_ImageHost.SetCurrentSlot(currentSlot);
}
break;
}
}
// read mipmap
if (chunk->SeekIdentifier(CK_STATESAVEFLAGS_TEXTURE::CK_STATESAVE_USERMIPMAP)) {
CKDWORD mipmapCount;
chunk->ReadStruct(mipmapCount);
m_MipmapImages.resize(mipmapCount);
for (CKDWORD i = 0; i < mipmapCount; ++i) {
VxMath::VxImageDescEx cache;
if (CKBitmapData::ReadRawBitmap(chunk, &cache)) {
VxMath::VxDoBlitUpsideDown(&cache, &m_MipmapImages[i]);
}
}
}
// pick threshold
if (chunk->SeekIdentifier(CK_STATESAVEFLAGS_TEXTURE::CK_STATESAVE_PICKTHRESHOLD)) {
CKDWORD threshold;
chunk->ReadStruct(threshold);
m_ImageHost.SetPickThreshold(threshold);
}
// save properties
if (chunk->SeekIdentifier(CK_STATESAVEFLAGS_TEXTURE::CK_STATESAVE_TEXSAVEFORMAT)) {
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auto buf = chunk->ReadBufferWrapper();
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if (buf != nullptr) {
FakeBitmapProperties* props = reinterpret_cast<FakeBitmapProperties*>(buf.get());
CKBitmapProperties myprops(
CKGUID(props->m_ReaderGuid.d1, props->m_ReaderGuid.d2),
props->m_Ext.m_Data
);
m_ImageHost.SetSaveFormat(myprops);
}
}
}
// correct video format
if (m_VideoFormat > VxMath::VX_PIXELFORMAT::_32_X8L8V8U8) {
m_VideoFormat = VxMath::VX_PIXELFORMAT::_16_ARGB1555;
}
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return true;
}
}