worldspawn/tools/common/aselib.c

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2020-11-17 11:16:16 +00:00
/*
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.
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.
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
*/
#include "aselib.h"
#include "globaldefs.h"
#include "inout.h"
#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#define MAX_ASE_MATERIALS 32
#define MAX_ASE_OBJECTS 64
#define MAX_ASE_ANIMATIONS 32
#define MAX_ASE_ANIMATION_FRAMES 512
#define VERBOSE( x ) { if ( ase.verbose ) { Sys_Printf x ; } }
typedef struct
{
float x, y, z;
float nx, ny, nz;
float s, t;
} aseVertex_t;
typedef struct
{
float s, t;
} aseTVertex_t;
typedef int aseFace_t[3];
typedef struct
{
int numFaces;
int numVertexes;
int numTVertexes;
int timeValue;
aseVertex_t *vertexes;
aseTVertex_t *tvertexes;
aseFace_t *faces, *tfaces;
int currentFace, currentVertex;
} aseMesh_t;
typedef struct
{
int numFrames;
aseMesh_t frames[MAX_ASE_ANIMATION_FRAMES];
int currentFrame;
} aseMeshAnimation_t;
typedef struct
{
char name[128];
} aseMaterial_t;
/*
** contains the animate sequence of a single surface
** using a single material
*/
typedef struct
{
char name[128];
int materialRef;
int numAnimations;
aseMeshAnimation_t anim;
} aseGeomObject_t;
typedef struct
{
int numMaterials;
aseMaterial_t materials[MAX_ASE_MATERIALS];
aseGeomObject_t objects[MAX_ASE_OBJECTS];
char *buffer;
char *curpos;
int len;
int currentObject;
qboolean verbose;
qboolean grabAnims;
} ase_t;
static char s_token[1024];
static ase_t ase;
static char gl_filename[1024];
static void ASE_Process( void );
static void ASE_FreeGeomObject( int ndx );
#if GDEF_OS_LINUX || GDEF_OS_MACOS
static char* strlwr( char* string ){
char *cp;
for ( cp = string; *cp; ++cp )
{
if ( 'A' <= *cp && *cp <= 'Z' ) {
*cp += 'a' - 'A';
}
}
return string;
}
#endif
/*
** ASE_Load
*/
void ASE_Load( const char *filename, qboolean verbose, qboolean grabAnims ){
FILE *fp = fopen( filename, "rb" );
if ( !fp ) {
Error( "File not found '%s'", filename );
}
memset( &ase, 0, sizeof( ase ) );
ase.verbose = verbose;
ase.grabAnims = grabAnims;
ase.len = Q_filelength( fp );
ase.curpos = ase.buffer = safe_malloc( ase.len );
Sys_Printf( "Processing '%s'\n", filename );
if ( fread( ase.buffer, ase.len, 1, fp ) != 1 ) {
fclose( fp );
Error( "fread() != -1 for '%s'", filename );
}
fclose( fp );
strcpy( gl_filename, filename );
ASE_Process();
}
/*
** ASE_Free
*/
void ASE_Free( void ){
int i;
for ( i = 0; i < ase.currentObject; i++ )
{
ASE_FreeGeomObject( i );
}
}
/*
** ASE_GetNumSurfaces
*/
int ASE_GetNumSurfaces( void ){
return ase.currentObject;
}
/*
** ASE_GetSurfaceName
*/
const char *ASE_GetSurfaceName( int which ){
aseGeomObject_t *pObject = &ase.objects[which];
if ( !pObject->anim.numFrames ) {
return 0;
}
return pObject->name;
}
/*
** ASE_GetSurfaceAnimation
**
** Returns an animation (sequence of polysets)
*/
polyset_t *ASE_GetSurfaceAnimation( int which, int *pNumFrames, int skipFrameStart, int skipFrameEnd, int maxFrames ){
aseGeomObject_t *pObject = &ase.objects[which];
polyset_t *psets;
int numFramesInAnimation;
int numFramesToKeep;
int i, f;
