Counter Strike : Global Offensive Source Code
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//===== Copyright © 1996-2005, Valve Corporation, All rights reserved. ======//
//
// Purpose:
//
//=============================================================================//
#include <stdio.h>
#include "bitmap/tgaloader.h"
#include "tier0/dbg.h"
#include "basetypes.h"
#include <math.h>
#include "tier1/utlvector.h"
#include "tier1/utlbuffer.h"
#include "filesystem.h"
#include "tier2/tier2.h"
#include "byteswap.h"
// memdbgon must be the last include file in a .cpp file!!!
#include "tier0/memdbgon.h"
namespace TGALoader
{
//-----------------------------------------------------------------------------
// Format of the TGA header on disk
//-----------------------------------------------------------------------------
#pragma pack (1)
struct TGAHeader_t
{
unsigned char id_length;
unsigned char colormap_type;
unsigned char image_type;
unsigned short colormap_index;
unsigned short colormap_length;
unsigned char colormap_size;
unsigned short x_origin;
unsigned short y_origin;
unsigned short width;
unsigned short height;
unsigned char pixel_size;
unsigned char attributes;
};
//-----------------------------------------------------------------------------
// read a row into an RGBA8888 array.
//-----------------------------------------------------------------------------
typedef void (*ReadRowFunc_t)( CUtlBuffer& buf, TGAHeader_t const& header, unsigned char* pDstMemory );
//-----------------------------------------------------------------------------
// output a RGBA8888 row into the destination format.
//-----------------------------------------------------------------------------
typedef void (*OutputRowFunc_t)( CUtlBuffer& buf, TGAHeader_t const& header, unsigned char* pDstMemory );
//-----------------------------------------------------------------------------
// Important constants
//-----------------------------------------------------------------------------
#define TGA_MAX_COLORMAP_SIZE ( 256 * 4 )
#define TGA_MAX_ROW_LENGTH_IN_PIXELS IMAGE_MAX_DIM
//-----------------------------------------------------------------------------
// Globals... blech
//-----------------------------------------------------------------------------
static unsigned char g_ColorMap[TGA_MAX_COLORMAP_SIZE];
// run-length state from row to row for RLE images
static bool g_IsRunLengthPacket;
static int g_PixelsLeftInPacket;
#ifndef _PS3
static unsigned char g_SrcGammaTable[256];
static unsigned char g_DstGammaTable[256];
#endif
typedef CUtlMemory<unsigned char> CTempImage;
//-----------------------------------------------------------------------------
// Reads in a file, sticks it into a UtlVector
//-----------------------------------------------------------------------------
static bool ReadFile( char const* pFileName, CTempImage& image, int maxbytes = -1 )
{
Assert( pFileName );
Assert( g_pFullFileSystem );
if( !g_pFullFileSystem )
{
return false;
}
FileHandle_t fileHandle;
fileHandle = g_pFullFileSystem->Open( pFileName, "rb" );
if( !fileHandle )
return false;
// How big is the file?
