/*
--------------------------------- stat_r.c contains all statistics that are collected for qhull see qh-stat_r.htm and stat_r.h Copyright (c) 1993-2015 The Geometry Center. $Id: //main/2015/qhull/src/libqhull_r/stat_r.c#5 $$Change: 2062 $ $DateTime: 2016/01/17 13:13:18 $$Author: bbarber $ */ #include "qhull_ra.h" /*========== functions in alphabetic order ================*/ /*--------------------------------- qh_allstatA() define statistics in groups of 20 notes: (otherwise, 'gcc -O2' uses too much memory) uses qhstat.next */ void qh_allstatA(qhT *qh) { /* zdef_(type,name,doc,average) */ zzdef_(zdoc, Zdoc2, "precision statistics", -1); zdef_(zinc, Znewvertex, NULL, -1); zdef_(wadd, Wnewvertex, "ave. distance of a new vertex to a facet(!0s)", Znewvertex); zzdef_(wmax, Wnewvertexmax, "max. distance of a new vertex to a facet", -1); zdef_(wmax, Wvertexmax, "max. distance of an output vertex to a facet", -1); zdef_(wmin, Wvertexmin, "min. distance of an output vertex to a facet", -1); zdef_(wmin, Wmindenom, "min. denominator in hyperplane computation", -1); qh->qhstat.precision= qh->qhstat.next; /* call qh_precision for each of these */ zzdef_(zdoc, Zdoc3, "precision problems (corrected unless 'Q0' or an error)", -1); zzdef_(zinc, Zcoplanarridges, "coplanar half ridges in output", -1); zzdef_(zinc, Zconcaveridges, "concave half ridges in output", -1); zzdef_(zinc, Zflippedfacets, "flipped facets", -1); zzdef_(zinc, Zcoplanarhorizon, "coplanar horizon facets for new vertices", -1); zzdef_(zinc, Zcoplanarpart, "coplanar points during partitioning", -1); zzdef_(zinc, Zminnorm, "degenerate hyperplanes recomputed with gaussian elimination", -1); zzdef_(zinc, Znearlysingular, "nearly singular or axis-parallel hyperplanes", -1); zzdef_(zinc, Zback0, "zero divisors during back substitute", -1); zzdef_(zinc, Zgauss0, "zero divisors during gaussian elimination", -1); zzdef_(zinc, Zmultiridge, "ridges with multiple neighbors", -1); } void qh_allstatB(qhT *qh) { zzdef_(zdoc, Zdoc1, "summary information", -1); zdef_(zinc, Zvertices, "number of vertices in output", -1); zdef_(zinc, Znumfacets, "number of facets in output", -1); zdef_(zinc, Znonsimplicial, "number of non-simplicial facets in output", -1); zdef_(zinc, Znowsimplicial, "number of simplicial facets that were merged", -1); zdef_(zinc, Znumridges, "number of ridges in output", -1); zdef_(zadd, Znumridges, "average number of ridges per facet", Znumfacets); zdef_(zmax, Zmaxridges, "maximum number of ridges", -1); zdef_(zadd, Znumneighbors, "average number of neighbors per facet", Znumfacets); zdef_(zmax, Zmaxneighbors, "maximum number of neighbors", -1); zdef_(zadd, Znumvertices, "average number of vertices per facet", Znumfacets); zdef_(zmax, Zmaxvertices, "maximum number of vertices", -1); zdef_(zadd, Znumvneighbors, "average number of neighbors per vertex", Zvertices); zdef_(zmax, Zmaxvneighbors, "maximum number of neighbors", -1); zdef_(wadd, Wcpu, "cpu seconds for qhull after input", -1); zdef_(zinc, Ztotvertices, "vertices created altogether", -1); zzdef_(zinc, Zsetplane, "facets created altogether", -1); zdef_(zinc, Ztotridges, "ridges created altogether", -1); zdef_(zinc, Zpostfacets, "facets before post merge", -1); zdef_(zadd, Znummergetot, "average merges per facet(at most 511)", Znumfacets); zdef_(zmax, Znummergemax, " maximum merges for a facet(at most 511)", -1); zdef_(zinc, Zangle, NULL, -1); zdef_(wadd, Wangle, "average