if ( !pObject->anim.numFrames ) {
return 0;
}
if ( pObject->anim.numFrames > maxFrames && maxFrames != -1 ) {
numFramesInAnimation = maxFrames;
}
else
{
numFramesInAnimation = pObject->anim.numFrames;
if ( maxFrames != -1 ) {
Sys_FPrintf( SYS_WRN, "WARNING: ASE_GetSurfaceAnimation maxFrames > numFramesInAnimation\n" );
}
}
if ( skipFrameEnd != -1 ) {
numFramesToKeep = numFramesInAnimation - ( skipFrameEnd - skipFrameStart + 1 );
}
else{
numFramesToKeep = numFramesInAnimation;
}
*pNumFrames = numFramesToKeep;
psets = calloc( sizeof( polyset_t ) * numFramesToKeep, 1 );
for ( f = 0, i = 0; i < numFramesInAnimation; i++ )
{
int t;
aseMesh_t *pMesh = &pObject->anim.frames[i];
if ( skipFrameStart != -1 ) {
if ( i >= skipFrameStart && i <= skipFrameEnd ) {
continue;
}
}
strcpy( psets[f].name, pObject->name );
strcpy( psets[f].materialname, ase.materials[pObject->materialRef].name );
psets[f].triangles = calloc( sizeof( triangle_t ) * pObject->anim.frames[i].numFaces, 1 );
psets[f].numtriangles = pObject->anim.frames[i].numFaces;
for ( t = 0; t < pObject->anim.frames[i].numFaces; t++ )
{
int k;
for ( k = 0; k < 3; k++ )
{
psets[f].triangles[t].verts[k][0] = pMesh->vertexes[pMesh->faces[t][k]].x;
psets[f].triangles[t].verts[k][1] = pMesh->vertexes[pMesh->faces[t][k]].y;
psets[f].triangles[t].verts[k][2] = pMesh->vertexes[pMesh->faces[t][k]].z;
if ( pMesh->tvertexes && pMesh->tfaces ) {
psets[f].triangles[t].texcoords[k][0] = pMesh->tvertexes[pMesh->tfaces[t][k]].s;
psets[f].triangles[t].texcoords[k][1] = pMesh->tvertexes[pMesh->tfaces[t][k]].t;
}
}
}
f++;
}
return psets;
}
static void ASE_FreeGeomObject( int ndx ){
aseGeomObject_t *pObject;
int i;
pObject = &ase.objects[ndx];
for ( i = 0; i < pObject->anim.numFrames; i++ )
{
if ( pObject->anim.frames[i].vertexes ) {
free( pObject->anim.frames[i].vertexes );
}
if ( pObject->anim.frames[i].tvertexes ) {
free( pObject->anim.frames[i].tvertexes );
}
if ( pObject->anim.frames[i].faces ) {
free( pObject->anim.frames[i].faces );
}
if ( pObject->anim.frames[i].tfaces ) {
free( pObject->anim.frames[i].tfaces );
}
}
memset( pObject, 0, sizeof( *pObject ) );
}
static aseMesh_t *ASE_GetCurrentMesh( void ){
aseGeomObject_t *pObject;
if ( ase.currentObject >= MAX_ASE_OBJECTS ) {
Error( "Too many GEOMOBJECTs" );
return 0; // never called
}
pObject = &ase.objects[ase.currentObject];
if ( pObject->anim.currentFrame >= MAX_ASE_ANIMATION_FRAMES ) {
Error( "Too many MESHes" );
return 0;
}
return &pObject->anim.frames[pObject->anim.currentFrame];
}
static int CharIsTokenDelimiter( int ch ){
if ( ch <= 32 ) {
return 1;
}
return 0;
}
static int ASE_GetToken( qboolean restOfLine ){
int i = 0;
if ( ase.buffer == 0 ) {
return 0;
}
if ( ( ase.curpos - ase.buffer ) == ase.len ) {
return 0;
}
// skip over crap
while ( ( ( ase.curpos - ase.buffer ) < ase.len ) &&
( *ase.curpos <= 32 ) )
{
ase.curpos++;
}
while ( ( ase.curpos - ase.buffer ) < ase.len )
{
s_token[i] = *ase.curpos;
ase.curpos++;
i++;
if ( ( CharIsTokenDelimiter( s_token[i - 1] ) && !restOfLine ) ||
( ( s_token[i - 1] == '\n' ) || ( s_token[i - 1] == '\r' ) ) ) {
s_token[i - 1] = 0;
break;
}
}
s_token[i] = 0;
return 1;
}