long pos;
if (maxbytes < 0)
{
pos = g_pFullFileSystem->Size( fileHandle );
}
else
{
pos = maxbytes;
}
// Allocate enough space
image.EnsureCapacity( pos );
// Back to the start of the file
g_pFullFileSystem->Seek( fileHandle, 0, FILESYSTEM_SEEK_HEAD );
// Read the file into the vector memory
int len = g_pFullFileSystem->Read( image.Base(), pos, fileHandle );
// Close the file
g_pFullFileSystem->Close( fileHandle );
// It's an error if we didn't read in enough goodies
return len == pos;
}
//-----------------------------------------------------------------------------
// Reads in the TGA Header
//-----------------------------------------------------------------------------
static void ReadHeader( CUtlBuffer& buf, TGAHeader_t& header )
{
buf.Get( &header, sizeof(TGAHeader_t) );
if ( CByteswap::IsMachineBigEndian() )
{
CByteswap bs;
bs.ActivateByteSwapping( true ); // Assume that TGAs are Win32-little-endian
#pragma warning( push )
#pragma warning( disable : 4366 ) // warning C4366: The result of the unary '&' operator may be unaligned
bs.SwapBuffer( &header.colormap_index );
bs.SwapBuffer( &header.colormap_length );
bs.SwapBuffer( &header.x_origin );
bs.SwapBuffer( &header.y_origin );
bs.SwapBuffer( &header.width );
bs.SwapBuffer( &header.height );
#pragma warning( pop )
}
}
//-----------------------------------------------------------------------------
// Figures out TGA information
//-----------------------------------------------------------------------------
bool GetInfo( CUtlBuffer& buf, int *width, int *height,
ImageFormat *imageFormat, float *sourceGamma )
{
TGAHeader_t header;
ReadHeader( buf, header );
switch( header.image_type )
{
case 1: // 8 bit uncompressed TGA image
case 3: // 8 bit monochrome uncompressed TGA image
case 9: // 8 bit compressed TGA image
*imageFormat = IMAGE_FORMAT_I8;
break;
case 2: // 24/32 bit uncompressed TGA image
case 10: // 24/32 bit compressed TGA image
if( header.pixel_size == 32 )
{
*imageFormat = IMAGE_FORMAT_ABGR8888;
}
else if( header.pixel_size == 24 )
{
*imageFormat = IMAGE_FORMAT_BGR888;
}
else
{
return false;
}
break;
default:
return false;
break;
}
*width = header.width;
*height = header.height;
*sourceGamma = ARTWORK_GAMMA;
return true;
}
//-----------------------------------------------------------------------------
// Returns the minimum amount you have to load to get information about the TGA file
//-----------------------------------------------------------------------------
int TGAHeaderSize()
{
return sizeof( TGAHeader_t );
}
//-----------------------------------------------------------------------------
// Gets info about a TGA file
//-----------------------------------------------------------------------------
bool GetInfo( char const* pFileName, int *width, int *height,
ImageFormat *imageFormat, float *sourceGamma )
{
// temporary memory
CTempImage image;
// try to read in the file
if (!ReadFile( pFileName, image, sizeof(TGAHeader_t) ))
return false;
// Serialization buffer
CUtlBuffer buf( image.Base(), image.NumAllocated(), CUtlBuffer::READ_ONLY );
return GetInfo( buf, width, height, imageFormat, sourceGamma );
}
//-----------------------------------------------------------------------------
// Various output methods
//-----------------------------------------------------------------------------
