ref: 3b961717be648d0810bb364e3cacbd4be8f7ce0b
dir: /SDL_Examples/include/tobjparse.h/
/* Public Domain / CC0 3d OBJ Parser With support for Per Vertex Color (VC) Lines. Written by Gek (DMHSW) in 2020 */ #ifndef TOBJ_PARSE_H #define TOBJ_PARSE_H #include "3dMath.h" #include "stretchy_buffer.h" #include <stdio.h> #include <string.h> #include <stdlib.h> #include <ctype.h> typedef struct{ long long unsigned int p; long long unsigned int n; long long unsigned int tc; long long unsigned int vc; }facedef; typedef struct{ vec3* positions; vec3* normals; vec3* texcoords; vec3* colors; facedef* faces; }objraw; typedef struct{ int npoints; //Number of points. vec3* d; //Triangles (Same winding as in the file) vec3* n; //Normals vec3* t; //Texture Cordinates vec3* c; //colors }model; objraw initobjraw(){ return (objraw){ .positions=NULL, .normals=NULL, .texcoords=NULL, .faces=NULL }; } model initmodel(){ return (model){ .npoints=0, .d=NULL, .n=NULL, .t=NULL, .c=NULL }; } void freeobjraw(objraw* o){ sb_free(o->positions); sb_free(o->texcoords); sb_free(o->normals); sb_free(o->colors); sb_free(o->faces); } void freemodel(model* o){ free(o->d); free(o->t); free(o->n); free(o->c); } model tobj_tomodel(objraw* raw){ if(!raw || raw->faces == NULL) { puts("\nAttempted to convert empty model... Aborting...\n"); return initmodel(); } model ret = initmodel(); ret.npoints = 0; ret.d=malloc(sizeof(vec3) * sb_count(raw->faces)); if(raw->normals)ret.n=malloc(sizeof(vec3) * sb_count(raw->faces)); if(raw->texcoords)ret.t=malloc(sizeof(vec3) * sb_count(raw->faces)); if(raw->colors)ret.c=malloc(sizeof(vec3) * sb_count(raw->faces)); long long unsigned int piter = 0; long long unsigned int niter = 0; long long unsigned int titer = 0; long long unsigned int citer = 0; //printf("\nsb_count of faces is %d",sb_count(raw->faces)); for(long long int i = 0; i < sb_count(raw->faces);i++){ //printf("\n::%lld:: 0\n",i); long long unsigned int p = raw->faces[i].p-1; long long unsigned int n = raw->faces[i].n-1; long long unsigned int t = raw->faces[i].tc-1; long long unsigned int c = raw->faces[i].vc-1; if(p < (long long unsigned int)sb_count(raw->positions)){ //sb_push(ret.d, raw->positions[p]); ret.d[piter++] = raw->positions[p]; ret.npoints++; } else { printf("\nBad Data!!!\n"); printf("p=%llu n=%llu t=%llu c=%llu i=%lld\n\n",p,n,t,c,i); } if(raw->normals){ if(n < (long long unsigned int)sb_count(raw->normals)){ //sb_push(ret.n, raw->normals[n]); ret.n[niter++] = raw->normals[n]; } else { puts("\n<BAD DATA>, NORMALS\n"); } } if(raw->texcoords){ if(t < (long long unsigned int)sb_count(raw->texcoords)){ //sb_push(ret.t, raw->texcoords[t]); ret.t[titer++] = raw->texcoords[t]; } else puts("\n<BAD DATA>, TEXCOORDS\n"); } if(raw->colors){ if(c < (long long unsigned int)sb_count(raw->colors)){ //sb_push(ret.c, raw->colors[c]); ret.c[citer++] = raw->colors[c]; } else { puts("\n<BAD DATA>, COLORS\n"); } } } //printf("\ntobj_tomodel completed.\n"); if(ret.npoints != piter){ printf("\nBAD DATA!!! ABORTING...