/* -------------------------------------------------------------------------------
-Copyright (C) 1999-2007 id Software, Inc. and contributors.
-For a list of contributors, see the accompanying CONTRIBUTORS file.
+ Copyright (C) 1999-2007 id Software, Inc. and contributors.
+ For a list of contributors, see the accompanying CONTRIBUTORS file.
-This file is part of GtkRadiant.
+ This file is part of GtkRadiant.
-GtkRadiant is free software; you can redistribute it and/or modify
-it under the terms of the GNU General Public License as published by
-the Free Software Foundation; either version 2 of the License, or
-(at your option) any later version.
+ GtkRadiant is free software; you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation; either version 2 of the License, or
+ (at your option) any later version.
-GtkRadiant 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 General Public License for more details.
+ GtkRadiant 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 General Public License for more details.
-You should have received a copy of the GNU General Public License
-along with GtkRadiant; if not, write to the Free Software
-Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+ You should have received a copy of the GNU General Public License
+ along with GtkRadiant; if not, write to the Free Software
+ Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
--------------------------------------------------------------------------------
+ -------------------------------------------------------------------------------
-This code has been altered significantly from its original form, to support
-several games based on the Quake III Arena engine, in the form of "Q3Map2."
+ This code has been altered significantly from its original form, to support
+ several games based on the Quake III Arena engine, in the form of "Q3Map2."
-------------------------------------------------------------------------------- */
+ ------------------------------------------------------------------------------- */
/*
-Random()
-returns a pseudorandom number between 0 and 1
-*/
+ Random()
+ returns a pseudorandom number between 0 and 1
+ */
-vec_t Random( void )
-{
+vec_t Random( void ){
return (vec_t) rand() / RAND_MAX;
}
-
-/*
-ExitQ3Map()
-cleanup routine
-*/
-
-static void ExitQ3Map( void )
-{
- BSPFilesCleanup();
- if( mapDrawSurfs != NULL )
- free( mapDrawSurfs );
-}
-
-
-
-/* minimap stuff */
-
-/* borrowed from light.c */
-void WriteTGA24( char *filename, byte *data, int width, int height, qboolean flip );
-typedef struct minimap_s
-{
- bspModel_t *model;
- int width;
- int height;
- int samples;
- float *sample_offsets;
- float sharpen_boxmult;
- float sharpen_centermult;
- float *data1f;
- float *sharpendata1f;
- vec3_t mins, size;
-}
-minimap_t;
-static minimap_t minimap;
-
-qboolean BrushIntersectionWithLine(bspBrush_t *brush, vec3_t start, vec3_t dir, float *t_in, float *t_out)
-{
- int i;
- qboolean in = qfalse, out = qfalse;
- bspBrushSide_t *sides = &bspBrushSides[brush->firstSide];
-
- for(i = 0; i < brush->numSides; ++i)
- {
- bspPlane_t *p = &bspPlanes[sides[i].planeNum];
- float sn = DotProduct(start, p->normal);
- float dn = DotProduct(dir, p->normal);
- if(dn == 0)
- {
- if(sn > p->dist)
- return qfalse; // outside!
- }
- else
- {
- float t = (p->dist - sn) / dn;
- if(dn < 0)
- {
- if(!in || t > *t_in)
- {
- *t_in = t;
- in = qtrue;
- // as t_in can only increase, and t_out can only decrease, early out
- if(out && *t_in >= *t_out)
- return qfalse;
- }
- }
- else
- {
- if(!out || t < *t_out)
- {
- *t_out = t;
- out = qtrue;
- // as t_in can only increase, and t_out can only decrease, early out
- if(in && *t_in >= *t_out)
- return qfalse;
- }
- }
- }
- }
- return in && out;
-}
-
-static float MiniMapSample(float x, float y)
-{
- vec3_t org, dir;
- int i, bi;
- float t0, t1;
- float samp;
- bspBrush_t *b;
- int cnt;
-
- org[0] = x;
- org[1] = y;
- org[2] = 0;
- dir[0] = 0;
- dir[1] = 0;
- dir[2] = 1;
-
- cnt = 0;
- samp = 0;
- for(i = 0; i < minimap.model->numBSPBrushes; ++i)
- {
- bi = minimap.model->firstBSPBrush + i;
- if(opaqueBrushes[bi >> 3] & (1 << (bi & 7)))
- {
- b = &bspBrushes[bi];
-
- // sort out mins/maxs of the brush
- bspBrushSide_t *s = &bspBrushSides[b->firstSide];
- if(x < -bspPlanes[s[0].planeNum].dist)
- continue;
- if(x > +bspPlanes[s[1].planeNum].dist)
- continue;
- if(y < -bspPlanes[s[2].planeNum].dist)
- continue;
- if(y > +bspPlanes[s[3].planeNum].dist)
- continue;
-
- if(BrushIntersectionWithLine(b, org, dir, &t0, &t1))
- {
- samp += t1 - t0;
- ++cnt;
- }
- }
+char *Q_strncpyz( char *dst, const char *src, size_t len ) {
+ if ( len == 0 ) {
+ abort();
}
- return samp;
+ strncpy( dst, src, len );
+ dst[ len - 1 ] = '\0';
+ return dst;
}
-static void MiniMapRandomlySupersampled(int y)
-{
- int x, i;
- float *p = &minimap.data1f[y * minimap.width];
- float ymin = minimap.mins[1] + minimap.size[1] * (y / (float) minimap.height);
- float dx = minimap.size[0] / (float) minimap.width;
- float dy = minimap.size[1] / (float) minimap.height;
- for(x = 0; x < minimap.width; ++x)
- {
- float xmin = minimap.mins[0] + minimap.size[0] * (x / (float) minimap.width);
- float val = 0;
+char *Q_strcat( char *dst, size_t dlen, const char *src ) {
+ size_t n = strlen( dst );
- for(i = 0; i < minimap.samples; ++i)
- {
- float thisval = MiniMapSample(
- xmin + (2 * Random() - 0.5) * dx, /* exaggerated random pattern for better results */
- ymin + (2 * Random() - 0.5) * dy /* exaggerated random pattern for better results */
- );
- val += thisval;
- }
- val /= minimap.samples * minimap.size[2];
- *p++ = val;
+ if ( n > dlen ) {
+ abort(); /* buffer overflow */
}
-}
-static void MiniMapSupersampled(int y)
-{
- int x, i;
- float *p = &minimap.data1f[y * minimap.width];
- float ymin = minimap.mins[1] + minimap.size[1] * (y / (float) minimap.height);
- float dx = minimap.size[0] / (float) minimap.width;
- float dy = minimap.size[1] / (float) minimap.height;
-
- for(x = 0; x < minimap.width; ++x)
- {
- float xmin = minimap.mins[0] + minimap.size[0] * (x / (float) minimap.width);
- float val = 0;
-
- for(i = 0; i < minimap.samples; ++i)
- {
- float thisval = MiniMapSample(
- xmin + minimap.sample_offsets[2*i+0] * dx,
- ymin + minimap.sample_offsets[2*i+1] * dy
- );
- val += thisval;
- }
- val /= minimap.samples * minimap.size[2];
- *p++ = val;
- }
-}
-
-static void MiniMapNoSupersampling(int y)
-{
- int x;
- float *p = &minimap.data1f[y * minimap.width];
- float ymin = minimap.mins[1] + minimap.size[1] * (y / (float) minimap.height);
-
- for(x = 0; x < minimap.width; ++x)
- {
- float xmin = minimap.mins[0] + minimap.size[0] * (x / (float) minimap.width);
- *p++ = MiniMapSample(xmin, ymin) / minimap.size[2];
- }
-}
-
-static void MiniMapSharpen(int y)
-{
- int x;
- qboolean up = (y > 0);
- qboolean down = (y < minimap.height - 1);
- float *p = &minimap.data1f[y * minimap.width];
- float *q = &minimap.sharpendata1f[y * minimap.width];
-
- for(x = 0; x < minimap.width; ++x)
- {
- qboolean left = (x > 0);
- qboolean right = (x < minimap.width - 1);
- float val = p[0] * minimap.sharpen_centermult;
-
- if(left && up)
- val += p[-1 -minimap.width] * minimap.sharpen_boxmult;
- if(left && down)
- val += p[-1 +minimap.width] * minimap.sharpen_boxmult;