void OutputRowRGBA8888( CUtlBuffer& buf, TGAHeader_t const& header, unsigned char* pDst )
{
for( int i = 0; i < header.width; ++i, pDst += 4 )
{
unsigned char* pSrc = (unsigned char*)buf.PeekGet();
pDst[0] = pSrc[0];
pDst[1] = pSrc[1];
pDst[2] = pSrc[2];
pDst[3] = pSrc[3];
buf.SeekGet( CUtlBuffer::SEEK_CURRENT, 4 );
}
}
void OutputRowABGR8888( CUtlBuffer& buf, TGAHeader_t const& header, unsigned char* pDst )
{
for( int i = 0; i < header.width; ++i, pDst += 4 )
{
unsigned char* pSrc = (unsigned char*)buf.PeekGet();
pDst[3] = pSrc[0];
pDst[2] = pSrc[1];
pDst[1] = pSrc[2];
pDst[0] = pSrc[3];
buf.SeekGet( CUtlBuffer::SEEK_CURRENT, 4 );
}
}
void OutputRowRGB888( CUtlBuffer& buf, TGAHeader_t const& header, unsigned char* pDst )
{
for( int i = 0; i < header.width; ++i, pDst += 3 )
{
unsigned char* pSrc = (unsigned char*)buf.PeekGet();
pDst[0] = pSrc[0];
pDst[1] = pSrc[1];
pDst[2] = pSrc[2];
buf.SeekGet( CUtlBuffer::SEEK_CURRENT, 4 );
}
}
void OutputRowBGR888( CUtlBuffer& buf, TGAHeader_t const& header, unsigned char* pDst )
{
for( int i = 0; i < header.width; ++i, pDst += 3 )
{
unsigned char* pSrc = (unsigned char*)buf.PeekGet();
pDst[2] = pSrc[0];
pDst[1] = pSrc[1];
pDst[0] = pSrc[2];
buf.SeekGet( CUtlBuffer::SEEK_CURRENT, 4 );
}
}
void OutputRowRGB565( CUtlBuffer& buf, TGAHeader_t const& header, unsigned char* pDst )
{
Assert( 0 );
}
void OutputRowI8( CUtlBuffer& buf, TGAHeader_t const& header, unsigned char* pDst )
{
for( int i = 0; i < header.width; ++i, ++pDst )
{
unsigned char* pSrc = (unsigned char*)buf.PeekGet();
if( ( pSrc[0] == pSrc[1] ) && ( pSrc[1] == pSrc[2] ) )
{
pDst[0] = pSrc[0];
}
else
{
pDst[0] = ( unsigned char )( 0.299f * pSrc[0] + 0.587f * pSrc[1] + 0.114f * pSrc[2] );
}
buf.SeekGet( CUtlBuffer::SEEK_CURRENT, 4 );
}
}
void OutputRowIA88( CUtlBuffer& buf, TGAHeader_t const& header, unsigned char* pDst )
{
for( int i = 0; i < header.width; ++i, pDst += 2 )
{
unsigned char* pSrc = (unsigned char*)buf.PeekGet();
if( ( pSrc[0] == pSrc[1] ) && ( pSrc[1] == pSrc[2] ) )
{
pDst[0] = pSrc[0];
}
else
{
pDst[0] = ( unsigned char )( 0.299f * pSrc[0] + 0.587f * pSrc[1] + 0.114f * pSrc[2] );
}
pDst[1] = pSrc[3];
buf.SeekGet( CUtlBuffer::SEEK_CURRENT, 4 );
}
}
void OutputRowA8( CUtlBuffer& buf, TGAHeader_t const& header, unsigned char* pDst )
{
for( int i = 0; i < header.width; ++i, ++pDst )
{
unsigned char* pSrc = (unsigned char*)buf.PeekGet();
pDst[0] = pSrc[3];
buf.SeekGet( CUtlBuffer::SEEK_CURRENT, 4 );
}
}
void OutputRowRGB888BlueScreen( CUtlBuffer& buf, TGAHeader_t const& header, unsigned char* pDst )
{
for( int i = 0; i < header.width; ++i, pDst += 3 )
{
unsigned char* pSrc = (unsigned char*)buf.PeekGet();
pDst[0] = (unsigned char)(( ( int )pSrc[0] * ( int )pSrc[3] ) >> 8);
pDst[1] = (unsigned char)(( ( int )pSrc[1] * ( int )pSrc[3] ) >> 8);
pDst[2] = (( ( ( ( int )pSrc[2] * ( int )pSrc[3] ) ) >> 8 ) + ( 255 - pSrc[3] ));
buf.SeekGet( CUtlBuffer::SEEK_CURRENT, 4 );
}
}
void OutputRowBGR888BlueScreen( CUtlBuffer& buf, TGAHeader_t const& header, unsigned char* pDst )
{
for( int i = 0; i < header.width; ++i, pDst += 3 )
{
unsigned char* pSrc = (unsigned char*)buf.PeekGet();
pDst[2] = (unsigned char)(( ( int )pSrc[0] * ( int )pSrc[3] ) >> 8);
pDst[1] = (unsigned char)(( ( int )pSrc[1] * ( int )pSrc[3] ) >> 8);
