1 // sg_binobj.cxx -- routines to read and write low level flightgear 3d objects
3 // Written by Curtis Olson, started January 2000.
5 // Copyright (C) 2000 Curtis L. Olson - http://www.flightgear.org/~curt
7 // This program is free software; you can redistribute it and/or modify
8 // it under the terms of the GNU General Public License as published by
9 // the Free Software Foundation; either version 2 of the License, or
10 // (at your option) any later version.
12 // This program is distributed in the hope that it will be useful,
13 // but WITHOUT ANY WARRANTY; without even the implied warranty of
14 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 // GNU General Public License for more details.
17 // You should have received a copy of the GNU General Public License
18 // along with this program; if not, write to the Free Software
19 // Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
26 # include <simgear_config.h>
29 #include <simgear/compiler.h>
30 #include <simgear/debug/logstream.hxx>
35 #include <cstdlib> // for system()
43 #include <simgear/bucket/newbucket.hxx>
44 #include <simgear/misc/sg_path.hxx>
45 #include <simgear/math/SGGeometry.hxx>
47 #include "lowlevel.hxx"
48 #include "sg_binobj.hxx"
57 SG_BOUNDING_SPHERE = 0,
66 SG_TRIANGLE_FACES = 10,
67 SG_TRIANGLE_STRIPS = 11,
72 SG_IDX_VERTICES = 0x01,
73 SG_IDX_NORMALS = 0x02,
75 SG_IDX_TEXCOORDS = 0x08
78 enum sgPropertyTypes {
84 class sgSimpleBuffer {
93 sgSimpleBuffer( unsigned int s = 0) :
106 unsigned int get_size() const { return size; }
107 char *get_ptr() const { return ptr; }
114 void resize( unsigned int s )
128 ptr = new char[size];
134 double* p = reinterpret_cast<double*>(ptr + offset);
136 if ( sgIsBigEndian() ) {
137 sgEndianSwap((uint64_t *) p + 0);
138 sgEndianSwap((uint64_t *) p + 1);
139 sgEndianSwap((uint64_t *) p + 2);
142 offset += 3 * sizeof(double);
148 float* p = reinterpret_cast<float*>(ptr + offset);
149 if ( sgIsBigEndian() ) {
150 sgEndianSwap((uint32_t *) p);
153 offset += sizeof(float);
159 float* p = reinterpret_cast<float*>(ptr + offset);
161 if ( sgIsBigEndian() ) {
162 sgEndianSwap((uint32_t *) p + 0);
163 sgEndianSwap((uint32_t *) p + 1);
166 offset += 2 * sizeof(float);
172 float* p = reinterpret_cast<float*>(ptr + offset);
174 if ( sgIsBigEndian() ) {
175 sgEndianSwap((uint32_t *) p + 0);
176 sgEndianSwap((uint32_t *) p + 1);
177 sgEndianSwap((uint32_t *) p + 2);
180 offset += 3 * sizeof(float);
186 float* p = reinterpret_cast<float*>(ptr + offset);
188 if ( sgIsBigEndian() ) {
189 sgEndianSwap((uint32_t *) p + 0);
190 sgEndianSwap((uint32_t *) p + 1);
191 sgEndianSwap((uint32_t *) p + 2);
192 sgEndianSwap((uint32_t *) p + 3);
195 offset += 4 * sizeof(float);
201 static void read_indices(char* buffer,
209 const int indexSize = sizeof(T) * std::bitset<32>(indexMask).count();
210 const int count = bytes / indexSize;
212 // fix endian-ness of the whole lot, if required
213 if (sgIsBigEndian()) {
214 int indices = bytes / sizeof(T);
215 T* src = reinterpret_cast<T*>(buffer);
216 for (int i=0; i<indices; ++i) {