static void ASE_ParseBracedBlock( void ( *parser )( const char *token ) ){
int indent = 0;
while ( ASE_GetToken( qfalse ) )
{
if ( !strcmp( s_token, "{" ) ) {
indent++;
}
else if ( !strcmp( s_token, "}" ) ) {
--indent;
if ( indent == 0 ) {
break;
}
else if ( indent < 0 ) {
Error( "Unexpected '}'" );
}
}
else
{
if ( parser ) {
parser( s_token );
}
}
}
}
static void ASE_SkipEnclosingBraces( void ){
int indent = 0;
while ( ASE_GetToken( qfalse ) )
{
if ( !strcmp( s_token, "{" ) ) {
indent++;
}
else if ( !strcmp( s_token, "}" ) ) {
indent--;
if ( indent == 0 ) {
break;
}
else if ( indent < 0 ) {
Error( "Unexpected '}'" );
}
}
}
}
static void ASE_SkipRestOfLine( void ){
ASE_GetToken( qtrue );
}
static void ASE_KeyMAP_DIFFUSE( const char *token ){
char bitmap[1024];
char filename[1024];
int i = 0;
strcpy( filename, gl_filename );
if ( !strcmp( token, "*BITMAP" ) ) {
ASE_GetToken( qfalse );
// the purpose of this whole chunk of code below is to extract the relative path
// from a full path in the ASE
strcpy( bitmap, s_token + 1 );
if ( strchr( bitmap, '"' ) ) {
*strchr( bitmap, '"' ) = 0;
}
/* convert backslash to slash */
while ( bitmap[i] )
{
if ( bitmap[i] == '\\' ) {
bitmap[i] = '/';
}
i++;
}
/* remove filename from path */
for ( i = strlen( filename ); i > 0; i-- )
{
if ( filename[i] == '/' ) {
filename[i] = '\0';
break;
}
}
/* replaces a relative path with a full path */
if ( bitmap[0] == '.' && bitmap[1] == '.' && bitmap[2] == '/' ) {
while ( bitmap[0] == '.' && bitmap[1] == '.' && bitmap[2] == '/' )
{
/* remove last item from path */
for ( i = strlen( filename ); i > 0; i-- )
{
if ( filename[i] == '/' ) {
filename[i] = '\0';
break;
}
}
strcpy( bitmap, &bitmap[3] );
}
strcat( filename, "/" );
strcat( filename, bitmap );
strcpy( bitmap, filename );
}
if ( strstr( bitmap, gamedir ) ) {
strcpy( ase.materials[ase.numMaterials].name, strstr( bitmap, gamedir ) + strlen( gamedir ) );
Sys_Printf( "material name: \'%s\'\n", strstr( bitmap, gamedir ) + strlen( gamedir ) );
}
else
{
sprintf( ase.materials[ase.numMaterials].name, "(not converted: '%s')", bitmap );
Sys_FPrintf( SYS_WRN, "WARNING: illegal material name '%s'\n", bitmap );
}
}
else
{
}
}
static void ASE_KeyMATERIAL( const char *token ){
if ( !strcmp( token, "*MAP_DIFFUSE" ) ) {
ASE_ParseBracedBlock( ASE_KeyMAP_DIFFUSE );
}
else
{
}
}
static void ASE_KeyMATERIAL_LIST( const char *token ){
if ( !strcmp( token, "*MATERIAL_COUNT" ) ) {
ASE_GetToken( qfalse );
VERBOSE( ( "..num materials: %s\n", s_token ) );
if ( atoi( s_token ) > MAX_ASE_MATERIALS ) {
Error( "Too many materials!" );
}
ase.numMaterials = 0;
}
else if ( !strcmp( token, "*MATERIAL" ) ) {
VERBOSE( ( "..material %d ", ase.numMaterials ) );
ASE_ParseBracedBlock( ASE_KeyMATERIAL );
ase.numMaterials++;
}
}
static void ASE_KeyMESH_VERTEX_LIST( const char *token ){
aseMesh_t *pMesh = ASE_GetCurrentMesh();
if ( !strcmp( token, "*MESH_VERTEX" ) ) {
ASE_GetToken( qfalse ); // skip number
ASE_GetToken( qfalse );
pMesh->vertexes[pMesh->currentVertex].y = atof( s_token );
ASE_GetToken( qfalse );
pMesh->vertexes[pMesh->currentVertex].x = -atof( s_token );
ASE_GetToken( qfalse );
pMesh->vertexes[pMesh->currentVertex].z = atof( s_token );