pDst[0] = (unsigned char)(( ( ( ( int )pSrc[2] * ( int )pSrc[3] ) ) >> 8 ) + ( 255 - pSrc[3] ));
buf.SeekGet( CUtlBuffer::SEEK_CURRENT, 4 );
}
}
void OutputRowARGB8888( CUtlBuffer& buf, TGAHeader_t const& header, unsigned char* pDst )
{
for( int i = 0; i < header.width; ++i, pDst += 4 )
{
unsigned char* pSrc = (unsigned char*)buf.PeekGet();
pDst[0] = pSrc[3];
pDst[1] = pSrc[0];
pDst[2] = pSrc[1];
pDst[3] = pSrc[2];
buf.SeekGet( CUtlBuffer::SEEK_CURRENT, 4 );
}
}
void OutputRowBGRA8888( CUtlBuffer& buf, TGAHeader_t const& header, unsigned char* pDst )
{
for( int i = 0; i < header.width; ++i, pDst += 4 )
{
unsigned char* pSrc = (unsigned char*)buf.PeekGet();
pDst[0] = pSrc[2];
pDst[1] = pSrc[1];
pDst[2] = pSrc[0];
pDst[3] = pSrc[3];
buf.SeekGet( CUtlBuffer::SEEK_CURRENT, 4 );
}
}
void OutputRowBGRX8888( CUtlBuffer& buf, TGAHeader_t const& header, unsigned char* pDst )
{
for( int i = 0; i < header.width; ++i, pDst += 4 )
{
unsigned char* pSrc = (unsigned char*)buf.PeekGet();
pDst[0] = pSrc[2];
pDst[1] = pSrc[1];
pDst[2] = pSrc[0];
pDst[3] = 255;
buf.SeekGet( CUtlBuffer::SEEK_CURRENT, 4 );
}
}
void OutputRowBGR565( CUtlBuffer& buf, TGAHeader_t const& header, unsigned char* pDst )
{
for( int i = 0; i < header.width; ++i, pDst += 2 )
{
unsigned char* pSrc = (unsigned char*)buf.PeekGet();
unsigned short rgba = (pSrc[2] & 0x1F) | ((pSrc[1] & 0x3F) << 5) |
((pSrc[0] & 0x1F) << 11);
pDst[0] = rgba & 0xFF;
pDst[1] = rgba >> 8;
buf.SeekGet( CUtlBuffer::SEEK_CURRENT, 4 );
}
}
void OutputRowBGRX5551( CUtlBuffer& buf, TGAHeader_t const& header, unsigned char* pDst )
{
for( int i = 0; i < header.width; ++i, pDst += 2 )
{
unsigned char* pSrc = (unsigned char*)buf.PeekGet();
unsigned short rgba = (pSrc[2] & 0x1F) | ((pSrc[1] & 0x1F) << 5) |
((pSrc[0] & 0x1F) << 10) | 0x8000;
pDst[0] = rgba & 0xFF;
pDst[1] = rgba >> 8;
buf.SeekGet( CUtlBuffer::SEEK_CURRENT, 4 );
}
}
#ifndef _PS3
static OutputRowFunc_t GetOutputRowFunc( ImageFormat imageFormat )
{
switch( imageFormat )
{
case IMAGE_FORMAT_RGBA8888:
return &OutputRowRGBA8888;
case IMAGE_FORMAT_ABGR8888:
return &OutputRowABGR8888;
case IMAGE_FORMAT_RGB888:
return &OutputRowRGB888;
case IMAGE_FORMAT_BGR888:
return &OutputRowBGR888;
case IMAGE_FORMAT_RGB565:
return &OutputRowRGB565;
case IMAGE_FORMAT_I8:
return &OutputRowI8;
case IMAGE_FORMAT_IA88:
return &OutputRowIA88;
case IMAGE_FORMAT_A8:
return &OutputRowA8;
case IMAGE_FORMAT_RGB888_BLUESCREEN:
return &OutputRowRGB888BlueScreen;
case IMAGE_FORMAT_BGR888_BLUESCREEN:
return &OutputRowBGR888BlueScreen;
case IMAGE_FORMAT_ARGB8888:
return &OutputRowARGB8888;
case IMAGE_FORMAT_BGRA8888:
return &OutputRowBGRA8888;
case IMAGE_FORMAT_BGRX8888:
return &OutputRowBGRX8888;
case IMAGE_FORMAT_BGR565:
return &OutputRowBGR565;
case IMAGE_FORMAT_BGRX5551:
return &OutputRowBGRX5551;
#ifdef _X360
case IMAGE_FORMAT_LINEAR_RGB888:
return &OutputRowRGB888;
case IMAGE_FORMAT_LINEAR_BGR888:
return &OutputRowBGR888;
#endif
default:
return NULL;
break;
}
}
static void InitSourceGammaConversionTable( float srcGamma )
{
static float lastSrcGamma = -1;
if (lastSrcGamma == srcGamma)
return;
lastSrcGamma = srcGamma;
ImageLoader::ConstructGammaTable( g_SrcGammaTable, srcGamma, 1.0f );
}
static void InitDestGammaConversionTable( float dstGamma )
{