221 T* src = reinterpret_cast<T*>(buffer);
222 for (int i=0; i<count; ++i) {
223 if (indexMask & SG_IDX_VERTICES) vertices.push_back(*src++);
224 if (indexMask & SG_IDX_NORMALS) normals.push_back(*src++);
225 if (indexMask & SG_IDX_COLORS) colors.push_back(*src++);
226 if (indexMask & SG_IDX_TEXCOORDS) texCoords.push_back(*src++);
227 } // of elements in the index
231 void write_indice(gzFile fp, T value)
233 sgWriteBytes(fp, sizeof(T), &value);
236 // specialize template to call endian-aware conversion methods
238 void write_indice(gzFile fp, uint16_t value)
240 sgWriteUShort(fp, value);
244 void write_indice(gzFile fp, uint32_t value)
246 sgWriteUInt(fp, value);
251 void write_indices(gzFile fp, unsigned char indexMask,
252 const int_list& vertices,
253 const int_list& normals,
254 const int_list& colors,
255 const int_list& texCoords)
257 unsigned int count = vertices.size();
258 const int indexSize = sizeof(T) * std::bitset<32>(indexMask).count();
259 sgWriteUInt(fp, indexSize * count);
261 for (unsigned int i=0; i < count; ++i) {
262 write_indice(fp, static_cast<T>(vertices[i]));
264 if (indexMask & SG_IDX_NORMALS) {
265 write_indice(fp, static_cast<T>(normals[i]));
267 if (indexMask & SG_IDX_COLORS) {
268 write_indice(fp, static_cast<T>(colors[i]));
270 if (indexMask & SG_IDX_TEXCOORDS) {
271 write_indice(fp, static_cast<T>(texCoords[i]));
277 // read object properties
278 void SGBinObject::read_object( gzFile fp,
282 group_list& vertices,
285 group_list& texCoords,
286 string_list& materials)
289 unsigned char idx_mask;
291 sgSimpleBuffer buf( 32768 ); // 32 Kb
295 if ( obj_type == SG_POINTS ) {
296 idx_mask = SG_IDX_VERTICES;
298 idx_mask = (char)(SG_IDX_VERTICES | SG_IDX_TEXCOORDS);
301 for ( j = 0; j < nproperties; ++j ) {
303 sgReadChar( fp, &prop_type );
304 sgReadUInt( fp, &nbytes );
306 char *ptr = buf.get_ptr();
307 sgReadBytes( fp, nbytes, ptr );
308 if ( prop_type == SG_MATERIAL ) {
312 strncpy( material, ptr, nbytes );
313 material[nbytes] = '\0';
314 // cout << "material type = " << material << endl;
315 } else if ( prop_type == SG_INDEX_TYPES ) {
317 //cout << std::hex << "index mask:" << idx_mask << std::dec << endl;
321 if ( sgReadError() ) {
322 cout << "We detected an error reading object properties" << endl;
326 for ( j = 0; j < nelements; ++j ) {
327 sgReadUInt( fp, &nbytes );
328 if ( sgReadError() ) {
329 cout << "We detected an error reading element size for :" << j << endl;
333 buf.resize( nbytes );
334 char *ptr = buf.get_ptr();
335 sgReadBytes( fp, nbytes, ptr );
337 if ( sgReadError() ) {
338 cout << "We detected an error reading object element:" << j << "bytes="<< nbytes << endl;
347 read_indices<uint32_t>(ptr, nbytes, idx_mask, vs, ns, cs, tcs);
349 read_indices<uint16_t>(ptr, nbytes, idx_mask, vs, ns, cs, tcs);
352 vertices.push_back( vs );
353 normals.push_back( ns );
354 colors.push_back( cs );
355 texCoords.push_back( tcs );
356 materials.push_back( material );
357 } // of element iteration
361 // read a binary file and populate the provided structures.
