EVOLUTION-MANAGER

Edit File: global.c

/*<html><pre> -<a href="qh-globa.htm" >-------------------------------</a><a name="TOP">-</a> global.c initializes all the globals of the qhull application see README see libqhull.h for qh.globals and function prototypes see qhull_a.h for internal functions Copyright (c) 1993-2012 The Geometry Center. $Id: //main/2011/qhull/src/libqhull/global.c#15 $$Change: 1490 $ $DateTime: 2012/02/19 20:27:01 $$Author: bbarber $ */ #include "qhull_a.h" /*========= qh definition -- globals defined in libqhull.h =======================*/ int qhull_inuse= 0; /* not used */ #if qh_QHpointer qhT *qh_qh= NULL; /* pointer to all global variables */ #else qhT qh_qh; /* all global variables. Add "= {0}" if this causes a compiler error. Also qh_qhstat in stat.c and qhmem in mem.c. */ #endif /*-<a href ="qh-globa.htm#TOC" >--------------------------------</a><a name="qh_version">-</a> qh_version version string by year and date the revision increases on code changes only notes: change date: Changes.txt, Announce.txt, index.htm, README.txt, qhull-news.html, Eudora signatures, CMakeLists.txt change version: README.txt, qh-get.htm, File_id.diz, Makefile.txt change year: Copying.txt check download size recompile user_eg.c, rbox.c, libqhull.c, qconvex.c, qdelaun.c qvoronoi.c, qhalf.c, testqset.c */ const char *qh_version = "2012.1 2012/02/18"; /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="appendprint">-</a> qh_appendprint( printFormat ) append printFormat to qh.PRINTout unless already defined */ void qh_appendprint(qh_PRINT format) { int i; for (i=0; i < qh_PRINTEND; i++) { if (qh PRINTout[i] == format && format != qh_PRINTqhull) break; if (!qh PRINTout[i]) { qh PRINTout[i]= format; break; } } } /* appendprint */ /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="checkflags">-</a> qh_checkflags( commandStr, hiddenFlags ) errors if commandStr contains hiddenFlags hiddenFlags starts and ends with a space and is space deliminated (checked) notes: ignores first word (e.g., "qconvex i") use qh_strtol/strtod since strtol/strtod may or may not skip trailing spaces see: qh_initflags() initializes Qhull according to commandStr */ void qh_checkflags(char *command, char *hiddenflags) { char *s= command, *t, *chkerr; /* qh_skipfilename is non-const */ char key, opt, prevopt; char chkkey[]= " "; char chkopt[]= " "; char chkopt2[]= " "; boolT waserr= False; if (*hiddenflags != ' ' || hiddenflags[strlen(hiddenflags)-1] != ' ') { qh_fprintf(qh ferr, 6026, "qhull error (qh_checkflags): hiddenflags must start and end with a space: \"%s\"", hiddenflags); qh_errexit(qh_ERRinput, NULL, NULL); } if (strpbrk(hiddenflags, ",\n\r\t")) { qh_fprintf(qh ferr, 6027, "qhull error (qh_checkflags): hiddenflags contains commas, newlines, or tabs: \"%s\"", hiddenflags); qh_errexit(qh_ERRinput, NULL, NULL); } while (*s && !isspace(*s)) /* skip program name */ s++; while (*s) { while (*s && isspace(*s)) s++; if (*s == '-') s++; if (!*s) break; key = *s++; chkerr = NULL; if (key == 'T' && (*s == 'I' || *s == 'O')) { /* TI or TO 'file name' */ s= qh_skipfilename(++s); continue; } chkkey[1]= key; if (strstr(hiddenflags, chkkey)) { chkerr= chkkey; }else if (isupper(key)) { opt= ' '; prevopt= ' '; chkopt[1]= key; chkopt2[1]= key; while (!chkerr && *s && !isspace(*s)) { opt= *s++; if (isalpha(opt)) { chkopt[2]= opt; if (strstr(hiddenflags, chkopt)) chkerr= chkopt; if (prevopt != ' ') { chkopt2[2]= prevopt; chkopt2[3]= opt; if (strstr(hiddenflags, chkopt2)) chkerr= chkopt2; } }else if (key == 'Q' && isdigit(opt) && prevopt != 'b' && (prevopt == ' ' || islower(prevopt))) { chkopt[2]= opt; if (strstr(hiddenflags, chkopt)) chkerr= chkopt; }else { qh_strtod(s-1, &t); if (s < t) s= t; } prevopt= opt; } } if (chkerr) { *chkerr= '\''; chkerr[strlen(chkerr)-1]= '\''; qh_fprintf(qh ferr, 6029, "qhull error: option %s is not used with this program.\n It may be used with qhull.\n", chkerr); waserr= True; } } if (waserr) qh_errexit(qh_ERRinput, NULL, NULL); } /* checkflags */ /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="qh_clear_outputflags">-</a> qh_clear_outputflags() Clear output flags for QhullPoints */ void qh_clear_outputflags(void) { int i,k; qh ANNOTATEoutput= False; qh DOintersections= False; qh DROPdim= -1; qh FORCEoutput= False; qh GETarea= False; qh GOODpoint= 0; qh GOODpointp= NULL; qh GOODthreshold= False; qh GOODvertex= 0; qh GOODvertexp= NULL; qh IStracing= 0; qh KEEParea= False; qh KEEPmerge= False; qh KEEPminArea= REALmax; qh PRINTcentrums= False; qh PRINTcoplanar= False; qh PRINTdots= False; qh PRINTgood= False; qh PRINTinner= False; qh PRINTneighbors= False; qh PRINTnoplanes= False; qh PRINToptions1st= False; qh PRINTouter= False; qh PRINTprecision= True; qh PRINTridges= False; qh PRINTspheres= False; qh PRINTstatistics= False; qh PRINTsummary= False; qh PRINTtransparent= False; qh SPLITthresholds= False; qh TRACElevel= 0; qh TRInormals= False; qh USEstdout= False; qh VERIFYoutput= False; for (k=qh input_dim+1; k--; ) { /* duplicated in qh_initqhull_buffers and qh_clear_outputflags */ qh lower_threshold[k]= -REALmax; qh upper_threshold[k]= REALmax; qh lower_bound[k]= -REALmax; qh upper_bound[k]= REALmax; } for (i=0; i < qh_PRINTEND; i++) { qh PRINTout[i]= qh_PRINTnone; } if (!qh qhull_commandsiz2) qh qhull_commandsiz2= (int)strlen(qh qhull_command); /* WARN64 */ else { qh qhull_command[qh qhull_commandsiz2]= '\0'; } if (!qh qhull_optionsiz2) qh qhull_optionsiz2= (int)strlen(qh qhull_options); /* WARN64 */ else { qh qhull_options[qh qhull_optionsiz2]= '\0'; qh qhull_optionlen= qh_OPTIONline; /* start a new line */ } } /* clear_outputflags */ /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="clock">-</a> qh_clock() return user CPU time in 100ths (qh_SECtick) only defined for qh_CLOCKtype == 2 notes: use first value to determine time 0 from Stevens '92 8.15 */ unsigned long qh_clock(void) { #if (qh_CLOCKtype == 2) struct tms time; static long clktck; /* initialized first call */ double ratio, cpu; unsigned long ticks; if (!clktck) { if ((clktck= sysconf(_SC_CLK_TCK)) < 0) { qh_fprintf(qh ferr, 6030, "qhull internal error (qh_clock): sysconf() failed. Use qh_CLOCKtype 1 in user.h\n"); qh_errexit(qh_ERRqhull, NULL, NULL); } } if (times(&time) == -1) { qh_fprintf(qh ferr, 6031, "qhull internal error (qh_clock): times() failed. Use qh_CLOCKtype 1 in user.h\n"); qh_errexit(qh_ERRqhull, NULL, NULL); } ratio= qh_SECticks / (double)clktck; ticks= time.tms_utime * ratio; return ticks; #else qh_fprintf(qh ferr, 6032, "qhull internal error (qh_clock): use qh_CLOCKtype 2 in user.h\n"); qh_errexit(qh_ERRqhull, NULL, NULL); /* never returns */ return 0; #endif } /* clock */ /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="freebuffers">-</a> qh_freebuffers() free up global memory buffers notes: must match qh_initbuffers() */ void qh_freebuffers(void) { trace5((qh ferr, 5001, "qh_freebuffers: freeing up global memory buffers\n")); /* allocated by qh_initqhull_buffers */ qh_memfree(qh NEARzero, qh hull_dim * sizeof(realT)); qh_memfree(qh lower_threshold, (qh input_dim+1) * sizeof(realT)); qh_memfree(qh upper_threshold, (qh