- if(right && up)
- val += p[+1 -minimap.width] * minimap.sharpen_boxmult;
- if(right && down)
- val += p[+1 +minimap.width] * minimap.sharpen_boxmult;
-
- if(left)
- val += p[-1] * minimap.sharpen_boxmult;
- if(right)
- val += p[+1] * minimap.sharpen_boxmult;
- if(up)
- val += p[-minimap.width] * minimap.sharpen_boxmult;
- if(down)
- val += p[+minimap.width] * minimap.sharpen_boxmult;
-
- ++p;
- *q++ = val;
- }
+ return Q_strncpyz( dst + n, src, dlen - n );
}
-void MiniMapMakeMinsMaxs()
-{
- vec3_t mins, maxs, extend;
- VectorCopy(minimap.model->mins, mins);
- VectorCopy(minimap.model->maxs, maxs);
-
- // line compatible to nexuiz mapinfo
- Sys_Printf("size %f %f %f %f %f %f\n", mins[0], mins[1], mins[2], maxs[0], maxs[1], maxs[2]);
- VectorSubtract(maxs, mins, extend);
+char *Q_strncat( char *dst, size_t dlen, const char *src, size_t slen ) {
+ size_t n = strlen( dst );
- if(extend[1] > extend[0])
- {
- mins[0] -= (extend[1] - extend[0]) * 0.5;
- maxs[0] += (extend[1] - extend[0]) * 0.5;
+ if ( n > dlen ) {
+ abort(); /* buffer overflow */
}
- else
- {
- mins[1] -= (extend[0] - extend[1]) * 0.5;
- maxs[1] += (extend[0] - extend[1]) * 0.5;
- }
-
- VectorSubtract(maxs, mins, extend);
- VectorScale(extend, 1.0 / 64.0, extend);
- VectorSubtract(mins, extend, mins);
- VectorAdd(maxs, extend, maxs);
-
- VectorCopy(mins, minimap.mins);
- VectorSubtract(maxs, mins, minimap.size);
-
- // line compatible to nexuiz mapinfo
- Sys_Printf("size_texcoords %f %f %f %f %f %f\n", mins[0], mins[1], mins[2], maxs[0], maxs[1], maxs[2]);
+ return Q_strncpyz( dst + n, src, MIN( slen, dlen - n ) );
}
/*
-MiniMapSetupBrushes()
-determines solid non-sky brushes in the world
-*/
+ ExitQ3Map()
+ cleanup routine
+ */
-void MiniMapSetupBrushes( void )
-{
- int i, j, b, compileFlags;
- bspBrush_t *brush;
- bspBrushSide_t *side;
- bspShader_t *shader;
- shaderInfo_t *si;
-
-
- /* note it */
- Sys_FPrintf( SYS_VRB, "--- MiniMapSetupBrushes ---\n" );
-
- /* allocate */
- if( opaqueBrushes == NULL )
- opaqueBrushes = safe_malloc( numBSPBrushes / 8 + 1 );
-
- /* clear */
- memset( opaqueBrushes, 0, numBSPBrushes / 8 + 1 );
- numOpaqueBrushes = 0;
-
- /* walk the list of worldspawn brushes */
- for( i = 0; i < minimap.model->numBSPBrushes; i++ )
- {
- /* get brush */
- b = minimap.model->firstBSPBrush + i;
- brush = &bspBrushes[ b ];
-
- /* check all sides */
- compileFlags = 0;
- for( j = 0; j < brush->numSides; j++ )
- {
- /* do bsp shader calculations */
- side = &bspBrushSides[ brush->firstSide + j ];
- shader = &bspShaders[ side->shaderNum ];
-
- /* get shader info */
- si = ShaderInfoForShader( shader->shader );
- if( si == NULL )
- continue;
-
- /* or together compile flags */
- compileFlags |= si->compileFlags;
- }
-
- /* determine if this brush is solid */
- if( (compileFlags & (C_SOLID | C_SKY)) == C_SOLID )
- {
- opaqueBrushes[ b >> 3 ] |= (1 << (b & 7));
- numOpaqueBrushes++;
- maxOpaqueBrush = i;
- }
+static void ExitQ3Map( void ){
+ BSPFilesCleanup();
+ if ( mapDrawSurfs != NULL ) {
+ free( mapDrawSurfs );
}
-
- /* emit some statistics */
- Sys_FPrintf( SYS_VRB, "%9d solid brushes\n", numOpaqueBrushes );
}
-int MiniMapBSPMain( int argc, char **argv )
-{
- char minimapFilename[1024];
- char basename[1024];
- char path[1024];
- char parentpath[1024];
- float minimapSharpen;
- byte *data3b, *p;
- float *q;
- int x, y;
- int i;
-
- /* arg checking */
- if( argc < 2 )
- {
- Sys_Printf( "Usage: q3map [-v] -minimap [-size n] [-sharpen f] [-samples n | -random n] [-o filename.tga] [-minmax Xmin Ymin Zmin Xmax Ymax Zmax] <mapname>\n" );
- return 0;
- }
-
- /* load the BSP first */
- strcpy( source, ExpandArg( argv[ argc - 1 ] ) );
- StripExtension( source );
- DefaultExtension( source, ".bsp" );
- Sys_Printf( "Loading %s\n", source );
- BeginMapShaderFile( source );
- LoadShaderInfo();
- LoadBSPFile( source );
-
- minimap.model = &bspModels[0];
- MiniMapMakeMinsMaxs();
-
- *minimapFilename = 0;
- minimapSharpen = 1;
- minimap.width = minimap.height = 512;
- minimap.samples = 1;
- minimap.sample_offsets = NULL;
-
- /* process arguments */
- for( i = 1; i < (argc - 1); i++ )
- {
- if( !strcmp( argv[ i ], "-size" ) )
- {
- minimap.width = minimap.height = atoi(argv[i + 1]);
- i++;
- Sys_Printf( "Image size set to %i\n", minimap.width );
- }
- else if( !strcmp( argv[ i ], "-sharpen" ) )
- {
- minimapSharpen = atof(argv[i + 1]);
- i++;
- Sys_Printf( "Sharpening coefficient set to %f\n", minimapSharpen );
- }
- else if( !strcmp( argv[ i ], "-samples" ) )
- {
- minimap.samples = atoi(argv[i + 1]);
- i++;
- Sys_Printf( "Samples set to %i\n", minimap.samples );
- if(minimap.sample_offsets)
- free(minimap.sample_offsets);
- minimap.sample_offsets = malloc(2 * sizeof(*minimap.sample_offsets) * minimap.samples);
- /* TODO use a better pattern */
- for(x = 0; x < 2 * minimap.samples; ++x)
- minimap.sample_offsets[x] = Random();
- }
- else if( !strcmp( argv[ i ], "-random" ) )
- {
- minimap.samples = atoi(argv[i + 1]);
- i++;
- Sys_Printf( "Random samples set to %i\n", minimap.samples );
- if(minimap.sample_offsets)
- free(minimap.sample_offsets);
- minimap.sample_offsets = NULL;
- }
- else if( !strcmp( argv[ i ], "-o" ) )
- {
- strcpy(minimapFilename, argv[i + 1]);
- i++;
- Sys_Printf( "Output file name set to %s\n", minimapFilename );
- }
- else if( !strcmp( argv[ i ], "-minmax" ) && i < (argc - 7) )
- {
- minimap.mins[0] = atof(argv[i + 1]);
- minimap.mins[1] = atof(argv[i + 2]);
- minimap.mins[2] = atof(argv[i + 3]);
- minimap.size[0] = atof(argv[i + 4]) - minimap.mins[0];
- minimap.size[1] = atof(argv[i + 5]) - minimap.mins[1];
- minimap.size[2] = atof(argv[i + 6]) - minimap.mins[2];
- i += 6;
- Sys_Printf( "Map mins/maxs overridden\n" );
- }
- }
-
- if(!*minimapFilename)
- {
- ExtractFileBase(source, basename);
- ExtractFilePath(source, path);
- if(*path)
- path[strlen(path)-1] = 0;
- ExtractFilePath(path, parentpath);
- sprintf(minimapFilename, "%sgfx", parentpath);
- Q_mkdir(minimapFilename);
- sprintf(minimapFilename, "%sgfx/%s_mini.tga", parentpath, basename);
- Sys_Printf("Output file name automatically set to %s\n", minimapFilename);
- }
-
- if(minimapSharpen >= 0)
- {
- minimap.sharpen_centermult = 8 * minimapSharpen + 1;
- minimap.sharpen_boxmult = -minimapSharpen;
- }
-
- minimap.data1f = safe_malloc(minimap.width * minimap.height * sizeof(*minimap.data1f));
- data3b = safe_malloc(minimap.width * minimap.height * 3);
- if(minimapSharpen >= 0)
- minimap.sharpendata1f = safe_malloc(minimap.width * minimap.height * sizeof(*minimap.data1f));
-
- MiniMapSetupBrushes();
-
- if(minimap.samples <= 1)
- {
- Sys_Printf( "\n--- MiniMapNoSupersampling (%d) ---\n", minimap.height );
- RunThreadsOnIndividual(minimap.height, qtrue, MiniMapNoSupersampling);
- }
- else
- {
- if(minimap.sample_offsets)
- {
- Sys_Printf( "\n--- MiniMapSupersampled (%d) ---\n", minimap.height );
- RunThreadsOnIndividual(minimap.height, qtrue, MiniMapSupersampled);
- }
- else
- {
- Sys_Printf( "\n--- MiniMapRandomlySupersampled (%d) ---\n", minimap.height );
- RunThreadsOnIndividual(minimap.height, qtrue, MiniMapRandomlySupersampled);
- }
- }
-
- if(minimap.sharpendata1f)
- {
- Sys_Printf( "\n--- MiniMapSharpen (%d) ---\n", minimap.height );
- RunThreadsOnIndividual(minimap.height, qtrue, MiniMapSharpen);