pMesh->currentVertex++;
if ( pMesh->currentVertex > pMesh->numVertexes ) {
Error( "pMesh->currentVertex >= pMesh->numVertexes" );
}
}
else
{
Error( "Unknown token '%s' while parsing MESH_VERTEX_LIST", token );
}
}
static void ASE_KeyMESH_FACE_LIST( const char *token ){
aseMesh_t *pMesh = ASE_GetCurrentMesh();
if ( !strcmp( token, "*MESH_FACE" ) ) {
ASE_GetToken( qfalse ); // skip face number
ASE_GetToken( qfalse ); // skip label
ASE_GetToken( qfalse ); // first vertex
pMesh->faces[pMesh->currentFace][0] = atoi( s_token );
ASE_GetToken( qfalse ); // skip label
ASE_GetToken( qfalse ); // second vertex
pMesh->faces[pMesh->currentFace][2] = atoi( s_token );
ASE_GetToken( qfalse ); // skip label
ASE_GetToken( qfalse ); // third vertex
pMesh->faces[pMesh->currentFace][1] = atoi( s_token );
ASE_GetToken( qtrue );
/*
if ( ( p = strstr( s_token, "*MESH_MTLID" ) ) != 0 )
{
p += strlen( "*MESH_MTLID" ) + 1;
mtlID = atoi( p );
}
else
{
Error( "No *MESH_MTLID found for face!" );
}
*/
pMesh->currentFace++;
}
else
{
Error( "Unknown token '%s' while parsing MESH_FACE_LIST", token );
}
}
static void ASE_KeyTFACE_LIST( const char *token ){
aseMesh_t *pMesh = ASE_GetCurrentMesh();
if ( !strcmp( token, "*MESH_TFACE" ) ) {
int a, b, c;
ASE_GetToken( qfalse );
ASE_GetToken( qfalse );
a = atoi( s_token );
ASE_GetToken( qfalse );
c = atoi( s_token );
ASE_GetToken( qfalse );
b = atoi( s_token );
pMesh->tfaces[pMesh->currentFace][0] = a;
pMesh->tfaces[pMesh->currentFace][1] = b;
pMesh->tfaces[pMesh->currentFace][2] = c;
pMesh->currentFace++;
}
else
{
Error( "Unknown token '%s' in MESH_TFACE", token );
}
}
static void ASE_KeyMESH_TVERTLIST( const char *token ){
aseMesh_t *pMesh = ASE_GetCurrentMesh();
if ( !strcmp( token, "*MESH_TVERT" ) ) {
char u[80], v[80], w[80];
ASE_GetToken( qfalse );
ASE_GetToken( qfalse );
strcpy( u, s_token );
ASE_GetToken( qfalse );
strcpy( v, s_token );
ASE_GetToken( qfalse );
strcpy( w, s_token );
pMesh->tvertexes[pMesh->currentVertex].s = atof( u );
pMesh->tvertexes[pMesh->currentVertex].t = 1.0f - atof( v );
pMesh->currentVertex++;
if ( pMesh->currentVertex > pMesh->numTVertexes ) {
Error( "pMesh->currentVertex > pMesh->numTVertexes" );
}
}
else
{
Error( "Unknown token '%s' while parsing MESH_TVERTLIST", token );
}
}
static void ASE_KeyMESH( const char *token ){
aseMesh_t *pMesh = ASE_GetCurrentMesh();
if ( !strcmp( token, "*TIMEVALUE" ) ) {
ASE_GetToken( qfalse );
pMesh->timeValue = atoi( s_token );
VERBOSE( ( ".....timevalue: %d\n", pMesh->timeValue ) );
}
else if ( !strcmp( token, "*MESH_NUMVERTEX" ) ) {
ASE_GetToken( qfalse );
pMesh->numVertexes = atoi( s_token );
VERBOSE( ( ".....TIMEVALUE: %d\n", pMesh->timeValue ) );
VERBOSE( ( ".....num vertexes: %d\n", pMesh->numVertexes ) );
}
else if ( !strcmp( token, "*MESH_NUMFACES" ) ) {
ASE_GetToken( qfalse );
pMesh->numFaces = atoi( s_token );
VERBOSE( ( ".....num faces: %d\n", pMesh->numFaces ) );
}
else if ( !strcmp( token, "*MESH_NUMTVFACES" ) ) {
ASE_GetToken( qfalse );
if ( atoi( s_token ) != pMesh->numFaces ) {
Error( "MESH_NUMTVFACES != MESH_NUMFACES" );
}
}
else if ( !strcmp( token, "*MESH_NUMTVERTEX" ) ) {
ASE_GetToken( qfalse );