angle(cosine) of facet normals for all ridges", Zangle); zdef_(wmax, Wanglemax, " maximum angle(cosine) of facet normals across a ridge", -1); zdef_(wmin, Wanglemin, " minimum angle(cosine) of facet normals across a ridge", -1); zdef_(wadd, Wareatot, "total area of facets", -1); zdef_(wmax, Wareamax, " maximum facet area", -1); zdef_(wmin, Wareamin, " minimum facet area", -1); } void qh_allstatC(qhT *qh) { zdef_(zdoc, Zdoc9, "build hull statistics", -1); zzdef_(zinc, Zprocessed, "points processed", -1); zzdef_(zinc, Zretry, "retries due to precision problems", -1); zdef_(wmax, Wretrymax, " max. random joggle", -1); zdef_(zmax, Zmaxvertex, "max. vertices at any one time", -1); zdef_(zinc, Ztotvisible, "ave. visible facets per iteration", Zprocessed); zdef_(zinc, Zinsidevisible, " ave. visible facets without an horizon neighbor", Zprocessed); zdef_(zadd, Zvisfacettot, " ave. facets deleted per iteration", Zprocessed); zdef_(zmax, Zvisfacetmax, " maximum", -1); zdef_(zadd, Zvisvertextot, "ave. visible vertices per iteration", Zprocessed); zdef_(zmax, Zvisvertexmax, " maximum", -1); zdef_(zinc, Ztothorizon, "ave. horizon facets per iteration", Zprocessed); zdef_(zadd, Znewfacettot, "ave. new or merged facets per iteration", Zprocessed); zdef_(zmax, Znewfacetmax, " maximum(includes initial simplex)", -1); zdef_(wadd, Wnewbalance, "average new facet balance", Zprocessed); zdef_(wadd, Wnewbalance2, " standard deviation", -1); zdef_(wadd, Wpbalance, "average partition balance", Zpbalance); zdef_(wadd, Wpbalance2, " standard deviation", -1); zdef_(zinc, Zpbalance, " number of trials", -1); zdef_(zinc, Zsearchpoints, "searches of all points for initial simplex", -1); zdef_(zinc, Zdetsimplex, "determinants computed(area & initial hull)", -1); zdef_(zinc, Znoarea, "determinants not computed because vertex too low", -1); zdef_(zinc, Znotmax, "points ignored(!above max_outside)", -1); zdef_(zinc, Znotgood, "points ignored(!above a good facet)", -1); zdef_(zinc, Znotgoodnew, "points ignored(didn't create a good new facet)", -1); zdef_(zinc, Zgoodfacet, "good facets found", -1); zzdef_(zinc, Znumvisibility, "distance tests for facet visibility", -1); zdef_(zinc, Zdistvertex, "distance tests to report minimum vertex", -1); zzdef_(zinc, Ztotcheck, "points checked for facets' outer planes", -1); zzdef_(zinc, Zcheckpart, " ave. distance tests per check", Ztotcheck); } void qh_allstatD(qhT *qh) { zdef_(zinc, Zvisit, "resets of visit_id", -1); zdef_(zinc, Zvvisit, " resets of vertex_visit", -1); zdef_(zmax, Zvisit2max, " max visit_id/2", -1); zdef_(zmax, Zvvisit2max, " max vertex_visit/2", -1); zdef_(zdoc, Zdoc4, "partitioning statistics(see previous for outer planes)", -1); zzdef_(zadd, Zdelvertextot, "total vertices deleted", -1); zdef_(zmax, Zdelvertexmax, " maximum vertices deleted per iteration", -1); zdef_(zinc, Zfindbest, "calls to findbest", -1); zdef_(zadd, Zfindbesttot, " ave. facets tested", Zfindbest); zdef_(zmax, Zfindbestmax, " max. facets tested", -1); zdef_(zadd, Zfindcoplanar, " ave. coplanar search", Zfindbest); zdef_(zinc, Zfindnew, "calls to findbestnew", -1); zdef_(zadd, Zfindnewtot, " ave. facets tested", Zfindnew); zdef_(zmax, Zfindnewmax, " max. facets tested", -1); zdef_(zinc, Zfindnewjump, " ave. clearly better", Zfindnew); zdef_(zinc, Zfindnewsharp, " calls due to qh_sharpnewfacets", -1); zdef_(zinc, Zfindhorizon, "calls to