- q = minimap.sharpendata1f;
- }
- else
- {
- q = minimap.data1f;
- }
-
- Sys_Printf( "\nConverting...");
- p = data3b;
- for(y = 0; y < minimap.height; ++y)
- for(x = 0; x < minimap.width; ++x)
- {
- byte b;
- float v = *q++;
- if(v < 0) v = 0;
- if(v > 255.0/256.0) v = 255.0/256.0;
- b = v * 256;
- *p++ = b;
- *p++ = b;
- *p++ = b;
- }
-
- Sys_Printf( " writing to %s...", minimapFilename );
- WriteTGA24(minimapFilename, data3b, minimap.width, minimap.height, qfalse);
-
- Sys_Printf( " done.\n" );
+/*
+ MD4BlockChecksum()
+ calculates an md4 checksum for a block of data
+ */
- /* return to sender */
- return 0;
+static int MD4BlockChecksum( void *buffer, int length ){
+ return Com_BlockChecksum( buffer, length );
}
-
-
-
-
/*
-MD4BlockChecksum()
-calculates an md4 checksum for a block of data
-*/
+ FixAAS()
+ resets an aas checksum to match the given BSP
+ */
-static int MD4BlockChecksum( void *buffer, int length )
-{
- return Com_BlockChecksum(buffer, length);
-}
+int FixAAS( int argc, char **argv ){
+ int length, checksum;
+ void *buffer;
+ FILE *file;
+ char aas[ 1024 ], **ext;
+ char *exts[] =
+ {
+ ".aas",
+ "_b0.aas",
+ "_b1.aas",
+ NULL
+ };
-/*
-FixAAS()
-resets an aas checksum to match the given BSP
-*/
-int FixAAS( int argc, char **argv )
-{
- int length, checksum;
- void *buffer;
- FILE *file;
- char aas[ 1024 ], **ext;
- char *exts[] =
- {
- ".aas",
- "_b0.aas",
- "_b1.aas",
- NULL
- };
-
-
/* arg checking */
- if( argc < 2 )
- {
+ if ( argc < 2 ) {
Sys_Printf( "Usage: q3map -fixaas [-v] <mapname>\n" );
return 0;
}
-
+
/* do some path mangling */
strcpy( source, ExpandArg( argv[ argc - 1 ] ) );
StripExtension( source );
DefaultExtension( source, ".bsp" );
-
+
/* note it */
Sys_Printf( "--- FixAAS ---\n" );
-
+
/* load the bsp */
Sys_Printf( "Loading %s\n", source );
length = LoadFile( source, &buffer );
-
+
/* create bsp checksum */
Sys_Printf( "Creating checksum...\n" );
checksum = LittleLong( MD4BlockChecksum( buffer, length ) );
-
+
/* write checksum to aas */
ext = exts;
- while( *ext )
+ while ( *ext )
{
/* mangle name */
strcpy( aas, source );
strcat( aas, *ext );
Sys_Printf( "Trying %s\n", aas );
ext++;
-
+
/* fix it */
file = fopen( aas, "r+b" );
- if( !file )
+ if ( !file ) {
continue;
- if( fwrite( &checksum, 4, 1, file ) != 1 )
+ }
+ if ( fwrite( &checksum, 4, 1, file ) != 1 ) {
Error( "Error writing checksum to %s", aas );
+ }
fclose( file );
}
-
+
/* return to sender */
return 0;
}
-
-
-/*
-AnalyzeBSP() - ydnar
-analyzes a Quake engine BSP file
-*/
-
-typedef struct abspHeader_s
+struct HelpOption
{
- char ident[ 4 ];
- int version;
-
- bspLump_t lumps[ 1 ]; /* unknown size */
-}
-abspHeader_t;
+ const char* name;
+ const char* description;
+};
-typedef struct abspLumpTest_s
+void HelpOptions(const char* group_name, int indentation, int width, struct HelpOption* options, int count)
{
- int radix, minCount;
- char *name;
-}
-abspLumpTest_t;
+ indentation *= 2;
+ char* indent = malloc(indentation+1);
+ memset(indent, ' ', indentation);
+ indent[indentation] = 0;
+ printf("%s%s:\n", indent, group_name);
+ indentation += 2;
+ indent = realloc(indent, indentation+1);
+ memset(indent, ' ', indentation);
+ indent[indentation] = 0;
-int AnalyzeBSP( int argc, char **argv )
-{
- abspHeader_t *header;
- int size, i, version, offset, length, lumpInt, count;
- char ident[ 5 ];
- void *lump;
- float lumpFloat;
- char lumpString[ 1024 ], source[ 1024 ];
- qboolean lumpSwap = qfalse;
- abspLumpTest_t *lumpTest;
- static abspLumpTest_t lumpTests[] =
- {
- { sizeof( bspPlane_t ), 6, "IBSP LUMP_PLANES" },
- { sizeof( bspBrush_t ), 1, "IBSP LUMP_BRUSHES" },
- { 8, 6, "IBSP LUMP_BRUSHSIDES" },
- { sizeof( bspBrushSide_t ), 6, "RBSP LUMP_BRUSHSIDES" },
- { sizeof( bspModel_t ), 1, "IBSP LUMP_MODELS" },
- { sizeof( bspNode_t ), 2, "IBSP LUMP_NODES" },
- { sizeof( bspLeaf_t ), 1, "IBSP LUMP_LEAFS" },
- { 104, 3, "IBSP LUMP_DRAWSURFS" },
- { 44, 3, "IBSP LUMP_DRAWVERTS" },
- { 4, 6, "IBSP LUMP_DRAWINDEXES" },
- { 128 * 128 * 3, 1, "IBSP LUMP_LIGHTMAPS" },
- { 256 * 256 * 3, 1, "IBSP LUMP_LIGHTMAPS (256 x 256)" },
- { 512 * 512 * 3, 1, "IBSP LUMP_LIGHTMAPS (512 x 512)" },
- { 0, 0, NULL }
- };
-
-
- /* arg checking */
- if( argc < 1 )
- {
- Sys_Printf( "Usage: q3map -analyze [-lumpswap] [-v] <mapname>\n" );
- return 0;
- }
-
- /* process arguments */
- for( i = 1; i < (argc - 1); i++ )
- {
- /* -format map|ase|... */
- if( !strcmp( argv[ i ], "-lumpswap" ) )
- {
- Sys_Printf( "Swapped lump structs enabled\n" );
- lumpSwap = qtrue;
- }
- }
-
- /* clean up map name */
- strcpy( source, ExpandArg( argv[ i ] ) );
- Sys_Printf( "Loading %s\n", source );
-
- /* load the file */
- size = LoadFile( source, (void**) &header );
- if( size == 0 || header == NULL )
- {
- Sys_Printf( "Unable to load %s.\n", source );
- return -1;
- }
-
- /* analyze ident/version */
- memcpy( ident, header->ident, 4 );
- ident[ 4 ] = '\0';
- version = LittleLong( header->version );
-
- Sys_Printf( "Identity: %s\n", ident );
- Sys_Printf( "Version: %d\n", version );
- Sys_Printf( "---------------------------------------\n" );
-
- /* analyze each lump */
- for( i = 0; i < 100; i++ )
+ int i;
+ for ( i = 0; i < count; i++ )
{
- /* call of duty swapped lump pairs */
- if( lumpSwap )
+ int printed = printf("%s%-24s ", indent, options[i].name);
+ int descsz = strlen(options[i].description);
+ int j = 0;
+ while ( j < descsz && descsz-j > width - printed )
{
- offset = LittleLong( header->lumps[ i ].length );
- length = LittleLong( header->lumps[ i ].offset );
+ if ( j != 0 )
+ printf("%s%26c",indent,' ');
+ int fragment = width - printed;
+ while ( fragment > 0 && options[i].description[j+fragment-1] != ' ')
+ fragment--;
+ j += fwrite(options[i].description+j, sizeof(char), fragment, stdout);
+ putchar('\n');
+ printed = indentation+26;
}
-
- /* standard lump pairs */
- else
+ if ( j == 0 )
{
- offset = LittleLong( header->lumps[ i ].offset );
- length = LittleLong( header->lumps[ i ].length );
+ printf("%s\n",options[i].description+j);
}
-
- /* extract data */
- lump = (byte*) header + offset;
- lumpInt = LittleLong( (int) *((int*) lump) );
- lumpFloat = LittleFloat( (float) *((float*) lump) );
- memcpy( lumpString, (char*) lump, (length < 1024 ? length : 1024) );
- lumpString[ 1024 ] = '\0';
-
- /* print basic lump info */
- Sys_Printf( "Lump: %d\n", i );
- Sys_Printf( "Offset: %d bytes\n", offset );
- Sys_Printf( "Length: %d bytes\n", length );
-
- /* only operate on valid lumps */
- if( length > 0 )
+ else if ( j < descsz )
{
- /* print data in 4 formats */
- Sys_Printf( "As hex: %08X\n", lumpInt );
- Sys_Printf( "As int: %d\n", lumpInt );
- Sys_Printf( "As float: %f\n", lumpFloat );
- Sys_Printf( "As string: %s\n", lumpString );
-
- /* guess lump type */
- if( lumpString[ 0 ] == '{' && lumpString[ 2 ] == '"' )
- Sys_Printf( "Type guess: IBSP LUMP_ENTITIES\n" );
- else if( strstr( lumpString, "textures/" ) )
- Sys_Printf( "Type guess: IBSP LUMP_SHADERS\n" );
- else
- {
- /* guess based on size/count */
- for( lumpTest = lumpTests; lumpTest->radix > 0; lumpTest++ )
- {
- if( (length % lumpTest->radix) != 0 )
- continue;
- count = length / lumpTest->radix;
- if( count < lumpTest->minCount )
- continue;
- Sys_Printf( "Type guess: %s (%d x %d)\n", lumpTest->name, count, lumpTest->radix );