\n"); exit(1); } return ret; } //Only loads objraw tobj_load(const char* fn){ FILE* f; f = fopen(fn, "r"); objraw retval = initobjraw(); if(f){ char line[2048];line[2047]=0; //int read = 0; while(fgets(line, 2047, f)){ vec3 val; facedef frick0; facedef frick1; facedef frick2; if(line[0] == 'v' && line[1] == ' ' && (strlen(line) > 4)){ //read = sscanf(line,"v %f %f %f",&val.d[0],&val.d[1],&val.d[2]); //printf("\nv Read: %d",read); sb_push(retval.positions, val); char* t = line+2; sb_last(retval.positions).d[0] = atof(t); while(!isspace(*t) && *t != '\0')t++; if(*t == '\0')continue; t++; sb_last(retval.positions).d[1] = atof(t); while(!isspace(*t) && *t != '\0')t++; if(*t == '\0')continue; t++; sb_last(retval.positions).d[2] = atof(t); } if(line[0] == 'v' && line[1] == 't' && (strlen(line) > 4)){ //read = sscanf(line,"vt %f %f",&val.d[0],&val.d[1]); sb_push(retval.texcoords, val); char* t = line+3; sb_last(retval.texcoords).d[0] = atof(t); while(!isspace(*t) && *t != '\0')t++; if(*t == '\0')continue; t++; sb_last(retval.texcoords).d[1] = -atof(t); } if(line[0] == 'v' && line[1] == 'c' && (strlen(line) > 4)){ //read=sscanf(line,"vc %f %f %f",&val.d[0],&val.d[1],&val.d[2]); sb_push(retval.colors, val); char* t = line+3; sb_last(retval.colors).d[0] = atof(t); while(!isspace(*t) && *t != '\0')t++; if(*t == '\0')continue; t++; sb_last(retval.colors).d[1] = atof(t); while(!isspace(*t) && *t != '\0')t++; if(*t == '\0')continue; t++; sb_last(retval.colors).d[2] = atof(t); //printf("\nvc Read: %d",read); } if(line[0] == 'v' && line[1] =='n' && (strlen(line) > 4)){ //read=sscanf(line,"vn %f %f %f",&val.d[0],&val.d[1],&val.d[2]); //printf("\nn Read: %d",read); sb_push(retval.normals, val); char* t = line+3; sb_last(retval.normals).d[0] = atof(t); while(!isspace(*t) && *t != '\0')t++; if(*t == '\0')continue; t++; sb_last(retval.normals).d[1] = atof(t); while(!isspace(*t) && *t != '\0')t++; if(*t == '\0')continue; t++; sb_last(retval.normals).d[2] = atof(t); /* printf("\nreading from stretchy buffer, %f %f %f", retval.normals[sb_count(retval.normals)-1].d[0], retval.normals[sb_count(retval.normals)-1].d[1], retval.normals[sb_count(retval.normals)-1].d[2] ); */ } if(line[0] == 'f' && (strlen(line) > 4)){ //The face lines are hard to parse. //They could be p p p // or p/vt p/vt p/vt //or p//n p//n p//n //or p/vt/n p/vt/n p/vt/n //or p/vt/n/c p/vt/n/c p/vt/n/c //or some other combination, as long as it has p it's valid //Grab the position indices { char* t = line+2; frick0.p = strtoull(t,NULL,10); //printf("\nf[0].p is %llu",frick0.p); while(!isspace(*t) && *t != '\0')t++; if(*t == '\0')continue; t++; frick1.p = strtoull(t,NULL,10); //printf("\nf[1].p is %llu",frick1.p); while(!isspace(*t) && *t != '\0')t++; if(*t == '\0')continue; t++; frick2.p = strtoull(t,NULL,10); //printf("\nf[2].p is %llu",frick2.p); } //Grab the texture coordinates (First character after first slash!) if(retval.texcoords){ char* t = line+2; while(!isspace(*t) && *t != '\0' && *t != '/')t++; //jump to first slash t++;//next character frick0.tc = strtoull(t,NULL,10); //printf("\nf[0].tc is %llu",frick0.tc); //Jump to the next group of numbers while(!isspace(*t) && *t != '\0')t++; if(*t == '\0')continue; t++; //first slash while(!isspace(*t) && *t != '\0' && *t != '/')t++; //jump to next slash t++;//next character frick1.tc = strtoull(t,NULL,10); //printf("\nf[1].tc is %llu",frick1.tc); //Jump to the next group of numbers while(!isspace(*t) && *t != '\0')t++; if(*t == '\0')continue; t++; //first slash while(!isspace(*t) && *t != '\0' && *t != '/')t++; //jump to next slash t++;//next character frick2.tc = strtoull(t,NULL,10); //printf("\nf[2].tc is %llu",frick2.tc); } if(retval.normals){ char* t = line+2; while(!isspace(*t) && *t != '\0' && *t != '/')t++; //jump to first slash t++;//next character while(!isspace(*t) && *t != '\0' && *t != '/')t++; //jump to second slash t++;//next character frick0.n = strtoull(t,NULL,10); //Jump to the next group of numbers while(!isspace(*t) && *t != '\0')t++; if(*t == '\0')continue; t++; //first slash while(!isspace(*t) && *t != '\0' && *t != '/')t++; //jump to first slash t++;//next character while(!isspace(*t) && *t != '\0' && *t != '/')t++; //jump to second slash t++;//next character frick1.n = strtoull(t,NULL,10); //Jump to the next group of numbers while(!isspace(*t) && *t != '\0')t++; if(*t == '\0')continue; t++; //first slash while(!isspace(*t) && *t != '\0' && *t != '/')t++; //jump to first slash t++;//next character while(!isspace(*t) && *t != '\0' && *t != '/')t++; //jump to second slash t++;//next character frick2.n = strtoull(t,NULL,10); } if(retval.colors){ char* t = line+2; while(!isspace(*t) && *t != '\0' && *t != '/')t++; //jump to first slash t++;//next character while(!isspace(*t) && *t != '\0' && *t != '/')t++; //jump to second slash t++;//next character while(!isspace(*t) && *t != '\0' && *t != '/')t++; //jump to third slash t++;//next character frick0.vc = strtoull(t,NULL,10); //printf("\nf[0].vc is %llu",frick0.vc); //Jump to the next group of numbers while(!isspace(*t) && *t != '\0')t++; if(*t == '\0')continue; t++; //first slash while(!isspace(*t) && *t != '\0' && *t != '/')t++; //jump to first slash t++;//next character while(!isspace(*t) && *t != '\0' && *t != '/')t++; //jump to second slash t++;//next character while(!isspace(*t) && *t != '\0' && *t != '/')t++; //jump to third slash t++;//next character frick1.vc = strtoull(t,NULL,10); //printf("\nf[1].vc is %llu",frick1.vc); //Jump to the next group of numbers while(!isspace(*t) && *t != '\0')t++; if(*t == '\0')continue; t++; //first slash while(!isspace(*t) && *t != '\0' && *t != '/')t++; //jump to first slash t++;//next character while(!isspace(*t) && *t != '\0' && *t != '/')t++; //jump to second slash t++;//next character while(!isspace(*t) && *t != '\0' && *t != '/')t++; //jump to third slash t++;//next character frick2.vc = strtoull(t,NULL,10); //printf("\nf[2].vc is %llu",frick2.vc); } sb_push(retval.faces,frick0); sb_push(retval.faces,frick1); sb_push(retval.faces,frick2); /* printf("\nReading from sb, frick0.p=%llu frick0.n=%llu frick0.tc=%llu frick0.vc=%llu", retval.faces[sb_count(retval.faces)-3].p, retval.faces[sb_count(retval.faces)-3].n, retval.faces[sb_count(retval.faces)-3].tc, retval.faces[sb_count(retval.faces)-3].vc );*/ } } fclose(f); } else { printf("\nUnable to load file %s\n",fn); } return retval; } #endif