findhorizon", -1); zdef_(zadd, Zfindhorizontot, " ave. facets tested", Zfindhorizon); zdef_(zmax, Zfindhorizonmax, " max. facets tested", -1); zdef_(zinc, Zfindjump, " ave. clearly better", Zfindhorizon); zdef_(zinc, Zparthorizon, " horizon facets better than bestfacet", -1); zdef_(zinc, Zpartangle, "angle tests for repartitioned coplanar points", -1); zdef_(zinc, Zpartflip, " repartitioned coplanar points for flipped orientation", -1); } void qh_allstatE(qhT *qh) { zdef_(zinc, Zpartinside, "inside points", -1); zdef_(zinc, Zpartnear, " inside points kept with a facet", -1); zdef_(zinc, Zcoplanarinside, " inside points that were coplanar with a facet", -1); zdef_(zinc, Zbestlower, "calls to findbestlower", -1); zdef_(zinc, Zbestlowerv, " with search of vertex neighbors", -1); zdef_(zinc, Zbestlowerall, " with rare search of all facets", -1); zdef_(zmax, Zbestloweralln, " facets per search of all facets", -1); zdef_(wadd, Wmaxout, "difference in max_outside at final check", -1); zzdef_(zinc, Zpartitionall, "distance tests for initial partition", -1); zdef_(zinc, Ztotpartition, "partitions of a point", -1); zzdef_(zinc, Zpartition, "distance tests for partitioning", -1); zzdef_(zinc, Zdistcheck, "distance tests for checking flipped facets", -1); zzdef_(zinc, Zdistconvex, "distance tests for checking convexity", -1); zdef_(zinc, Zdistgood, "distance tests for checking good point", -1); zdef_(zinc, Zdistio, "distance tests for output", -1); zdef_(zinc, Zdiststat, "distance tests for statistics", -1); zdef_(zinc, Zdistplane, "total number of distance tests", -1); zdef_(zinc, Ztotpartcoplanar, "partitions of coplanar points or deleted vertices", -1); zzdef_(zinc, Zpartcoplanar, " distance tests for these partitions", -1); zdef_(zinc, Zcomputefurthest, "distance tests for computing furthest", -1); } void qh_allstatE2(qhT *qh) { zdef_(zdoc, Zdoc5, "statistics for matching ridges", -1); zdef_(zinc, Zhashlookup, "total lookups for matching ridges of new facets", -1); zdef_(zinc, Zhashtests, "average number of tests to match a ridge", Zhashlookup); zdef_(zinc, Zhashridge, "total lookups of subridges(duplicates and boundary)", -1); zdef_(zinc, Zhashridgetest, "average number of tests per subridge", Zhashridge); zdef_(zinc, Zdupsame, "duplicated ridges in same merge cycle", -1); zdef_(zinc, Zdupflip, "duplicated ridges with flipped facets", -1); zdef_(zdoc, Zdoc6, "statistics for determining merges", -1); zdef_(zinc, Zangletests, "angles computed for ridge convexity", -1); zdef_(zinc, Zbestcentrum, "best merges used centrum instead of vertices",-1); zzdef_(zinc, Zbestdist, "distance tests for best merge", -1); zzdef_(zinc, Zcentrumtests, "distance tests for centrum convexity", -1); zzdef_(zinc, Zdistzero, "distance tests for checking simplicial convexity", -1); zdef_(zinc, Zcoplanarangle, "coplanar angles in getmergeset", -1); zdef_(zinc, Zcoplanarcentrum, "coplanar centrums in getmergeset", -1); zdef_(zinc, Zconcaveridge, "concave ridges in getmergeset", -1); } void qh_allstatF(qhT *qh) { zdef_(zdoc, Zdoc7, "statistics for merging", -1); zdef_(zinc, Zpremergetot, "merge iterations", -1); zdef_(zadd, Zmergeinittot, "ave. initial non-convex ridges per iteration", Zpremergetot); zdef_(zadd, Zmergeinitmax, " maximum", -1); zdef_(zadd, Zmergesettot, " ave. additional non-convex ridges per iteration", Zpremergetot); zdef_(zadd, Zmergesetmax, " maximum additional in one pass", -1); zdef_(zadd, Zmergeinittot2, "initial