pMesh->numTVertexes = atoi( s_token );
VERBOSE( ( ".....num tvertexes: %d\n", pMesh->numTVertexes ) );
}
else if ( !strcmp( token, "*MESH_VERTEX_LIST" ) ) {
pMesh->vertexes = calloc( sizeof( aseVertex_t ) * pMesh->numVertexes, 1 );
pMesh->currentVertex = 0;
VERBOSE( ( ".....parsing MESH_VERTEX_LIST\n" ) );
ASE_ParseBracedBlock( ASE_KeyMESH_VERTEX_LIST );
}
else if ( !strcmp( token, "*MESH_TVERTLIST" ) ) {
pMesh->currentVertex = 0;
pMesh->tvertexes = calloc( sizeof( aseTVertex_t ) * pMesh->numTVertexes, 1 );
VERBOSE( ( ".....parsing MESH_TVERTLIST\n" ) );
ASE_ParseBracedBlock( ASE_KeyMESH_TVERTLIST );
}
else if ( !strcmp( token, "*MESH_FACE_LIST" ) ) {
pMesh->faces = calloc( sizeof( aseFace_t ) * pMesh->numFaces, 1 );
pMesh->currentFace = 0;
VERBOSE( ( ".....parsing MESH_FACE_LIST\n" ) );
ASE_ParseBracedBlock( ASE_KeyMESH_FACE_LIST );
}
else if ( !strcmp( token, "*MESH_TFACELIST" ) ) {
pMesh->tfaces = calloc( sizeof( aseFace_t ) * pMesh->numFaces, 1 );
pMesh->currentFace = 0;
VERBOSE( ( ".....parsing MESH_TFACE_LIST\n" ) );
ASE_ParseBracedBlock( ASE_KeyTFACE_LIST );
}
else if ( !strcmp( token, "*MESH_NORMALS" ) ) {
ASE_ParseBracedBlock( 0 );
}
}
static void ASE_KeyMESH_ANIMATION( const char *token ){
aseMesh_t *pMesh = ASE_GetCurrentMesh();
// loads a single animation frame
if ( !strcmp( token, "*MESH" ) ) {
VERBOSE( ( "...found MESH\n" ) );
assert( pMesh->faces == 0 );
assert( pMesh->vertexes == 0 );
assert( pMesh->tvertexes == 0 );
memset( pMesh, 0, sizeof( *pMesh ) );
ASE_ParseBracedBlock( ASE_KeyMESH );
if ( ++ase.objects[ase.currentObject].anim.currentFrame == MAX_ASE_ANIMATION_FRAMES ) {
Error( "Too many animation frames" );
}
}
else
{
Error( "Unknown token '%s' while parsing MESH_ANIMATION", token );
}
}
static void ASE_KeyGEOMOBJECT( const char *token ){
if ( !strcmp( token, "*NODE_NAME" ) ) {
char *name = ase.objects[ase.currentObject].name;
ASE_GetToken( qtrue );
VERBOSE( ( " %s\n", s_token ) );
strcpy( ase.objects[ase.currentObject].name, s_token + 1 );
if ( strchr( ase.objects[ase.currentObject].name, '"' ) ) {
*strchr( ase.objects[ase.currentObject].name, '"' ) = 0;
}
if ( strstr( name, "tag" ) == name ) {
while ( strchr( name, '_' ) != strrchr( name, '_' ) )
{
*strrchr( name, '_' ) = 0;
}
while ( strrchr( name, ' ' ) )
{
*strrchr( name, ' ' ) = 0;
}
}
}
else if ( !strcmp( token, "*NODE_PARENT" ) ) {
ASE_SkipRestOfLine();
}
// ignore unused data blocks
else if ( !strcmp( token, "*NODE_TM" ) ||
!strcmp( token, "*TM_ANIMATION" ) ) {
ASE_ParseBracedBlock( 0 );
}
// ignore regular meshes that aren't part of animation
else if ( !strcmp( token, "*MESH" ) && !ase.grabAnims ) {
/*
if ( strstr( ase.objects[ase.currentObject].name, "tag_" ) == ase.objects[ase.currentObject].name )
{
s_forceStaticMesh = true;
ASE_ParseBracedBlock( ASE_KeyMESH );
s_forceStaticMesh = false;
}
*/
ASE_ParseBracedBlock( ASE_KeyMESH );
if ( ++ase.objects[ase.currentObject].anim.currentFrame == MAX_ASE_ANIMATION_FRAMES ) {
Error( "Too many animation frames" );
}
ase.objects[ase.currentObject].anim.numFrames = ase.objects[ase.currentObject].anim.currentFrame;
ase.objects[ase.currentObject].numAnimations++;
/*