362 bool SGBinObject::read_bin( const string& file ) {
367 sgSimpleBuffer buf( 32768 ); // 32 Kb
369 // zero out structures
370 gbs_center = SGVec3d(0, 0, 0);
381 pt_materials.clear();
387 tri_materials.clear();
393 strip_materials.clear();
399 fan_materials.clear();
402 if ( (fp = gzopen( file.c_str(), "rb" )) == NULL ) {
403 string filegz = file + ".gz";
404 if ( (fp = gzopen( filegz.c_str(), "rb" )) == NULL ) {
405 SG_LOG( SG_EVENT, SG_ALERT,
406 "ERROR: opening " << file << " or " << filegz << " for reading!");
416 sgReadUInt( fp, &header );
417 if ( ((header & 0xFF000000) >> 24) == 'S' &&
418 ((header & 0x00FF0000) >> 16) == 'G' ) {
419 // cout << "Good header" << endl;
421 version = (header & 0x0000FFFF);
422 // cout << "File version = " << version << endl;
424 // close the file before we return
430 // read creation time
431 unsigned int foo_calendar_time;
432 sgReadUInt( fp, &foo_calendar_time );
435 time_t calendar_time = foo_calendar_time;
436 // The following code has a global effect on the host application
437 // and can screws up the time elsewhere. It should be avoided
438 // unless you need this for debugging in which case you should
439 // disable it again once the debugging task is finished.
441 local_tm = localtime( &calendar_time );
443 strftime( time_str, 256, "%a %b %d %H:%M:%S %Z %Y", local_tm);
444 SG_LOG( SG_EVENT, SG_DEBUG, "File created on " << time_str);
447 // read number of top level objects
449 if ( version >= 10) { // version 10 extends everything to be 32-bit
450 sgReadInt( fp, &nobjects );
451 } else if ( version >= 7 ) {
453 sgReadUShort( fp, &v );
457 sgReadShort( fp, &v );
461 //cout << "Total objects to read = " << nobjects << endl;
463 if ( sgReadError() ) {
464 cout << "Error while reading header of file " << file << "(.gz)" << endl;
469 for ( i = 0; i < nobjects; ++i ) {
470 // read object header
472 uint32_t nproperties, nelements;
473 sgReadChar( fp, &obj_type );
474 if ( version >= 10 ) {
475 sgReadUInt( fp, &nproperties );
476 sgReadUInt( fp, &nelements );
477 } else if ( version >= 7 ) {
479 sgReadUShort( fp, &v );
481 sgReadUShort( fp, &v );
485 sgReadShort( fp, &v );
487 sgReadShort( fp, &v );
491 //cout << "object " << i << " = " << (int)obj_type << " props = "
492 // << nproperties << " elements = " << nelements << endl;
494 if ( obj_type == SG_BOUNDING_SPHERE ) {
495 // read bounding sphere properties
496 read_properties( fp, nproperties );
498 // read bounding sphere elements
499 for ( j = 0; j < nelements; ++j ) {
500 sgReadUInt( fp, &nbytes );
501 buf.resize( nbytes );
503 char *ptr = buf.get_ptr();
504 sgReadBytes( fp, nbytes, ptr );
505 gbs_center = buf.readVec3d();
506 gbs_radius = buf.readFloat();
508 } else if ( obj_type == SG_VERTEX_LIST ) {
509 // read vertex list properties
510 read_properties( fp, nproperties );
512 // read vertex list elements
513 for ( j = 0; j < nelements; ++j ) {
514 sgReadUInt( fp, &nbytes );
515 buf.resize( nbytes );
517 char *ptr = buf.get_ptr();
518 sgReadBytes( fp, nbytes, ptr );
519 int count = nbytes / (sizeof(float) * 3);
520 wgs84_nodes.reserve( count );
521 for ( k = 0; k < count; ++k ) {
522 SGVec3f v = buf.readVec3f();
523 // extend from float to double, hmmm
524 wgs84_nodes.push_back( SGVec3d(v[0], v[1], v[2]) );
527 } else if ( obj_type == SG_COLOR_LIST ) {
528 // read color list properties
