Team Fortress 2 Source Code as on 22/4/2020
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//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose: build a sheet data file and a large image out of multiple images
//
//===========================================================================//
#include "tier0/platform.h"
#include "tier0/progressbar.h"
#include "bitmap/float_bm.h"
#include "mathlib/mathlib.h"
#include "tier2/tier2.h"
#include "tier0/memdbgon.h"
#include "filesystem.h"
#include "tier1/utlstringmap.h"
#include "tier1/strtools.h"
#include "tier1/utlmap.h"
#include "bitmap/float_bm.h"
#include "tier2/fileutils.h"
#include "stdlib.h"
#include "tier0/dbg.h"
#define MAX_IMAGES_PER_FRAME 4
struct Sequence;
struct SequenceFrame
{
SequenceFrame() : m_mapSequences( DefLessFunc( Sequence * ) ) {}
FloatBitMap_t *m_pImage;
int m_XCoord, m_YCoord; // where it ended up packed
CUtlMap< Sequence *, int > m_mapSequences;
};
enum PackingMode_t
{
PCKM_INVALID = 0,
PCKM_FLAT, // Default mode - every frame consumes entire RGBA space
PCKM_RGB_A, // Some sequences consume RGB space and some Alpha space
};
static CUtlStringMap<SequenceFrame *> ImageList;
static PackingMode_t s_ePackingMode = PCKM_FLAT;
struct SequenceEntry
{
SequenceFrame *m_pSeqFrame[MAX_IMAGES_PER_FRAME];
float m_fDisplayTime;
};
struct Sequence
{
enum SeqMode_t
{
SQM_RGBA = 0, // Sequence occupies entire RGBA space
SQM_RGB = 1, // Sequence occupies only RGB space
SQM_ALPHA = 2 // Sequence occupies only Alpha space
};
int m_nSequenceNumber;
bool m_Clamp; // as opposed to loop
SeqMode_t m_eMode;
CUtlVector<SequenceEntry> m_Frames;
Sequence( void )
{
m_Clamp = true;
m_eMode = SQM_RGBA;
}
};
static int GetChannelIndexFromChar( char c )
{
// r->0 b->1 g->2 a->3 else -1
static char s_ChannelIDs[]="rgba";
char const *pChanChar = strchr( s_ChannelIDs, c );
if ( ! pChanChar )
{
printf( " bad channel name '%c'\n", c );
return -1;
}
else
return pChanChar - s_ChannelIDs;
}
static FloatBitMap_t *CreateFBM( const char * fname )
{
if ( strchr( fname, ',' ) )
{
// parse extended specifications
CUtlVector<char *> Images;
V_SplitString( fname, ",", Images);
FloatBitMap_t *pBM = NULL;
// now, process bitmaps, performing copy operations specified by {} syntax
for(int i=0; i < Images.Count(); i++)
{
char fnamebuf[MAX_PATH];
strcpy( fnamebuf, Images[i] );
char * pBrace=strchr( fnamebuf, '{' );
if ( pBrace )
{
*pBrace = 0; // null it
pBrace++; // point at control specifier
char *pEndBrace = strchr( pBrace, '}' );
if ( ! pEndBrace )
printf( "bad extended bitmap synax (no close brace) - %s \n", Images[i] );
}
FloatBitMap_t NewBM( fnamebuf );
if ( ! pBM )
{
// first image sets size
pBM = new FloatBitMap_t( &NewBM );
}
// now, process operation specifiers of the form "{chan=chan}" or "{chan=0}"
if ( pBrace )
{
if ( pBrace[1] == '=' )
