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// NeL - MMORPG Framework <http://dev.ryzom.com/projects/nel/>
// Copyright (C) 2010 Winch Gate Property Limited
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as
// published by the Free Software Foundation, either version 3 of the
// License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
# include <iostream>
# include "nel/misc/file.h"
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# include "nel/misc/common.h"
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# include "nel/misc/bitmap.h"
# include "nel/misc/path.h"
# include "nel/misc/debug.h"
# include "nel/misc/cmd_args.h"
# include <math.h>
# include "../s3tc_compressor_lib/s3tc_compressor.h"
using namespace NLMISC ;
using namespace std ;
# define TGA8 8
# define TGA16 16
# define PNG8 108
# define PNG16 116
# define NOT_DEFINED 0xff
bool sameType ( const std : : string & sFileNameDest , uint8 algo ) ;
bool dataCheck ( const std : : string & sFileNameSrc , const std : : string & FileNameDest , uint8 algo ) ;
std : : string getOutputFileName ( const std : : string & inputFileName ) ;
uint8 getType ( const std : : string & sFileNameDest )
{
uint32 dds ;
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FILE * f = nlfopen ( sFileNameDest , " rb " ) ;
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if ( f = = NULL )
{
return NOT_DEFINED ;
}
CS3TCCompressor : : DDS_HEADER h ;
if ( fread ( & dds , 1 , 4 , f ) ! = 4 )
{
fclose ( f ) ;
return NOT_DEFINED ;
}
# ifdef NL_BIG_ENDIAN
NLMISC_BSWAP32 ( dds ) ;
# endif
if ( fread ( & h , sizeof ( CS3TCCompressor : : DDS_HEADER ) , 1 , f ) ! = 1 )
{
fclose ( f ) ;
return NOT_DEFINED ;
}
if ( fclose ( f ) )
{
cerr < < sFileNameDest < < " is not closed " < < endl ;
}
if ( h . ddpf . dwFourCC = = MAKEFOURCC ( ' D ' , ' X ' , ' T ' , ' 1 ' )
& & h . ddpf . dwRGBBitCount = = 0 )
{
return DXT1 ;
}
if ( h . ddpf . dwFourCC = = MAKEFOURCC ( ' D ' , ' X ' , ' T ' , ' 1 ' )
& & h . ddpf . dwRGBBitCount > 0 )
{
return DXT1A ;
}
if ( h . ddpf . dwFourCC = = MAKEFOURCC ( ' D ' , ' X ' , ' T ' , ' 3 ' ) )
{
return DXT3 ;
}
if ( h . ddpf . dwFourCC = = MAKEFOURCC ( ' D ' , ' X ' , ' T ' , ' 5 ' ) )
{
return DXT5 ;
}
return NOT_DEFINED ;
}
bool sameType ( const std : : string & sFileNameDest , uint8 & algo , bool wantMipMap )
{
uint32 dds ;
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FILE * f = nlfopen ( sFileNameDest , " rb " ) ;
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if ( f = = NULL )
{
return false ;
}
CS3TCCompressor : : DDS_HEADER h ;
if ( fread ( & dds , 1 , 4 , f ) ! = 4 )
{
fclose ( f ) ;
return false ;
}
if ( fread ( & h , sizeof ( : : DDS_HEADER ) , 1 , f ) ! = 1 )
{
fclose ( f ) ;
return false ;
}
if ( fclose ( f ) )
{
cerr < < sFileNameDest < < " is not closed " < < endl ;
}
bool algoOk = false ;
switch ( algo )
{
case DXT1 :
if ( h . ddpf . dwFourCC = = MAKEFOURCC ( ' D ' , ' X ' , ' T ' , ' 1 ' )
& & h . ddpf . dwRGBBitCount = = 0 )
algoOk = true ;
break ;
case DXT1A :
if ( h . ddpf . dwFourCC = = MAKEFOURCC ( ' D ' , ' X ' , ' T ' , ' 1 ' )
& & h . ddpf . dwRGBBitCount > 0 )
algoOk = true ;
break ;
case DXT3 :
if ( h . ddpf . dwFourCC = = MAKEFOURCC ( ' D ' , ' X ' , ' T ' , ' 3 ' ) )
algoOk = true ;
break ;
case DXT5 :
if ( h . ddpf . dwFourCC = = MAKEFOURCC ( ' D ' , ' X ' , ' T ' , ' 5 ' ) )
algoOk = true ;
break ;
}
if ( ! algoOk )
return false ;
// Test Mipmap.