529 read_properties( fp, nproperties );
531 // read color list elements
532 for ( j = 0; j < nelements; ++j ) {
533 sgReadUInt( fp, &nbytes );
534 buf.resize( nbytes );
536 char *ptr = buf.get_ptr();
537 sgReadBytes( fp, nbytes, ptr );
538 int count = nbytes / (sizeof(float) * 4);
539 colors.reserve(count);
540 for ( k = 0; k < count; ++k ) {
541 colors.push_back( buf.readVec4f() );
544 } else if ( obj_type == SG_NORMAL_LIST ) {
545 // read normal list properties
546 read_properties( fp, nproperties );
548 // read normal list elements
549 for ( j = 0; j < nelements; ++j ) {
550 sgReadUInt( fp, &nbytes );
551 buf.resize( nbytes );
553 unsigned char *ptr = (unsigned char *)(buf.get_ptr());
554 sgReadBytes( fp, nbytes, ptr );
555 int count = nbytes / 3;
556 normals.reserve( count );
558 for ( k = 0; k < count; ++k ) {
559 SGVec3f normal( (ptr[0]) / 127.5 - 1.0,
560 (ptr[1]) / 127.5 - 1.0,
561 (ptr[2]) / 127.5 - 1.0);
562 normals.push_back(normalize(normal));
566 } else if ( obj_type == SG_TEXCOORD_LIST ) {
567 // read texcoord list properties
568 read_properties( fp, nproperties );
570 // read texcoord list elements
571 for ( j = 0; j < nelements; ++j ) {
572 sgReadUInt( fp, &nbytes );
573 buf.resize( nbytes );
575 char *ptr = buf.get_ptr();
576 sgReadBytes( fp, nbytes, ptr );
577 int count = nbytes / (sizeof(float) * 2);
578 texcoords.reserve(count);
579 for ( k = 0; k < count; ++k ) {
580 texcoords.push_back( buf.readVec2f() );
583 } else if ( obj_type == SG_POINTS ) {
584 // read point elements
585 read_object( fp, SG_POINTS, nproperties, nelements,
586 pts_v, pts_n, pts_c, pts_tc, pt_materials );
587 } else if ( obj_type == SG_TRIANGLE_FACES ) {
588 // read triangle face properties
589 read_object( fp, SG_TRIANGLE_FACES, nproperties, nelements,
590 tris_v, tris_n, tris_c, tris_tc, tri_materials );
591 } else if ( obj_type == SG_TRIANGLE_STRIPS ) {
592 // read triangle strip properties
593 read_object( fp, SG_TRIANGLE_STRIPS, nproperties, nelements,
594 strips_v, strips_n, strips_c, strips_tc,
596 } else if ( obj_type == SG_TRIANGLE_FANS ) {
597 // read triangle fan properties
598 read_object( fp, SG_TRIANGLE_FANS, nproperties, nelements,
599 fans_v, fans_n, fans_c, fans_tc, fan_materials );
601 // unknown object type, just skip
602 read_properties( fp, nproperties );
605 for ( j = 0; j < nelements; ++j ) {
606 sgReadUInt( fp, &nbytes );
607 // cout << "element size = " << nbytes << endl;
608 if ( nbytes > buf.get_size() ) { buf.resize( nbytes ); }
609 char *ptr = buf.get_ptr();
610 sgReadBytes( fp, nbytes, ptr );
614 if ( sgReadError() ) {
615 cout << "Error while reading object:" << i << " in file " << file << "(.gz)" << endl;
623 if ( sgReadError() ) {
624 cout << "Error while reading file " << file << "(.gz)" << endl;
631 void SGBinObject::write_header(gzFile fp, int type, int nProps, int nElements)
633 sgWriteChar(fp, (unsigned char) type);
635 sgWriteUShort(fp, nProps);
636 sgWriteUShort(fp, nElements);
638 sgWriteUInt(fp, nProps);
639 sgWriteUInt(fp, nElements);
643 unsigned int SGBinObject::count_objects(const string_list& materials)
645 unsigned int result = 0;
646 unsigned int start = 0, end = 1;
647 unsigned int count = materials.size();
650 while ( start < count ) {
651 m = materials[start];
652 for (end = start+1; (end < count) && (m == materials[end]); ++end) { }