{
int nDstChan = GetChannelIndexFromChar( pBrace[0] );
if ( nDstChan != -1 )
{
if ( pBrace[2] == '0' )
{
// zero the channel
for(int y = 0; y < NewBM.Height; y++ )
for(int x=0; x < NewBM.Width; x++ )
{
pBM->Pixel( x, y, nDstChan ) = 0;
}
}
else
{
int nSrcChan = GetChannelIndexFromChar( pBrace[2] );
if ( nSrcChan != -1 )
{
// perform the channel copy
for(int y = 0; y < NewBM.Height; y++ )
for(int x=0; x < NewBM.Width; x++ )
{
pBM->Pixel( x, y, nDstChan ) = NewBM.Pixel( x, y, nSrcChan );
}
}
}
}
}
}
}
return pBM;
}
else
return new FloatBitMap_t( fname );
}
static CUtlVector< Sequence *> Sequences;
static Sequence *pCurSequence=NULL;
static int s_nWidth;
static int s_nHeight;
static void ApplyMacros( char * in_buf )
{
CUtlVector<char *> Words;
V_SplitString( in_buf, " ", Words);
if ( ( Words.Count() == 4 ) && (! stricmp( Words[0],"ga_frame") ) )
{
// ga_frame frm1 frm2 n -> frame frm1{r=a},frm1{g=a},frm1{b=a},frm2{a=a} n
sprintf(in_buf, "frame %s{r=0},%s{g=a},%s{b=0},%s{a=a} %s",
Words[1],Words[1],Words[1],Words[2],Words[3]);
}
Words.PurgeAndDeleteElements();
}
static void ReadTextControlFile( char const *fname )
{
CRequiredInputTextFile f( fname );
char linebuffer[4096];
bool numActualLinesRead = 0;
while ( f.ReadLine( linebuffer, sizeof(linebuffer) ) )
{
++ numActualLinesRead;
// kill newline
char *pChop=strchr( linebuffer, '\n' );
if ( pChop )
*pChop = 0;
char *comment=Q_strstr( linebuffer, "//" );
if ( comment )
*comment = 0;
char *in_str=linebuffer;
while( ( in_str[0]==' ' ) || ( in_str[0]=='\t') )
in_str++;
if (in_str[0])
{
strlwr( in_str );
ApplyMacros( in_str );
CUtlVector<char *> Words;
V_SplitString( in_str, " ", Words);
if ( ( Words.Count() == 1) && (! stricmp( Words[0],"loop" ) ) )
{
if ( pCurSequence )
pCurSequence->m_Clamp = false;
}
else if ( ( Words.Count() == 2 ) && (! stricmp( Words[0], "packmode" ) ) )
{
PackingMode_t eRequestedMode = PCKM_INVALID;
if ( !stricmp( Words[1], "flat" ) || !stricmp( Words[1], "rgba" ) )
eRequestedMode = PCKM_FLAT;
else if ( !stricmp( Words[1], "rgb+a" ) )
eRequestedMode = PCKM_RGB_A;
if ( eRequestedMode == PCKM_INVALID )
printf( "*** line %d: invalid packmode specified, allowed values are 'rgba' or 'rgb+a'!\n", numActualLinesRead ),
exit( -1 );
else if ( !Sequences.Count() )
s_ePackingMode = eRequestedMode;
else if ( s_ePackingMode != eRequestedMode )
{
// Allow special changes:
// flat -> rgb+a
if ( s_ePackingMode == PCKM_FLAT && eRequestedMode == PCKM_RGB_A )
s_ePackingMode = eRequestedMode;
// everything else
else
printf( "*** line %d: incompatible packmode change when %d sequences already defined!\n", numActualLinesRead, Sequences.Count() ),
exit( -1 );
}
}
else if ( ( Words.Count() == 2) && StringHasPrefix( Words[0], "sequence" ) )
{
int seq_no = atoi( Words[1] );
pCurSequence = new Sequence;
pCurSequence->m_nSequenceNumber = seq_no;