bool fileHasMipMap = ( h . dwFlags & DDSD_MIPMAPCOUNT ) & & ( h . dwMipMapCount > 1 ) ;
if ( fileHasMipMap = = wantMipMap )
return true ;
return false ;
}
bool dataCheck ( const std : : string & sFileNameSrc , const std : : string & sFileNameDest , uint8 & algo , bool wantMipMap )
{
if ( ! CFile : : fileExists ( sFileNameSrc ) )
{
cerr < < " Can't open file " < < sFileNameSrc < < endl ;
return false ;
}
if ( ! CFile : : fileExists ( sFileNameDest ) )
{
return false ; // destination file doesn't exist yet
}
uint32 lastWriteTime1 = CFile : : getFileModificationDate ( sFileNameSrc ) ;
uint32 lastWriteTime2 = CFile : : getFileModificationDate ( sFileNameDest ) ;
if ( lastWriteTime1 > lastWriteTime2 )
{
return false ;
}
if ( lastWriteTime1 < lastWriteTime2 )
{
if ( ! sameType ( sFileNameDest , algo , wantMipMap ) )
{
return false ; // file exists but a new compression type is required
}
}
return true ;
}
std : : string getOutputFileName ( const std : : string & inputFileName )
{
std : : string : : size_type pos = inputFileName . rfind ( " . " ) ;
if ( pos = = std : : string : : npos )
{
// name whithout extension
return inputFileName + " .dds " ;
}
else
{
return inputFileName . substr ( 0 , pos ) + " .dds " ;
}
}
// ***************************************************************************
void dividSize ( CBitmap & bitmap )
{
// Must be RGBA
nlassert ( bitmap . getPixelFormat ( ) = = CBitmap : : RGBA ) ;
// Copy the bitmap
CBitmap temp = bitmap ;
// Resize the destination
const uint width = temp . getWidth ( ) ;
const uint height = temp . getHeight ( ) ;
const uint newWidth = temp . getWidth ( ) / 2 ;
const uint newHeight = temp . getHeight ( ) / 2 ;
bitmap . resize ( newWidth , newHeight , CBitmap : : RGBA ) ;
// Pointers
uint8 * pixelSrc = & ( temp . getPixels ( ) [ 0 ] ) ;
uint8 * pixelDest = & ( bitmap . getPixels ( ) [ 0 ] ) ;
// Resample
uint x , y ;
for ( y = 0 ; y < newHeight ; y + + )
for ( x = 0 ; x < newWidth ; x + + )
{
const uint offsetSrc = ( ( y * 2 ) * width + x * 2 ) * 4 ;
const uint offsetDest = ( y * newWidth + x ) * 4 ;
uint i ;
for ( i = 0 ; i < 4 ; i + + )
{
pixelDest [ offsetDest + i ] = ( ( uint ) pixelSrc [ offsetSrc + i ] + ( uint ) pixelSrc [ offsetSrc + 4 + i ] +
( uint ) pixelSrc [ offsetSrc + 4 * width + i ] + ( uint ) pixelSrc [ offsetSrc + 4 * width + 4 + i ] ) > > 2 ;
}
}
}
const int bayerDiv8R [ 4 ] [ 4 ] = {
{ 7 , 3 , 6 , 2 } ,
{ 1 , 5 , 0 , 4 } ,
{ 6 , 2 , 7 , 3 } ,
{ 0 , 4 , 1 , 5 }
} ;
const int bayerDiv8G [ 4 ] [ 4 ] = {
{ 0 , 4 , 1 , 5 } ,
{ 6 , 2 , 7 , 3 } ,
{ 1 , 5 , 0 , 4 } ,
{ 7 , 3 , 6 , 2 }
} ;
const int bayerDiv8B [ 4 ] [ 4 ] = {
{ 5 , 1 , 4 , 0 } ,
{ 3 , 7 , 2 , 6 } ,
{ 4 , 0 , 5 , 1 } ,
{ 2 , 6 , 3 , 7 }
} ;
// ***************************************************************************
int main ( int argc , char * * argv )
{
CApplicationContext applicationContext ;
// Parse Command Line.
