amxmodx/hlsdk/utils/qlumpy/qlumpy.c
2006-08-27 02:22:59 +00:00

431 lines
8.6 KiB
C

/***
*
* Copyright (c) 1996-2002, Valve LLC. All rights reserved.
*
* This product contains software technology licensed from Id
* Software, Inc. ("Id Technology"). Id Technology (c) 1996 Id Software, Inc.
* All Rights Reserved.
*
****/
#define VERSION "2.2"
#include "qlumpy.h"
#define MAXLUMP 0x50000 // biggest possible lump
extern char qproject[];
int grabbed;
byte *byteimage, *lbmpalette;
int byteimagewidth, byteimageheight;
char basepath[1024];
char lumpname[16];
char destfile[1024];
byte *lumpbuffer, *lump_p;
qboolean savesingle;
qboolean outputcreated;
qboolean do16bit;
qboolean fTransparent255;
/*
=============================================================================
MAIN
=============================================================================
*/
void GrabRaw (void);
void GrabPalette (void);
void GrabPic (void);
void GrabMip (void);
void GrabColormap (void);
void GrabColormap2 (void);
void GrabFont( void );
typedef struct
{
char *name;
void (*function) (void);
} command_t;
command_t commands[] =
{
{ "palette", GrabPalette },
{ "colormap", GrabColormap },
{ "qpic", GrabPic },
{ "miptex", GrabMip },
{ "raw", GrabRaw },
{ "colormap2", GrabColormap2 },
{ "font", GrabFont },
{ NULL, NULL } // list terminator
};
#define TRANSPARENT_R 0x0
#define TRANSPARENT_G 0x0
#define TRANSPARENT_B 0xFF
#define IS_TRANSPARENT(p) (p[0]==TRANSPARENT_R && p[1]==TRANSPARENT_G && p[2]==TRANSPARENT_B)
/*
==============
TransparentByteImage
==============
*/
void TransparentByteImage( void )
{
// Remap all pixels of color 0,0,255 to index 255 and remap index 255 to something else
byte transtable[256], *image;
int i, j, firsttrans;
firsttrans = -1;
for ( i = 0; i < 256; i++ ) {
if ( IS_TRANSPARENT( (lbmpalette+(i*3)) ) ) {
transtable[i] = 255;
if ( firsttrans < 0 )
firsttrans = i;
}
else
transtable[i] = i;
}
// If there is some transparency, translate it
if ( firsttrans >= 0 ) {
if ( !IS_TRANSPARENT( (lbmpalette+(255*3)) ) )
transtable[255] = firsttrans;
image = byteimage;
for ( j = 0; j < byteimageheight; j++ ) {
for ( i = 0; i < byteimagewidth; i++ ) {
*image = transtable[*image];
image++;
}
}
// Move palette entry for pixels previously mapped to entry 255
lbmpalette[ firsttrans*3 + 0 ] = lbmpalette[ 255*3 + 0 ];
lbmpalette[ firsttrans*3 + 1 ] = lbmpalette[ 255*3 + 1 ];
lbmpalette[ firsttrans*3 + 2 ] = lbmpalette[ 255*3 + 2 ];
lbmpalette[ 255*3 + 0 ] = TRANSPARENT_R;
lbmpalette[ 255*3 + 1 ] = TRANSPARENT_G;
lbmpalette[ 255*3 + 2 ] = TRANSPARENT_B;
}
}
/*
==============
LoadScreen
==============
*/
void LoadScreen (char *name)
{
char *expanded;
expanded = ExpandPathAndArchive (name);
printf ("grabbing from %s...\n",expanded);
LoadLBM (expanded, &byteimage, &lbmpalette);
byteimagewidth = bmhd.w;
byteimageheight = bmhd.h;
}
/*
==============
LoadScreenBMP
==============
*/
void LoadScreenBMP(char *pszName)
{
char *pszExpanded;
char basename[64];
pszExpanded = ExpandPathAndArchive(pszName);
printf("grabbing from %s...\n", pszExpanded);
if (LoadBMP(pszExpanded, &byteimage, &lbmpalette))
Error ("Failed to load!", pszExpanded);
if ( byteimage == NULL || lbmpalette == NULL )
Error("FAIL!",pszExpanded);
byteimagewidth = bmhd.w;
byteimageheight = bmhd.h;
ExtractFileBase (token, basename); // Files that start with '$' have color (0,0,255) transparent,
if ( basename[0] == '{' ) { // move to last palette entry.