- }
- }
+ printf("%s%26c%s\n",indent,' ',options[i].description+j);
}
-
- Sys_Printf( "---------------------------------------\n" );
-
- /* end of file */
- if( offset + length >= size )
- break;
}
-
- /* last stats */
- Sys_Printf( "Lump count: %d\n", i + 1 );
- Sys_Printf( "File size: %d bytes\n", size );
-
- /* return to caller */
- return 0;
-}
-
+ putchar('\n');
-/*
-BSPInfo()
-emits statistics about the bsp file
-*/
+ free(indent);
+}
-int BSPInfo( int count, char **fileNames )
+void HelpBsp()
{
- int i;
- char source[ 1024 ], ext[ 64 ];
- int size;
- FILE *f;
-
-
- /* dummy check */
- if( count < 1 )
- {
- Sys_Printf( "No files to dump info for.\n");
- return -1;
- }
-
- /* enable info mode */
- infoMode = qtrue;
-
- /* walk file list */
- for( i = 0; i < count; i++ )
- {
- Sys_Printf( "---------------------------------\n" );
-
- /* mangle filename and get size */
- strcpy( source, fileNames[ i ] );
- ExtractFileExtension( source, ext );
- if( !Q_stricmp( ext, "map" ) )
- StripExtension( source );
- DefaultExtension( source, ".bsp" );
- f = fopen( source, "rb" );
- if( f )
- {
- size = Q_filelength (f);
- fclose( f );
- }
- else
- size = 0;
-
- /* load the bsp file and print lump sizes */
- Sys_Printf( "%s\n", source );
- LoadBSPFile( source );
- PrintBSPFileSizes();
-
- /* print sizes */
- Sys_Printf( "\n" );
- Sys_Printf( " total %9d\n", size );
- Sys_Printf( " %9d KB\n", size / 1024 );
- Sys_Printf( " %9d MB\n", size / (1024 * 1024) );
-
- Sys_Printf( "---------------------------------\n" );
- }
-
- /* return count */
- return i;
+ struct HelpOption bsp[] = {
+ {"-bsp <filename.map>", "Switch that enters this stage"},
+ {"-altsplit", "Alternate BSP tree splitting weights (should give more fps)"},
+ {"-celshader <shadername>", "Sets a global cel shader name"},
+ {"-custinfoparms", "Read scripts/custinfoparms.txt"},
+ {"-debuginset", "Push all triangle vertexes towards the triangle center"},
+ {"-debugportals", "Make BSP portals visible in the map"},
+ {"-debugsurfaces", "Color the vertexes according to the index of the surface"},
+ {"-deep", "Use detail brushes in the BSP tree, but at lowest priority (should give more fps)"},
+ {"-de <F>", "Distance epsilon for plane snapping etc."},
+ {"-fakemap", "Write fakemap.map containing all world brushes"},
+ {"-flares", "Turn on support for flares (TEST?)"},
+ {"-flat", "Enable flat shading (good for combining with -celshader)"},
+ {"-fulldetail", "Treat detail brushes as structural ones"},
+ {"-leaktest", "Abort if a leak was found"},
+ {"-meta", "Combine adjacent triangles of the same texture to surfaces (ALWAYS USE THIS)"},
+ {"-minsamplesize <N>", "Sets minimum lightmap resolution in luxels/qu"},
+ {"-mi <N>", "Sets the maximum number of indexes per surface"},
+ {"-mv <N>", "Sets the maximum number of vertices of a lightmapped surface"},
+ {"-ne <F>", "Normal epsilon for plane snapping etc."},
+ {"-nocurves", "Turn off support for patches"},
+ {"-nodetail", "Leave out detail brushes"},
+ {"-noflares", "Turn off support for flares"},
+ {"-nofog", "Turn off support for fog volumes"},
+ {"-nohint", "Turn off support for hint brushes"},
+ {"-nosubdivide", "Turn off support for `q3map_tessSize` (breaks water vertex deforms)"},
+ {"-notjunc", "Do not fix T-junctions (causes cracks between triangles, do not use)"},
+ {"-nowater", "Turn off support for water, slime or lava (Stef, this is for you)"},
+ {"-np <A>", "Force all surfaces to be nonplanar with a given shade angle"},
+ {"-onlyents", "Only update entities in the BSP"},
+ {"-patchmeta", "Turn patches into triangle meshes for display"},
+ {"-rename", "Append “bspâ€\9d suffix to miscmodel shaders (needed for SoF2)"},
+ {"-samplesize <N>", "Sets default lightmap resolution in luxels/qu"},
+ {"-skyfix", "Turn sky box into six surfaces to work around ATI problems"},
+ {"-snap <N>", "Snap brush bevel planes to the given number of units"},
+ {"-tempname <filename.map>", "Read the MAP file from the given file name"},
+ {"-texrange <N>", "Limit per-surface texture range to the given number of units, and subdivide surfaces like with `q3map_tessSize` if this is not met"},
+ {"-tmpout", "Write the BSP file to /tmp"},
+ {"-verboseentities", "Enable `-v` only for map entities, not for the world"},
+ };
+ HelpOptions("BSP Stage", 0, 80, bsp, sizeof(bsp)/sizeof(struct HelpOption));
+}
+void HelpVis()
+{
+ struct HelpOption vis[] = {
+ {"-vis <filename.map>", "Switch that enters this stage"},
+ {"-fast", "Very fast and crude vis calculation"},
+ {"-mergeportals", "The less crude half of `-merge`, makes vis sometimes much faster but doesn't hurt fps usually"},
+ {"-merge", "Faster but still okay vis calculation"},
+ {"-nopassage", "Just use PortalFlow vis (usually less fps)"},
+ {"-nosort", "Do not sort the portals before calculating vis (usually slower)"},
+ {"-passageOnly", "Just use PassageFlow vis (usually less fps)"},
+ {"-saveprt", "Keep the PRT file after running vis (so you can run vis again)"},
+ {"-tmpin", "Use /tmp folder for input"},
+ {"-tmpout", "Use /tmp folder for output"},
+ };
+ HelpOptions("VIS Stage", 0, 80, vis, sizeof(vis)/sizeof(struct HelpOption));
+}
+void HelpLight()
+{
+ struct HelpOption light[] = {
+ {"-light <filename.map>", "Switch that enters this stage"},
+ {"-vlight <filename.map>", "Deprecated alias for `-light -fast` ... filename.map"},
+ {"-approx <N>", "Vertex light approximation tolerance (never use in conjunction with deluxemapping)"},
+ {"-areascale <F, `-area` F>", "Scaling factor for area lights (surfacelight)"},
+ {"-border", "Add a red border to lightmaps for debugging"},
+ {"-bouncegrid", "Also compute radiosity on the light grid"},
+ {"-bounceonly", "Only compute radiosity"},
+ {"-bouncescale <F>", "Scaling factor for radiosity"},
+ {"-bounce <N>", "Number of bounces for radiosity"},
+ {"-cheapgrid", "Use `-cheap` style lighting for radiosity"},
+ {"-cheap", "Abort vertex light calculations when white is reached"},
+ {"-compensate <F>", "Lightmap compensate (darkening factor applied after everything else)"},
+ {"-cpma", "CPMA vertex lighting mode"},
+ {"-custinfoparms", "Read scripts/custinfoparms.txt"},
+ {"-dark", "Darken lightmap seams"},
+ {"-debugaxis", "Color the lightmaps according to the lightmap axis"},
+ {"-debugcluster", "Color the lightmaps according to the index of the cluster"},
+ {"-debugdeluxe", "Show deluxemaps on the lightmap"},
+ {"-debugnormals", "Color the lightmaps according to the direction of the surface normal"},
+ {"-debugorigin", "Color the lightmaps according to the origin of the luxels"},
+ {"-debugsurfaces, -debugsurface", "Color the lightmaps according to the index of the surface"},
+ {"-debugunused", "This option does nothing"},
+ {"-debug", "Mark the lightmaps according to the cluster: unmapped clusters get yellow, occluded ones get pink, flooded ones get blue overlay color, otherwise red"},
+ {"-deluxemode 0", "Use modelspace deluxemaps (DarkPlaces)"},
+ {"-deluxemode 1", "Use tangentspace deluxemaps"},
+ {"-deluxe, -deluxemap", "Enable deluxemapping (light direction maps)"},
+ {"-dirtdebug, -debugdirt", "Store the dirtmaps as lightmaps for debugging"},
+ {"-dirtdepth", "Dirtmapping depth"},
+ {"-dirtgain", "Dirtmapping exponent"},