//====================
NLMISC : : CCmdArgs args ;
args . setDescription (
" Convert TGA or PNG image file to DDS compressed file using DXTC compression (DXTC1, DXTC1 with alpha, DXTC3, or DXTC5). \n "
" The program looks for possible user color files and load them automatically, a user color file must have the same name that the original tga file, plus the extension \" _usercolor \" \n "
" Eg.: pic.tga, the associated user color file must be: pic_usercolor.tga \n "
) ;
args . addArg ( " o " , " output " , " output.dds " , " Output DDS filename or directory " ) ;
args . addArg ( " a " , " algo " , " algo " , " Conversion algorithm to use \n "
" 1 for DXTC1 (no alpha) \n "
" 1A for DXTC1 with alpha \n "
" 3 for DXTC3 \n "
" 5 for DXTC5 \n "
" tga16 for 16 bits TGA \n "
" tga8 for 8 bits TGA \n "
" png16 for 16 bits PNG \n "
" png8 for 8 bits PNG \n "
" \n "
" default : DXTC1 if 24 bits, DXTC5 if 32 bits. "
) ;
args . addArg ( " m " , " mipmap " , " " , " Create MipMap " ) ;
args . addArg ( " r " , " reduce " , " FACTOR " , " Reduce the bitmap size before compressing \n FACTOR is 0, 1, 2, 3, 4, 5, 6, 7 or 8 " ) ;
args . addAdditionalArg ( " input " , " PNG or TGA files to convert " , false ) ;
if ( ! args . parse ( argc , argv ) ) return 1 ;
string OptOutputFileName ;
uint8 OptAlgo = NOT_DEFINED ;
bool OptMipMap = false ;
uint Reduce = 0 ;
if ( args . haveArg ( " o " ) )
OptOutputFileName = args . getArg ( " o " ) . front ( ) ;
if ( args . haveArg ( " a " ) )
{
std : : string strAlgo = args . getArg ( " a " ) . front ( ) ;
if ( strAlgo = = " 1 " ) OptAlgo = DXT1 ;
else if ( toLower ( strAlgo ) = = " 1a " ) OptAlgo = DXT1A ;
else if ( strAlgo = = " 3 " ) OptAlgo = DXT3 ;
else if ( strAlgo = = " 5 " ) OptAlgo = DXT5 ;
else if ( strAlgo = = " tga8 " ) OptAlgo = TGA8 ;
else if ( strAlgo = = " tga16 " ) OptAlgo = TGA16 ;
else if ( strAlgo = = " png8 " ) OptAlgo = PNG8 ;
else if ( strAlgo = = " png16 " ) OptAlgo = PNG16 ;
else
{
cerr < < " Unknown algorithm: " < < strAlgo < < endl ;
return 1 ;
}
}
if ( args . haveArg ( " r " ) )
{
std : : string strReduce = args . getArg ( " r " ) . front ( ) ;
// Reduce size of the bitmap
if ( fromString ( strReduce , Reduce ) )
{
if ( Reduce > 8 ) Reduce = 8 ;
}
}
std : : vector < std : : string > inputFileNames = args . getAdditionalArg ( " input " ) ;
for ( uint i = 0 ; i < inputFileNames . size ( ) ; + + i )
{
uint8 algo ;
// Reading TGA or PNG and converting to RGBA
//====================================
CBitmap picTga ;
CBitmap picTga2 ;
CBitmap picSrc ;
std : : string inputFileName = inputFileNames [ i ] ;
if ( inputFileName . find ( " _usercolor " ) < inputFileName . length ( ) )
{
return 0 ;
}
NLMISC : : CIFile input ;
if ( ! input . open ( inputFileName ) )
{
cerr < < " Can't open input file " < < inputFileName < < endl ;
return 1 ;
}
uint8 imageDepth = picTga . load ( input ) ;
if ( imageDepth = = 0 )
{
cerr < < " Can't load file: " < < inputFileName < < endl ;
return 1 ;
}
if ( imageDepth ! = 16 & & imageDepth ! = 24 & & imageDepth ! = 32 & & imageDepth ! = 8 )
{
cerr < < " Image not supported: " < < imageDepth < < endl ;