non-convex ridges for post merging", -1); zdef_(zadd, Zmergesettot2, " additional non-convex ridges", -1); zdef_(wmax, Wmaxoutside, "max distance of vertex or coplanar point above facet(w/roundoff)", -1); zdef_(wmin, Wminvertex, "max distance of merged vertex below facet(or roundoff)", -1); zdef_(zinc, Zwidefacet, "centrums frozen due to a wide merge", -1); zdef_(zinc, Zwidevertices, "centrums frozen due to extra vertices", -1); zzdef_(zinc, Ztotmerge, "total number of facets or cycles of facets merged", -1); zdef_(zinc, Zmergesimplex, "merged a simplex", -1); zdef_(zinc, Zonehorizon, "simplices merged into coplanar horizon", -1); zzdef_(zinc, Zcyclehorizon, "cycles of facets merged into coplanar horizon", -1); zzdef_(zadd, Zcyclefacettot, " ave. facets per cycle", Zcyclehorizon); zdef_(zmax, Zcyclefacetmax, " max. facets", -1); zdef_(zinc, Zmergeintohorizon, "new facets merged into horizon", -1); zdef_(zinc, Zmergenew, "new facets merged", -1); zdef_(zinc, Zmergehorizon, "horizon facets merged into new facets", -1); zdef_(zinc, Zmergevertex, "vertices deleted by merging", -1); zdef_(zinc, Zcyclevertex, "vertices deleted by merging into coplanar horizon", -1); zdef_(zinc, Zdegenvertex, "vertices deleted by degenerate facet", -1); zdef_(zinc, Zmergeflipdup, "merges due to flipped facets in duplicated ridge", -1); zdef_(zinc, Zneighbor, "merges due to redundant neighbors", -1); zdef_(zadd, Ztestvneighbor, "non-convex vertex neighbors", -1); } void qh_allstatG(qhT *qh) { zdef_(zinc, Zacoplanar, "merges due to angle coplanar facets", -1); zdef_(wadd, Wacoplanartot, " average merge distance", Zacoplanar); zdef_(wmax, Wacoplanarmax, " maximum merge distance", -1); zdef_(zinc, Zcoplanar, "merges due to coplanar facets", -1); zdef_(wadd, Wcoplanartot, " average merge distance", Zcoplanar); zdef_(wmax, Wcoplanarmax, " maximum merge distance", -1); zdef_(zinc, Zconcave, "merges due to concave facets", -1); zdef_(wadd, Wconcavetot, " average merge distance", Zconcave); zdef_(wmax, Wconcavemax, " maximum merge distance", -1); zdef_(zinc, Zavoidold, "coplanar/concave merges due to avoiding old merge", -1); zdef_(wadd, Wavoidoldtot, " average merge distance", Zavoidold); zdef_(wmax, Wavoidoldmax, " maximum merge distance", -1); zdef_(zinc, Zdegen, "merges due to degenerate facets", -1); zdef_(wadd, Wdegentot, " average merge distance", Zdegen); zdef_(wmax, Wdegenmax, " maximum merge distance", -1); zdef_(zinc, Zflipped, "merges due to removing flipped facets", -1); zdef_(wadd, Wflippedtot, " average merge distance", Zflipped); zdef_(wmax, Wflippedmax, " maximum merge distance", -1); zdef_(zinc, Zduplicate, "merges due to duplicated ridges", -1); zdef_(wadd, Wduplicatetot, " average merge distance", Zduplicate); zdef_(wmax, Wduplicatemax, " maximum merge distance", -1); } void qh_allstatH(qhT *qh) { zdef_(zdoc, Zdoc8, "renamed vertex statistics", -1); zdef_(zinc, Zrenameshare, "renamed vertices shared by two facets", -1); zdef_(zinc, Zrenamepinch, "renamed vertices in a pinched facet", -1); zdef_(zinc, Zrenameall, "renamed vertices shared by multiple facets", -1); zdef_(zinc, Zfindfail, "rename failures due to duplicated ridges", -1); zdef_(zinc, Zdupridge, " duplicate ridges detected", -1); zdef_(zinc, Zdelridge, "deleted ridges due to renamed vertices", -1); zdef_(zinc, Zdropneighbor, "dropped neighbors due to renamed vertices", -1); zdef_(zinc, Zdropdegen, "degenerate facets