static float lastDstGamma = -1;
if (lastDstGamma == dstGamma)
return;
lastDstGamma = dstGamma;
ImageLoader::ConstructGammaTable( g_DstGammaTable, 1.0f, dstGamma );
}
#endif
//-----------------------------------------------------------------------------
// Reads an 8-bit palettized TGA image
//-----------------------------------------------------------------------------
void ReadRow8BitUncompressedWithColormap( CUtlBuffer& buf,
TGAHeader_t const& header, unsigned char* pDst )
{
int i;
unsigned char* colormapEntry;
switch( header.colormap_size )
{
case 8:
for( i = 0; i < header.width; ++i, pDst += 4 )
{
int pal = buf.GetUnsignedChar();
colormapEntry = &g_ColorMap[pal];
pDst[0] = colormapEntry[0];
pDst[1] = colormapEntry[0];
pDst[2] = colormapEntry[0];
pDst[3] = 255;
}
break;
case 24:
for( i = 0; i < header.width; ++i, pDst += 4 )
{
int pal = buf.GetUnsignedChar();
colormapEntry = &g_ColorMap[pal * 3];
pDst[0] = colormapEntry[2];
pDst[1] = colormapEntry[1];
pDst[2] = colormapEntry[0];
pDst[3] = 255;
}
break;
case 32:
for( i = 0; i < header.width; ++i, pDst += 4 )
{
int pal = buf.GetUnsignedChar();
colormapEntry = &g_ColorMap[pal * 4];
pDst[0] = colormapEntry[3];
pDst[1] = colormapEntry[2];
pDst[2] = colormapEntry[1];
pDst[3] = colormapEntry[0];
}
break;
default:
Assert( 0 );
break;
}
}
//-----------------------------------------------------------------------------
// Reads an 8-bit greyscale TGA image
//-----------------------------------------------------------------------------
void ReadRow8BitUncompressedWithoutColormap( CUtlBuffer& buf,
TGAHeader_t const& header, unsigned char* pDst )
{
for( int i = 0; i < header.width; ++i, pDst += 4 )
{
pDst[0] = pDst[1] = pDst[2] = buf.GetUnsignedChar();
pDst[3] = 255;
}
}
//-----------------------------------------------------------------------------
// Reads a 24-bit TGA image
//-----------------------------------------------------------------------------
void ReadRow24BitUncompressedWithoutColormap( CUtlBuffer& buf,
TGAHeader_t const& header, unsigned char* pDst )
{
for( int i = 0; i < header.width; ++i, pDst += 4 )
{
pDst[2] = buf.GetUnsignedChar();
pDst[1] = buf.GetUnsignedChar();
pDst[0] = buf.GetUnsignedChar();
pDst[3] = 255;
}
}
//-----------------------------------------------------------------------------
// Reads a 32-bit TGA image
//-----------------------------------------------------------------------------
void ReadRow32BitUncompressedWithoutColormap( CUtlBuffer& buf,
TGAHeader_t const& header, unsigned char* pDst )
{
for( int i = 0; i < header.width; ++i, pDst += 4 )
{
pDst[2] = buf.GetUnsignedChar();
pDst[1] = buf.GetUnsignedChar();
pDst[0] = buf.GetUnsignedChar();
pDst[3] = buf.GetUnsignedChar();
}
}
//-----------------------------------------------------------------------------
// Decompresses a run-length encoded row of bytes
//-----------------------------------------------------------------------------
static void DecompressRow( CUtlBuffer& buf, TGAHeader_t const& header, unsigned char* pDst )
{
int bytesPerPixel = header.pixel_size >> 3;
int pixelsLeftInRow = header.width;
int numPixelsToProcess;
#ifdef DBGFLAG_ASSERT
unsigned char *pLast = pDst + header.width * bytesPerPixel;
#endif
unsigned char repeat[4] = {};
do
{
if( !g_PixelsLeftInPacket )
{
// start a new packet.