input_dim+1) * sizeof(realT)); qh_memfree(qh lower_bound, (qh input_dim+1) * sizeof(realT)); qh_memfree(qh upper_bound, (qh input_dim+1) * sizeof(realT)); qh_memfree(qh gm_matrix, (qh hull_dim+1) * qh hull_dim * sizeof(coordT)); qh_memfree(qh gm_row, (qh hull_dim+1) * sizeof(coordT *)); qh NEARzero= qh lower_threshold= qh upper_threshold= NULL; qh lower_bound= qh upper_bound= NULL; qh gm_matrix= NULL; qh gm_row= NULL; qh_setfree(&qh other_points); qh_setfree(&qh del_vertices); qh_setfree(&qh coplanarfacetset); if (qh line) /* allocated by qh_readinput, freed if no error */ qh_free(qh line); if (qh half_space) qh_free(qh half_space); if (qh temp_malloc) qh_free(qh temp_malloc); if (qh feasible_point) /* allocated by qh_readfeasible */ qh_free(qh feasible_point); if (qh feasible_string) /* allocated by qh_initflags */ qh_free(qh feasible_string); qh line= qh feasible_string= NULL; qh half_space= qh feasible_point= qh temp_malloc= NULL; /* usually allocated by qh_readinput */ if (qh first_point && qh POINTSmalloc) { qh_free(qh first_point); qh first_point= NULL; } if (qh input_points && qh input_malloc) { /* set by qh_joggleinput */ qh_free(qh input_points); qh input_points= NULL; } trace5((qh ferr, 5002, "qh_freebuffers: finished\n")); } /* freebuffers */ /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="freebuild">-</a> qh_freebuild( allmem ) free global memory used by qh_initbuild and qh_buildhull if !allmem, does not free short memory (e.g., facetT, freed by qh_memfreeshort) design: free centrums free each vertex mark unattached ridges for each facet free ridges free outside set, coplanar set, neighbor set, ridge set, vertex set free facet free hash table free interior point free merge set free temporary sets */ void qh_freebuild(boolT allmem) { facetT *facet; vertexT *vertex; ridgeT *ridge, **ridgep; mergeT *merge, **mergep; trace1((qh ferr, 1005, "qh_freebuild: free memory from qh_inithull and qh_buildhull\n")); if (qh del_vertices) qh_settruncate(qh del_vertices, 0); if (allmem) { while ((vertex= qh vertex_list)) { if (vertex->next) qh_delvertex(vertex); else { qh_memfree(vertex, (int)sizeof(vertexT)); qh newvertex_list= qh vertex_list= NULL; } } }else if (qh VERTEXneighbors) { FORALLvertices qh_setfreelong(&(vertex->neighbors)); } qh VERTEXneighbors= False; qh GOODclosest= NULL; if (allmem) { FORALLfacets { FOREACHridge_(facet->ridges) ridge->seen= False; } FORALLfacets { if (facet->visible) { FOREACHridge_(facet->ridges) { if (!otherfacet_(ridge, facet)->visible) ridge->seen= True; /* an unattached ridge */ } } } while ((facet= qh facet_list)) { FOREACHridge_(facet->ridges) { if (ridge->seen) { qh_setfree(&(ridge->vertices)); qh_memfree(ridge, (int)sizeof(ridgeT)); }else ridge->seen= True; } qh_setfree(&(facet->outsideset)); qh_setfree(&(facet->coplanarset)); qh_setfree(&(facet->neighbors)); qh_setfree(&(facet->ridges)); qh_setfree(&(facet->vertices)); if (facet->next) qh_delfacet(facet); else { qh_memfree(facet, (int)sizeof(facetT)); qh visible_list= qh newfacet_list= qh facet_list= NULL; } } }else { FORALLfacets { qh_setfreelong(&(facet->outsideset)); qh_setfreelong(&(facet->coplanarset)); if (!facet->simplicial) { qh_setfreelong(&(facet->neighbors)); qh_setfreelong(&(facet->ridges)); qh_setfreelong(&(facet->vertices)); } } } qh_setfree(&(qh hash_table)); qh_memfree(qh interior_point, qh normal_size); qh interior_point= NULL; FOREACHmerge_(qh facet_mergeset) /* usually empty */ qh_memfree(merge, (int)sizeof(mergeT)); qh facet_mergeset= NULL; /* temp set */ qh degen_mergeset= NULL; /* temp set */ qh_settempfree_all(); } /* freebuild */ /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="freeqhull">-</a> qh_freeqhull( allmem ) see qh_freeqhull2 if qh_QHpointer, frees qh_qh */ void qh_freeqhull(boolT allmem) { qh_freeqhull2(allmem); #if qh_QHpointer qh_free(qh_qh); qh_qh= NULL; #endif } /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="freeqhull2">-</a> qh_freeqhull2( allmem ) free global memory if !allmem, does not free short memory (freed by qh_memfreeshort) notes: sets qh.NOerrexit in case caller forgets to see: see qh_initqhull_start2() design: free global and temporary memory from qh_initbuild and qh_buildhull free buffers free statistics */ void qh_freeqhull2(boolT allmem) { trace1((qh ferr, 1006, "qh_freeqhull2: free global memory\n")); qh NOerrexit= True; /* no more setjmp since called at exit and ~QhullQh */ qh_freebuild(allmem); qh_freebuffers(); qh_freestatistics(); #if qh_QHpointer memset((char *)qh_qh, 0, sizeof(qhT)); /* qh_qh freed by caller, qh_freeqhull() */ #else memset((char *)&qh_qh, 0, sizeof(qhT)); #endif qh NOerrexit= True; } /* freeqhull2 */ /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="init_A">-</a> qh_init_A( infile, outfile, errfile, argc, argv ) initialize memory and stdio files convert input options to option string (qh.qhull_command) notes: infile may be NULL if qh_readpoints() is not called errfile should always be defined. It is used for reporting errors. outfile is used for output and format options. argc/argv may be 0/NULL called before error handling initialized qh_errexit() may not be used */ void qh_init_A(FILE *infile, FILE *outfile, FILE *errfile, int argc, char *argv[]) { qh_meminit(errfile); qh_initqhull_start(infile, outfile, errfile); qh_init_qhull_command(argc, argv); } /* init_A */ /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="init_B">-</a> qh_init_B( points, numpoints, dim, ismalloc ) initialize globals for points array points has numpoints dim-dimensional points points[0] is the first coordinate of the first point points[1] is the second coordinate of the first point points[dim] is the first coordinate of the second point ismalloc=True Qhull will call qh_free(points) on exit or input transformation ismalloc=False Qhull will allocate a new point array if needed for input transformation qh.qhull_command is the option string. It is defined by qh_init_B(), qh_qhull_command(), or qh_initflags returns: if qh.PROJECTinput or (qh.DELAUNAY and qh.PROJECTdelaunay) projects the input to a new point array if qh.DELAUNAY, qh.hull_dim is increased by one if qh.ATinfinity, qh_projectinput adds point-at-infinity for Delaunay tri. if qh.SCALEinput changes the upper and lower bounds of the input, see qh_scaleinput() if qh.ROTATEinput rotates the input by a random rotation, see qh_rotateinput() if qh.DELAUNAY rotates about the last coordinate notes: called after points are defined qh_errexit() may be used */ void qh_init_B(coordT *points, int numpoints, int dim, boolT ismalloc) { qh_initqhull_globals(points, numpoints, dim, ismalloc); if (qhmem.LASTsize == 0) qh_initqhull_mem(); /* mem.c and qset.c are initialized */ qh_initqhull_buffers(); qh_initthresholds(qh qhull_command); if (qh PROJECTinput || (qh DELAUNAY && qh PROJECTdelaunay)) qh_projectinput(); if (qh SCALEinput) qh_scaleinput(); if (qh ROTATErandom >= 0) { qh_randommatrix(qh gm_matrix, qh hull_dim, qh gm_row); if (qh DELAUNAY) { int k, lastk= qh hull_dim-1; for (k=0; k < lastk; k++) { qh gm_row[k][lastk]= 0.0; qh gm_row[lastk][k]= 0.0; } qh gm_row[lastk][lastk]= 1.0; } qh_gram_schmidt(qh