660 void SGBinObject::write_objects(gzFile fp, int type, const group_list& verts,
661 const group_list& normals, const group_list& colors,
662 const group_list& texCoords, const string_list& materials)
668 unsigned int start = 0, end = 1;
672 while (start < materials.size()) {
673 m = materials[start];
674 // find range of objects with identical material, write out as a single object
675 for (end = start+1; (end < materials.size()) && (m == materials[end]); ++end) {}
677 const int count = end - start;
678 write_header(fp, type, 2, count);
681 sgWriteChar( fp, (char)SG_MATERIAL ); // property
682 sgWriteUInt( fp, m.length() ); // nbytes
683 sgWriteBytes( fp, m.length(), m.c_str() );
685 unsigned char idx_mask = 0;
686 if ( !verts.empty() && !verts.front().empty()) idx_mask |= SG_IDX_VERTICES;
687 if ( !normals.empty() && !normals.front().empty()) idx_mask |= SG_IDX_NORMALS;
688 if ( !colors.empty() && !colors.front().empty()) idx_mask |= SG_IDX_COLORS;
689 if ( !texCoords.empty() && !texCoords.front().empty()) idx_mask |= SG_IDX_TEXCOORDS;
690 sgWriteChar( fp, (char)SG_INDEX_TYPES ); // property
691 sgWriteUInt( fp, 1 ); // nbytes
692 sgWriteChar( fp, idx_mask );
694 // cout << "material:" << m << ", count =" << count << endl;
696 for (unsigned int i=start; i < end; ++i) {
697 const int_list& va(verts[i]);
698 const int_list& na((idx_mask & SG_IDX_NORMALS) ? normals[i] : emptyList);
699 const int_list& ca((idx_mask & SG_IDX_COLORS) ? colors[i] : emptyList);
700 const int_list& tca((idx_mask & SG_IDX_TEXCOORDS) ? texCoords[i] : emptyList);
703 write_indices<uint16_t>(fp, idx_mask, va, na, ca, tca);
705 write_indices<uint32_t>(fp, idx_mask, va, na, ca, tca);
710 } // of materials iteration
713 // write out the structures to a binary file. We assume that the
714 // groups come to us sorted by material property. If not, things
715 // don't break, but the result won't be as optimal.
716 bool SGBinObject::write_bin( const string& base, const string& name,
720 SGPath file = base + "/" + b.gen_base_path() + "/" + name + ".gz";
721 return write_bin_file(file);
724 bool SGBinObject::write_bin_file(const SGPath& file)
729 file2.create_dir( 0755 );
730 cout << "Output file = " << file.str() << endl;
733 if ( (fp = gzopen( file.c_str(), "wb9" )) == NULL ) {
734 cout << "ERROR: opening " << file.str() << " for writing!" << endl;
740 cout << "points size = " << pts_v.size() << " pt_materials = "
741 << pt_materials.size() << endl;
742 cout << "triangles size = " << tris_v.size() << " tri_materials = "
743 << tri_materials.size() << endl;
744 cout << "strips size = " << strips_v.size() << " strip_materials = "
745 << strip_materials.size() << endl;
746 cout << "fans size = " << fans_v.size() << " fan_materials = "
747 << fan_materials.size() << endl;
749 cout << "nodes = " << wgs84_nodes.size() << endl;
750 cout << "colors = " << colors.size() << endl;
751 cout << "normals = " << normals.size() << endl;
752 cout << "tex coords = " << texcoords.size() << endl;
755 if ((wgs84_nodes.size() < 0xffff) &&
756 (normals.size() < 0xffff) &&
757 (texcoords.size() < 0xffff)) {
758 version = 7; // use smaller indices if possible
761 // write header magic
763 /** Magic Number for our file format */
764 #define SG_FILE_MAGIC_NUMBER ( ('S'<<24) + ('G'<<16) + version )
766 sgWriteUInt( fp, SG_FILE_MAGIC_NUMBER );
767 time_t calendar_time = time(NULL);