// ignore meshes that aren't part of animations if this object isn't a
// a tag
else
{
ASE_ParseBracedBlock( 0 );
}
*/
}
// according to spec these are obsolete
else if ( !strcmp( token, "*MATERIAL_REF" ) ) {
ASE_GetToken( qfalse );
ase.objects[ase.currentObject].materialRef = atoi( s_token );
}
// loads a sequence of animation frames
else if ( !strcmp( token, "*MESH_ANIMATION" ) ) {
if ( ase.grabAnims ) {
VERBOSE( ( "..found MESH_ANIMATION\n" ) );
if ( ase.objects[ase.currentObject].numAnimations ) {
Error( "Multiple MESH_ANIMATIONS within a single GEOM_OBJECT" );
}
ASE_ParseBracedBlock( ASE_KeyMESH_ANIMATION );
ase.objects[ase.currentObject].anim.numFrames = ase.objects[ase.currentObject].anim.currentFrame;
ase.objects[ase.currentObject].numAnimations++;
}
else
{
ASE_SkipEnclosingBraces();
}
}
// skip unused info
else if ( !strcmp( token, "*PROP_MOTIONBLUR" ) ||
!strcmp( token, "*PROP_CASTSHADOW" ) ||
!strcmp( token, "*PROP_RECVSHADOW" ) ) {
ASE_SkipRestOfLine();
}
}
static void ConcatenateObjects( aseGeomObject_t *pObjA, aseGeomObject_t *pObjB ){
}
static void CollapseObjects( void ){
int i;
int numObjects = ase.currentObject;
for ( i = 0; i < numObjects; i++ )
{
int j;
// skip tags
if ( strstr( ase.objects[i].name, "tag" ) == ase.objects[i].name ) {
continue;
}
if ( !ase.objects[i].numAnimations ) {
continue;
}
for ( j = i + 1; j < numObjects; j++ )
{
if ( strstr( ase.objects[j].name, "tag" ) == ase.objects[j].name ) {
continue;
}
if ( ase.objects[i].materialRef == ase.objects[j].materialRef ) {
if ( ase.objects[j].numAnimations ) {
ConcatenateObjects( &ase.objects[i], &ase.objects[j] );
}
}
}
}
}
/*
** ASE_Process
*/
static void ASE_Process( void ){
while ( ASE_GetToken( qfalse ) )
{
if ( !strcmp( s_token, "*3DSMAX_ASCIIEXPORT" ) ||
!strcmp( s_token, "*COMMENT" ) ) {
ASE_SkipRestOfLine();
}
else if ( !strcmp( s_token, "*SCENE" ) ) {
ASE_SkipEnclosingBraces();
}
else if ( !strcmp( s_token, "*MATERIAL_LIST" ) ) {
VERBOSE( ( "MATERIAL_LIST\n" ) );
ASE_ParseBracedBlock( ASE_KeyMATERIAL_LIST );
}
else if ( !strcmp( s_token, "*GEOMOBJECT" ) ) {
VERBOSE( ( "GEOMOBJECT" ) );
ASE_ParseBracedBlock( ASE_KeyGEOMOBJECT );
if ( strstr( ase.objects[ase.currentObject].name, "Bip" ) ||
strstr( ase.objects[ase.currentObject].name, "ignore_" ) ) {
ASE_FreeGeomObject( ase.currentObject );
VERBOSE( ( "(discarding BIP/ignore object)\n" ) );
}
else if ( ( strstr( ase.objects[ase.currentObject].name, "h_" ) != ase.objects[ase.currentObject].name ) &&
( strstr( ase.objects[ase.currentObject].name, "l_" ) != ase.objects[ase.currentObject].name ) &&
( strstr( ase.objects[ase.currentObject].name, "u_" ) != ase.objects[ase.currentObject].name ) &&
( strstr( ase.objects[ase.currentObject].name, "tag" ) != ase.objects[ase.currentObject].name ) &&
ase.grabAnims ) {
VERBOSE( ( "(ignoring improperly labeled object '%s')\n", ase.objects[ase.currentObject].name ) );
ASE_FreeGeomObject( ase.currentObject );
}
else
{
if ( ++ase.currentObject == MAX_ASE_OBJECTS ) {
Error( "Too many GEOMOBJECTs" );
}
}
}
else if ( s_token[0] ) {
Sys_Printf( "Unknown token '%s'\n", s_token );
}
}
if ( !ase.currentObject ) {
Error( "No animation data!" );
}
CollapseObjects();
}