unsigned char packetHeader = buf.GetUnsignedChar();
g_PixelsLeftInPacket = 1 + ( packetHeader & 0x7f );
if( packetHeader & 0x80 )
{
g_IsRunLengthPacket = true;
// Read what I'm supposed to repeat
for (int i = 0; i < bytesPerPixel; ++i)
{
repeat[i] = buf.GetUnsignedChar();
}
}
else
{
g_IsRunLengthPacket = false;
}
}
// already in the middle of a packet of data.
numPixelsToProcess = g_PixelsLeftInPacket;
if( numPixelsToProcess > pixelsLeftInRow )
{
numPixelsToProcess = pixelsLeftInRow;
}
if( g_IsRunLengthPacket )
{
for( int i = numPixelsToProcess; --i >= 0; pDst += bytesPerPixel )
{
for (int j = 0; j < bytesPerPixel; ++j )
{
pDst[j] = repeat[j];
}
}
}
else
{
buf.Get( pDst, numPixelsToProcess * bytesPerPixel );
pDst += numPixelsToProcess * bytesPerPixel;
}
g_PixelsLeftInPacket -= numPixelsToProcess;
pixelsLeftInRow -= numPixelsToProcess;
} while( pixelsLeftInRow );
Assert( pDst == pLast );
}
//-----------------------------------------------------------------------------
// Reads a compressed 8-bit palettized TGA image
//-----------------------------------------------------------------------------
void ReadRow8BitCompressedWithColormap( CUtlBuffer& buf,
TGAHeader_t const& header, unsigned char* pDst )
{
unsigned char rowI_8[TGA_MAX_ROW_LENGTH_IN_PIXELS];
DecompressRow( buf, header, rowI_8 );
CUtlBuffer uncompressedBuf( rowI_8, TGA_MAX_ROW_LENGTH_IN_PIXELS, CUtlBuffer::READ_ONLY );
ReadRow8BitUncompressedWithColormap( uncompressedBuf, header, pDst );
}
//-----------------------------------------------------------------------------
// Reads a compressed 8-bit greyscale TGA image
//-----------------------------------------------------------------------------
void ReadRow8BitCompressedWithoutColormap( CUtlBuffer& buf,
TGAHeader_t const& header, unsigned char* pDst )
{
unsigned char rowI_8[TGA_MAX_ROW_LENGTH_IN_PIXELS];
DecompressRow( buf, header, rowI_8 );
CUtlBuffer uncompressedBuf( rowI_8, TGA_MAX_ROW_LENGTH_IN_PIXELS, CUtlBuffer::READ_ONLY );
ReadRow8BitUncompressedWithoutColormap( uncompressedBuf, header, pDst );
}
//-----------------------------------------------------------------------------
// Reads a compressed 24-bit TGA image
//-----------------------------------------------------------------------------
void ReadRow24BitCompressedWithoutColormap( CUtlBuffer& buf,
TGAHeader_t const& header, unsigned char* pDst )
{
unsigned char rowBGR_888[TGA_MAX_ROW_LENGTH_IN_PIXELS * 3];
DecompressRow( buf, header, rowBGR_888 );
CUtlBuffer uncompressedBuf( rowBGR_888, TGA_MAX_ROW_LENGTH_IN_PIXELS * 3, CUtlBuffer::READ_ONLY );
ReadRow24BitUncompressedWithoutColormap( uncompressedBuf, header, pDst );
}
//-----------------------------------------------------------------------------
// Reads a compressed 32-bit TGA image
//-----------------------------------------------------------------------------
void ReadRow32BitCompressedWithoutColormap( CUtlBuffer& buf,
TGAHeader_t const& header, unsigned char* pDst )
{
unsigned char rowBGRA_8888[TGA_MAX_ROW_LENGTH_IN_PIXELS << 2];
DecompressRow( buf, header, rowBGRA_8888 );
CUtlBuffer uncompressedBuf( rowBGRA_8888, TGA_MAX_ROW_LENGTH_IN_PIXELS << 2, CUtlBuffer::READ_ONLY );
ReadRow32BitUncompressedWithoutColormap( uncompressedBuf, header, pDst );
}
//-----------------------------------------------------------------------------
// Method used to read the TGA
//-----------------------------------------------------------------------------
