/* ====================================================================== lwob.c Functions for an LWOB reader. LWOB is the LightWave object format for versions of LW prior to 6.0. Ernie Wright 17 Sep 00 ====================================================================== */ #include "picointernal.h" #include "lwo2.h" #include "globaldefs.h" /* disable warnings */ #if GDEF_COMPILER_MSVC #pragma warning( disable:4018 ) /* signed/unsigned mismatch */ #endif /* IDs specific to LWOB */ #define ID_SRFS LWID_( 'S','R','F','S' ) #define ID_FLAG LWID_( 'F','L','A','G' ) #define ID_VLUM LWID_( 'V','L','U','M' ) #define ID_VDIF LWID_( 'V','D','I','F' ) #define ID_VSPC LWID_( 'V','S','P','C' ) #define ID_RFLT LWID_( 'R','F','L','T' ) #define ID_BTEX LWID_( 'B','T','E','X' ) #define ID_CTEX LWID_( 'C','T','E','X' ) #define ID_DTEX LWID_( 'D','T','E','X' ) #define ID_LTEX LWID_( 'L','T','E','X' ) #define ID_RTEX LWID_( 'R','T','E','X' ) #define ID_STEX LWID_( 'S','T','E','X' ) #define ID_TTEX LWID_( 'T','T','E','X' ) #define ID_TFLG LWID_( 'T','F','L','G' ) #define ID_TSIZ LWID_( 'T','S','I','Z' ) #define ID_TCTR LWID_( 'T','C','T','R' ) #define ID_TFAL LWID_( 'T','F','A','L' ) #define ID_TVEL LWID_( 'T','V','E','L' ) #define ID_TCLR LWID_( 'T','C','L','R' ) #define ID_TVAL LWID_( 'T','V','A','L' ) #define ID_TAMP LWID_( 'T','A','M','P' ) #define ID_TIMG LWID_( 'T','I','M','G' ) #define ID_TAAS LWID_( 'T','A','A','S' ) #define ID_TREF LWID_( 'T','R','E','F' ) #define ID_TOPC LWID_( 'T','O','P','C' ) #define ID_SDAT LWID_( 'S','D','A','T' ) #define ID_TFP0 LWID_( 'T','F','P','0' ) #define ID_TFP1 LWID_( 'T','F','P','1' ) /* ====================================================================== add_clip() Add a clip to the clip list. Used to store the contents of an RIMG or TIMG surface subchunk. ====================================================================== */ static int add_clip( char *s, lwClip **clist, int *nclips ){ lwClip *clip; char *p; clip = _pico_calloc( 1, sizeof( lwClip ) ); if ( !clip ) { return 0; } clip->contrast.val = 1.0f; clip->brightness.val = 1.0f; clip->saturation.val = 1.0f; clip->gamma.val = 1.0f; if ( ( p = strstr( s, "(sequence)" ) ) != NULL ) { p[ -1 ] = 0; clip->type = ID_ISEQ; clip->source.seq.prefix = s; clip->source.seq.digits = 3; } else { clip->type = ID_STIL; clip->source.still.name = s; } ( *nclips )++; clip->index = *nclips; lwListAdd( (void *) clist, clip ); return clip->index; } /* ====================================================================== add_tvel() Add a triple of envelopes to simulate the old texture velocity parameters. ====================================================================== */ static int add_tvel( float pos[], float vel[], lwEnvelope **elist, int *nenvs ){ lwEnvelope *env; lwKey *key0, *key1; int i; for ( i = 0; i < 3; i++ ) { env = _pico_calloc( 1, sizeof( lwEnvelope ) ); key0 = _pico_calloc( 1, sizeof( lwKey ) ); key1 = _pico_calloc( 1, sizeof( lwKey ) ); if ( !env || !key0 || !key1 ) { return 0; } key0->next = key1; key0->value = pos[ i ]; key0->time = 0.0f; key1->prev = key0; key1->value = pos[ i ] + vel[ i ] * 30.0f; key1->time = 1.0f; key0->shape = key1->shape = ID_LINE; env->index = *nenvs + i + 1; env->type = 0x0301 + i; env->name = _pico_alloc( 11 ); if ( env->name ) { strcpy( env->name, "Position.X" ); env->name[ 9 ] += i; } env->key = key0; env->nkeys = 2; env->behavior[ 0 ] = BEH_LINEAR; env->behavior[ 1 ] = BEH_LINEAR; lwListAdd( (void *) elist, env ); } *nenvs += 3; return env->index - 2; } /* ====================================================================== get_texture() Create a new texture for BTEX, CTEX, etc. subchunks. ====================================================================== */ static lwTexture *get_texture( char *s ){ lwTexture *tex; tex = _pico_calloc( 1, sizeof( lwTexture ) ); if ( !tex ) { return NULL; } tex->tmap.size.val[ 0 ] = tex->tmap.size.val[ 1 ] = tex->tmap.size.val[ 2 ] = 1.0f; tex->opacity.val = 1.0f; tex->enabled = 1; if ( strstr( s, "Image Map" ) ) { tex->type = ID_IMAP; if ( strstr( s, "Planar" ) ) { tex->param.imap.projection = 0; } else if ( strstr( s, "Cylindrical" ) ) { tex->param.imap.projection = 1; } else if ( strstr( s, "Spherical" ) ) { tex->param.imap.projection = 2; } else if ( strstr( s, "Cubic" ) ) { tex->param.imap.projection = 3; } else if ( strstr( s, "Front" ) ) { tex->param.imap.projection = 4; } tex->param.imap.aa_strength = 1.0f; tex->param.imap.amplitude.val = 1.0f; _pico_free( s ); } else { tex->type = ID_PROC; tex->param.proc.name = s; } return tex; } /* ====================================================================== lwGetSurface5() Read an lwSurface from an LWOB file. ====================================================================== */ lwSurface *lwGetSurface5( picoMemStream_t *fp, int cksize, lwObject *obj ){ lwSurface *surf; lwTexture *tex = NULL; lwPlugin *shdr = NULL; char *s; float v[ 3 ]; unsigned int id, flags; unsigned short sz; int pos, rlen, i; /* allocate the Surface structure */ surf = _pico_calloc( 1, sizeof( lwSurface ) ); if ( !surf ) { goto Fail; } /* non-zero defaults */ surf->color.rgb[ 0 ] = 0.78431f; surf->color.rgb[ 1 ] = 0.78431f; surf->color.rgb[ 2 ] = 0.78431f; surf->diffuse.val = 1.0f; surf->glossiness.val = 0.4f; surf->bump.val = 1.0f; surf->eta.val = 1.0f; surf->sideflags = 1; /* remember where we started */ set_flen( 0 ); pos = _pico_memstream_tell( fp ); /* name */ surf->name = getS0( fp ); /* first subchunk header */ id = getU4( fp ); sz = getU2( fp ); if ( 0 > get_flen() ) { goto Fail; } /* process subchunks as they're encountered */ while ( 1 ) { sz += sz & 1; set_flen( 0 ); switch ( id ) { case ID_COLR: surf->color.rgb[ 0 ] = getU1( fp ) / 255.0f; surf->color.rgb[ 1 ] = getU1( fp ) / 255.0f; surf->color.rgb[ 2 ] = getU1( fp ) / 255.0f; break; case ID_FLAG: flags = getU2( fp ); if ( flags & 4 ) { surf->smooth = 1.56207f; } if ( flags & 8 ) { surf->color_hilite.val = 1.0f; } if ( flags & 16 ) { surf->color_filter.val = 1.0f; } if ( flags & 128 ) { surf->dif_sharp.val = 0.5f; } if ( flags & 256 ) { surf->sideflags = 3; } if ( flags & 512 ) { surf->add_trans.val = 1.0f; } break; case ID_LUMI: surf->luminosity.val = getI2( fp ) / 256.0f; break; case ID_VLUM: surf->luminosity.val = getF4( fp ); break; case ID_DIFF: surf->diffuse.val = getI2( fp ) / 256.0f; break; case ID_VDIF: surf->diffuse.val = getF4( fp ); break; case ID_SPEC: surf->specularity.val = getI2( fp ) / 256.0f; break; case ID_VSPC: surf->specularity.val = getF4( fp ); break; case ID_GLOS: surf->glossiness.val = ( float ) log( getU2( fp ) ) / 20.7944f; break; case ID_SMAN: surf->smooth = getF4( fp ); break; case ID_REFL: surf->reflection.val.val = getI2( fp ) / 256.0f; break; case ID_RFLT: surf->reflection.options = getU2( fp ); break; case ID_RIMG: s = getS0( fp ); surf->reflection.cindex = add_clip( s, &obj->clip, &obj->nclips ); surf->reflection.options = 3; break; case ID_RSAN: surf->reflection.seam_angle = getF4( fp ); break; case ID_TRAN: surf->transparency.val.val = getI2( fp ) / 256.0f; break; case ID_RIND: surf->eta.val = getF4( fp ); break; case ID_BTEX: s = getbytes( fp, sz ); tex = get_texture( s ); lwListAdd( (void *) &surf->bump.tex, tex ); break; case ID_CTEX: s = getbytes( fp, sz ); tex = get_texture( s ); lwListAdd( (void *) &surf->color.tex, tex ); break; case ID_DTEX: s = getbytes( fp, sz ); tex = get_texture( s ); lwListAdd( (void *) &surf->diffuse.tex, tex ); break; case ID_LTEX: s = getbytes( fp, sz ); tex = get_texture( s ); lwListAdd( (void *) &surf->luminosity.tex, tex ); break; case ID_RTEX: s = getbytes( fp, sz ); tex = get_texture( s ); lwListAdd( (void *) &surf->reflection.val.tex, tex ); break; case ID_STEX: s = getbytes( fp, sz ); tex = get_texture( s ); lwListAdd( (void *) &surf->specularity.tex, tex ); break; case ID_TTEX: s = getbytes( fp, sz ); tex = get_texture( s ); lwListAdd( (void *) &surf->transparency.val.tex, tex ); break; case ID_TFLG: if( tex == NULL ) { goto Fail; } flags = getU2( fp ); i = -1; //only one of the three axis bits should be set if ( flags & 1 ) { i = 0; } if ( flags & 2 ) { i = 1; } if ( flags & 4 ) { i = 2; } if ( i < 0 ) { goto Fail; } tex->axis = i; if ( tex->type == ID_IMAP ) { tex->param.imap.axis = i; } else{ tex->param.proc.axis = i; } if ( flags & 8 ) { tex->tmap.coord_sys = 1; } if ( flags & 16 ) { tex->negative = 1; } if ( flags & 32 ) { tex->param.imap.pblend = 1; } if ( flags & 64 ) { tex->param.imap.aa_strength = 1.0f; tex->param.imap.aas_flags = 1; } break; case ID_TSIZ: if ( !tex ) { goto Fail; } for ( i = 0; i < 3; i++ ) tex->tmap.size.val[ i ] = getF4( fp ); break; case ID_TCTR: if ( !tex ) { goto Fail; } for ( i = 0; i < 3; i++ ) tex->tmap.center.val[ i ] = getF4( fp ); break; case ID_TFAL: if ( !tex ) { goto Fail; } for ( i = 0; i < 3; i++ ) tex->tmap.falloff.val[ i ] = getF4( fp ); break; case ID_TVEL: if ( !tex ) { goto Fail; } for ( i = 0; i < 3; i++ ) v[ i ] = getF4( fp ); tex->tmap.center.eindex = add_tvel( tex->tmap.center.val, v, &obj->env, &obj->nenvs ); break; case ID_TCLR: if ( !tex ) { goto Fail; } if ( tex->type == ID_PROC ) { for ( i = 0; i < 3; i++ ) tex->param.proc.value[ i ] = getU1( fp ) / 255.0f; } break; case ID_TVAL: if ( !tex ) { goto Fail; } tex->param.proc.value[ 0 ] = getI2( fp ) / 256.0f; break; case ID_TAMP: if ( !tex ) { goto Fail; } if ( tex->type == ID_IMAP ) { tex->param.imap.amplitude.val = getF4( fp ); } break; case ID_TIMG: if ( !tex ) { goto Fail; } s = getS0( fp ); tex->param.imap.cindex = add_clip( s, &obj->clip, &obj->nclips ); break; case ID_TAAS: if ( !tex ) { goto Fail; } tex->param.imap.aa_strength = getF4( fp ); tex->param.imap.aas_flags = 1; break; case ID_TREF: if ( !tex ) { goto Fail; } tex->tmap.ref_object = getbytes( fp, sz ); break; case ID_TOPC: if ( !tex ) { goto Fail; } tex->opacity.val = getF4( fp ); break; case ID_TFP0: if ( !tex ) { goto Fail; } if ( tex->type == ID_IMAP ) { tex->param.imap.wrapw.val = getF4( fp ); } break; case ID_TFP1: if ( !tex ) { goto Fail; } if ( tex->type == ID_IMAP ) { tex->param.imap.wraph.val = getF4( fp ); } break; case ID_SHDR: shdr = _pico_calloc( 1, sizeof( lwPlugin ) ); if ( !shdr ) { goto Fail; } shdr->name = getbytes( fp, sz ); lwListAdd( (void *) &surf->shader, shdr ); surf->nshaders++; break; case ID_SDAT: if ( !shdr ) { goto Fail; } shdr->data = getbytes( fp, sz ); break; default: break; } /* error while reading current subchunk? */ rlen = get_flen(); if ( rlen < 0 || rlen > sz ) { goto Fail; } /* skip unread parts of the current subchunk */ if ( rlen < sz ) { _pico_memstream_seek( fp, sz - rlen, PICO_SEEK_CUR ); } /* end of the SURF chunk? */ if ( cksize <= _pico_memstream_tell( fp ) - pos ) { break; } /* get the next subchunk header */ set_flen( 0 ); id = getU4( fp ); sz = getU2( fp ); if ( 6 != get_flen() ) { goto Fail; } } return surf; Fail: if ( surf ) { lwFreeSurface( surf ); } return NULL; } /* ====================================================================== lwGetPolygons5() Read polygon records from a POLS chunk in an LWOB file. The polygons are added to the array in the lwPolygonList. ====================================================================== */ int lwGetPolygons5( picoMemStream_t *fp, int cksize, lwPolygonList *plist, int ptoffset ){ lwPolygon *pp; lwPolVert *pv; unsigned char *buf, *bp; int i, j, nv, nverts, npols; if ( cksize == 0 ) { return 1; } /* read the whole chunk */ set_flen( 0 ); buf = getbytes( fp, cksize ); if ( !buf ) { goto Fail; } /* count the polygons and vertices */ nverts = 0; npols = 0; bp = buf; while ( bp < buf + cksize ) { nv = sgetU2( &bp ); nverts += nv; npols++; bp += 2 * nv; i = sgetI2( &bp ); if ( i < 0 ) { bp += 2; /* detail polygons */ } } if ( !lwAllocPolygons( plist, npols, nverts ) ) { goto Fail; } /* fill in the new polygons */ bp = buf; pp = plist->pol + plist->offset; pv = plist->pol[ 0 ].v + plist->voffset; for ( i = 0; i < npols; i++ ) { nv = sgetU2( &bp ); pp->nverts = nv; pp->type = ID_FACE; if ( !pp->v ) { pp->v = pv; } for ( j = 0; j < nv; j++ ) pv[ j ].index = sgetU2( &bp ) + ptoffset; j = sgetI2( &bp ); if ( j < 0 ) { j = -j; bp += 2; } j -= 1; pp->surf = ( lwSurface * ) (size_t) j; pp++; pv += nv; } _pico_free( buf ); return 1; Fail: if ( buf ) { _pico_free( buf ); } lwFreePolygons( plist ); return 0; } /* ====================================================================== getLWObject5() Returns the contents of an LWOB, given its filename, or NULL if the file couldn't be loaded. On failure, failID and failpos can be used to diagnose the cause. 1. If the file isn't an LWOB, failpos will contain 12 and failID will be unchanged. 