return 1 ;
}
input . close ( ) ;
uint32 height = picTga . getHeight ( ) ;
uint32 width = picTga . getWidth ( ) ;
picTga . convertToType ( CBitmap : : RGBA ) ;
// Output file name and algo.
//===========================
std : : string outputFileName ;
if ( ! OptOutputFileName . empty ( ) )
{
// if OptOutputFileName is a directory, append the original filename
if ( CFile : : isDirectory ( OptOutputFileName ) )
{
outputFileName = CPath : : standardizePath ( OptOutputFileName ) + CFile : : getFilename ( getOutputFileName ( inputFileName ) ) ;
}
else
{
outputFileName = OptOutputFileName ;
if ( inputFileNames . size ( ) > 1 )
{
cerr < < " WARNING! Several files to convert to the same output filename! Use an output directory instead. " < < endl ;
return 1 ;
}
}
}
else
{
outputFileName = getOutputFileName ( inputFileName ) ;
}
// Check dest algo
if ( OptAlgo = = NOT_DEFINED )
OptAlgo = getType ( outputFileName ) ;
// Choose Algo.
if ( OptAlgo ! = NOT_DEFINED )
{
algo = OptAlgo ;
}
else
{
// TODO: if alpha channel is 0, use DXTC1a instead DXTC1
if ( imageDepth = = 24 )
algo = DXT1 ;
else
algo = DXT5 ;
}
// Data check
//===========
if ( dataCheck ( inputFileName , outputFileName , OptAlgo , OptMipMap ) )
{
cout < < outputFileName < < " : a recent dds file already exists " < < endl ;
return 0 ;
}
// Vectors for RGBA data
CObjectVector < uint8 > RGBASrc = picTga . getPixels ( ) ;
CObjectVector < uint8 > RGBASrc2 ;
CObjectVector < uint8 > RGBADest ;
RGBADest . resize ( height * width * 4 ) ;
uint dstRGBADestId = 0 ;
// UserColor
//===========
/*
// Checking if option "usercolor" has been used
std : : string userColorFileName ;
if ( argc > 4 )
{
if ( strcmp ( " -usercolor " , argv [ 4 ] ) = = 0 )
{
if ( argc ! = 6 )
{
writeInstructions ( ) ;
return ;
}
userColorFileName = argv [ 5 ] ;
}
else
{
writeInstructions ( ) ;
return ;
}
}
*/
// Checking if associate usercolor file exists
std : : string userColorFileName ;
std : : string : : size_type pos = inputFileName . rfind ( " . " ) ;
if ( pos = = std : : string : : npos )
{
// name without extension
userColorFileName = inputFileName + " _usercolor " ;
}
else
{
// append input filename extension
userColorFileName = inputFileName . substr ( 0 , pos ) + " _usercolor " + inputFileName . substr ( pos ) ;
}
// Reading second Tga for user color, don't complain if _usercolor is missing
NLMISC : : CIFile input2 ;
if ( CPath : : exists ( userColorFileName ) & & input2 . open ( userColorFileName ) )
{
picTga2 . load ( input2 ) ;
uint32 height2 = picTga2 . getHeight ( ) ;
uint32 width2 = picTga2 . getWidth ( ) ;
nlassert ( width2 = = width ) ;
nlassert ( height2 = = height ) ;
picTga2 . convertToType ( CBitmap : : RGBA ) ;
RGBASrc2 = picTga2 . getPixels ( ) ;
NLMISC : : CRGBA * pRGBASrc = ( NLMISC : : CRGBA * ) & RGBASrc [ 0 ] ;
NLMISC : : CRGBA * pRGBASrc2 = ( NLMISC : : CRGBA * ) & RGBASrc2 [ 0 ] ;
for ( uint32 i = 0 ; i < width * height ; i + + )
{
// If no UserColor, must take same RGB, and keep same Alpha from src1 !!! So texture can have both alpha
// userColor and other alpha usage.