hull_dim, qh gm_row); qh_rotateinput(qh gm_row); } } /* init_B */ /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="init_qhull_command">-</a> qh_init_qhull_command( argc, argv ) build qh.qhull_command from argc/argv returns: a space-delimited string of options (just as typed) notes: makes option string easy to input and output argc/argv may be 0/NULL */ void qh_init_qhull_command(int argc, char *argv[]) { if (!qh_argv_to_command(argc, argv, qh qhull_command, (int)sizeof(qh qhull_command))){ /* Assumes qh.ferr is defined. */ qh_fprintf(qh ferr, 6033, "qhull input error: more than %d characters in command line\n", (int)sizeof(qh qhull_command)); qh_exit(qh_ERRinput); /* error reported, can not use qh_errexit */ } } /* init_qhull_command */ /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="initflags">-</a> qh_initflags( commandStr ) set flags and initialized constants from commandStr returns: sets qh.qhull_command to command if needed notes: ignores first word (e.g., "qhull d") use qh_strtol/strtod since strtol/strtod may or may not skip trailing spaces see: qh_initthresholds() continues processing of 'Pdn' and 'PDn' 'prompt' in unix.c for documentation design: for each space-delimited option group if top-level option check syntax append appropriate option to option string set appropriate global variable or append printFormat to print options else for each sub-option check syntax append appropriate option to option string set appropriate global variable or append printFormat to print options */ void qh_initflags(char *command) { int k, i, lastproject; char *s= command, *t, *prev_s, *start, key; boolT isgeom= False, wasproject; realT r; if (command <= &qh qhull_command[0] || command > &qh qhull_command[0] + sizeof(qh qhull_command)) { if (command != &qh qhull_command[0]) { *qh qhull_command= '\0'; strncat(qh qhull_command, command, sizeof(qh qhull_command)-strlen(qh qhull_command)-1); } while (*s && !isspace(*s)) /* skip program name */ s++; } while (*s) { while (*s && isspace(*s)) s++; if (*s == '-') s++; if (!*s) break; prev_s= s; switch (*s++) { case 'd': qh_option("delaunay", NULL, NULL); qh DELAUNAY= True; break; case 'f': qh_option("facets", NULL, NULL); qh_appendprint(qh_PRINTfacets); break; case 'i': qh_option("incidence", NULL, NULL); qh_appendprint(qh_PRINTincidences); break; case 'm': qh_option("mathematica", NULL, NULL); qh_appendprint(qh_PRINTmathematica); break; case 'n': qh_option("normals", NULL, NULL); qh_appendprint(qh_PRINTnormals); break; case 'o': qh_option("offFile", NULL, NULL); qh_appendprint(qh_PRINToff); break; case 'p': qh_option("points", NULL, NULL); qh_appendprint(qh_PRINTpoints); break; case 's': qh_option("summary", NULL, NULL); qh PRINTsummary= True; break; case 'v': qh_option("voronoi", NULL, NULL); qh VORONOI= True; qh DELAUNAY= True; break; case 'A': if (!isdigit(*s) && *s != '.' && *s != '-') qh_fprintf(qh ferr, 7002, "qhull warning: no maximum cosine angle given for option 'An'. Ignored.\n"); else { if (*s == '-') { qh premerge_cos= -qh_strtod(s, &s); qh_option("Angle-premerge-", NULL, &qh premerge_cos); qh PREmerge= True; }else { qh postmerge_cos= qh_strtod(s, &s); qh_option("Angle-postmerge", NULL, &qh postmerge_cos); qh POSTmerge= True; } qh MERGING= True; } break; case 'C': if (!isdigit(*s) && *s != '.' && *s != '-') qh_fprintf(qh ferr, 7003, "qhull warning: no centrum radius given for option 'Cn'. Ignored.\n"); else { if (*s == '-') { qh premerge_centrum= -qh_strtod(s, &s); qh_option("Centrum-premerge-", NULL, &qh premerge_centrum); qh PREmerge= True; }else { qh postmerge_centrum= qh_strtod(s, &s); qh_option("Centrum-postmerge", NULL, &qh postmerge_centrum); qh POSTmerge= True; } qh MERGING= True; } break; case 'E': if (*s == '-') qh_fprintf(qh ferr, 7004, "qhull warning: negative maximum roundoff given for option 'An'. Ignored.\n"); else if (!isdigit(*s)) qh_fprintf(qh ferr, 7005, "qhull warning: no maximum roundoff given for option 'En'. Ignored.\n"); else { qh DISTround= qh_strtod(s, &s); qh_option("Distance-roundoff", NULL, &qh DISTround); qh SETroundoff= True; } break; case 'H': start= s; qh HALFspace= True; qh_strtod(s, &t); while (t > s) { if (*t && !isspace(*t)) { if (*t == ',') t++; else qh_fprintf(qh ferr, 7006, "qhull warning: origin for Halfspace intersection should be 'Hn,n,n,...'\n"); } s= t; qh_strtod(s, &t); } if (start < t) { if (!(qh feasible_string= (char*)calloc((size_t)(t-start+1), (size_t)1))) { qh_fprintf(qh ferr, 6034, "qhull error: insufficient memory for 'Hn,n,n'\n"); qh_errexit(qh_ERRmem, NULL, NULL); } strncpy(qh feasible_string, start, (size_t)(t-start)); qh_option("Halfspace-about", NULL, NULL); qh_option(qh feasible_string, NULL, NULL); }else qh_option("Halfspace", NULL, NULL); break; case 'R': if (!isdigit(*s)) qh_fprintf(qh ferr, 7007, "qhull warning: missing random perturbation for option 'Rn'. Ignored\n"); else { qh RANDOMfactor= qh_strtod(s, &s); qh_option("Random_perturb", NULL, &qh RANDOMfactor); qh RANDOMdist= True; } break; case 'V': if (!isdigit(*s) && *s != '-') qh_fprintf(qh ferr, 7008, "qhull warning: missing visible distance for option 'Vn'. Ignored\n"); else { qh MINvisible= qh_strtod(s, &s); qh_option("Visible", NULL, &qh MINvisible); } break; case 'U': if (!isdigit(*s) && *s != '-') qh_fprintf(qh ferr, 7009, "qhull warning: missing coplanar distance for option 'Un'. Ignored\n"); else { qh MAXcoplanar= qh_strtod(s, &s); qh_option("U-coplanar", NULL, &qh MAXcoplanar); } break; case 'W': if (*s == '-') qh_fprintf(qh ferr, 7010, "qhull warning: negative outside width for option 'Wn'. Ignored.\n"); else if (!isdigit(*s)) qh_fprintf(qh ferr, 7011, "qhull warning: missing outside width for option 'Wn'. Ignored\n"); else { qh MINoutside= qh_strtod(s, &s); qh_option("W-outside", NULL, &qh MINoutside); qh APPROXhull= True; } break; /************ sub menus ***************/ case 'F': while (*s && !isspace(*s)) { switch (*s++) { case 'a': qh_option("Farea", NULL, NULL); qh_appendprint(qh_PRINTarea); qh GETarea= True; break; case 'A': qh_option("FArea-total", NULL, NULL); qh GETarea= True; break; case 'c': qh_option("Fcoplanars", NULL, NULL); qh_appendprint(qh_PRINTcoplanars); break; case 'C': qh_option("FCentrums", NULL, NULL); qh_appendprint(qh_PRINTcentrums); break; case 'd': qh_option("Fd-cdd-in", NULL, NULL); qh CDDinput= True; break; case 'D': qh_option("FD-cdd-out", NULL, NULL); qh CDDoutput= True; break; case 'F': qh_option("FFacets-xridge", NULL, NULL); qh_appendprint(qh_PRINTfacets_xridge); break; case 'i': qh_option("Finner", NULL, NULL); qh_appendprint(qh_PRINTinner); break; case 'I': qh_option("FIDs", NULL, NULL); qh_appendprint(qh_PRINTids); break; case 'm': qh_option("Fmerges", NULL, NULL); qh_appendprint(qh_PRINTmerges); break; case 'M': qh_option("FMaple", NULL, NULL); qh_appendprint(qh_PRINTmaple); break; case 'n': qh_option("Fneighbors", NULL, NULL); qh_appendprint(qh_PRINTneighbors); break; case 'N': qh_option("FNeighbors-vertex", NULL, NULL); qh_appendprint(qh_PRINTvneighbors); break; case 'o': qh_option("Fouter", NULL, NULL); qh_appendprint(qh_PRINTouter); break; case 'O': if (qh