2. If an error occurs while reading an LWOB, failID will contain the most recently read IFF chunk ID, and failpos will contain the value returned by _pico_memstream_tell() at the time of the failure. 3. If the file couldn't be opened, or an error occurs while reading the first 12 bytes, both failID and failpos will be unchanged. If you don't need this information, failID and failpos can be NULL. ====================================================================== */ lwObject *lwGetObject5( const char *filename, picoMemStream_t *fp, unsigned int *failID, int *failpos ){ lwObject *object; lwLayer *layer; lwNode *node; unsigned int id, formsize, type, cksize; /* open the file */ if ( !fp ) { return NULL; } /* read the first 12 bytes */ set_flen( 0 ); id = getU4( fp ); formsize = getU4( fp ); type = getU4( fp ); if ( 12 != get_flen() ) { return NULL; } /* LWOB? */ if ( id != ID_FORM || type != ID_LWOB ) { if ( failpos ) { *failpos = 12; } return NULL; } /* allocate an object and a default layer */ object = _pico_calloc( 1, sizeof( lwObject ) ); if ( !object ) { goto Fail; } layer = _pico_calloc( 1, sizeof( lwLayer ) ); if ( !layer ) { goto Fail; } object->layer = layer; object->nlayers = 1; /* get the first chunk header */ id = getU4( fp ); cksize = getU4( fp ); if ( 0 > get_flen() ) { goto Fail; } /* process chunks as they're encountered */ while ( 1 ) { cksize += cksize & 1; switch ( id ) { case ID_PNTS: if ( !lwGetPoints( fp, cksize, &layer->point ) ) { goto Fail; } break; case ID_POLS: if ( !lwGetPolygons5( fp, cksize, &layer->polygon, layer->point.offset ) ) { goto Fail; } break; case ID_SRFS: if ( !lwGetTags( fp, cksize, &object->taglist ) ) { goto Fail; } break; case ID_SURF: node = ( lwNode * ) lwGetSurface5( fp, cksize, object ); if ( !node ) { goto Fail; } lwListAdd( (void *) &object->surf, node ); object->nsurfs++; break; default: _pico_memstream_seek( fp, cksize, PICO_SEEK_CUR ); break; } /* end of the file? */ if ( formsize <= (unsigned int) ( _pico_memstream_tell( fp ) - 8 ) ) { break; } /* get the next chunk header */ set_flen( 0 ); id = getU4( fp ); cksize = getU4( fp ); if ( 8 != get_flen() ) { goto Fail; } } lwGetBoundingBox( &layer->point, layer->bbox ); lwGetPolyNormals( &layer->point, &layer->polygon ); if ( !lwGetPointPolygons( &layer->point, &layer->polygon ) ) { goto Fail; } if ( !lwResolvePolySurfaces( &layer->polygon, &object->taglist, &object->surf, &object->nsurfs ) ) { goto Fail; } lwGetVertNormals( &layer->point, &layer->polygon ); return object; Fail: if ( failID ) { *failID = id; } if ( fp ) { if ( failpos ) { *failpos = _pico_memstream_tell( fp ); } } lwFreeObject( object ); return NULL; } int lwValidateObject5( const char *filename, picoMemStream_t *fp, unsigned int *failID, int *failpos ){ unsigned int id, type; /* open the file */ if ( !fp ) { return PICO_PMV_ERROR_MEMORY; } /* read the first 12 bytes */ set_flen( 0 ); id = getU4( fp ); /* formsize = */ getU4( fp ); type = getU4( fp ); if ( 12 != get_flen() ) { return PICO_PMV_ERROR_SIZE; } /* LWOB? */ if ( id != ID_FORM || type != ID_LWOB ) { if ( failpos ) { *failpos = 12; } return PICO_PMV_ERROR_IDENT; } return PICO_PMV_OK; }