+ {"-dirtmode 0", "Ordered direction dirtmapping"},
+ {"-dirtmode 1", "Randomized direction dirtmapping"},
+ {"-dirtscale", "Dirtmapping scaling factor"},
+ {"-dirty", "Enable dirtmapping"},
+ {"-dump", "Dump radiosity from `-bounce` into numbered MAP file prefabs"},
+ {"-export", "Export lightmaps when compile finished (like `-export` mode)"},
+ {"-exposure <F>", "Lightmap exposure to better support overbright spots"},
+ {"-external", "Force external lightmaps even if at size of internal lightmaps"},
+ {"-extravisnudge", "Broken feature to nudge the luxel origin to a better vis cluster"},
+ {"-extrawide", "Deprecated alias for `-super 2 -filter`"},
+ {"-extra", "Deprecated alias for `-super 2`"},
+ {"-fastbounce", "Use `-fast` style lighting for radiosity"},
+ {"-faster", "Use a faster falloff curve for lighting; also implies `-fast`"},
+ {"-fastgrid", "Use `-fast` style lighting for the light grid"},
+ {"-fast", "Ignore tiny light contributions"},
+ {"-filter", "Lightmap filtering"},
+ {"-floodlight", "Enable floodlight (zero-effort somewhat decent lighting)"},
+ {"-gamma <F>", "Lightmap gamma"},
+ {"-gridambientscale <F>", "Scaling factor for the light grid ambient components only"},
+ {"-gridscale <F>", "Scaling factor for the light grid only"},
+ {"-keeplights", "Keep light entities in the BSP file after compile"},
+ {"-lightmapdir <directory>", "Directory to store external lightmaps (default: same as map name without extension)"},
+ {"-lightmapsize <N>", "Size of lightmaps to generate (must be a power of two)"},
+ {"-lomem", "Low memory but slower lighting mode"},
+ {"-lowquality", "Low quality floodlight (appears to currently break floodlight)"},
+ {"-minsamplesize <N>", "Sets minimum lightmap resolution in luxels/qu"},
+ {"-nocollapse", "Do not collapse identical lightmaps"},
+ {"-nodeluxe, -nodeluxemap", "Disable deluxemapping"},
+ {"-nogrid", "Disable grid light calculation (makes all entities fullbright)"},
+ {"-nolightmapsearch", "Do not optimize lightmap packing for GPU memory usage (as doing so costs fps)"},
+ {"-normalmap", "Color the lightmaps according to the direction of the surface normal (TODO is this identical to `-debugnormals`?)"},
+ {"-nostyle, -nostyles", "Disable support for light styles"},
+ {"-nosurf", "Disable tracing against surfaces (only uses BSP nodes then)"},
+ {"-notrace", "Disable shadow occlusion"},
+ {"-novertex", "Disable vertex lighting"},
+ {"-patchshadows", "Cast shadows from patches"},
+ {"-pointscale <F, `-point` F>", "Scaling factor for point lights (light entities)"},
+ {"-q3", "Use nonlinear falloff curve by default (like Q3A)"},
+ {"-samplescale <F>", "Scales all lightmap resolutions"},
+ {"-samplesize <N>", "Sets default lightmap resolution in luxels/qu"},
+ {"-samples <N>", "Adaptive supersampling quality"},
+ {"-scale <F>", "Scaling factor for all light types"},
+ {"-shadeangle <A>", "Angle for phong shading"},
+ {"-shade", "Enable phong shading at default shade angle"},
+ {"-skyscale <F, `-sky` F>", "Scaling factor for sky and sun light"},
+ {"-smooth", "Deprecated alias for `-samples 2`"},
+ {"-style, -styles", "Enable support for light styles"},
+ {"-sunonly", "Only compute sun light"},
+ {"-super <N, `-supersample` N>", "Ordered grid supersampling quality"},
+ {"-thresh <F>", "Triangle subdivision threshold"},
+ {"-trianglecheck", "Broken check that should ensure luxels apply to the right triangle"},
+ {"-trisoup", "Convert brush faces to triangle soup"},
+ {"-wolf", "Use linear falloff curve by default (like W:ET)"},
+ };
+
+ HelpOptions("Light Stage", 0, 80, light, sizeof(light)/sizeof(struct HelpOption));
}
-
-static void ExtrapolateTexcoords(const float *axyz, const float *ast, const float *bxyz, const float *bst, const float *cxyz, const float *cst, const float *axyz_new, float *ast_out, const float *bxyz_new, float *bst_out, const float *cxyz_new, float *cst_out)
+void HelpAnalize()
{
- vec4_t scoeffs, tcoeffs;
- float md;
- m4x4_t solvematrix;
-
- vec3_t norm;
- vec3_t dab, dac;
- VectorSubtract(bxyz, axyz, dab);
- VectorSubtract(cxyz, axyz, dac);
- CrossProduct(dab, dac, norm);
-
- // assume:
- // s = f(x, y, z)
- // s(v + norm) = s(v) when n ortho xyz
-
- // s(v) = DotProduct(v, scoeffs) + scoeffs[3]
-
- // solve:
- // scoeffs * (axyz, 1) == ast[0]
- // scoeffs * (bxyz, 1) == bst[0]
- // scoeffs * (cxyz, 1) == cst[0]
- // scoeffs * (norm, 0) == 0
- // scoeffs * [axyz, 1 | bxyz, 1 | cxyz, 1 | norm, 0] = [ast[0], bst[0], cst[0], 0]
- solvematrix[0] = axyz[0];
- solvematrix[4] = axyz[1];
- solvematrix[8] = axyz[2];
- solvematrix[12] = 1;
- solvematrix[1] = bxyz[0];
- solvematrix[5] = bxyz[1];
- solvematrix[9] = bxyz[2];
- solvematrix[13] = 1;
- solvematrix[2] = cxyz[0];
- solvematrix[6] = cxyz[1];
- solvematrix[10] = cxyz[2];
- solvematrix[14] = 1;
- solvematrix[3] = norm[0];
- solvematrix[7] = norm[1];
- solvematrix[11] = norm[2];
- solvematrix[15] = 0;
-
- md = m4_det(solvematrix);
- if(md*md < 1e-10)
- {
- Sys_Printf("Cannot invert some matrix, some texcoords aren't extrapolated!");
- return;
- }
+ struct HelpOption analize[] = {
+ {"-analyze <filename.bsp>", "Switch that enters this mode"},
+ {"-lumpswap", "Swap byte order in the lumps"},
+ };
- m4x4_invert(solvematrix);
-
- scoeffs[0] = ast[0];
- scoeffs[1] = bst[0];
- scoeffs[2] = cst[0];
- scoeffs[3] = 0;
- m4x4_transform_vec4(solvematrix, scoeffs);
- tcoeffs[0] = ast[1];
- tcoeffs[1] = bst[1];
- tcoeffs[2] = cst[1];
- tcoeffs[3] = 0;
- m4x4_transform_vec4(solvematrix, tcoeffs);
-
- ast_out[0] = scoeffs[0] * axyz_new[0] + scoeffs[1] * axyz_new[1] + scoeffs[2] * axyz_new[2] + scoeffs[3];
- ast_out[1] = tcoeffs[0] * axyz_new[0] + tcoeffs[1] * axyz_new[1] + tcoeffs[2] * axyz_new[2] + tcoeffs[3];
- bst_out[0] = scoeffs[0] * bxyz_new[0] + scoeffs[1] * bxyz_new[1] + scoeffs[2] * bxyz_new[2] + scoeffs[3];
- bst_out[1] = tcoeffs[0] * bxyz_new[0] + tcoeffs[1] * bxyz_new[1] + tcoeffs[2] * bxyz_new[2] + tcoeffs[3];
- cst_out[0] = scoeffs[0] * cxyz_new[0] + scoeffs[1] * cxyz_new[1] + scoeffs[2] * cxyz_new[2] + scoeffs[3];
- cst_out[1] = tcoeffs[0] * cxyz_new[0] + tcoeffs[1] * cxyz_new[1] + tcoeffs[2] * cxyz_new[2] + tcoeffs[3];
+ HelpOptions("Analyzing BSP-like file structure", 0, 80, analize, sizeof(analize)/sizeof(struct HelpOption));
+}
+void HelpScale()
+{
+ struct HelpOption scale[] = {
+ {"-scale <S filename.bsp>", "Scale uniformly"},
+ {"-scale <SX SY SZ filename.bsp>", "Scale non-uniformly"},
+ {"-scale -tex <S filename.bsp>", "Scale uniformly without texture lock"},
+ {"-scale -tex <SX SY SZ filename.bsp>", "Scale non-uniformly without texture lock"},
+ };
+ HelpOptions("Scaling", 0, 80, scale, sizeof(scale)/sizeof(struct HelpOption));
+}
+void HelpConvert()
+{
+ struct HelpOption convert[] = {
+ {"-convert <filename.bsp>", "Switch that enters this mode"},
+ {"-de <number>", "Distance epsilon for the conversion"},
+ {"-format <converter>", "Select the converter (available: map, ase, or game names)"},
+ {"-ne <F>", "Normal epsilon for the conversion"},
+ {"-shadersasbitmap", "(only for ase) use the shader names as \\*BITMAP key so they work as prefabs"},
+ };
+
+ HelpOptions("Converting & Decompiling", 0, 80, convert, sizeof(convert)/sizeof(struct HelpOption));
}
-/*
-ScaleBSPMain()
-amaze and confuse your enemies with wierd scaled maps!