static ReadRowFunc_t GetReadRowFunc( TGAHeader_t const& header )
{
switch( header.image_type )
{
case 1: // 8 bit uncompressed TGA image
case 3: // 8 bit monochrome uncompressed TGA image
if( header.colormap_length )
{
return &ReadRow8BitUncompressedWithColormap;
}
else
{
return &ReadRow8BitUncompressedWithoutColormap;
}
case 9: // 8 bit compressed TGA image
if( header.colormap_length )
{
return &ReadRow8BitCompressedWithColormap;
}
else
{
return &ReadRow8BitCompressedWithoutColormap;
}
case 2: // 24/32 bit uncompressed TGA image
switch( header.pixel_size )
{
case 24:
return &ReadRow24BitUncompressedWithoutColormap;
break;
case 32:
return &ReadRow32BitUncompressedWithoutColormap;
break;
default:
//Error( "unsupported tga colordepth: %d", TGAHeader_t.pixel_size" );
return 0;
break;
}
case 10: // 24/32 bit compressed TGA image
if( header.colormap_length )
{
// Error( "colormaps not support with 24/32 bit TGAs." );
return 0;
}
else
{
switch( header.pixel_size )
{
case 24:
return &ReadRow24BitCompressedWithoutColormap;
break;
case 32:
return &ReadRow32BitCompressedWithoutColormap;
break;
default:
//Error( "unsupported tga colordepth: %d", TGAHeader_t.pixel_size" );
return NULL;
break;
}
}
default:
// Error( "unsupported tga pixel format" );
return 0;
break;
}
}
//-----------------------------------------------------------------------------
// Reads the color map
//-----------------------------------------------------------------------------
static bool ReadColormap( CUtlBuffer& buf, TGAHeader_t const& header )
{
int numColormapBytes = header.colormap_length * ( header.colormap_size >> 3 );
if( numColormapBytes > TGA_MAX_COLORMAP_SIZE )
{
// Error( "colormap bigger than TGA_MAX_COLORMAP_SIZE" );
return false;
}
// read colormap
buf.Get( g_ColorMap, numColormapBytes );
return true;
}
//-----------------------------------------------------------------------------
// Reads the source image
//-----------------------------------------------------------------------------
static bool ReadSourceImage( CUtlBuffer& buf, TGAHeader_t& header, CTempImage& image )
{
// Figure out our reading and riting
ReadRowFunc_t ReadRowFunc = GetReadRowFunc( header );
if( !ReadRowFunc )
return false;
// HACK: Fixme: We really shouldn't be using globals here
// Init RLE vars
g_PixelsLeftInPacket = 0;
// Only allocate the memory once
int memRequired = ImageLoader::GetMemRequired( header.width, header.height, 1,
IMAGE_FORMAT_RGBA8888, false );
image.EnsureCapacity( memRequired );
// read each row and process it. Note the image is upside-down from
// the way we want it.
unsigned char* pDstBits;
// flip the image vertically if necessary.
if (header.attributes & 0x20)
{
for( int row = 0; row < header.height; ++row )
{
pDstBits = image.Base() +
row * header.width * ImageLoader::SizeInBytes(IMAGE_FORMAT_RGBA8888);
ReadRowFunc( buf, header, pDstBits );
}
}
else
{
for( int row = header.height; --row >= 0; )
{
pDstBits = image.Base() +
row * header.width * ImageLoader::SizeInBytes(IMAGE_FORMAT_RGBA8888);
ReadRowFunc( buf, header, pDstBits );
}
}
return true;
}
#ifndef _PS3
//-----------------------------------------------------------------------------
// Outputs the final image
//-----------------------------------------------------------------------------
static bool OutputImage( CTempImage& image, TGAHeader_t& header,
ImageFormat imageFormat, unsigned char* pDst )
{
// How do we write?