due to dropped neighbors", -1); zdef_(zinc, Zdelfacetdup, " facets deleted because of no neighbors", -1); zdef_(zinc, Zremvertex, "vertices removed from facets due to no ridges", -1); zdef_(zinc, Zremvertexdel, " deleted", -1); zdef_(zinc, Zintersectnum, "vertex intersections for locating redundant vertices", -1); zdef_(zinc, Zintersectfail, "intersections failed to find a redundant vertex", -1); zdef_(zinc, Zintersect, "intersections found redundant vertices", -1); zdef_(zadd, Zintersecttot, " ave. number found per vertex", Zintersect); zdef_(zmax, Zintersectmax, " max. found for a vertex", -1); zdef_(zinc, Zvertexridge, NULL, -1); zdef_(zadd, Zvertexridgetot, " ave. number of ridges per tested vertex", Zvertexridge); zdef_(zmax, Zvertexridgemax, " max. number of ridges per tested vertex", -1); zdef_(zdoc, Zdoc10, "memory usage statistics(in bytes)", -1); zdef_(zadd, Zmemfacets, "for facets and their normals, neighbor and vertex sets", -1); zdef_(zadd, Zmemvertices, "for vertices and their neighbor sets", -1); zdef_(zadd, Zmempoints, "for input points, outside and coplanar sets, and qhT",-1); zdef_(zadd, Zmemridges, "for ridges and their vertex sets", -1); } /* allstat */ void qh_allstatI(qhT *qh) { qh->qhstat.vridges= qh->qhstat.next; zzdef_(zdoc, Zdoc11, "Voronoi ridge statistics", -1); zzdef_(zinc, Zridge, "non-simplicial Voronoi vertices for all ridges", -1); zzdef_(wadd, Wridge, " ave. distance to ridge", Zridge); zzdef_(wmax, Wridgemax, " max. distance to ridge", -1); zzdef_(zinc, Zridgemid, "bounded ridges", -1); zzdef_(wadd, Wridgemid, " ave. distance of midpoint to ridge", Zridgemid); zzdef_(wmax, Wridgemidmax, " max. distance of midpoint to ridge", -1); zzdef_(zinc, Zridgeok, "bounded ridges with ok normal", -1); zzdef_(wadd, Wridgeok, " ave. angle to ridge", Zridgeok); zzdef_(wmax, Wridgeokmax, " max. angle to ridge", -1); zzdef_(zinc, Zridge0, "bounded ridges with near-zero normal", -1); zzdef_(wadd, Wridge0, " ave. angle to ridge", Zridge0); zzdef_(wmax, Wridge0max, " max. angle to ridge", -1); zdef_(zdoc, Zdoc12, "Triangulation statistics(Qt)", -1); zdef_(zinc, Ztricoplanar, "non-simplicial facets triangulated", -1); zdef_(zadd, Ztricoplanartot, " ave. new facets created(may be deleted)", Ztricoplanar); zdef_(zmax, Ztricoplanarmax, " max. new facets created", -1); zdef_(zinc, Ztrinull, "null new facets deleted(duplicated vertex)", -1); zdef_(zinc, Ztrimirror, "mirrored pairs of new facets deleted(same vertices)", -1); zdef_(zinc, Ztridegen, "degenerate new facets in output(same ridge)", -1); } /* allstat */ /*--------------------------------- qh_allstatistics() reset printed flag for all statistics */ void qh_allstatistics(qhT *qh) { int i; for(i=ZEND; i--; ) qh->qhstat.printed[i]= False; } /* allstatistics */ #if qh_KEEPstatistics /*--------------------------------- qh_collectstatistics() collect statistics for qh.facet_list */ void qh_collectstatistics(qhT *qh) { facetT *facet, *neighbor, **neighborp; vertexT *vertex, **vertexp; realT dotproduct, dist; int sizneighbors, sizridges, sizvertices, i; qh->old_randomdist= qh->RANDOMdist; qh->RANDOMdist= False; zval_(Zmempoints)= qh->num_points * qh->normal_size + sizeof(qhT); zval_(Zmemfacets)= 0; zval_(Zmemridges)= 0; zval_(Zmemvertices)= 0; zval_(Zangle)= 0; wval_(Wangle)= 0.0; zval_(Znumridges)= 0; zval_(Znumfacets)= 0; zval_(Znumneighbors)= 0; zval_(Znumvertices)= 0; zval_(Znumvneighbors)= 0; zval_(Znummergetot)= 