768 sgWriteLong( fp, (int32_t)calendar_time );
770 // calculate and write number of top level objects
771 int nobjects = 5; // gbs, vertices, colors, normals, texcoords
772 nobjects += count_objects(pt_materials);
773 nobjects += count_objects(tri_materials);
774 nobjects += count_objects(strip_materials);
775 nobjects += count_objects(fan_materials);
777 cout << "total top level objects = " << nobjects << endl;
779 sgWriteUShort( fp, (uint16_t) nobjects );
781 sgWriteInt( fp, nobjects );
784 // write bounding sphere
785 write_header( fp, SG_BOUNDING_SPHERE, 0, 1);
786 sgWriteUInt( fp, sizeof(double) * 3 + sizeof(float) ); // nbytes
787 sgWritedVec3( fp, gbs_center );
788 sgWriteFloat( fp, gbs_radius );
791 write_header( fp, SG_VERTEX_LIST, 0, 1);
792 sgWriteUInt( fp, wgs84_nodes.size() * sizeof(float) * 3 ); // nbytes
793 for ( i = 0; i < (int)wgs84_nodes.size(); ++i ) {
794 sgWriteVec3( fp, toVec3f(wgs84_nodes[i] - gbs_center));
797 // dump vertex color list
798 write_header( fp, SG_COLOR_LIST, 0, 1);
799 sgWriteUInt( fp, colors.size() * sizeof(float) * 4 ); // nbytes
800 for ( i = 0; i < (int)colors.size(); ++i ) {
801 sgWriteVec4( fp, colors[i]);
804 // dump vertex normal list
805 write_header( fp, SG_NORMAL_LIST, 0, 1);
806 sgWriteUInt( fp, normals.size() * 3 ); // nbytes
808 for ( i = 0; i < (int)normals.size(); ++i ) {
809 SGVec3f p = normals[i];
810 normal[0] = (unsigned char)((p.x() + 1.0) * 127.5);
811 normal[1] = (unsigned char)((p.y() + 1.0) * 127.5);
812 normal[2] = (unsigned char)((p.z() + 1.0) * 127.5);
813 sgWriteBytes( fp, 3, normal );
816 // dump texture coordinates
817 write_header( fp, SG_TEXCOORD_LIST, 0, 1);
818 sgWriteUInt( fp, texcoords.size() * sizeof(float) * 2 ); // nbytes
819 for ( i = 0; i < (int)texcoords.size(); ++i ) {
820 sgWriteVec2( fp, texcoords[i]);
823 write_objects(fp, SG_POINTS, pts_v, pts_n, pts_c, pts_tc, pt_materials);
824 write_objects(fp, SG_TRIANGLE_FACES, tris_v, tris_n, tris_c, tris_tc, tri_materials);
825 write_objects(fp, SG_TRIANGLE_STRIPS, strips_v, strips_n, strips_c, strips_tc, strip_materials);
826 write_objects(fp, SG_TRIANGLE_FANS, fans_v, fans_n, fans_c, fans_tc, fan_materials);
831 if ( sgWriteError() ) {
832 cout << "Error while writing file " << file.str() << endl;
840 // write out the structures to an ASCII file. We assume that the
841 // groups come to us sorted by material property. If not, things
842 // don't break, but the result won't be as optimal.
843 bool SGBinObject::write_ascii( const string& base, const string& name,
848 SGPath file = base + "/" + b.gen_base_path() + "/" + name;
849 file.create_dir( 0755 );
850 cout << "Output file = " << file.str() << endl;
853 if ( (fp = fopen( file.c_str(), "w" )) == NULL ) {
854 cout << "ERROR: opening " << file.str() << " for writing!" << endl;
858 cout << "triangles size = " << tris_v.size() << " tri_materials = "
859 << tri_materials.size() << endl;
860 cout << "strips size = " << strips_v.size() << " strip_materials = "
861 << strip_materials.size() << endl;
862 cout << "fans size = " << fans_v.size() << " fan_materials = "
863 << fan_materials.size() << endl;
865 cout << "points = " << wgs84_nodes.size() << endl;
866 cout << "tex coords = " << texcoords.size() << endl;
868 fprintf(fp, "# FGFS Scenery\n");
869 fprintf(fp, "# Version %s\n", SG_SCENERY_FILE_FORMAT);