PRINToptions1st) { qh_option("FOptions", NULL, NULL); qh_appendprint(qh_PRINToptions); }else qh PRINToptions1st= True; break; case 'p': qh_option("Fpoint-intersect", NULL, NULL); qh_appendprint(qh_PRINTpointintersect); break; case 'P': qh_option("FPoint-nearest", NULL, NULL); qh_appendprint(qh_PRINTpointnearest); break; case 'Q': qh_option("FQhull", NULL, NULL); qh_appendprint(qh_PRINTqhull); break; case 's': qh_option("Fsummary", NULL, NULL); qh_appendprint(qh_PRINTsummary); break; case 'S': qh_option("FSize", NULL, NULL); qh_appendprint(qh_PRINTsize); qh GETarea= True; break; case 't': qh_option("Ftriangles", NULL, NULL); qh_appendprint(qh_PRINTtriangles); break; case 'v': /* option set in qh_initqhull_globals */ qh_appendprint(qh_PRINTvertices); break; case 'V': qh_option("FVertex-average", NULL, NULL); qh_appendprint(qh_PRINTaverage); break; case 'x': qh_option("Fxtremes", NULL, NULL); qh_appendprint(qh_PRINTextremes); break; default: s--; qh_fprintf(qh ferr, 7012, "qhull warning: unknown 'F' output option %c, rest ignored\n", (int)s[0]); while (*++s && !isspace(*s)); break; } } break; case 'G': isgeom= True; qh_appendprint(qh_PRINTgeom); while (*s && !isspace(*s)) { switch (*s++) { case 'a': qh_option("Gall-points", NULL, NULL); qh PRINTdots= True; break; case 'c': qh_option("Gcentrums", NULL, NULL); qh PRINTcentrums= True; break; case 'h': qh_option("Gintersections", NULL, NULL); qh DOintersections= True; break; case 'i': qh_option("Ginner", NULL, NULL); qh PRINTinner= True; break; case 'n': qh_option("Gno-planes", NULL, NULL); qh PRINTnoplanes= True; break; case 'o': qh_option("Gouter", NULL, NULL); qh PRINTouter= True; break; case 'p': qh_option("Gpoints", NULL, NULL); qh PRINTcoplanar= True; break; case 'r': qh_option("Gridges", NULL, NULL); qh PRINTridges= True; break; case 't': qh_option("Gtransparent", NULL, NULL); qh PRINTtransparent= True; break; case 'v': qh_option("Gvertices", NULL, NULL); qh PRINTspheres= True; break; case 'D': if (!isdigit(*s)) qh_fprintf(qh ferr, 6035, "qhull input error: missing dimension for option 'GDn'\n"); else { if (qh DROPdim >= 0) qh_fprintf(qh ferr, 7013, "qhull warning: can only drop one dimension. Previous 'GD%d' ignored\n", qh DROPdim); qh DROPdim= qh_strtol(s, &s); qh_option("GDrop-dim", &qh DROPdim, NULL); } break; default: s--; qh_fprintf(qh ferr, 7014, "qhull warning: unknown 'G' print option %c, rest ignored\n", (int)s[0]); while (*++s && !isspace(*s)); break; } } break; case 'P': while (*s && !isspace(*s)) { switch (*s++) { case 'd': case 'D': /* see qh_initthresholds() */ key= s[-1]; i= qh_strtol(s, &s); r= 0; if (*s == ':') { s++; r= qh_strtod(s, &s); } if (key == 'd') qh_option("Pdrop-facets-dim-less", &i, &r); else qh_option("PDrop-facets-dim-more", &i, &r); break; case 'g': qh_option("Pgood-facets", NULL, NULL); qh PRINTgood= True; break; case 'G': qh_option("PGood-facet-neighbors", NULL, NULL); qh PRINTneighbors= True; break; case 'o': qh_option("Poutput-forced", NULL, NULL); qh FORCEoutput= True; break; case 'p': qh_option("Pprecision-ignore", NULL, NULL); qh PRINTprecision= False; break; case 'A': if (!isdigit(*s)) qh_fprintf(qh ferr, 6036, "qhull input error: missing facet count for keep area option 'PAn'\n"); else { qh KEEParea= qh_strtol(s, &s); qh_option("PArea-keep", &qh KEEParea, NULL); qh GETarea= True; } break; case 'F': if (!isdigit(*s)) qh_fprintf(qh ferr, 6037, "qhull input error: missing facet area for option 'PFn'\n"); else { qh KEEPminArea= qh_strtod(s, &s); qh_option("PFacet-area-keep", NULL, &qh KEEPminArea); qh GETarea= True; } break; case 'M': if (!isdigit(*s)) qh_fprintf(qh ferr, 6038, "qhull input error: missing merge count for option 'PMn'\n"); else { qh KEEPmerge= qh_strtol(s, &s); qh_option("PMerge-keep", &qh KEEPmerge, NULL); } break; default: s--; qh_fprintf(qh ferr, 7015, "qhull warning: unknown 'P' print option %c, rest ignored\n", (int)s[0]); while (*++s && !isspace(*s)); break; } } break; case 'Q': lastproject= -1; while (*s && !isspace(*s)) { switch (*s++) { case 'b': case 'B': /* handled by qh_initthresholds */ key= s[-1]; if (key == 'b' && *s == 'B') { s++; r= qh_DEFAULTbox; qh SCALEinput= True; qh_option("QbBound-unit-box", NULL, &r); break; } if (key == 'b' && *s == 'b') { s++; qh SCALElast= True; qh_option("Qbbound-last", NULL, NULL); break; } k= qh_strtol(s, &s); r= 0.0; wasproject= False; if (*s == ':') { s++; if ((r= qh_strtod(s, &s)) == 0.0) { t= s; /* need true dimension for memory allocation */ while (*t && !isspace(*t)) { if (toupper(*t++) == 'B' && k == qh_strtol(t, &t) && *t++ == ':' && qh_strtod(t, &t) == 0.0) { qh PROJECTinput++; trace2((qh ferr, 2004, "qh_initflags: project dimension %d\n", k)); qh_option("Qb-project-dim", &k, NULL); wasproject= True; lastproject= k; break; } } } } if (!wasproject) { if (lastproject == k && r == 0.0) lastproject= -1; /* doesn't catch all possible sequences */ else if (key == 'b') { qh SCALEinput= True; if (r == 0.0) r= -qh_DEFAULTbox; qh_option("Qbound-dim-low", &k, &r); }else { qh SCALEinput= True; if (r == 0.0) r= qh_DEFAULTbox; qh_option("QBound-dim-high", &k, &r); } } break; case 'c': qh_option("Qcoplanar-keep", NULL, NULL); qh KEEPcoplanar= True; break; case 'f': qh_option("Qfurthest-outside", NULL, NULL); qh BESToutside= True; break; case 'g': qh_option("Qgood-facets-only", NULL, NULL); qh ONLYgood= True; break; case 'i': qh_option("Qinterior-keep", NULL, NULL); qh KEEPinside= True; break; case 'm': qh_option("Qmax-outside-only", NULL, NULL); qh ONLYmax= True; break; case 'r': qh_option("Qrandom-outside", NULL, NULL); qh RANDOMoutside= True; break; case 's': qh_option("Qsearch-initial-simplex", NULL, NULL); qh ALLpoints= True; break; case 't': qh_option("Qtriangulate", NULL, NULL); qh TRIangulate= True; break; case 'T': qh_option("QTestPoints", NULL, NULL); if (!isdigit(*s)) qh_fprintf(qh ferr, 6039, "qhull input error: missing number of test points for option 'QTn'\n"); else { qh TESTpoints= qh_strtol(s, &s); qh_option("QTestPoints", &qh TESTpoints, NULL); } break; case 'u': qh_option("QupperDelaunay", NULL, NULL); qh UPPERdelaunay= True; break; case 'v': qh_option("Qvertex-neighbors-convex", NULL, NULL); qh TESTvneighbors= True; break; case 'x': qh_option("Qxact-merge", NULL, NULL); qh MERGEexact= True; break; case 'z': qh_option("Qz-infinity-point", NULL, NULL); qh ATinfinity= True; break; case '0': qh_option("Q0-no-premerge", NULL, NULL); qh NOpremerge= True; break; case '1': if (!isdigit(*s)) { qh_option("Q1-no-angle-sort", NULL, NULL); qh ANGLEmerge= False; break; } switch (*s++) { case '0': qh_option("Q10-no-narrow", NULL, NULL); qh NOnarrow= True; break; case '1': qh_option("Q11-trinormals Qtriangulate", NULL, NULL); qh TRInormals= True; qh TRIangulate= True; break; default: s--; qh_fprintf(qh ferr, 7016, "qhull warning: unknown 'Q' qhull option 1%c, rest ignored\n", (int)s[0]); while (*++s && !isspace(*s)); break; } break; case '2': qh_option("Q2-no-merge-independent", NULL, NULL); qh MERGEindependent= False; goto LABELcheckdigit; break; /* no warnings */ case '3': qh_option("Q3-no-merge-vertices", NULL, NULL); qh MERGEvertices= False; LABELcheckdigit: if (isdigit(*s)) qh_fprintf(qh ferr, 7017, "qhull warning: can not follow '1', '2', or '3' with a digit. '%c' skipped.