0; zval_(Znummergemax)= 0; zval_(Zvertices)= qh->num_vertices - qh_setsize(qh, qh->del_vertices); if (qh->MERGING || qh->APPROXhull || qh->JOGGLEmax < REALmax/2) wmax_(Wmaxoutside, qh->max_outside); if (qh->MERGING) wmin_(Wminvertex, qh->min_vertex); FORALLfacets facet->seen= False; if (qh->DELAUNAY) { FORALLfacets { if (facet->upperdelaunay != qh->UPPERdelaunay) facet->seen= True; /* remove from angle statistics */ } } FORALLfacets { if (facet->visible && qh->NEWfacets) continue; sizvertices= qh_setsize(qh, facet->vertices); sizneighbors= qh_setsize(qh, facet->neighbors); sizridges= qh_setsize(qh, facet->ridges); zinc_(Znumfacets); zadd_(Znumvertices, sizvertices); zmax_(Zmaxvertices, sizvertices); zadd_(Znumneighbors, sizneighbors); zmax_(Zmaxneighbors, sizneighbors); zadd_(Znummergetot, facet->nummerge); i= facet->nummerge; /* avoid warnings */ zmax_(Znummergemax, i); if (!facet->simplicial) { if (sizvertices == qh->hull_dim) { zinc_(Znowsimplicial); }else { zinc_(Znonsimplicial); } } if (sizridges) { zadd_(Znumridges, sizridges); zmax_(Zmaxridges, sizridges); } zadd_(Zmemfacets, sizeof(facetT) + qh->normal_size + 2*sizeof(setT) + SETelemsize * (sizneighbors + sizvertices)); if (facet->ridges) { zadd_(Zmemridges, sizeof(setT) + SETelemsize * sizridges + sizridges * (sizeof(ridgeT) + sizeof(setT) + SETelemsize * (qh->hull_dim-1))/2); } if (facet->outsideset) zadd_(Zmempoints, sizeof(setT) + SETelemsize * qh_setsize(qh, facet->outsideset)); if (facet->coplanarset) zadd_(Zmempoints, sizeof(setT) + SETelemsize * qh_setsize(qh, facet->coplanarset)); if (facet->seen) /* Delaunay upper envelope */ continue; facet->seen= True; FOREACHneighbor_(facet) { if (neighbor == qh_DUPLICATEridge || neighbor == qh_MERGEridge || neighbor->seen || !facet->normal || !neighbor->normal) continue; dotproduct= qh_getangle(qh, facet->normal, neighbor->normal); zinc_(Zangle); wadd_(Wangle, dotproduct); wmax_(Wanglemax, dotproduct) wmin_(Wanglemin, dotproduct) } if (facet->normal) { FOREACHvertex_(facet->vertices) { zinc_(Zdiststat); qh_distplane(qh, vertex->point, facet, &dist); wmax_(Wvertexmax, dist); wmin_(Wvertexmin, dist); } } } FORALLvertices { if (vertex->deleted) continue; zadd_(Zmemvertices, sizeof(vertexT)); if (vertex->neighbors) { sizneighbors= qh_setsize(qh, vertex->neighbors); zadd_(Znumvneighbors, sizneighbors); zmax_(Zmaxvneighbors, sizneighbors); zadd_(Zmemvertices, sizeof(vertexT) + SETelemsize * sizneighbors); } } qh->RANDOMdist= qh->old_randomdist; } /* collectstatistics */ #endif /* qh_KEEPstatistics */ /*--------------------------------- qh_initstatistics(qh) initialize statistics notes: NOerrors -- qh_initstatistics can not use qh_errexit(), qh_fprintf, or qh.ferr On first call, only qhmem.ferr is defined. qh_memalloc is not setup. Also invoked by QhullQh(). */ void qh_initstatistics(qhT *qh) { int i; realT realx; int intx; qh->qhstat.next= 0; qh_allstatA(qh); qh_allstatB(qh); qh_allstatC(qh); qh_allstatD(qh); qh_allstatE(qh); qh_allstatE2(qh); qh_allstatF(qh); qh_allstatG(qh); qh_allstatH(qh); qh_allstatI(qh); if (qh->qhstat.next > (int)sizeof(qh->qhstat.id)) { qh_fprintf(qh, qh->qhmem.ferr, 6184, "qhull error (qh_initstatistics): increase size of qhstat.id[].