if ( pRGBASrc2 [ i ] . A = = 255 )
{
RGBADest [ dstRGBADestId + + ] = pRGBASrc [ i ] . R ;
RGBADest [ dstRGBADestId + + ] = pRGBASrc [ i ] . G ;
RGBADest [ dstRGBADestId + + ] = pRGBASrc [ i ] . B ;
RGBADest [ dstRGBADestId + + ] = pRGBASrc [ i ] . A ;
}
else
{
// Old code.
/*uint8 F = (uint8) ((float)pRGBASrc[i].R*0.3 + (float)pRGBASrc[i].G*0.56 + (float)pRGBASrc[i].B*0.14);
uint8 Frgb ;
if ( ( F * pRGBASrc2 [ i ] . A / 255 ) = = 255 )
Frgb = 0 ;
else
Frgb = ( 255 - pRGBASrc2 [ i ] . A ) / ( 255 - F * pRGBASrc2 [ i ] . A / 255 ) ;
RGBADest [ dstRGBADestId + + ] = Frgb * pRGBASrc [ i ] . R / 255 ;
RGBADest [ dstRGBADestId + + ] = Frgb * pRGBASrc [ i ] . G / 255 ;
RGBADest [ dstRGBADestId + + ] = Frgb * pRGBASrc [ i ] . B / 255 ;
RGBADest [ dstRGBADestId + + ] = F * pRGBASrc [ i ] . A / 255 ; */
// New code: use new restrictions from IDriver.
float Rt , Gt , Bt , At ;
float Lt ;
float Rtm , Gtm , Btm , Atm ;
// read 0-1 RGB pixel.
Rt = ( float ) pRGBASrc [ i ] . R / 255 ;
Gt = ( float ) pRGBASrc [ i ] . G / 255 ;
Bt = ( float ) pRGBASrc [ i ] . B / 255 ;
Lt = Rt * 0.3f + Gt * 0.56f + Bt * 0.14f ;
// take Alpha from userColor src.
At = ( float ) pRGBASrc2 [ i ] . A / 255 ;
Atm = 1 - Lt * ( 1 - At ) ;
// If normal case.
if ( Atm > 0 )
{
Rtm = Rt * At / Atm ;
Gtm = Gt * At / Atm ;
Btm = Bt * At / Atm ;
}
// Else special case: At==0, and Lt==1.
else
{
Rtm = Gtm = Btm = 0 ;
}
// copy to buffer.
sint r , g , b , a ;
r = ( sint ) floor ( Rtm * 255 + 0.5f ) ;
g = ( sint ) floor ( Gtm * 255 + 0.5f ) ;
b = ( sint ) floor ( Btm * 255 + 0.5f ) ;
a = ( sint ) floor ( Atm * 255 + 0.5f ) ;
clamp ( r , 0 , 255 ) ;
clamp ( g , 0 , 255 ) ;
clamp ( b , 0 , 255 ) ;
clamp ( a , 0 , 255 ) ;
RGBADest [ dstRGBADestId + + ] = r ;
RGBADest [ dstRGBADestId + + ] = g ;
RGBADest [ dstRGBADestId + + ] = b ;
RGBADest [ dstRGBADestId + + ] = a ;
}
}
}
else
RGBADest = RGBASrc ;
// Copy to the dest bitmap.