\n", *s++); break; case '4': qh_option("Q4-avoid-old-into-new", NULL, NULL); qh AVOIDold= True; break; case '5': qh_option("Q5-no-check-outer", NULL, NULL); qh SKIPcheckmax= True; break; case '6': qh_option("Q6-no-concave-merge", NULL, NULL); qh SKIPconvex= True; break; case '7': qh_option("Q7-no-breadth-first", NULL, NULL); qh VIRTUALmemory= True; break; case '8': qh_option("Q8-no-near-inside", NULL, NULL); qh NOnearinside= True; break; case '9': qh_option("Q9-pick-furthest", NULL, NULL); qh PICKfurthest= True; break; case 'G': i= qh_strtol(s, &t); if (qh GOODpoint) qh_fprintf(qh ferr, 7018, "qhull warning: good point already defined for option 'QGn'. Ignored\n"); else if (s == t) qh_fprintf(qh ferr, 7019, "qhull warning: missing good point id for option 'QGn'. Ignored\n"); else if (i < 0 || *s == '-') { qh GOODpoint= i-1; qh_option("QGood-if-dont-see-point", &i, NULL); }else { qh GOODpoint= i+1; qh_option("QGood-if-see-point", &i, NULL); } s= t; break; case 'J': if (!isdigit(*s) && *s != '-') qh JOGGLEmax= 0.0; else { qh JOGGLEmax= (realT) qh_strtod(s, &s); qh_option("QJoggle", NULL, &qh JOGGLEmax); } break; case 'R': if (!isdigit(*s) && *s != '-') qh_fprintf(qh ferr, 7020, "qhull warning: missing random seed for option 'QRn'. Ignored\n"); else { qh ROTATErandom= i= qh_strtol(s, &s); if (i > 0) qh_option("QRotate-id", &i, NULL ); else if (i < -1) qh_option("QRandom-seed", &i, NULL ); } break; case 'V': i= qh_strtol(s, &t); if (qh GOODvertex) qh_fprintf(qh ferr, 7021, "qhull warning: good vertex already defined for option 'QVn'. Ignored\n"); else if (s == t) qh_fprintf(qh ferr, 7022, "qhull warning: no good point id given for option 'QVn'. Ignored\n"); else if (i < 0) { qh GOODvertex= i - 1; qh_option("QV-good-facets-not-point", &i, NULL); }else { qh_option("QV-good-facets-point", &i, NULL); qh GOODvertex= i + 1; } s= t; break; default: s--; qh_fprintf(qh ferr, 7023, "qhull warning: unknown 'Q' qhull option %c, rest ignored\n", (int)s[0]); while (*++s && !isspace(*s)); break; } } break; case 'T': while (*s && !isspace(*s)) { if (isdigit(*s) || *s == '-') qh IStracing= qh_strtol(s, &s); else switch (*s++) { case 'a': qh_option("Tannotate-output", NULL, NULL); qh ANNOTATEoutput= True; break; case 'c': qh_option("Tcheck-frequently", NULL, NULL); qh CHECKfrequently= True; break; case 's': qh_option("Tstatistics", NULL, NULL); qh PRINTstatistics= True; break; case 'v': qh_option("Tverify", NULL, NULL); qh VERIFYoutput= True; break; case 'z': if (qh ferr == qh_FILEstderr) { /* The C++ interface captures the output in qh_fprint_qhull() */ qh_option("Tz-stdout", NULL, NULL); qh USEstdout= True; }else if (!qh fout) qh_fprintf(qh ferr, 7024, "qhull warning: output file undefined(stdout). Option 'Tz' ignored.\n"); else { qh_option("Tz-stdout", NULL, NULL); qh USEstdout= True; qh ferr= qh fout; qhmem.ferr= qh fout; } break; case 'C': if (!isdigit(*s)) qh_fprintf(qh ferr, 7025, "qhull warning: missing point id for cone for trace option 'TCn'. Ignored\n"); else { i= qh_strtol(s, &s); qh_option("TCone-stop", &i, NULL); qh STOPcone= i + 1; } break; case 'F': if (!isdigit(*s)) qh_fprintf(qh ferr, 7026, "qhull warning: missing frequency count for trace option 'TFn'. Ignored\n"); else { qh REPORTfreq= qh_strtol(s, &s); qh_option("TFacet-log", &qh REPORTfreq, NULL); qh REPORTfreq2= qh REPORTfreq/2; /* for tracemerging() */ } break; case 'I': if (!isspace(*s)) qh_fprintf(qh ferr, 7027, "qhull warning: missing space between 'TI' and filename, %s\n", s); while (isspace(*s)) s++; t= qh_skipfilename(s); { char filename[qh_FILENAMElen]; qh_copyfilename(filename, (int)sizeof(filename), s, (int)(t-s)); /* WARN64 */ s= t; if (!freopen(filename, "r", stdin)) { qh_fprintf(qh ferr, 6041, "qhull error: could not open file \"%s\".", filename); qh_errexit(qh_ERRinput, NULL, NULL); }else { qh_option("TInput-file", NULL, NULL); qh_option(filename, NULL, NULL); } } break; case 'O': if (!isspace(*s)) qh_fprintf(qh ferr, 7028, "qhull warning: missing space between 'TO' and filename, %s\n", s); while (isspace(*s)) s++; t= qh_skipfilename(s); { char filename[qh_FILENAMElen]; qh_copyfilename(filename, (int)sizeof(filename), s, (int)(t-s)); /* WARN64 */ s= t; if (!freopen(filename, "w", stdout)) { qh_fprintf(qh ferr, 6044, "qhull error: could not open file \"%s\".", filename); qh_errexit(qh_ERRinput, NULL, NULL); }else { qh_option("TOutput-file", NULL, NULL); qh_option(filename, NULL, NULL); } } break; case 'P': if (!isdigit(*s)) qh_fprintf(qh ferr, 7029, "qhull warning: missing point id for trace option 'TPn'. Ignored\n"); else { qh TRACEpoint= qh_strtol(s, &s); qh_option("Trace-point", &qh TRACEpoint, NULL); } break; case 'M': if (!isdigit(*s)) qh_fprintf(qh ferr, 7030, "qhull warning: missing merge id for trace option 'TMn'. Ignored\n"); else { qh TRACEmerge= qh_strtol(s, &s); qh_option("Trace-merge", &qh TRACEmerge, NULL); } break; case 'R': if (!isdigit(*s)) qh_fprintf(qh ferr, 7031, "qhull warning: missing rerun count for trace option 'TRn'. Ignored\n"); else { qh RERUN= qh_strtol(s, &s); qh_option("TRerun", &qh RERUN, NULL); } break; case 'V': i= qh_strtol(s, &t); if (s == t) qh_fprintf(qh ferr, 7032, "qhull warning: missing furthest point id for trace option 'TVn'. Ignored\n"); else if (i < 0) { qh STOPpoint= i - 1; qh_option("TV-stop-before-point", &i, NULL); }else { qh STOPpoint= i + 1; qh_option("TV-stop-after-point", &i, NULL); } s= t; break; case 'W': if (!isdigit(*s)) qh_fprintf(qh ferr, 7033, "qhull warning: missing max width for trace option 'TWn'. Ignored\n"); else { qh TRACEdist= (realT) qh_strtod(s, &s); qh_option("TWide-trace", NULL, &qh TRACEdist); } break; default: s--; qh_fprintf(qh ferr, 7034, "qhull warning: unknown 'T' trace option %c, rest ignored\n", (int)s[0]); while (*++s && !isspace(*s)); break; } } break; default: qh_fprintf(qh ferr, 7035, "qhull warning: unknown flag %c(%x)\n", (int)s[-1], (int)s[-1]); break; } if (s-1 == prev_s && *s && !isspace(*s)) { qh_fprintf(qh ferr, 7036, "qhull warning: missing space after flag %c(%x); reserved for menu. Skipped.