// Figure out the sequence type
char const *szSeqType = StringAfterPrefix( Words[0], "sequence" );
if ( !stricmp( szSeqType, "" ) || !stricmp( szSeqType, "-rgba" ) )
pCurSequence->m_eMode = Sequence::SQM_RGBA;
else if ( !stricmp( szSeqType, "-rgb" ) )
pCurSequence->m_eMode = Sequence::SQM_RGB;
else if ( !stricmp( szSeqType, "-a" ) )
pCurSequence->m_eMode = Sequence::SQM_ALPHA;
else
printf( "*** line %d: invalid sequence type '%s', allowed 'sequence-rgba' or 'sequence-rgb' or 'sequence-a'!\n", numActualLinesRead, Words[0] ),
exit( -1 );
// Validate sequence type
switch ( s_ePackingMode )
{
case PCKM_FLAT:
switch ( pCurSequence->m_eMode )
{
case Sequence::SQM_RGBA: break;
default:
printf( "*** line %d: invalid sequence type '%s', packing 'flat' allows only 'sequence-rgba'!\n", numActualLinesRead, Words[0] ),
exit( -1 );
}
break;
case PCKM_RGB_A:
switch ( pCurSequence->m_eMode )
{
case Sequence::SQM_RGB:
case Sequence::SQM_ALPHA: break;
default:
printf( "*** line %d: invalid sequence type '%s', packing 'rgb+a' allows only 'sequence-rgb' or 'sequence-a'!\n", numActualLinesRead, Words[0] ),
exit( -1 );
}
break;
}
Sequences.AddToTail( pCurSequence );
}
else if ( ( Words.Count() >= 3) && (! stricmp( Words[0],"frame" ) ) )
{
if ( pCurSequence )
{
float ftime = atof( Words[ Words.Count() - 1 ] );
SequenceEntry new_entry;
new_entry.m_fDisplayTime = ftime;
for(int i=0;i < Words.Count()-2; i++)
{
SequenceFrame *pBM;
char * fnamebuf = Words[i+1];
if ( ! ( ImageList.Defined( fnamebuf ) ) )
{
SequenceFrame *pNew_frm = new SequenceFrame;
pNew_frm->m_pImage = CreateFBM( fnamebuf );
pBM=pNew_frm;
ImageList[ fnamebuf ] = pNew_frm;
}
else
pBM = ImageList[ fnamebuf ];
new_entry.m_pSeqFrame[i] = pBM;
// Validate that frame packing is correct
if ( s_ePackingMode == PCKM_RGB_A )
{
for ( uint16 idx = 0; idx < pBM->m_mapSequences.Count(); ++ idx )
{
Sequence *pSeq = pBM->m_mapSequences.Key( idx );
if ( pSeq->m_eMode != Sequence::SQM_RGBA &&
pSeq->m_eMode != pCurSequence->m_eMode )
{
printf( "*** line %d: 'rgb+a' packing cannot pack frame '%s' belonging to sequences %d and %d!\n", numActualLinesRead,
fnamebuf,
pSeq->m_nSequenceNumber, pCurSequence->m_nSequenceNumber ),
exit( -1 );
}
}
}
pBM->m_mapSequences.Insert( pCurSequence, 1 );
if (i == 0 )
for( int j=1; j<MAX_IMAGES_PER_FRAME; j++ )
new_entry.m_pSeqFrame[j]=new_entry.m_pSeqFrame[0];
}
pCurSequence->m_Frames.AddToTail( new_entry );
}
}
else
{
printf("*** line %d: Bad command \"%s\"!\n", numActualLinesRead, in_str ),
exit( -1 );
}
Words.PurgeAndDeleteElements();
}
}
}
inline float UCoord( int u )
{
float uc=u+0.5;
return uc/(float) s_nWidth;
}
inline float VCoord( int v )
{
float vc=v+0.5;
return vc/(float) s_nHeight;
}
bool PackImages_Flat( char const *pFname, int nWidth )
{
// !! bug !! packing algorithm is dumb and no error checking is done!
