/*<html><pre> -<a href="qh-poly_r.htm"

>-------------------------------</a><a name="TOP">-</a>

poly_r.c

implements polygons and simplices

see qh-poly_r.htm, poly_r.h and libqhull_r.h

infrequent code is in poly2_r.c

(all but top 50 and their callers 12/3/95)

Copyright (c) 1993-2020 The Geometry Center.

$Id: //main/2019/qhull/src/libqhull_r/poly_r.c#8 $$Change: 2953 $

$DateTime: 2020/05/21 22:05:32 $$Author: bbarber $

*/

#include "qhull_ra.h"

/*======== functions in alphabetical order ==========*/

/*-<a href="qh-poly_r.htm#TOC"

>-------------------------------</a><a name="appendfacet">-</a>

qh_appendfacet(qh, facet )

appends facet to end of qh.facet_list,

returns:

updates qh.newfacet_list, facet_next, facet_list

increments qh.numfacets

notes:

assumes qh.facet_list/facet_tail is defined (createsimplex)

see:

qh_removefacet()

*/

void qh_appendfacet(qhT *qh, facetT *facet) {

facetT *tail= qh->facet_tail;

if (tail == qh->newfacet_list) {

qh->newfacet_list= facet;

if (tail == qh->visible_list) /* visible_list is at or before newfacet_list */

qh->visible_list= facet;

}

if (tail == qh->facet_next)

qh->facet_next= facet;

facet->previous= tail->previous;

facet->next= tail;

if (tail->previous)

tail->previous->next= facet;

else

qh->facet_list= facet;

tail->previous= facet;

qh->num_facets++;

trace4((qh, qh->ferr, 4044, "qh_appendfacet: append f%d to facet_list\n", facet->id));

} /* appendfacet */

/*-<a href="qh-poly_r.htm#TOC"

>-------------------------------</a><a name="appendvertex">-</a>

qh_appendvertex(qh, vertex )

appends vertex to end of qh.vertex_list,

returns:

sets vertex->newfacet

updates qh.vertex_list, newvertex_list

increments qh.num_vertices

notes:

assumes qh.vertex_list/vertex_tail is defined (createsimplex)

*/

void qh_appendvertex(qhT *qh, vertexT *vertex) {

vertexT *tail= qh->vertex_tail;

if (tail == qh->newvertex_list)

qh->newvertex_list= vertex;

vertex->newfacet= True;

vertex->previous= tail->previous;

vertex->next= tail;

if (tail->previous)

tail->previous->next= vertex;

else

qh->vertex_list= vertex;

tail->previous= vertex;

qh->num_vertices++;

trace4((qh, qh->ferr, 4045, "qh_appendvertex: append v%d to qh.newvertex_list and set v.newfacet\n", vertex->id));

} /* appendvertex */

/*-<a href="qh-poly_r.htm#TOC"

>-------------------------------</a><a name="attachnewfacets">-</a>

qh_attachnewfacets(qh)

attach horizon facets to new facets in qh.newfacet_list

newfacets have neighbor and ridge links to horizon but not vice versa

returns:

clears qh.NEWtentative

set qh.NEWfacets

horizon facets linked to new facets

ridges changed from visible facets to new facets

simplicial ridges deleted

qh.visible_list, no ridges valid

facet->f.replace is a newfacet (if any)

notes:

used for qh.NEWtentative, otherwise see qh_makenew_nonsimplicial and qh_makenew_simplicial

qh_delridge_merge not needed (as tested by qh_checkdelridge)

design:

delete interior ridges and neighbor sets by

for each visible, non-simplicial facet

for each ridge

if last visit or if neighbor is simplicial

if horizon neighbor

delete ridge for horizon's ridge set

delete ridge

erase neighbor set

attach horizon facets and new facets by

for all new facets

if corresponding horizon facet is simplicial

locate corresponding visible facet {may be more than one}

link visible facet to new facet

replace visible facet with new facet in horizon

else it is non-simplicial

for all visible neighbors of the horizon facet

link visible neighbor to new facet

delete visible neighbor from horizon facet

append new facet to horizon's neighbors

the first ridge of the new facet is the horizon ridge

link the new facet into the horizon ridge

*/

void qh_attachnewfacets(qhT *qh /* qh.visible_list, qh.newfacet_list */) {

facetT *newfacet= NULL, *neighbor, **neighborp, *horizon, *visible;

ridgeT *ridge, **ridgep;

trace3((qh, qh->ferr, 3012, "qh_attachnewfacets: delete interior ridges\n"));

if (qh->CHECKfrequently) {

qh_checkdelridge(qh);

}

qh->visit_id++;