\n", (int)*prev_s, (int)*prev_s); while (*s && !isspace(*s)) s++; } } if (qh STOPcone && qh JOGGLEmax < REALmax/2) qh_fprintf(qh ferr, 7078, "qhull warning: 'TCn' (stopCone) ignored when used with 'QJn' (joggle)\n"); if (isgeom && !qh FORCEoutput && qh PRINTout[1]) qh_fprintf(qh ferr, 7037, "qhull warning: additional output formats are not compatible with Geomview\n"); /* set derived values in qh_initqhull_globals */ } /* initflags */ /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="initqhull_buffers">-</a> qh_initqhull_buffers() initialize global memory buffers notes: must match qh_freebuffers() */ void qh_initqhull_buffers(void) { int k; qh TEMPsize= (qhmem.LASTsize - sizeof(setT))/SETelemsize; if (qh TEMPsize <= 0 || qh TEMPsize > qhmem.LASTsize) qh TEMPsize= 8; /* e.g., if qh_NOmem */ qh other_points= qh_setnew(qh TEMPsize); qh del_vertices= qh_setnew(qh TEMPsize); qh coplanarfacetset= qh_setnew(qh TEMPsize); qh NEARzero= (realT *)qh_memalloc(qh hull_dim * sizeof(realT)); qh lower_threshold= (realT *)qh_memalloc((qh input_dim+1) * sizeof(realT)); qh upper_threshold= (realT *)qh_memalloc((qh input_dim+1) * sizeof(realT)); qh lower_bound= (realT *)qh_memalloc((qh input_dim+1) * sizeof(realT)); qh upper_bound= (realT *)qh_memalloc((qh input_dim+1) * sizeof(realT)); for (k=qh input_dim+1; k--; ) { /* duplicated in qh_initqhull_buffers and qh_clear_outputflags */ qh lower_threshold[k]= -REALmax; qh upper_threshold[k]= REALmax; qh lower_bound[k]= -REALmax; qh upper_bound[k]= REALmax; } qh gm_matrix= (coordT *)qh_memalloc((qh hull_dim+1) * qh hull_dim * sizeof(coordT)); qh gm_row= (coordT **)qh_memalloc((qh hull_dim+1) * sizeof(coordT *)); } /* initqhull_buffers */ /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="initqhull_globals">-</a> qh_initqhull_globals( points, numpoints, dim, ismalloc ) initialize globals if ismalloc points were malloc'd and qhull should free at end returns: sets qh.first_point, num_points, input_dim, hull_dim and others seeds random number generator (seed=1 if tracing) modifies qh.hull_dim if ((qh.DELAUNAY and qh.PROJECTdelaunay) or qh.PROJECTinput) adjust user flags as needed also checks DIM3 dependencies and constants notes: do not use qh_point() since an input transformation may move them elsewhere see: qh_initqhull_start() sets default values for non-zero globals design: initialize points array from input arguments test for qh.ZEROcentrum (i.e., use opposite vertex instead of centrum for convexity testing) initialize qh.CENTERtype, qh.normal_size, qh.center_size, qh.TRACEpoint/level, initialize and test random numbers qh_initqhull_outputflags() -- adjust and test output flags */ void qh_initqhull_globals(coordT *points, int numpoints, int dim, boolT ismalloc) { int seed, pointsneeded, extra= 0, i, randi, k; realT randr; realT factorial; time_t timedata = 0; trace0((qh ferr, 13, "qh_initqhull_globals: for %s | %s\n", qh rbox_command, qh qhull_command)); qh POINTSmalloc= ismalloc; qh first_point= points; qh num_points= numpoints; qh hull_dim= qh input_dim= dim; if (!qh NOpremerge && !qh MERGEexact && !qh PREmerge && qh JOGGLEmax > REALmax/2) { qh MERGING= True; if (qh hull_dim <= 4) { qh PREmerge= True; qh_option("_pre-merge", NULL, NULL); }else { qh MERGEexact= True; qh_option("Qxact_merge", NULL, NULL); } }else if (qh MERGEexact) qh MERGING= True; if (!qh NOpremerge && qh JOGGLEmax > REALmax/2) { #ifdef qh_NOmerge qh JOGGLEmax= 0.0; #endif } if (qh TRIangulate && qh JOGGLEmax < REALmax/2 && qh PRINTprecision) qh_fprintf(qh ferr, 7038, "qhull warning: joggle('QJ') always produces simplicial output. Triangulated output('Qt') does nothing.\n"); if (qh JOGGLEmax < REALmax/2 && qh DELAUNAY && !qh SCALEinput && !qh SCALElast) { qh SCALElast= True; qh_option("Qbbound-last-qj", NULL, NULL); } if (qh MERGING && !qh POSTmerge && qh premerge_cos > REALmax/2 && qh premerge_centrum == 0) { qh ZEROcentrum= True; qh ZEROall_ok= True; qh_option("_zero-centrum", NULL, NULL); } if (qh JOGGLEmax < REALmax/2 && REALepsilon > 2e-8 && qh PRINTprecision) qh_fprintf(qh ferr, 7039, "qhull warning: real epsilon, %2.2g, is probably too large for joggle('QJn')\nRecompile with double precision reals(see user.h).\n", REALepsilon); #ifdef qh_NOmerge if (qh MERGING) { qh_fprintf(qh ferr, 6045, "qhull input error: merging not installed(qh_NOmerge + 'Qx', 'Cn' or 'An')\n"); qh_errexit(qh_ERRinput, NULL, NULL); } #endif if (qh DELAUNAY && qh KEEPcoplanar && !qh KEEPinside) { qh KEEPinside= True; qh_option("Qinterior-keep", NULL, NULL); } if (qh DELAUNAY && qh HALFspace) { qh_fprintf(qh ferr, 6046, "qhull input error: can not use Delaunay('d') or Voronoi('v') with halfspace intersection('H')\n"); qh_errexit(qh_ERRinput, NULL, NULL); } if (!qh DELAUNAY && (qh UPPERdelaunay || qh ATinfinity)) { qh_fprintf(qh ferr, 6047, "qhull input error: use upper-Delaunay('Qu') or infinity-point('Qz') with Delaunay('d') or Voronoi('v')\n"); qh_errexit(qh_ERRinput, NULL, NULL); } if (qh UPPERdelaunay && qh ATinfinity) { qh_fprintf(qh ferr, 6048, "qhull input error: can not use infinity-point('Qz') with upper-Delaunay('Qu')\n"); qh_errexit(qh_ERRinput, NULL, NULL); } if (qh SCALElast && !qh DELAUNAY && qh PRINTprecision) qh_fprintf(qh ferr, 7040, "qhull input warning: option 'Qbb' (scale-last-coordinate) is normally used with 'd' or 'v'\n"); qh DOcheckmax= (!qh SKIPcheckmax && qh MERGING ); qh KEEPnearinside= (qh DOcheckmax && !(qh KEEPinside && qh KEEPcoplanar) && !qh NOnearinside); if (qh MERGING) qh CENTERtype= qh_AScentrum; else if (qh VORONOI) qh CENTERtype= qh_ASvoronoi; if (qh TESTvneighbors && !qh MERGING) { qh_fprintf(qh ferr, 6049, "qhull input error: test vertex neighbors('Qv') needs a merge option\n"); qh_errexit(qh_ERRinput, NULL ,NULL); } if (qh PROJECTinput || (qh DELAUNAY && qh PROJECTdelaunay)) { qh hull_dim -= qh PROJECTinput; if (qh DELAUNAY) { qh hull_dim++; if (qh ATinfinity) extra= 1; } } if (qh hull_dim <= 1) { qh_fprintf(qh ferr, 6050, "qhull error: dimension %d must be > 1\n", qh hull_dim); qh_errexit(qh_ERRinput, NULL, NULL); } for (k=2, factorial=1.0; k < qh hull_dim; k++) factorial *= k; qh AREAfactor= 1.0 / factorial; trace2((qh ferr, 2005, "qh_initqhull_globals: initialize globals. dim %d numpoints %d malloc? %d projected %d to hull_dim %d\n", dim, numpoints, ismalloc, qh PROJECTinput, qh hull_dim)); qh normal_size= qh hull_dim * sizeof(coordT); qh center_size= qh normal_size - sizeof(coordT); pointsneeded= qh hull_dim+1; if (qh hull_dim > qh_DIMmergeVertex) { qh MERGEvertices= False; qh_option("Q3-no-merge-vertices-dim-high", NULL, NULL); } if (qh GOODpoint) pointsneeded++; #ifdef qh_NOtrace if (qh IStracing) { qh_fprintf(qh ferr, 6051, "qhull input error: tracing is not installed(qh_NOtrace in user.h)"); qh_errexit(qh_ERRqhull, NULL, NULL); } #endif if (qh RERUN > 1) { qh TRACElastrun= qh IStracing; /* qh_build_withrestart duplicates next conditional */ if (qh IStracing != -1) qh IStracing= 0; }else if (qh TRACEpoint != -1 || qh TRACEdist < REALmax/2 || qh TRACEmerge) { qh TRACElevel= (qh IStracing? qh IStracing : 3); qh IStracing= 0; } if (qh ROTATErandom == 0 || qh ROTATErandom == -1) { seed= (int)time(&timedata); if (qh ROTATErandom == -1) { seed= -seed; qh_option("QRandom-seed", &seed, NULL ); }else qh_option("QRotate-random", &seed, NULL); qh ROTATErandom= seed; } seed= qh ROTATErandom; if (seed == INT_MIN) /* default value */ seed= 1; else if (seed < 0) seed= -seed; qh_RANDOMseed_(seed); randr= 0.0; for (i=1000; i--; ) { randi= qh_RANDOMint; randr += randi; if (randi > qh_RANDOMmax) { qh_fprintf(qh ferr, 8036, "\ qhull configuration error (qh_RANDOMmax in user.h):\n\ random integer %d > qh_RANDOMmax(%.8g)\n", randi, qh_RANDOMmax); qh_errexit(qh_ERRinput, NULL, NULL); } } qh_RANDOMseed_(seed); randr = randr/1000; if (randr < qh_RANDOMmax * 0.1 || randr > qh_RANDOMmax * 0.9) qh_fprintf(qh ferr, 8037, "\ qhull configuration warning (qh_RANDOMmax in user.h):\n\ average of 1000 random integers (%.2g) is much different than expected (%.2g).\n\ Is qh_RANDOMmax (%.2g) wrong?