871 time_t calendar_time = time(NULL);
873 local_tm = localtime( &calendar_time );
875 strftime( time_str, 256, "%a %b %d %H:%M:%S %Z %Y", local_tm);
876 fprintf(fp, "# Created %s\n", time_str );
879 // write bounding sphere
880 fprintf(fp, "# gbs %.5f %.5f %.5f %.2f\n",
881 gbs_center.x(), gbs_center.y(), gbs_center.z(), gbs_radius);
885 fprintf(fp, "# vertex list\n");
886 for ( i = 0; i < (int)wgs84_nodes.size(); ++i ) {
887 SGVec3d p = wgs84_nodes[i] - gbs_center;
889 fprintf(fp, "v %.5f %.5f %.5f\n", p.x(), p.y(), p.z() );
893 fprintf(fp, "# vertex normal list\n");
894 for ( i = 0; i < (int)normals.size(); ++i ) {
895 SGVec3f p = normals[i];
896 fprintf(fp, "vn %.5f %.5f %.5f\n", p.x(), p.y(), p.z() );
900 // dump texture coordinates
901 fprintf(fp, "# texture coordinate list\n");
902 for ( i = 0; i < (int)texcoords.size(); ++i ) {
903 SGVec2f p = texcoords[i];
904 fprintf(fp, "vt %.5f %.5f\n", p.x(), p.y() );
908 // dump individual triangles if they exist
909 if ( tris_v.size() > 0 ) {
910 fprintf(fp, "# triangle groups\n");
915 while ( start < (int)tri_materials.size() ) {
917 material = tri_materials[start];
918 while ( (end < (int)tri_materials.size()) &&
919 (material == tri_materials[end]) )
921 // cout << "end = " << end << endl;
924 // cout << "group = " << start << " to " << end - 1 << endl;
927 for ( i = start; i < end; ++i ) {
928 for ( j = 0; j < (int)tris_v[i].size(); ++j ) {
929 d.expandBy(wgs84_nodes[ tris_v[i][j] ]);
933 SGVec3d bs_center = d.getCenter();
934 double bs_radius = d.getRadius();
936 // write group headers
938 fprintf(fp, "# usemtl %s\n", material.c_str());
939 fprintf(fp, "# bs %.4f %.4f %.4f %.2f\n",
940 bs_center.x(), bs_center.y(), bs_center.z(), bs_radius);
943 for ( i = start; i < end; ++i ) {
945 for ( j = 0; j < (int)tris_v[i].size(); ++j ) {
946 fprintf(fp, " %d/%d", tris_v[i][j], tris_tc[i][j] );
956 // dump triangle groups
957 if ( strips_v.size() > 0 ) {
958 fprintf(fp, "# triangle strips\n");
963 while ( start < (int)strip_materials.size() ) {
965 material = strip_materials[start];
966 while ( (end < (int)strip_materials.size()) &&
967 (material == strip_materials[end]) )
969 // cout << "end = " << end << endl;
972 // cout << "group = " << start << " to " << end - 1 << endl;
976 for ( i = start; i < end; ++i ) {
977 for ( j = 0; j < (int)tris_v[i].size(); ++j ) {
978 d.expandBy(wgs84_nodes[ tris_v[i][j] ]);
982 SGVec3d bs_center = d.getCenter();
983 double bs_radius = d.getRadius();
985 // write group headers
987 fprintf(fp, "# usemtl %s\n", material.c_str());
988 fprintf(fp, "# bs %.4f %.4f %.4f %.2f\n",
989 bs_center.x(), bs_center.y(), bs_center.z(), bs_radius);
992 for ( i = start; i < end; ++i ) {
994 for ( j = 0; j < (int)strips_v[i].size(); ++j ) {
995 fprintf(fp, " %d/%d", strips_v[i][j], strips_tc[i][j] );
1008 string command = "gzip --force --best " + file.str();
1009 int err = system(command.c_str());
1012 cout << "ERROR: gzip " << file.str() << " failed!" << endl;
1018 void SGBinObject::read_properties(gzFile fp, int nproperties)
1024 for ( int j = 0; j < nproperties; ++j ) {
1026 sgReadChar( fp, &prop_type );
1027 sgReadUInt( fp, &nbytes );
1028 // cout << "property size = " << nbytes << endl;
1029 if ( nbytes > buf.get_size() ) { buf.resize( nbytes ); }
1030 char *ptr = buf.get_ptr();
1031 sgReadBytes( fp, nbytes, ptr );