/************************************************************************** * obj.c -- routines to handle WaveFront .obj format files. * * Written by Curtis Olson, started October 1997. * * Copyright (C) 1997 Curtis L. Olson - curt@infoplane.com * * This program 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. * * This program 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 this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * * $Id$ * (Log is kept at end of this file) **************************************************************************/ #include #include #include "obj.h" #include "../../Src/Math/mat3.h" /* what do ya' know, here's some global variables */ float nodes[MAXNODES][3]; float normals[MAXNODES][3]; int ccw_list[MAXNODES]; int ccw_list_ptr; int cw_list[MAXNODES]; int cw_list_ptr; FILE *in, *out; /* some simple list routines */ /* reset the list */ void list_init(int *list_ptr) { *list_ptr = 0; } /* add to list */ void list_add(int *list, int *list_ptr, int node) { if ( *list_ptr >= MAXNODES ) { printf("ERROR: list overflow in list_add()\n"); exit(-1); } list[*list_ptr] = node; *list_ptr += 1; /* printf("list pointer = %d adding %d\n", *list_ptr, node); */ } /* dump list */ void dump_list(int *list, int list_ptr) { int i; if ( list_ptr < 3 ) { printf("List is empty ... skipping\n"); return; } printf("Dumping list, size = %d\n", list_ptr); i = 0; while ( i < list_ptr ) { /* do next strip */ /* dump header */ fprintf(out, "t %d %d %d\n", list[i], list[i+1], list[i+2]); /* printf("t %d %d %d\n", list[i], list[i+1], list[i+2]); */ i += 3; /* dump rest of strip (until -1) */ while ( (i < list_ptr) && (list[i] != -1) ) { fprintf(out, "q %d", list[i]); i++; if ( (i < list_ptr) && (list[i] != -1) ) { fprintf(out, " %d", list[i]); i++; } fprintf(out, "\n"); } i++; } } /* Check the direction the current triangle faces, compared to it's * pregenerated normal. Returns the dot product between the target * normal and actual normal. If the dot product is close to 1.0, they * nearly match. If the are close to -1.0, the are nearly * opposite. */ double check_cur_face(int n1, int n2, int n3) { double v1[3], v2[3], approx_normal[3], dot_prod, temp; /* check for the proper rotation by calculating an approximate * normal and seeing if it is close to the precalculated normal */ v1[0] = nodes[n2][0] - nodes[n1][0]; v1[1] = nodes[n2][1] - nodes[n1][1]; v1[2] = nodes[n2][2] - nodes[n1][2]; v2[0] = nodes[n3][0] - nodes[n1][0]; v2[1] = nodes[n3][1] - nodes[n1][1]; v2[2] = nodes[n3][2] - nodes[n1][2]; MAT3cross_product(approx_normal, v1, v2); MAT3_NORMALIZE_VEC(approx_normal,temp); dot_prod = MAT3_DOT_PRODUCT(normals[n1], approx_normal); /* not first triangle */ /* if ( ((dot_prod < -0.5) && !is_backwards) || ((dot_prod > 0.5) && is_backwards) ) { printf(" Approx normal = %.2f %.2f %.2f\n", approx_normal[0], approx_normal[1], approx_normal[2]); printf(" Dot product = %.4f\n", dot_prod); } */ /* angle = acos(dot_prod); */ /* printf("Normal ANGLE = %.3f rads.