\n", randr, qh_RANDOMmax * 0.5, qh_RANDOMmax); qh RANDOMa= 2.0 * qh RANDOMfactor/qh_RANDOMmax; qh RANDOMb= 1.0 - qh RANDOMfactor; if (qh_HASHfactor < 1.1) { qh_fprintf(qh ferr, 6052, "qhull internal error (qh_initqhull_globals): qh_HASHfactor %d must be at least 1.1. Qhull uses linear hash probing\n", qh_HASHfactor); qh_errexit(qh_ERRqhull, NULL, NULL); } if (numpoints+extra < pointsneeded) { qh_fprintf(qh ferr, 6214, "qhull input error: not enough points(%d) to construct initial simplex (need %d)\n", numpoints, pointsneeded); qh_errexit(qh_ERRinput, NULL, NULL); } qh_initqhull_outputflags(); } /* initqhull_globals */ /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="initqhull_mem">-</a> qh_initqhull_mem( ) initialize mem.c for qhull qh.hull_dim and qh.normal_size determine some of the allocation sizes if qh.MERGING, includes ridgeT calls qh_user_memsizes() to add up to 10 additional sizes for quick allocation (see numsizes below) returns: mem.c already for qh_memalloc/qh_memfree (errors if called beforehand) notes: qh_produceoutput() prints memsizes */ void qh_initqhull_mem(void) { int numsizes; int i; numsizes= 8+10; qh_meminitbuffers(qh IStracing, qh_MEMalign, numsizes, qh_MEMbufsize,qh_MEMinitbuf); qh_memsize((int)sizeof(vertexT)); if (qh MERGING) { qh_memsize((int)sizeof(ridgeT)); qh_memsize((int)sizeof(mergeT)); } qh_memsize((int)sizeof(facetT)); i= sizeof(setT) + (qh hull_dim - 1) * SETelemsize; /* ridge.vertices */ qh_memsize(i); qh_memsize(qh normal_size); /* normal */ i += SETelemsize; /* facet.vertices, .ridges, .neighbors */ qh_memsize(i); qh_user_memsizes(); qh_memsetup(); } /* initqhull_mem */ /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="initqhull_outputflags">-</a> qh_initqhull_outputflags initialize flags concerned with output returns: adjust user flags as needed see: qh_clear_outputflags() resets the flags design: test for qh.PRINTgood (i.e., only print 'good' facets) check for conflicting print output options */ void qh_initqhull_outputflags(void) { boolT printgeom= False, printmath= False, printcoplanar= False; int i; trace3((qh ferr, 3024, "qh_initqhull_outputflags: %s\n", qh qhull_command)); if (!(qh PRINTgood || qh PRINTneighbors)) { if (qh KEEParea || qh KEEPminArea < REALmax/2 || qh KEEPmerge || qh DELAUNAY || (!qh ONLYgood && (qh GOODvertex || qh GOODpoint))) { qh PRINTgood= True; qh_option("Pgood", NULL, NULL); } } if (qh PRINTtransparent) { if (qh hull_dim != 4 || !qh DELAUNAY || qh VORONOI || qh DROPdim >= 0) { qh_fprintf(qh ferr, 6215, "qhull input error: transparent Delaunay('Gt') needs 3-d Delaunay('d') w/o 'GDn'\n"); qh_errexit(qh_ERRinput, NULL, NULL); } qh DROPdim = 3; qh PRINTridges = True; } for (i=qh_PRINTEND; i--; ) { if (qh PRINTout[i] == qh_PRINTgeom) printgeom= True; else if (qh PRINTout[i] == qh_PRINTmathematica || qh PRINTout[i] == qh_PRINTmaple) printmath= True; else if (qh PRINTout[i] == qh_PRINTcoplanars) printcoplanar= True; else if (qh PRINTout[i] == qh_PRINTpointnearest) printcoplanar= True; else if (qh PRINTout[i] == qh_PRINTpointintersect && !qh HALFspace) { qh_fprintf(qh ferr, 6053, "qhull input error: option 'Fp' is only used for \nhalfspace intersection('Hn,n,n').\n"); qh_errexit(qh_ERRinput, NULL, NULL); }else if (qh PRINTout[i] == qh_PRINTtriangles && (qh HALFspace || qh VORONOI)) { qh_fprintf(qh ferr, 6054, "qhull input error: option 'Ft' is not available for Voronoi vertices or halfspace intersection\n"); qh_errexit(qh_ERRinput, NULL, NULL); }else if (qh PRINTout[i] == qh_PRINTcentrums && qh VORONOI) { qh_fprintf(qh ferr, 6055, "qhull input error: option 'FC' is not available for Voronoi vertices('v')\n"); qh_errexit(qh_ERRinput, NULL, NULL); }else if (qh PRINTout[i] == qh_PRINTvertices) { if (qh VORONOI) qh_option("Fvoronoi", NULL, NULL); else qh_option("Fvertices", NULL, NULL); } } if (printcoplanar && qh DELAUNAY && qh JOGGLEmax < REALmax/2) { if (qh PRINTprecision) qh_fprintf(qh ferr, 7041, "qhull input warning: 'QJ' (joggle) will usually prevent coincident input sites for options 'Fc' and 'FP'\n"); } if (printmath && (qh hull_dim > 3 || qh VORONOI)) { qh_fprintf(qh ferr, 6056, "qhull input error: Mathematica and Maple output is only available for 2-d and 3-d convex hulls and 2-d Delaunay triangulations\n"); qh_errexit(qh_ERRinput, NULL, NULL); } if (printgeom) { if (qh hull_dim > 4) { qh_fprintf(qh ferr, 6057, "qhull input error: Geomview output is only available for 2-d, 3-d and 4-d\n"); qh_errexit(qh_ERRinput, NULL, NULL); } if (qh PRINTnoplanes && !(qh PRINTcoplanar + qh PRINTcentrums + qh PRINTdots + qh PRINTspheres + qh DOintersections + qh PRINTridges)) { qh_fprintf(qh ferr, 6058, "qhull input error: no output specified for Geomview\n"); qh_errexit(qh_ERRinput, NULL, NULL); } if (qh VORONOI && (qh hull_dim > 3 || qh DROPdim >= 0)) { qh_fprintf(qh ferr, 6059, "qhull input error: Geomview output for Voronoi diagrams only for 2-d\n"); qh_errexit(qh_ERRinput, NULL, NULL); } /* can not warn about furthest-site Geomview output: no lower_threshold */ if (qh hull_dim == 4 && qh DROPdim == -1 && (qh PRINTcoplanar || qh PRINTspheres || qh PRINTcentrums)) { qh_fprintf(qh ferr, 7042, "qhull input warning: coplanars, vertices, and centrums output not\n\ available for 4-d output(ignored). Could use 'GDn' instead.\n"); qh PRINTcoplanar= qh PRINTspheres= qh PRINTcentrums= False; } } if (!qh KEEPcoplanar && !qh KEEPinside && !qh ONLYgood) { if ((qh PRINTcoplanar && qh PRINTspheres) || printcoplanar) { if (qh QHULLfinished) { qh_fprintf(qh ferr, 7072, "qhull output warning: ignoring coplanar points, option 'Qc' was not set for the first run of qhull.\n"); }else { qh KEEPcoplanar = True; qh_option("Qcoplanar", NULL, NULL); } } } qh PRINTdim= qh hull_dim; if (qh DROPdim >=0) { /* after Geomview checks */ if (qh DROPdim < qh hull_dim) { qh PRINTdim--; if (!printgeom || qh hull_dim < 3) qh_fprintf(qh ferr, 7043, "qhull input warning: drop dimension 'GD%d' is only available for 3-d/4-d Geomview\n", qh DROPdim); }else qh DROPdim= -1; }else if (qh VORONOI) { qh DROPdim= qh hull_dim-1; qh PRINTdim= qh hull_dim-1; } } /* qh_initqhull_outputflags */ /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="initqhull_start">-</a> qh_initqhull_start( infile, outfile, errfile ) allocate memory if needed and call qh_initqhull_start2() */ void qh_initqhull_start(FILE *infile, FILE *outfile, FILE *errfile) { #if qh_QHpointer if (qh_qh) { qh_fprintf(errfile, 6205, "qhull error (qh_initqhull_start): qh_qh already defined. Call qh_save_qhull() first\n"); qh_exit(qh_ERRqhull); /* no error handler */ } if (!