\n\ qhstat.next %d should be <= sizeof(qh->qhstat.id) %d\n", qh->qhstat.next, (int)sizeof(qh->qhstat.id)); #if 0 /* for locating error, Znumridges should be duplicated */ for(i=0; i < ZEND; i++) { int j; for(j=i+1; j < ZEND; j++) { if (qh->qhstat.id[i] == qh->qhstat.id[j]) { qh_fprintf(qh, qh->qhmem.ferr, 6185, "qhull error (qh_initstatistics): duplicated statistic %d at indices %d and %d\n", qh->qhstat.id[i], i, j); } } } #endif qh_exit(qh_ERRqhull); /* can not use qh_errexit() */ } qh->qhstat.init[zinc].i= 0; qh->qhstat.init[zadd].i= 0; qh->qhstat.init[zmin].i= INT_MAX; qh->qhstat.init[zmax].i= INT_MIN; qh->qhstat.init[wadd].r= 0; qh->qhstat.init[wmin].r= REALmax; qh->qhstat.init[wmax].r= -REALmax; for(i=0; i < ZEND; i++) { if (qh->qhstat.type[i] > ZTYPEreal) { realx= qh->qhstat.init[(unsigned char)(qh->qhstat.type[i])].r; qh->qhstat.stats[i].r= realx; }else if (qh->qhstat.type[i] != zdoc) { intx= qh->qhstat.init[(unsigned char)(qh->qhstat.type[i])].i; qh->qhstat.stats[i].i= intx; } } } /* initstatistics */ /*--------------------------------- qh_newstats(qh, ) returns True if statistics for zdoc returns: next zdoc */ boolT qh_newstats(qhT *qh, int idx, int *nextindex) { boolT isnew= False; int start, i; if (qh->qhstat.type[qh->qhstat.id[idx]] == zdoc) start= idx+1; else start= idx; for(i= start; i < qh->qhstat.next && qh->qhstat.type[qh->qhstat.id[i]] != zdoc; i++) { if (!qh_nostatistic(qh, qh->qhstat.id[i]) && !qh->qhstat.printed[qh->qhstat.id[i]]) isnew= True; } *nextindex= i; return isnew; } /* newstats */ /*--------------------------------- qh_nostatistic(qh, index ) true if no statistic to print */ boolT qh_nostatistic(qhT *qh, int i) { if ((qh->qhstat.type[i] > ZTYPEreal &&qh->qhstat.stats[i].r == qh->qhstat.init[(unsigned char)(qh->qhstat.type[i])].r) || (qh->qhstat.type[i] < ZTYPEreal &&qh->qhstat.stats[i].i == qh->qhstat.init[(unsigned char)(qh->qhstat.type[i])].i)) return True; return False; } /* nostatistic */ #if qh_KEEPstatistics /*--------------------------------- qh_printallstatistics(qh, fp, string ) print all statistics with header 'string' */ void qh_printallstatistics(qhT *qh, FILE *fp, const char *string) { qh_allstatistics(qh); qh_collectstatistics(qh); qh_printstatistics(qh, fp, string); qh_memstatistics(qh, fp); } /*--------------------------------- qh_printstatistics(qh, fp, string ) print statistics to a file with header 'string' skips statistics with qhstat.printed[] (reset with qh_allstatistics) see: qh_printallstatistics() */ void qh_printstatistics(qhT *qh, FILE *fp, const char *string) { int i, k; realT ave; if (qh->num_points != qh->num_vertices) { wval_(Wpbalance)= 0; wval_(Wpbalance2)= 0; }else wval_(Wpbalance2)= qh_stddev(zval_(Zpbalance), wval_(Wpbalance), wval_(Wpbalance2), &ave); wval_(Wnewbalance2)= qh_stddev(zval_(Zprocessed), wval_(Wnewbalance), wval_(Wnewbalance2), &ave); qh_fprintf(qh, fp, 9350, "\n\ %s\n\ qhull invoked by: %s | %s\n%s with options:\n%s\n", string, qh->rbox_command, qh->qhull_command, qh_version, qh->qhull_options); qh_fprintf(qh, fp, 9351, "\nprecision constants:\n\ %6.2g max. abs. coordinate in the (transformed) input('Qbd:n')\n\ %6.2g max. roundoff error for distance computation('En')\n\ %6.2g max. roundoff error for angle computations\n\ %6.2g min. distance for outside points ('Wn')\n\ %6.2g min. distance for visible facets ('Vn')\n\ %6.2g max. distance for coplanar facets ('Un')\n\ %6.2g max. facet width for recomputing centrum and area\n\ ", qh->MAXabs_coord, qh->DISTround, qh->ANGLEround, qh->MINoutside, qh->MINvisible, qh->MAXcoplanar, qh->WIDEfacet); if (qh->KEEPnearinside) qh_fprintf(qh, fp, 9352, "\ %6.2g max. distance for near-inside points\n", qh->NEARinside); if (qh->premerge_cos < REALmax/2) qh_fprintf(qh, fp, 9353, "\ %6.2g max. cosine for pre-merge angle\n", qh->premerge_cos); if (qh->PREmerge) qh_fprintf(qh, fp, 9354, "\ %6.2g radius of pre-merge centrum\n", qh->premerge_centrum); if (qh->postmerge_cos < REALmax/2) qh_fprintf(qh, fp, 9355, "\ %6.2g max. cosine for post-merge angle\n", qh->postmerge_cos); if (qh->POSTmerge) qh_fprintf(qh, fp, 9356, "\ %6.2g radius of post-merge centrum\n", qh->postmerge_centrum); qh_fprintf(qh, fp, 9357, "\ %6.2g max. distance for merging two simplicial facets\n\ %6.2g max. roundoff error for arithmetic operations\n\ %6.2g min. denominator for divisions\n\ zero diagonal for Gauss: ", qh->ONEmerge, REALepsilon, qh->MINdenom); for(k=0; k < qh->hull_dim; k++) qh_fprintf(qh, fp, 9358, "%6.2e ", qh->NEARzero[k]); qh_fprintf(qh, fp, 9359, "\n\n"); for(i=0 ; i < qh->qhstat.next; ) qh_printstats(qh, fp, i, &i); } /* printstatistics */ #endif /* qh_KEEPstatistics */ /*--------------------------------- qh_printstatlevel(qh, fp, id ) print level information for a statistic notes: nop if id >= ZEND, printed, or same as initial value */ void qh_printstatlevel(qhT *qh, FILE *fp, int id) { #define NULLfield " " if (id >= ZEND || qh->qhstat.printed[id]) return; if (qh->qhstat.type[id] == zdoc) { qh_fprintf(qh, fp, 9360, "%s\n", qh->qhstat.doc[id]); return; } if (qh_nostatistic(qh, id) || !qh->qhstat.doc[id]) return; qh->qhstat.printed[id]= True; if (qh->qhstat.count[id] != -1 && qh->qhstat.stats[(unsigned char)(qh->qhstat.count[id])].i == 0) qh_fprintf(qh, fp, 9361, " *0 cnt*"); else if (qh->qhstat.type[id] >= ZTYPEreal && qh->qhstat.count[id] == -1) qh_fprintf(qh, fp, 9362, "%7.2g", qh->qhstat.stats[id].r); else if (qh->qhstat.type[id] >= ZTYPEreal && qh->qhstat.count[id] != -1) qh_fprintf(qh, fp, 9363, "%7.2g", qh->qhstat.stats[id].r/ qh->qhstat.stats[(unsigned char)(qh->qhstat.count[id])].i); else if (qh->qhstat.type[id] < ZTYPEreal && qh->qhstat.count[id] == -1) qh_fprintf(qh, fp, 9364, "%7d", qh->qhstat.stats[id].i); else if (qh->qhstat.type[id] < ZTYPEreal && qh->qhstat.count[id] != -1) qh_fprintf(qh, fp, 9365, "%7.3g", (realT) qh->qhstat.stats[id].i / qh->qhstat.stats[(unsigned char)(qh->qhstat.count[id])].i); qh_fprintf(qh, fp, 9366, " %s\n", qh->qhstat.doc[id]); } /* printstatlevel */ /*--------------------------------- qh_printstats(qh, fp, index, nextindex ) print statistics for a zdoc group returns: next zdoc if non-null */ void qh_printstats(qhT *qh, FILE *fp, int idx, int *nextindex) { int j, nexti; if (qh_newstats(qh, idx, &nexti)) { qh_fprintf(qh, fp, 9367, "\n"); for (j=idx; jqhstat.id[j]); } if (nextindex) *nextindex= nexti; } /* printstats */ #if qh_KEEPstatistics /*--------------------------------- qh_stddev(num, tot, tot2, ave ) compute the standard deviation and average from statistics tot2 is the sum of the squares notes: computes r.m.s.: (x-ave)^2 == x^2 - 2x tot/num + (tot/num)^2 == tot2 - 2 tot tot/num + tot tot/num == tot2 - tot ave */ realT qh_stddev(int num, realT tot, realT tot2, realT *ave) { realT stddev; *ave= tot/num; stddev= sqrt(tot2/num - *ave * *ave); return stddev; } /* stddev */ #endif /* qh_KEEPstatistics */ #if !qh_KEEPstatistics void qh_collectstatistics(qhT *qh) {} void qh_printallstatistics(qhT *qh, FILE *fp, char *string) {}; void qh_printstatistics(qhT *qh, FILE *fp, char *string) {} #endif