fTransparent255 = true;
TransparentByteImage();
}
}
/*
================
CreateOutput
================
*/
void CreateOutput (void)
{
outputcreated = true;
//
// create the output wadfile file
//
NewWad (destfile, false); // create a new wadfile
}
/*
===============
WriteLump
===============
*/
void WriteLump (int type, int compression)
{
int size;
if (!outputcreated)
CreateOutput ();
//
// dword align the size
//
while ((int)lump_p&3)
*lump_p++ = 0;
size = lump_p - lumpbuffer;
if (size > MAXLUMP)
Error ("Lump size exceeded %d, memory corrupted!",MAXLUMP);
//
// write the grabbed lump to the wadfile
//
AddLump (lumpname,lumpbuffer,size,type, compression);
}
/*
===========
WriteFile
Save as a seperate file instead of as a wadfile lump
===========
*/
void WriteFile (void)
{
char filename[1024];
char *exp;
sprintf (filename,"%s/%s.lmp", destfile, lumpname);
exp = ExpandPath(filename);
printf ("saved %s\n", exp);
SaveFile (exp, lumpbuffer, lump_p-lumpbuffer);
}
/*
================
ParseScript
================
*/
void ParseScript (void)
{
int cmd;
int size;
fTransparent255 = false;
do
{
//
// get a command / lump name
//
GetToken (true);
if (endofscript)
break;
if (!Q_strcasecmp (token,"$LOAD"))
{
GetToken (false);
LoadScreen (token);
continue;
}
if (!Q_strcasecmp (token,"$DEST"))
{
GetToken (false);
strcpy (destfile, token);
continue;
}
if (!Q_strcasecmp (token,"$SINGLEDEST"))
{
GetToken (false);
strcpy (destfile, token);
savesingle = true;
continue;
}
if (!Q_strcasecmp (token,"$LOADBMP"))
{
GetToken (false);
fTransparent255 = false;
LoadScreenBMP (token);
continue;
}
//
// new lump
//
if (strlen(token) >= sizeof(lumpname) )
Error ("\"%s\" is too long to be a lump name",token);
memset (lumpname,0,sizeof(lumpname));
strcpy (lumpname, token);
for (size=0 ; size<sizeof(lumpname) ; size++)
lumpname[size] = tolower(lumpname[size]);
//
// get the grab command
//
lump_p = lumpbuffer;
GetToken (false);
//
// call a routine to grab some data and put it in lumpbuffer
// with lump_p pointing after the last byte to be saved
//
for (cmd=0 ; commands[cmd].name ; cmd++)
if ( !Q_strcasecmp(token,commands[cmd].name) )
{
commands[cmd].function ();
break;
}
if ( !commands[cmd].name )
Error ("Unrecognized token '%s' at line %i",token,scriptline);
grabbed++;
if (savesingle)
WriteFile ();
else
WriteLump (TYP_LUMPY+cmd, 0);
} while (!endofscript);
}
/*
=================
ProcessLumpyScript
Loads a script file, then grabs everything from it
=================
*/
void ProcessLumpyScript (char *basename)
{
char script[256];
printf ("qlumpy script: %s\n",basename);
//
// create default destination directory
//
strcpy (destfile, ExpandPath(basename));
StripExtension (destfile);
strcat (destfile,".wad"); // unless the script overrides, save in cwd
//
// save in a wadfile by default
//
savesingle = false;
grabbed = 0;
outputcreated = false;
//
// read in the script file
//
strcpy (script, basename);
DefaultExtension (script, ".ls");
LoadScriptFile (script);
strcpy (basepath, basename);
ParseScript (); // execute load / grab commands
if (!savesingle)
{
WriteWad (do16bit); // write out the wad directory
printf ("%i lumps grabbed in a wad file\n",grabbed);
}
else
printf ("%i lumps written seperately\n",grabbed);
}
/*
==============================
main
==============================
*/
int main (int argc, char **argv)
{
int i;
printf ("\nqlumpy "VERSION" by John Carmack, copyright (c) 1994 Id Software.\n");
printf ("Portions copyright (c) 1998 Valve LLC (%s)\n", __DATE__ );
if (argc == 1)
Error ("qlumpy [-archive directory] [-8bit] [-proj <project>] scriptfile [scriptfile ...]");
lumpbuffer = malloc (MAXLUMP);
do16bit = true;
for( i=1; i<argc; i++ )
{
if( *argv[ i ] == '-' )
{
if( !strcmp( argv[ i ], "-archive" ) )
{
archive = true;
strcpy (archivedir, argv[2]);
printf ("Archiving source to: %s\n", archivedir);
}
else if( !strcmp( argv[ i ], "-proj" ) )
{
strcpy( qproject, argv[ i + 1 ] );
i++;
}
else if( !strcmp( argv[ i ], "-8bit" ) )
do16bit = false;
}
else
break;
}
// rest of arguments are script files
for ( ; i<argc ; i++)
{
char szTemp[1024];
char *pszPath = argv[i];
// Fully qualify the path names before using them
if (!(pszPath[0] == '/' || pszPath[0] == '\\' || pszPath[1] == ':'))
{ // path is partial
Q_getwd (szTemp);
strcat (szTemp, pszPath);
pszPath = szTemp;
}
SetQdirFromPath(pszPath);
ProcessLumpyScript(pszPath);
}
return 0;
}