OutputRowFunc_t OutputRowFunc = GetOutputRowFunc( imageFormat );
if( !OutputRowFunc )
return false;
CUtlBuffer buf( image.Base(), image.NumAllocated(), CUtlBuffer::READ_ONLY );
unsigned char* pDstBits;
for( int row = 0; row < header.height; ++row )
{
pDstBits = pDst +
row * header.width * ImageLoader::SizeInBytes(imageFormat);
OutputRowFunc( buf, header, pDstBits );
}
return true;
}
#endif
//-----------------------------------------------------------------------------
// Parses the lovely bits previously read from disk
//-----------------------------------------------------------------------------
bool Load( unsigned char *pOutputImage, CUtlBuffer& buf, int width,
int height, ImageFormat imageFormat, float targetGamma, bool mipmap )
{
TGAHeader_t header;
// Read the TGA header
ReadHeader( buf, header );
// skip TARGA image comment
if( header.id_length != 0 )
{
buf.SeekGet( CUtlBuffer::SEEK_CURRENT, header.id_length );
}
// Read the color map for palettized images
if( header.colormap_length != 0 )
{
if (!ReadColormap( buf, header ))
return false;
}
// Stores the RGBA8888 temp version of the image which we'll use to
// to do mipmapping...
CTempImage tmpImage;
if (!ReadSourceImage( buf, header, tmpImage ))
return false;
// Erg... what if header.width * header.height > width * height?
// Then don't do anything, this is an error condition...
if ((width * height) < (header.width * header.height))
return false;
// Now that we've got the source image, generate the mip-map levels
ImageLoader::GenerateMipmapLevels( tmpImage.Base(), pOutputImage,
header.width, header.height, 1, imageFormat, ARTWORK_GAMMA, targetGamma,
mipmap ? 0 : 1 );
return true;
}
//-----------------------------------------------------------------------------
// Reads a TGA image from a file
//-----------------------------------------------------------------------------
bool Load( unsigned char *pOutputImage, const char *pFileName, int width, int height,
ImageFormat imageFormat, float targetGamma, bool mipmap )
{
Assert( pOutputImage && pFileName );
// memory for the file
CTempImage vec;
// Read that puppy in!
if (!ReadFile( pFileName, vec ))
return false;
// Make an unserialization buffer
CUtlBuffer buf( vec.Base(), vec.NumAllocated(), CUtlBuffer::READ_ONLY );
// Do the dirty deed
return Load( pOutputImage, buf, width, height, imageFormat, targetGamma, mipmap );
}
//-----------------------------------------------------------------------------
// Creates a map in linear space
//-----------------------------------------------------------------------------
bool LoadRGBA8888( CUtlBuffer& buf, CUtlMemory<unsigned char> &outputData, int &outWidth, int &outHeight )
{
TGAHeader_t header;
// Read the TGA header
ReadHeader( buf, header );
// skip TARGA image comment
if( header.id_length != 0 )
{
buf.SeekGet( CUtlBuffer::SEEK_CURRENT, header.id_length );
}
// Read the color map for palettized images
if( header.colormap_length != 0 )
{
if (!ReadColormap( buf, header ))
return false;
}
// Stores the RGBA8888 temp version of the image which we'll use to
// to do mipmapping...
int memSize = ImageLoader::GetMemRequired(
header.width, header.height, 1, IMAGE_FORMAT_RGBA8888, false );
outputData.EnsureCapacity( memSize );
if (!ReadSourceImage( buf, header, outputData ))
return false;
outWidth = header.width;
outHeight = header.height;
return true;
}
//-----------------------------------------------------------------------------
// Reads a TGA, keeps it in RGBA8888
//-----------------------------------------------------------------------------
bool LoadRGBA8888( const char *pFileName, CUtlMemory<unsigned char> &outputData, int &outWidth, int &outHeight )
{
Assert( pFileName );
// memory for the file
CTempImage vec;
// Read that puppy in!
if (!ReadFile( pFileName, vec ))
return false;
// Make an unserialization buffer
CUtlBuffer buf( vec.Base(), vec.NumAllocated(), CUtlBuffer::READ_ONLY );
// Do the dirty deed
return LoadRGBA8888( buf, outputData, outWidth, outHeight );
}
} // end namespace TGALoader