-*/
+void HelpExport()
+{
+ struct HelpOption exportl[] = {
+ {"-export <filename.bsp>", "Copies lightmaps from the BSP to `filename/lightmap_0000.tga` ff"}
+ };
+
+ HelpOptions("Exporting lightmaps", 0, 80, exportl, sizeof(exportl)/sizeof(struct HelpOption));
+}
-int ScaleBSPMain( int argc, char **argv )
+void HelpFixaas()
{
- int i, j;
- float f, a;
- vec3_t scale;
- vec3_t vec;
- char str[ 1024 ];
- int uniform, axis;
- qboolean texscale;
- float *old_xyzst = NULL;
-
-
- /* arg checking */
- if( argc < 3 )
- {
- Sys_Printf( "Usage: q3map [-v] -scale [-tex] <value> <mapname>\n" );
- return 0;
- }
-
- /* get scale */
- scale[2] = scale[1] = scale[0] = atof( argv[ argc - 2 ] );
- if(argc >= 4)
- scale[1] = scale[0] = atof( argv[ argc - 3 ] );
- if(argc >= 5)
- scale[0] = atof( argv[ argc - 4 ] );
-
- texscale = !strcmp(argv[1], "-tex");
-
- uniform = ((scale[0] == scale[1]) && (scale[1] == scale[2]));
-
- if( scale[0] == 0.0f || scale[1] == 0.0f || scale[2] == 0.0f )
- {
- Sys_Printf( "Usage: q3map [-v] -scale [-tex] <value> <mapname>\n" );
- Sys_Printf( "Non-zero scale value required.\n" );
- return 0;
- }
-
- /* do some path mangling */
- strcpy( source, ExpandArg( argv[ argc - 1 ] ) );
- StripExtension( source );
- DefaultExtension( source, ".bsp" );
-
- /* load the bsp */
- Sys_Printf( "Loading %s\n", source );
- LoadBSPFile( source );
- ParseEntities();
-
- /* note it */
- Sys_Printf( "--- ScaleBSP ---\n" );
- Sys_FPrintf( SYS_VRB, "%9d entities\n", numEntities );
-
- /* scale entity keys */
- for( i = 0; i < numBSPEntities && i < numEntities; i++ )
- {
- /* scale origin */
- GetVectorForKey( &entities[ i ], "origin", vec );
- if( (vec[ 0 ] || vec[ 1 ] || vec[ 2 ]) )
- {
- vec[0] *= scale[0];
- vec[1] *= scale[1];
- vec[2] *= scale[2];
- sprintf( str, "%f %f %f", vec[ 0 ], vec[ 1 ], vec[ 2 ] );
- SetKeyValue( &entities[ i ], "origin", str );
- }
+ struct HelpOption fixaas[] = {
+ {"-fixaas <filename.bsp>", "Switch that enters this mode"},
+ };
- a = FloatForKey( &entities[ i ], "angle" );
- if(a == -1 || a == -2) // z scale
- axis = 2;
- else if(fabs(sin(DEG2RAD(a))) < 0.707)
- axis = 0;
- else
- axis = 1;
-
- /* scale door lip */
- f = FloatForKey( &entities[ i ], "lip" );
- if( f )
- {
- f *= scale[axis];
- sprintf( str, "%f", f );
- SetKeyValue( &entities[ i ], "lip", str );
- }
-
- /* scale plat height */
- f = FloatForKey( &entities[ i ], "height" );
- if( f )
- {
- f *= scale[2];
- sprintf( str, "%f", f );
- SetKeyValue( &entities[ i ], "height", str );
- }
+ HelpOptions("Fixing AAS checksum", 0, 80, fixaas, sizeof(fixaas)/sizeof(struct HelpOption));
+}
- // TODO maybe allow a definition file for entities to specify which values are scaled how?
- }
-
- /* scale models */
- for( i = 0; i < numBSPModels; i++ )
- {
- bspModels[ i ].mins[0] *= scale[0];
- bspModels[ i ].mins[1] *= scale[1];
- bspModels[ i ].mins[2] *= scale[2];
- bspModels[ i ].maxs[0] *= scale[0];
- bspModels[ i ].maxs[1] *= scale[1];
- bspModels[ i ].maxs[2] *= scale[2];
- }
-
- /* scale nodes */
- for( i = 0; i < numBSPNodes; i++ )
- {
- bspNodes[ i ].mins[0] *= scale[0];
- bspNodes[ i ].mins[1] *= scale[1];
- bspNodes[ i ].mins[2] *= scale[2];
- bspNodes[ i ].maxs[0] *= scale[0];
- bspNodes[ i ].maxs[1] *= scale[1];
- bspNodes[ i ].maxs[2] *= scale[2];
- }
-
- /* scale leafs */
- for( i = 0; i < numBSPLeafs; i++ )
- {
- bspLeafs[ i ].mins[0] *= scale[0];
- bspLeafs[ i ].mins[1] *= scale[1];
- bspLeafs[ i ].mins[2] *= scale[2];
- bspLeafs[ i ].maxs[0] *= scale[0];
- bspLeafs[ i ].maxs[1] *= scale[1];
- bspLeafs[ i ].maxs[2] *= scale[2];
- }
-
- if(texscale)
- {
- Sys_Printf("Using texture unlocking (and probably breaking texture alignment a lot)\n");
- old_xyzst = safe_malloc(sizeof(*old_xyzst) * numBSPDrawVerts * 5);
- for(i = 0; i < numBSPDrawVerts; i++)
- {
- old_xyzst[5*i+0] = bspDrawVerts[i].xyz[0];
- old_xyzst[5*i+1] = bspDrawVerts[i].xyz[1];
- old_xyzst[5*i+2] = bspDrawVerts[i].xyz[2];
- old_xyzst[5*i+3] = bspDrawVerts[i].st[0];
- old_xyzst[5*i+4] = bspDrawVerts[i].st[1];
- }
- }
+void HelpInfo()
+{
+ struct HelpOption info[] = {
+ {"-info <filename.bsp>", "Switch that enters this mode"},
+ };
- /* scale drawverts */
- for( i = 0; i < numBSPDrawVerts; i++ )
- {
- bspDrawVerts[i].xyz[0] *= scale[0];
- bspDrawVerts[i].xyz[1] *= scale[1];
- bspDrawVerts[i].xyz[2] *= scale[2];
- bspDrawVerts[i].normal[0] /= scale[0];
- bspDrawVerts[i].normal[1] /= scale[1];
- bspDrawVerts[i].normal[2] /= scale[2];
- VectorNormalize(bspDrawVerts[i].normal, bspDrawVerts[i].normal);
- }
+ HelpOptions("Get info about BSP file", 0, 80, info, sizeof(info)/sizeof(struct HelpOption));
+}
- if(texscale)
- {
- for(i = 0; i < numBSPDrawSurfaces; i++)
- {
- switch(bspDrawSurfaces[i].surfaceType)
- {
- case SURFACE_FACE:
- case SURFACE_META:
- if(bspDrawSurfaces[i].numIndexes % 3)
- Error("Not a triangulation!");
- for(j = bspDrawSurfaces[i].firstIndex; j < bspDrawSurfaces[i].firstIndex + bspDrawSurfaces[i].numIndexes; j += 3)
- {
- int ia = bspDrawIndexes[j] + bspDrawSurfaces[i].firstVert, ib = bspDrawIndexes[j+1] + bspDrawSurfaces[i].firstVert, ic = bspDrawIndexes[j+2] + bspDrawSurfaces[i].firstVert;
- bspDrawVert_t *a = &bspDrawVerts[ia], *b = &bspDrawVerts[ib], *c = &bspDrawVerts[ic];
- float *oa = &old_xyzst[ia*5], *ob = &old_xyzst[ib*5], *oc = &old_xyzst[ic*5];
- // extrapolate:
- // a->xyz -> oa
- // b->xyz -> ob
- // c->xyz -> oc
- ExtrapolateTexcoords(
- &oa[0], &oa[3],
- &ob[0], &ob[3],
- &oc[0], &oc[3],
- a->xyz, a->st,
- b->xyz, b->st,
- c->xyz, c->st);
- }
- break;
- }
- }
- }
-
- /* scale planes */
- if(uniform)
- {
- for( i = 0; i < numBSPPlanes; i++ )
- {
- bspPlanes[ i ].dist *= scale[0];
- }
- }
- else
- {
- for( i = 0; i < numBSPPlanes; i++ )
- {
- bspPlanes[ i ].normal[0] /= scale[0];
- bspPlanes[ i ].normal[1] /= scale[1];
- bspPlanes[ i ].normal[2] /= scale[2];
- f = 1/VectorLength(bspPlanes[i].normal);
- VectorScale(bspPlanes[i].normal, f, bspPlanes[i].normal);
- bspPlanes[ i ].dist *= f;
- }
- }
-
- /* scale gridsize */
- GetVectorForKey( &entities[ 0 ], "gridsize", vec );
- if( (vec[ 0 ] + vec[ 1 ] + vec[ 2 ]) == 0.0f )
- VectorCopy( gridSize, vec );
- vec[0] *= scale[0];
- vec[1] *= scale[1];
- vec[2] *= scale[2];
- sprintf( str, "%f %f %f", vec[ 0 ], vec[ 1 ], vec[ 2 ] );