(qh_qh= (qhT *)qh_malloc(sizeof(qhT)))) { qh_fprintf(errfile, 6060, "qhull error (qh_initqhull_start): insufficient memory\n"); qh_exit(qh_ERRmem); /* no error handler */ } #endif qh_initstatistics(); qh_initqhull_start2(infile, outfile, errfile); } /* initqhull_start */ /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="initqhull_start2">-</a> qh_initqhull_start2( infile, outfile, errfile ) start initialization of qhull initialize statistics, stdio, default values for global variables assumes qh_qh is defined notes: report errors elsewhere, error handling and g_qhull_output [Qhull.cpp, QhullQh()] not in initialized see: qh_maxmin() determines the precision constants qh_freeqhull2() */ void qh_initqhull_start2(FILE *infile, FILE *outfile, FILE *errfile) { time_t timedata = 0; int seed; qh_CPUclock; /* start the clock(for qh_clock). One-shot. */ #if qh_QHpointer memset((char *)qh_qh, 0, sizeof(qhT)); /* every field is 0, FALSE, NULL */ #else memset((char *)&qh_qh, 0, sizeof(qhT)); #endif qh ANGLEmerge= True; qh DROPdim= -1; qh ferr= errfile; qh fin= infile; qh fout= outfile; qh furthest_id= -1; qh JOGGLEmax= REALmax; qh KEEPminArea = REALmax; qh last_low= REALmax; qh last_high= REALmax; qh last_newhigh= REALmax; qh max_outside= 0.0; qh max_vertex= 0.0; qh MAXabs_coord= 0.0; qh MAXsumcoord= 0.0; qh MAXwidth= -REALmax; qh MERGEindependent= True; qh MINdenom_1= fmax_(1.0/REALmax, REALmin); /* used by qh_scalepoints */ qh MINoutside= 0.0; qh MINvisible= REALmax; qh MAXcoplanar= REALmax; qh outside_err= REALmax; qh premerge_centrum= 0.0; qh premerge_cos= REALmax; qh PRINTprecision= True; qh PRINTradius= 0.0; qh postmerge_cos= REALmax; qh postmerge_centrum= 0.0; qh ROTATErandom= INT_MIN; qh MERGEvertices= True; qh totarea= 0.0; qh totvol= 0.0; qh TRACEdist= REALmax; qh TRACEpoint= -1; /* recompile or use 'TPn' */ qh tracefacet_id= UINT_MAX; /* recompile to trace a facet */ qh tracevertex_id= UINT_MAX; /* recompile to trace a vertex */ seed= (int)time(&timedata); qh_RANDOMseed_(seed); qh run_id= qh_RANDOMint+1; /* disallow 0 [UsingLibQhull::NOqhRunId] */ qh_option("run-id", &qh run_id, NULL); strcat(qh qhull, "qhull"); } /* initqhull_start2 */ /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="initthresholds">-</a> qh_initthresholds( commandString ) set thresholds for printing and scaling from commandString returns: sets qh.GOODthreshold or qh.SPLITthreshold if 'Pd0D1' used see: qh_initflags(), 'Qbk' 'QBk' 'Pdk' and 'PDk' qh_inthresholds() design: for each 'Pdn' or 'PDn' option check syntax set qh.lower_threshold or qh.upper_threshold set qh.GOODthreshold if an unbounded threshold is used set qh.SPLITthreshold if a bounded threshold is used */ void qh_initthresholds(char *command) { realT value; int idx, maxdim, k; char *s= command; /* non-const due to strtol */ char key; maxdim= qh input_dim; if (qh DELAUNAY && (qh PROJECTdelaunay || qh PROJECTinput)) maxdim++; while (*s) { if (*s == '-') s++; if (*s == 'P') { s++; while (*s && !isspace(key= *s++)) { if (key == 'd' || key == 'D') { if (!isdigit(*s)) { qh_fprintf(qh ferr, 7044, "qhull warning: no dimension given for Print option '%c' at: %s. Ignored\n", key, s-1); continue; } idx= qh_strtol(s, &s); if (idx >= qh hull_dim) { qh_fprintf(qh ferr, 7045, "qhull warning: dimension %d for Print option '%c' is >= %d. Ignored\n", idx, key, qh hull_dim); continue; } if (*s == ':') { s++; value= qh_strtod(s, &s); if (fabs((double)value) > 1.0) { qh_fprintf(qh ferr, 7046, "qhull warning: value %2.4g for Print option %c is > +1 or < -1. Ignored\n", value, key); continue; } }else value= 0.0; if (key == 'd') qh lower_threshold[idx]= value; else qh upper_threshold[idx]= value; } } }else if (*s == 'Q') { s++; while (*s && !isspace(key= *s++)) { if (key == 'b' && *s == 'B') { s++; for (k=maxdim; k--; ) { qh lower_bound[k]= -qh_DEFAULTbox; qh upper_bound[k]= qh_DEFAULTbox; } }else if (key == 'b' && *s == 'b') s++; else if (key == 'b' || key == 'B') { if (!isdigit(*s)) { qh_fprintf(qh ferr, 7047, "qhull warning: no dimension given for Qhull option %c. Ignored\n", key); continue; } idx= qh_strtol(s, &s); if (idx >= maxdim) { qh_fprintf(qh ferr, 7048, "qhull warning: dimension %d for Qhull option %c is >= %d. Ignored\n", idx, key, maxdim); continue; } if (*s == ':') { s++; value= qh_strtod(s, &s); }else if (key == 'b') value= -qh_DEFAULTbox; else value= qh_DEFAULTbox; if (key == 'b') qh lower_bound[idx]= value; else qh upper_bound[idx]= value; } } }else { while (*s && !isspace(*s)) s++; } while (isspace(*s)) s++; } for (k=qh hull_dim; k--; ) { if (qh lower_threshold[k] > -REALmax/2) { qh GOODthreshold= True; if (qh upper_threshold[k] < REALmax/2) { qh SPLITthresholds= True; qh GOODthreshold= False; break; } }else if (qh upper_threshold[k] < REALmax/2) qh GOODthreshold= True; } } /* initthresholds */ /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="option">-</a> qh_option( option, intVal, realVal ) add an option description to qh.qhull_options notes: NOerrors -- qh_option can not call qh_errexit() [qh_initqhull_start2] will be printed with statistics ('Ts') and errors strlen(option) < 40 */ void qh_option(const char *option, int *i, realT *r) { char buf[200]; int len, maxlen; sprintf(buf, " %s", option); if (i) sprintf(buf+strlen(buf), " %d", *i); if (r) sprintf(buf+strlen(buf), " %2.2g", *r); len= (int)strlen(buf); /* WARN64 */ qh qhull_optionlen += len; maxlen= sizeof(qh qhull_options) - len -1; maximize_(maxlen, 0); if (qh qhull_optionlen >= qh_OPTIONline && maxlen > 0) { qh qhull_optionlen= len; strncat(qh qhull_options, "\n", (size_t)(maxlen--)); } strncat(qh qhull_options, buf, (size_t)maxlen); } /* option */ #if qh_QHpointer /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="restore_qhull">-</a> qh_restore_qhull( oldqh ) restores a previously saved qhull also restores qh_qhstat and qhmem.tempstack Sets *oldqh to NULL notes: errors if current qhull hasn't been saved or freed uses qhmem for error reporting NOTE 1998/5/11: Freeing memory after qh_save_qhull and qh_restore_qhull is complicated. The procedures will be redesigned. see: qh_save_qhull(), UsingLibQhull */ void qh_restore_qhull(qhT **oldqh) { if (*oldqh && strcmp((*oldqh)->qhull, "qhull")) { qh_fprintf(qhmem.ferr, 6061, "qhull internal error (qh_restore_qhull): %p is not a qhull data structure\n", *oldqh); qh_errexit(qh_ERRqhull, NULL, NULL); } if (qh_qh) { qh_fprintf(qhmem.ferr, 6062, "qhull internal error (qh_restore_qhull): did not save or free existing qhull\n"); qh_errexit(qh_ERRqhull, NULL, NULL); } if (!*oldqh || !(*oldqh)->old_qhstat) { qh_fprintf(qhmem.ferr, 6063, "qhull internal error (qh_restore_qhull): did not previously save qhull %p\n", *oldqh); qh_errexit(qh_ERRqhull, NULL, NULL); } qh_qh= *oldqh; *oldqh= NULL; qh_qhstat= qh old_qhstat; qhmem.tempstack= qh old_tempstack; qh old_qhstat= 0; qh old_tempstack= 0; trace1((qh ferr, 1007, "qh_restore_qhull: restored qhull from %p\n", *oldqh)); } /* restore_qhull */ /*-<a href="qh-globa.htm#TOC" >-------------------------------</a><a name="save_qhull">-</a> qh_save_qhull( ) saves qhull for a later qh_restore_qhull also saves qh_qhstat and qhmem.tempstack returns: qh_qh=NULL notes: need to initialize qhull or call qh_restore_qhull before continuing NOTE 1998/5/11: Freeing memory after qh_save_qhull and qh_restore_qhull is complicated. The procedures will be redesigned. see: qh_restore_qhull() */ qhT *qh_save_qhull(void) { qhT *oldqh; trace1((qhmem.ferr, 1045, "qh_save_qhull: save qhull %p\n", qh_qh)); if (!qh_qh) { qh_fprintf(qhmem.ferr, 6064, "qhull internal error (qh_save_qhull): qhull not initialized\n"); qh_errexit(qh_ERRqhull, NULL, NULL); } qh old_qhstat= qh_qhstat; qh_qhstat= NULL; qh old_tempstack= qhmem.tempstack; qhmem.tempstack= NULL; oldqh= qh_qh; qh_qh= NULL; return oldqh; } /* save_qhull */ #endif