\n", angle); */ return(dot_prod); } /* Load a .obj file */ void obj_fix(char *infile, char *outfile) { char line[256]; double dot_prod; int first, ncount, vncount, n1, n2, n3, n4; int is_ccw; if ( (in = fopen(infile, "r")) == NULL ) { printf("Cannot open file: %s\n", infile); exit(-1); } if ( (out = fopen(outfile, "w")) == NULL ) { printf("Cannot open file: %s\n", outfile); exit(-1); } list_init(&ccw_list_ptr); list_init(&cw_list_ptr); first = 1; ncount = 1; vncount = 1; printf("Reading file: %s\n", infile); while ( fgets(line, 250, in) != NULL ) { if ( line[0] == '#' ) { /* pass along the comments verbatim */ fprintf(out, "%s", line); } else if ( strlen(line) <= 1 ) { /* pass along empty lines */ fprintf(out, "%s", line); } else if ( strncmp(line, "v ", 2) == 0 ) { /* save vertex to memory and output to file */ if ( ncount < MAXNODES ) { /* printf("vertex = %s", line); */ sscanf(line, "v %f %f %f\n", &nodes[ncount][0], &nodes[ncount][1], &nodes[ncount][2]); fprintf(out, "v %.2f %.2f %.2f\n", nodes[ncount][0], nodes[ncount][1], nodes[ncount][2]); ncount++; } else { printf("Read too many nodes ... dying :-(\n"); exit(-1); } } else if ( strncmp(line, "vn ", 3) == 0 ) { /* save vertex normals to memory and output to file */ if ( vncount < MAXNODES ) { /* printf("vertex normal = %s", line); */ sscanf(line, "vn %f %f %f\n", &normals[vncount][0], &normals[vncount][1], &normals[vncount][2]); fprintf(out, "vn %.4f %.4f %.4f\n", normals[vncount][0], normals[vncount][1], normals[vncount][2]); vncount++; } else { printf("Read too many vertex normals ... dying :-(\n"); exit(-1); } } else if ( line[0] == 't' ) { /* starting a new triangle strip */ printf("Starting a new triangle strip\n"); n1 = n2 = n3 = n4 = 0; printf("new tri strip = %s", line); sscanf(line, "t %d %d %d %d\n", &n1, &n2, &n3, &n4); dot_prod = check_cur_face(n1, n2, n3); if ( dot_prod < -0.5 ) { /* this stripe is backwards (CW) */ is_ccw = 0; printf(" -> Starting a backwards stripe\n"); } else { /* this stripe is normal (CCW) */ is_ccw = 1; } if ( is_ccw ) { if ( ccw_list_ptr ) { list_add(ccw_list, &ccw_list_ptr, -1); } list_add(ccw_list, &ccw_list_ptr, n1); list_add(ccw_list, &ccw_list_ptr, n2); list_add(ccw_list, &ccw_list_ptr, n3); } else { if ( cw_list_ptr ) { list_add(cw_list, &cw_list_ptr, -1); } list_add(cw_list, &cw_list_ptr, n1); list_add(cw_list, &cw_list_ptr, n2); list_add(cw_list, &cw_list_ptr, n3); } if ( n4 > 0 ) { if ( is_ccw ) { list_add(ccw_list, &ccw_list_ptr, n4); } else { list_add(cw_list, &cw_list_ptr, n4); } } } else if ( line[0] == 'f' ) { /* pass along the unoptimized faces verbatim */ fprintf(out, "%s", line); } else if ( line[0] == 'q' ) { /* continue a triangle strip */ n1 = n2 = 0; /* printf("continued tri strip = %s ", line); */ sscanf(line, "q %d %d\n", &n1, &n2); if ( is_ccw ) { list_add(ccw_list, &ccw_list_ptr, n1); } else { list_add(cw_list, &cw_list_ptr, n1); } if ( n2 > 0 ) { if ( is_ccw ) { list_add(ccw_list, &ccw_list_ptr, n2); } else { list_add(cw_list, &cw_list_ptr, n2); } } } else { printf("Unknown line in %s = %s\n", infile, line); } } fprintf(out, "winding ccw\n"); dump_list(ccw_list, ccw_list_ptr); fprintf(out, "winding cw\n"); dump_list(cw_list, cw_list_ptr); fclose(in); fclose(out); } /* $Log$ /* Revision 1.2 1998/01/09 23:03:12 curt /* Restructured to split 1deg x 1deg dem's into 64 subsections. /* * Revision 1.1 1997/12/08 19:28:54 curt * Initial revision. * */