- SetKeyValue( &entities[ 0 ], "gridsize", str );
-
- /* inject command line parameters */
- InjectCommandLine(argv, 0, argc - 1);
-
- /* write the bsp */
- UnparseEntities();
- StripExtension( source );
- DefaultExtension( source, "_s.bsp" );
- Sys_Printf( "Writing %s\n", source );
- WriteBSPFile( source );
-
- /* return to sender */
- return 0;
+void HelpImport()
+{
+ struct HelpOption import[] = {
+ {"-import <filename.bsp>", "Copies lightmaps from `filename/lightmap_0000.tga` ff into the BSP"},
+ };
+
+ HelpOptions("Importing lightmaps", 0, 80, import, sizeof(import)/sizeof(struct HelpOption));
}
+void HelpMinimap()
+{
+ struct HelpOption minimap[] = {
+ {"-minimap <filename.bsp>", "Creates a minimap of the BSP, by default writes to `../gfx/filename_mini.tga`"},
+ {"-black", "Write the minimap as a black-on-transparency RGBA32 image"},
+ {"-boost <F>", "Sets the contrast boost value (higher values make a brighter image); contrast boost is somewhat similar to gamma, but continuous even at zero"},
+ {"-border <F>", "Sets the amount of border pixels relative to the total image size"},
+ {"-gray", "Write the minimap as a white-on-black GRAY8 image"},
+ {"-keepaspect", "Ensure the aspect ratio is kept (the minimap is then letterboxed to keep aspect)"},
+ {"-minmax <xmin ymin zmin xmax ymax zmax>", "Forces specific map dimensions (note: the minimap actually uses these dimensions, scaled to the target size while keeping aspect with centering, and 1/64 of border appended to all sides)"},
+ {"-nokeepaspect", "Do not ensure the aspect ratio is kept (makes it easier to use the image in your code, but looks bad together with sharpening)"},
+ {"-o <filename.tga>", "Sets the output file name"},
+ {"-random <N>", "Sets the randomized supersampling count (cannot be combined with `-samples`)"},
+ {"-samples <N>", "Sets the ordered supersampling count (cannot be combined with `-random`)"},
+ {"-sharpen <F>", "Sets the sharpening coefficient"},
+ {"-size <N>", "Sets the width and height of the output image"},
+ {"-white", "Write the minimap as a white-on-transparency RGBA32 image"},
+ };
+
+ HelpOptions("MiniMap", 0, 80, minimap, sizeof(minimap)/sizeof(struct HelpOption));
+}
+void HelpCommon()
+{
+ struct HelpOption common[] = {
+ {"-connect <address>", "Talk to a NetRadiant instance using a specific XML based protocol"},
+ {"-force", "Allow reading some broken/unsupported BSP files e.g. when decompiling, may also crash"},
+ {"-fs_basepath <path>", "Sets the given path as main directory of the game (can be used more than once to look in multiple paths)"},
+ {"-fs_game <gamename>", "Sets a different game directory name (default for Q3A: baseq3)"},
+ {"-fs_homebase <dir>", "Specifies where the user home directory name is on Linux (default for Q3A: .q3a)"},
+ {"-game <gamename>", "Load settings for the given game (default: quake3)"},
+ {"-subdivisions <F>", "multiplier for patch subdivisions quality"},
+ {"-threads <N>", "number of threads to use"},
+ {"-v", "Verbose mode"}
+ };
+
+ HelpOptions("Common Options", 0, 80, common, sizeof(common)/sizeof(struct HelpOption));
-/*
-ConvertBSPMain()
-main argument processing function for bsp conversion
-*/
+}
-int ConvertBSPMain( int argc, char **argv )
+void Help(const char* arg)
{
- int i;
- int (*convertFunc)( char * );
- game_t *convertGame;
-
-
- /* set default */
- convertFunc = ConvertBSPToASE;
- convertGame = NULL;
-
- /* arg checking */
- if( argc < 1 )
- {
- Sys_Printf( "Usage: q3map -scale <value> [-v] <mapname>\n" );
- return 0;
- }
-
- /* process arguments */
- for( i = 1; i < (argc - 1); i++ )
- {
- /* -format map|ase|... */
- if( !strcmp( argv[ i ], "-format" ) )
- {
- i++;
- if( !Q_stricmp( argv[ i ], "ase" ) )
- convertFunc = ConvertBSPToASE;
- else if( !Q_stricmp( argv[ i ], "map" ) )
- convertFunc = ConvertBSPToMap;
- else
+ printf("Usage: q3map2 [stage] [common options...] [stage options...] [stage source file]\n");
+ printf(" q3map2 -help [stage]\n\n");
+
+ HelpCommon();
+
+ struct HelpOption stages[] = {
+ {"-bsp", "BSP Stage"},
+ {"-vis", "VIS Stage"},
+ {"-light", "Light Stage"},
+ {"-analize", "Analyzing BSP-like file structure"},
+ {"-scale", "Scaling"},
+ {"-convert", "Converting & Decompiling"},
+ {"-export", "Exporting lightmaps"},
+ {"-fixaas", "Fixing AAS checksum"},
+ {"-info", "Get info about BSP file"},
+ {"-import", "Importing lightmaps"},
+ {"-minimap", "MiniMap"},
+ };
+ void(*help_funcs[])() = {
+ HelpBsp,
+ HelpVis,
+ HelpLight,
+ HelpAnalize,
+ HelpScale,
+ HelpConvert,
+ HelpExport,
+ HelpFixaas,
+ HelpInfo,
+ HelpImport,
+ HelpMinimap
+ };
+
+ if ( arg && strlen(arg) > 0 )
+ {
+ if ( arg[0] == '-' )
+ arg++;
+
+ unsigned i;
+ for ( i = 0; i < sizeof(stages)/sizeof(struct HelpOption); i++ )
+ if ( strcmp(arg, stages[i].name+1) == 0 )
{
- convertGame = GetGame( argv[ i ] );
- if( convertGame == NULL )
- Sys_Printf( "Unknown conversion format \"%s\". Defaulting to ASE.\n", argv[ i ] );
+ help_funcs[i]();
+ return;
}
- }
- else if( !strcmp( argv[ i ], "-ne" ) )
- {
- normalEpsilon = atof( argv[ i + 1 ] );
- i++;
- Sys_Printf( "Normal epsilon set to %f\n", normalEpsilon );
- }
- else if( !strcmp( argv[ i ], "-de" ) )
- {
- distanceEpsilon = atof( argv[ i + 1 ] );
- i++;
- Sys_Printf( "Distance epsilon set to %f\n", distanceEpsilon );
- }
- else if( !strcmp( argv[ i ], "-shadersasbitmap" ) )
- shadersAsBitmap = qtrue;
}
-
- /* clean up map name */
- strcpy( source, ExpandArg( argv[ i ] ) );
- StripExtension( source );
- DefaultExtension( source, ".bsp" );
-
- LoadShaderInfo();
-
- Sys_Printf( "Loading %s\n", source );
-
- /* ydnar: load surface file */
- //% LoadSurfaceExtraFile( source );
-
- LoadBSPFile( source );
-
- /* parse bsp entities */
- ParseEntities();
-
- /* bsp format convert? */
- if( convertGame != NULL )
- {
- /* set global game */
- game = convertGame;
-
- /* write bsp */
- StripExtension( source );
- DefaultExtension( source, "_c.bsp" );
- Sys_Printf( "Writing %s\n", source );
- WriteBSPFile( source );
-
- /* return to sender */
- return 0;
- }
-
- /* normal convert */
- return convertFunc( source );
+
+ HelpOptions("Stages", 0, 80, stages, sizeof(stages)/sizeof(struct HelpOption));
}
+/*
+ main()
+ q3map mojo...