picSrc . resize ( width , height , CBitmap : : RGBA ) ;
picSrc . getPixels ( 0 ) = RGBADest ;
// Resize the destination bitmap ?
while ( Reduce ! = 0 )
{
dividSize ( picSrc ) ;
Reduce - - ;
}
if ( algo = = TGA16 )
{
// Apply bayer dither
CObjectVector < uint8 > & rgba = picSrc . getPixels ( 0 ) ;
const uint32 w = picSrc . getWidth ( 0 ) ;
uint32 x = 0 ;
uint32 y = 0 ;
for ( uint32 i = 0 ; i < rgba . size ( ) ; i + = 4 )
{
NLMISC : : CRGBA & c = reinterpret_cast < NLMISC : : CRGBA & > ( rgba [ i ] ) ;
c . R = ( uint8 ) std : : min ( 255 , ( int ) c . R + bayerDiv8R [ x % 4 ] [ y % 4 ] ) ;
c . G = ( uint8 ) std : : min ( 255 , ( int ) c . G + bayerDiv8G [ x % 4 ] [ y % 4 ] ) ;
c . B = ( uint8 ) std : : min ( 255 , ( int ) c . B + bayerDiv8B [ x % 4 ] [ y % 4 ] ) ;
+ + x ;
x % = w ;
if ( x = = 0 )
+ + y ;
}
}
// 8 or 16 bits TGA or PNG ?
if ( ( algo = = TGA16 ) | | ( algo = = TGA8 ) | | ( algo = = PNG16 ) | | ( algo = = PNG8 ) )
{
// Saving TGA or PNG file
//=================
NLMISC : : COFile output ;
if ( ! output . open ( outputFileName ) )
{
cerr < < " Can't open output file " < < outputFileName < < endl ;
return 1 ;
}
try
{
if ( algo = = TGA16 )
{
picSrc . writeTGA ( output , 16 ) ;
}
else if ( algo = = TGA8 )
{
picSrc . convertToType ( CBitmap : : Luminance ) ;
picSrc . writeTGA ( output , 8 ) ;
}
else if ( algo = = PNG16 )
{
picSrc . writePNG ( output , 16 ) ;
}
else if ( algo = = PNG8 )
{
picSrc . convertToType ( CBitmap : : Luminance ) ;
picSrc . writePNG ( output , 8 ) ;
}
}
catch ( const NLMISC : : EWriteError & e )
{
cerr < < e . what ( ) < < endl ;
return 1 ;
}
output . close ( ) ;
}
else
{
// Compress
//===========
// log.
std : : string algostr ;
switch ( algo )
{
case DXT1 :
algostr = " DXTC1 " ;
break ;
case DXT1A :
algostr = " DXTC1A " ;
break ;
case DXT3 :
algostr = " DXTC3 " ;
break ;
case DXT5 :
algostr = " DXTC5 " ;
break ;
}
cout < < " compressing ( " < < algostr < < " ) " < < inputFileName < < " to " < < outputFileName < < endl ;
// Saving compressed DDS file
// =================
NLMISC : : COFile output ;
if ( ! output . open ( outputFileName ) )
{
cerr < < " Can't open output file " < < outputFileName < < endl ;
return 1 ;
}
try
{
CS3TCCompressor comp ;
comp . compress ( picSrc , OptMipMap , algo , output ) ;
}
catch ( const NLMISC : : EWriteError & e )
{
cerr < < e . what ( ) < < endl ;
return 1 ;
}
output . close ( ) ;
}
}
return 0 ;
}