FORALLvisible_facets {

visible->visitid= qh->visit_id;

if (visible->ridges) {

FOREACHridge_(visible->ridges) {

neighbor= otherfacet_(ridge, visible);

if (neighbor->visitid == qh->visit_id

|| (!neighbor->visible && neighbor->simplicial)) {

if (!neighbor->visible) /* delete ridge for simplicial horizon */

qh_setdel(neighbor->ridges, ridge);

qh_delridge(qh, ridge); /* delete on second visit */

}

}

}

}

trace1((qh, qh->ferr, 1017, "qh_attachnewfacets: attach horizon facets to new facets\n"));

FORALLnew_facets {

horizon= SETfirstt_(newfacet->neighbors, facetT);

if (horizon->simplicial) {

visible= NULL;

FOREACHneighbor_(horizon) { /* may have more than one horizon ridge */

if (neighbor->visible) {

if (visible) {

if (qh_setequal_skip(newfacet->vertices, 0, horizon->vertices,

SETindex_(horizon->neighbors, neighbor))) {

visible= neighbor;

break;

}

}else

visible= neighbor;

}

}

if (visible) {

visible->f.replace= newfacet;

qh_setreplace(qh, horizon->neighbors, visible, newfacet);

}else {

qh_fprintf(qh, qh->ferr, 6102, "qhull internal error (qh_attachnewfacets): could not find visible facet for horizon f%d of newfacet f%d\n",

horizon->id, newfacet->id);

qh_errexit2(qh, qh_ERRqhull, horizon, newfacet);

}

}else { /* non-simplicial, with a ridge for newfacet */

FOREACHneighbor_(horizon) { /* may hold for many new facets */

if (neighbor->visible) {

neighbor->f.replace= newfacet;

qh_setdelnth(qh, horizon->neighbors, SETindex_(horizon->neighbors, neighbor));

neighborp--; /* repeat */

}

}

qh_setappend(qh, &horizon->neighbors, newfacet);

ridge= SETfirstt_(newfacet->ridges, ridgeT);

if (ridge->top == horizon) {

ridge->bottom= newfacet;

ridge->simplicialbot= True;

}else {

ridge->top= newfacet;

ridge->simplicialtop= True;

}

}

} /* newfacets */

trace4((qh, qh->ferr, 4094, "qh_attachnewfacets: clear f.ridges and f.neighbors for visible facets, may become invalid before qh_deletevisible\n"));

FORALLvisible_facets {

if (visible->ridges)

SETfirst_(visible->ridges)= NULL;

SETfirst_(visible->neighbors)= NULL;

}

qh->NEWtentative= False;

qh->NEWfacets= True;

if (qh->PRINTstatistics) {

FORALLvisible_facets {

if (!visible->f.replace)

zinc_(Zinsidevisible);

}

}

} /* attachnewfacets */

/*-<a href="qh-poly_r.htm#TOC"

>-------------------------------</a><a name="checkflipped">-</a>

qh_checkflipped(qh, facet, dist, allerror )

checks facet orientation to interior point

if allerror set,

tests against -qh.DISTround

else

tests against 0.0 since tested against -qh.DISTround before

returns:

False if it flipped orientation (sets facet->flipped)

distance if non-NULL

notes:

called by qh_setfacetplane, qh_initialhull, and qh_checkflipped_all

*/

boolT qh_checkflipped(qhT *qh, facetT *facet, realT *distp, boolT allerror) {

realT dist;

if (facet->flipped && !distp)

return False;

zzinc_(Zdistcheck);

qh_distplane(qh, qh->interior_point, facet, &dist);

if (distp)

*distp= dist;

if ((allerror && dist >= -qh->DISTround) || (!allerror && dist > 0.0)) {

facet->flipped= True;

trace0((qh, qh->ferr, 19, "qh_checkflipped: facet f%d flipped, allerror? %d, distance= %6.12g during p%d\n",

facet->id, allerror, dist, qh->furthest_id));

if (qh->num_facets > qh->hull_dim+1) { /* qh_initialhull reverses orientation if !qh_checkflipped */

zzinc_(Zflippedfacets);

qh_joggle_restart(qh, "flipped facet");

}

return False;

}

return True;

} /* checkflipped */

/*-<a href="qh-poly_r.htm#TOC"

>-------------------------------</a><a name="delfacet">-</a>

qh_delfacet(qh, facet )

removes facet from facet_list and frees up its memory

notes:

assumes vertices and ridges already freed or referenced elsewhere

*/

void qh_delfacet(qhT *qh, facetT *facet) {

void **freelistp; /* used if !qh_NOmem by qh_memfree_() */

trace3((qh, qh->ferr, 3057, "qh_delfacet: delete f%d\n", facet->id));

if (qh->CHECKfrequently || qh->VERIFYoutput) {

if (!qh->NOerrexit) {

qh_checkdelfacet(qh, facet, qh->facet_mergeset);

qh_checkdelfacet(qh, facet, qh->degen_mergeset);

qh_checkdelfacet(qh, facet, qh->vertex_mergeset);