+ */
+int main( int argc, char **argv ){
+ int i, r;
+ double start, end;
-/*
-main()
-q3map mojo...
-*/
-int main( int argc, char **argv )
-{
- int i, r;
- double start, end;
-
-
/* we want consistent 'randomness' */
srand( 0 );
-
+
/* start timer */
start = I_FloatTime();
/* this was changed to emit version number over the network */
printf( Q3MAP_VERSION "\n" );
-
+
/* set exit call */
atexit( ExitQ3Map );
/* read general options first */
- for( i = 1; i < argc; i++ )
+ for ( i = 1; i < argc; i++ )
{
+ /* -help */
+ if ( !strcmp( argv[ i ], "-h" ) || !strcmp( argv[ i ], "--help" )
+ || !strcmp( argv[ i ], "-help" ) ) {
+ Help(argv[i+1]);
+ return 0;
+ }
+
/* -connect */
- if( !strcmp( argv[ i ], "-connect" ) )
- {
+ if ( !strcmp( argv[ i ], "-connect" ) ) {
argv[ i ] = NULL;
i++;
Broadcast_Setup( argv[ i ] );
argv[ i ] = NULL;
}
-
+
/* verbose */
- else if( !strcmp( argv[ i ], "-v" ) )
- {
- if(!verbose)
- {
+ else if ( !strcmp( argv[ i ], "-v" ) ) {
+ if ( !verbose ) {
verbose = qtrue;
argv[ i ] = NULL;
}
}
-
+
/* force */
- else if( !strcmp( argv[ i ], "-force" ) )
- {
+ else if ( !strcmp( argv[ i ], "-force" ) ) {
force = qtrue;
argv[ i ] = NULL;
}
-
+
/* patch subdivisions */
- else if( !strcmp( argv[ i ], "-subdivisions" ) )
- {
+ else if ( !strcmp( argv[ i ], "-subdivisions" ) ) {
argv[ i ] = NULL;
i++;
patchSubdivisions = atoi( argv[ i ] );
argv[ i ] = NULL;
- if( patchSubdivisions <= 0 )
+ if ( patchSubdivisions <= 0 ) {
patchSubdivisions = 1;
+ }
}
-
+
/* threads */
- else if( !strcmp( argv[ i ], "-threads" ) )
- {
+ else if ( !strcmp( argv[ i ], "-threads" ) ) {
argv[ i ] = NULL;
i++;
numthreads = atoi( argv[ i ] );
argv[ i ] = NULL;
}
}
-
+
/* init model library */
PicoInit();
PicoSetMallocFunc( safe_malloc );
PicoSetPrintFunc( PicoPrintFunc );
PicoSetLoadFileFunc( PicoLoadFileFunc );
PicoSetFreeFileFunc( free );
-
+
/* set number of threads */
ThreadSetDefault();
-
+
/* generate sinusoid jitter table */
- for( i = 0; i < MAX_JITTERS; i++ )
+ for ( i = 0; i < MAX_JITTERS; i++ )
{
jitters[ i ] = sin( i * 139.54152147 );
//% Sys_Printf( "Jitter %4d: %f\n", i, jitters[ i ] );
}
-
+
/* we print out two versions, q3map's main version (since it evolves a bit out of GtkRadiant)
and we put the GtkRadiant version to make it easy to track with what version of Radiant it was built with */
-
+
Sys_Printf( "Q3Map - v1.0r (c) 1999 Id Software Inc.\n" );
Sys_Printf( "Q3Map (ydnar) - v" Q3MAP_VERSION "\n" );
Sys_Printf( "NetRadiant - v" RADIANT_VERSION " " __DATE__ " " __TIME__ "\n" );
Sys_Printf( "%s\n", Q3MAP_MOTD );
-
+
/* ydnar: new path initialization */
InitPaths( &argc, argv );
/* set game options */
- if (!patchSubdivisions)
+ if ( !patchSubdivisions ) {
patchSubdivisions = game->patchSubdivisions;
-
+ }
+
/* check if we have enough options left to attempt something */
- if( argc < 2 )
+ if ( argc < 2 ) {
Error( "Usage: %s [general options] [options] mapfile", argv[ 0 ] );
-
+ }
+
/* fixaas */
- if( !strcmp( argv[ 1 ], "-fixaas" ) )
+ if ( !strcmp( argv[ 1 ], "-fixaas" ) ) {
r = FixAAS( argc - 1, argv + 1 );
-
+ }
+
/* analyze */
- else if( !strcmp( argv[ 1 ], "-analyze" ) )
+ else if ( !strcmp( argv[ 1 ], "-analyze" ) ) {
r = AnalyzeBSP( argc - 1, argv + 1 );
-
+ }
+
/* info */
- else if( !strcmp( argv[ 1 ], "-info" ) )
+ else if ( !strcmp( argv[ 1 ], "-info" ) ) {
r = BSPInfo( argc - 2, argv + 2 );
-
+ }
+
/* vis */
- else if( !strcmp( argv[ 1 ], "-vis" ) )
+ else if ( !strcmp( argv[ 1 ], "-vis" ) ) {
r = VisMain( argc - 1, argv + 1 );
-
+ }
+
/* light */
- else if( !strcmp( argv[ 1 ], "-light" ) )
+ else if ( !strcmp( argv[ 1 ], "-light" ) ) {
r = LightMain( argc - 1, argv + 1 );
-
+ }
+
/* vlight */
- else if( !strcmp( argv[ 1 ], "-vlight" ) )
- {
+ else if ( !strcmp( argv[ 1 ], "-vlight" ) ) {
Sys_Printf( "WARNING: VLight is no longer supported, defaulting to -light -fast instead\n\n" );
- argv[ 1 ] = "-fast"; /* eek a hack */
+ argv[ 1 ] = "-fast"; /* eek a hack */
r = LightMain( argc, argv );
}
-
+
/* ydnar: lightmap export */
- else if( !strcmp( argv[ 1 ], "-export" ) )
+ else if ( !strcmp( argv[ 1 ], "-export" ) ) {
r = ExportLightmapsMain( argc - 1, argv + 1 );
-
+ }
+
/* ydnar: lightmap import */
- else if( !strcmp( argv[ 1 ], "-import" ) )
+ else if ( !strcmp( argv[ 1 ], "-import" ) ) {
r = ImportLightmapsMain( argc - 1, argv + 1 );
-
+ }
+
/* ydnar: bsp scaling */
- else if( !strcmp( argv[ 1 ], "-scale" ) )
+ else if ( !strcmp( argv[ 1 ], "-scale" ) ) {
r = ScaleBSPMain( argc - 1, argv + 1 );
-
+ }
+
/* ydnar: bsp conversion */
- else if( !strcmp( argv[ 1 ], "-convert" ) )
+ else if ( !strcmp( argv[ 1 ], "-convert" ) ) {
r = ConvertBSPMain( argc - 1, argv + 1 );
-
+ }
+
/* div0: minimap */
- else if( !strcmp( argv[ 1 ], "-minimap" ) )
- r = MiniMapBSPMain(argc - 1, argv + 1);
+ else if ( !strcmp( argv[ 1 ], "-minimap" ) ) {
+ r = MiniMapBSPMain( argc - 1, argv + 1 );
+ }
/* ydnar: otherwise create a bsp */
- else
+ else{
r = BSPMain( argc, argv );
-
+ }
+
/* emit time */
end = I_FloatTime();
Sys_Printf( "%9.0f seconds elapsed\n", end - start );
-
+
/* shut down connection */
Broadcast_Shutdown();
-
+
/* return any error code */
return r;
}