FloatBitMap_t output( nWidth, 2048);
int cur_line=0;
int cur_column=0;
int next_line=0;
int max_column_written=0;
for(int i=0; i < ImageList.GetNumStrings(); i++)
{
SequenceFrame &frm=*(ImageList[i]);
if ( cur_column+frm.m_pImage->Width > output.Width )
{
// no room!
cur_column = 0;
cur_line = next_line;
next_line = cur_line;
}
// now, pack
if ( ( cur_column+frm.m_pImage->Width > output.Width ) ||
( cur_line+frm.m_pImage->Height > output.Height ) )
{
return false; // didn't fit! doh
}
frm.m_XCoord=cur_column;
frm.m_YCoord=cur_line;
if ( pFname ) // don't actually pack the pixel if we're not keeping them
{
for(int y=0;y<frm.m_pImage->Height; y++)
for(int x=0;x<frm.m_pImage->Width; x++)
for(int c=0;c<4;c++)
{
output.Pixel(x+cur_column,y+cur_line, c)=
frm.m_pImage->Pixel(x, y, c);
}
}
next_line=max(next_line, cur_line+frm.m_pImage->Height );
cur_column += frm.m_pImage->Width;
max_column_written=max(max_column_written, cur_column);
}
// now, truncate height
int h=1;
for(h; h<next_line; h*=2)
;
// truncate width;
int w=1;
for(1; w<max_column_written; w*=2)
;
if ( pFname )
{
FloatBitMap_t cropped_output( w, h);
for(int y=0;y<cropped_output.Height; y++)
for(int x=0;x<cropped_output.Width; x++)
for(int c=0;c<4;c++)
cropped_output.Pixel(x,y,c) = output.Pixel(x,y,c);
bool bWritten = cropped_output.WriteTGAFile( pFname );
if ( !bWritten )
printf( "Error: failed to save TGA \"%s\"!\n", pFname );
else
printf( "Ok: successfully saved TGA \"%s\"\n", pFname );
}
// Store these for UV calculation later on
s_nHeight = h;
s_nWidth = w;
return true;
}
bool PackImages_Rgb_A( char const *pFname, int nWidth )
{
// !! bug !! packing algorithm is dumb and no error checking is done!
FloatBitMap_t output( nWidth, 2048);
int cur_line[2] = {0};
int cur_column[2] = {0};
int next_line[2] = {0};
int max_column_written[2] = {0};
bool bPackingRGBA = true;
for(int i=0; i < ImageList.GetNumStrings(); i++)
{
SequenceFrame &frm=*(ImageList[i]);
int idxfrm;
Sequence::SeqMode_t eMode = frm.m_mapSequences.Key( 0 )->m_eMode;
switch ( eMode )
{
case Sequence::SQM_RGB: idxfrm = 0; bPackingRGBA = false; break;
case Sequence::SQM_ALPHA: idxfrm = 1; bPackingRGBA = false; break;
case Sequence::SQM_RGBA:
if ( !bPackingRGBA )
printf( "*** error when packing 'rgb+a', bad sequence %d encountered for frame '%s' after all rgba frames packed!\n", frm.m_mapSequences.Key( 0 )->m_nSequenceNumber, ImageList.String( i ) ),
exit( -1 );
idxfrm = 0; break;
default:
printf( "*** error when packing 'rgb+a', bad sequence %d encountered for frame '%s'!\n", frm.m_mapSequences.Key( 0 )->m_nSequenceNumber, ImageList.String( i ) ),
exit( -1 );
}
if ( cur_column[idxfrm] + frm.m_pImage->Width > output.Width )
{
// no room!
cur_column[idxfrm] = 0;
cur_line[idxfrm] = next_line[idxfrm];
next_line[idxfrm] = cur_line[idxfrm];
}
// now, pack
if ( ( cur_column[idxfrm] + frm.m_pImage->Width > output.Width ) ||
( cur_line[idxfrm] + frm.m_pImage->Height > output.Height ) )
{
return false; // didn't fit! doh
}
frm.m_XCoord = cur_column[idxfrm];
frm.m_YCoord = cur_line[idxfrm];
if ( pFname ) // don't actually pack the pixel if we're not keeping them
{
for ( int y = 0; y < frm.m_pImage->Height; y++ )
for (int x = 0; x < frm.m_pImage->Width; x++ )
for(int c = 0; c < 4; c ++)
switch ( eMode )
{
case Sequence::SQM_RGB: if ( c < 3 ) goto setpx; else break;
case Sequence::SQM_ALPHA: if ( c == 3 ) goto setpx; else break;
case Sequence::SQM_RGBA: if ( c < 4 ) goto setpx; else break;
setpx:
output.Pixel( x + cur_column[idxfrm], y + cur_line[idxfrm], c ) = frm.m_pImage->Pixel(x, y, c);
}
}
next_line[idxfrm] = max( next_line[idxfrm], cur_line[idxfrm] + frm.m_pImage->Height );
cur_column[idxfrm] += frm.m_pImage->Width;
max_column_written[idxfrm] = max( max_column_written[idxfrm], cur_column[idxfrm] );
if ( bPackingRGBA )
{
cur_line[1] = cur_line[0];
cur_column[1] = cur_column[0];
next_line[1] = next_line[0];
max_column_written[1] = max_column_written[0];
}
}
// now, truncate height
int h=1;
for ( int idxfrm = 0; idxfrm < 2; ++ idxfrm )
for ( h; h < next_line[idxfrm]; h*=2 )
continue;
// truncate width;
int w=1;
for ( int idxfrm = 0; idxfrm < 2; ++ idxfrm )
for ( w; w < max_column_written[idxfrm]; w*=2 )
continue;
if ( pFname )
{
FloatBitMap_t cropped_output( w, h );
for(int y=0;y<cropped_output.Height; y++)
for(int x=0;x<cropped_output.Width; x++)
for(int c=0;c<4;c++)
cropped_output.Pixel(x,y,c) = output.Pixel(x,y,c);
bool bWritten = cropped_output.WriteTGAFile( pFname );
if ( !bWritten )
printf( "Error: failed to save TGA \"%s\"!\n", pFname );
else
printf( "Ok: successfully saved TGA \"%s\"\n", pFname );
}
// Store these for UV calculation later on
s_nHeight = h;
s_nWidth = w;
return true;
}
bool PackImages( char const *pFname, int nWidth )
{
switch ( s_ePackingMode )
{
case PCKM_FLAT:
return PackImages_Flat( pFname, nWidth );
case PCKM_RGB_A:
return PackImages_Rgb_A( pFname, nWidth );
case PCKM_INVALID:
default:
return false;
}
}
void main(int argc,char **argv)
{
InitCommandLineProgram( argc, argv );
if ( argc < 2 || argc > 4 )
{
printf( "format is 'mksheet sheet.mks [output.sht] [output.tga]'\n" );
return;
}
char pMksFileBuf[MAX_PATH];
char pShtFileBuf[MAX_PATH];
char pTgaFileBuf[MAX_PATH];
const char *pSourceFile;
const char *pShtFile;
const char *pTgaFile;
Q_strncpy( pMksFileBuf, argv[1], sizeof(pMksFileBuf) );
Q_DefaultExtension( pMksFileBuf, ".mks", sizeof(pMksFileBuf) );
pSourceFile = pMksFileBuf;
if ( argc < 4 )
{
Q_StripExtension( pSourceFile, pTgaFileBuf, sizeof(pTgaFileBuf) );
Q_SetExtension( pTgaFileBuf, ".tga", sizeof(pTgaFileBuf) );
pTgaFile = pTgaFileBuf;
}
else
{
pTgaFile = argv[3];
}
if ( argc < 3 )
{
Q_StripExtension( pSourceFile, pShtFileBuf, sizeof(pShtFileBuf) );
Q_SetExtension( pShtFileBuf, ".sht", sizeof(pShtFileBuf) );
pShtFile = pShtFileBuf;
}
else
{
pShtFile = argv[2];
}
ReportProgress("reading text file",0,0);
ReadTextControlFile( pSourceFile );
// now, determine best packing
int nBestWidth = -1;
int nBestSize = (1 << 30 );
int nBestSquareness = ( 1 << 30 ); // how square the texture is
for( int nTryWidth = 2048 ; nTryWidth >= 64; nTryWidth >>= 1 )
{
bool bSuccess = PackImages( NULL, nTryWidth );
if ( bSuccess )
{
printf( "Packing option: %dx%d (%d pixels)\n", s_nWidth, s_nHeight, s_nWidth * s_nHeight );
bool bPreferThisPack = false;
int thisSize = s_nHeight * s_nWidth;
int thisSquareness = ( s_nWidth == s_nHeight ) ? 1 : ( s_nHeight / s_nWidth + s_nWidth / s_nHeight );
if ( thisSize < nBestSize )
bPreferThisPack = true;
else if ( thisSize == nBestSize &&
thisSquareness < nBestSquareness )
bPreferThisPack = true;
if ( bPreferThisPack )
{
nBestWidth = nTryWidth;
nBestSize = thisSize;
nBestSquareness = thisSquareness;
}
}
else
{
break;
}
}
if ( nBestWidth < 0 )
{
printf( "Packing error: failed to pack images!\n" );
exit(1);
}
s_nWidth = nBestWidth;
s_nHeight = nBestSize / nBestWidth;
printf( "Best option: %dx%d (%d pixels)%s\n", s_nWidth, s_nHeight, s_nWidth * s_nHeight, ( s_nWidth == s_nHeight ) ? " : square texture" : "" );
PackImages( pTgaFile, nBestWidth );
// now, write ouput
ReportProgress("Writing SHT output file",0,0);
COutputFile Outfile( pShtFile );
if ( Outfile.IsOk() )
{
Outfile.PutInt( 1 ); // version #
Outfile.PutInt( Sequences.Count() );
for(int i=0;i<Sequences.Count();i++)
{
Outfile.PutInt( Sequences[i]->m_nSequenceNumber );
Outfile.PutInt( Sequences[i]->m_Clamp );
Outfile.PutInt( Sequences[i]->m_Frames.Count() );
// write total sequence length
float fTotal=0.;
for(int j=0;j<Sequences[i]->m_Frames.Count(); j++ )
{
fTotal += Sequences[i]->m_Frames[j].m_fDisplayTime;
}
Outfile.PutFloat( fTotal );
for(int j=0;j<Sequences[i]->m_Frames.Count(); j++ )
{
Outfile.PutFloat( Sequences[i]->m_Frames[j].m_fDisplayTime );
// output texture coordinates
for(int t=0; t<MAX_IMAGES_PER_FRAME; t++)
{
//xmin
Outfile.PutFloat( UCoord( Sequences[i]->m_Frames[j].m_pSeqFrame[t]->m_XCoord ) );
//ymin
Outfile.PutFloat( VCoord( Sequences[i]->m_Frames[j].m_pSeqFrame[t]->m_YCoord ) );
//xmax
Outfile.PutFloat(
UCoord( Sequences[i]->m_Frames[j].m_pSeqFrame[t]->m_XCoord+
Sequences[i]->m_Frames[j].m_pSeqFrame[t]->m_pImage->Width-1 ));
//ymax
Outfile.PutFloat(
VCoord( Sequences[i]->m_Frames[j].m_pSeqFrame[t]->m_YCoord+
Sequences[i]->m_Frames[j].m_pSeqFrame[t]->m_pImage->Height-1 ));
// printf( "T %d UV1:( %.2f, %.2f ) UV2:( %.2f, %.2f )\n", t,
// UCoord( Sequences[i]->m_Frames[j].m_pSeqFrame[t]->m_XCoord ),
// VCoord( Sequences[i]->m_Frames[j].m_pSeqFrame[t]->m_YCoord ),
// UCoord( Sequences[i]->m_Frames[j].m_pSeqFrame[t]->m_XCoord+Sequences[i]->m_Frames[j].m_pSeqFrame[t]->m_pImage->Width-1 ),
// VCoord( Sequences[i]->m_Frames[j].m_pSeqFrame[t]->m_YCoord+Sequences[i]->m_Frames[j].m_pSeqFrame[t]->m_pImage->Height-1 ));
}
}
}
printf( "Ok: successfully saved SHT \"%s\"\n", pShtFile );
}
else
{
printf( "Error: failed to write SHT \"%s\"!\n", pShtFile );
}
}