}

}

if (facet == qh->tracefacet)

qh->tracefacet= NULL;

if (facet == qh->GOODclosest)

qh->GOODclosest= NULL;

qh_removefacet(qh, facet);

if (!facet->tricoplanar || facet->keepcentrum) {

qh_memfree_(qh, facet->normal, qh->normal_size, freelistp);

if (qh->CENTERtype == qh_ASvoronoi) { /* braces for macro calls */

qh_memfree_(qh, facet->center, qh->center_size, freelistp);

}else /* AScentrum */ {

qh_memfree_(qh, facet->center, qh->normal_size, freelistp);

}

}

qh_setfree(qh, &(facet->neighbors));

if (facet->ridges)

qh_setfree(qh, &(facet->ridges));

qh_setfree(qh, &(facet->vertices));

if (facet->outsideset)

qh_setfree(qh, &(facet->outsideset));

if (facet->coplanarset)

qh_setfree(qh, &(facet->coplanarset));

qh_memfree_(qh, facet, (int)sizeof(facetT), freelistp);

} /* delfacet */

/*-<a href="qh-poly_r.htm#TOC"

>-------------------------------</a><a name="deletevisible">-</a>

qh_deletevisible()

delete visible facets and vertices

returns:

deletes each facet and removes from facetlist

deletes vertices on qh.del_vertices and ridges in qh.del_ridges

at exit, qh.visible_list empty (== qh.newfacet_list)

notes:

called by qh_all_vertexmerges, qh_addpoint, and qh_qhull

ridges already deleted or moved elsewhere

deleted vertices on qh.del_vertices

horizon facets do not reference facets on qh.visible_list

new facets in qh.newfacet_list

uses qh.visit_id;

*/

void qh_deletevisible(qhT *qh /* qh.visible_list */) {

facetT *visible, *nextfacet;

vertexT *vertex, **vertexp;

int numvisible= 0, numdel= qh_setsize(qh, qh->del_vertices);

trace1((qh, qh->ferr, 1018, "qh_deletevisible: delete %d visible facets and %d vertices\n",

qh->num_visible, numdel));

for (visible=qh->visible_list; visible && visible->visible;

visible= nextfacet) { /* deleting current */

nextfacet= visible->next;

numvisible++;

qh_delfacet(qh, visible); /* f.ridges deleted or moved elsewhere, deleted f.vertices on qh.del_vertices */

}

if (numvisible != qh->num_visible) {

qh_fprintf(qh, qh->ferr, 6103, "qhull internal error (qh_deletevisible): qh->num_visible %d is not number of visible facets %d\n",

qh->num_visible, numvisible);

qh_errexit(qh, qh_ERRqhull, NULL, NULL);

}

qh->num_visible= 0;

zadd_(Zvisfacettot, numvisible);

zmax_(Zvisfacetmax, numvisible);

zzadd_(Zdelvertextot, numdel);

zmax_(Zdelvertexmax, numdel);

FOREACHvertex_(qh->del_vertices)

qh_delvertex(qh, vertex);

qh_settruncate(qh, qh->del_vertices, 0);

} /* deletevisible */

/*-<a href="qh-poly_r.htm#TOC"

>-------------------------------</a><a name="facetintersect">-</a>

qh_facetintersect(qh, facetA, facetB, skipa, skipB, prepend )

return vertices for intersection of two simplicial facets

may include 1 prepended entry (if more, need to settemppush)

returns:

returns set of qh.hull_dim-1 + prepend vertices

returns skipped index for each test and checks for exactly one

notes:

does not need settemp since set in quick memory

see also:

qh_vertexintersect and qh_vertexintersect_new

use qh_setnew_delnthsorted to get nth ridge (no skip information)

design:

locate skipped vertex by scanning facet A's neighbors

locate skipped vertex by scanning facet B's neighbors

intersect the vertex sets

*/

setT *qh_facetintersect(qhT *qh, facetT *facetA, facetT *facetB,

int *skipA,int *skipB, int prepend) {

setT *intersect;

int dim= qh->hull_dim, i, j;

facetT **neighborsA, **neighborsB;

neighborsA= SETaddr_(facetA->neighbors, facetT);

neighborsB= SETaddr_(facetB->neighbors, facetT);

i= j= 0;

if (facetB == *neighborsA++)

*skipA= 0;

/* coverity[overrun-local] */

else if (facetB == *neighborsA++)

*skipA= 1;

/* coverity[overrun-local] */

else if (facetB == *neighborsA++)

*skipA= 2;

else {

for (i=3; i < dim; i++) {

if (facetB == *neighborsA++) {

*skipA= i;

break;

}

}

}

if (facetA == *neighborsB++)

*skipB= 0;

/* coverity[overrun-local] */

else if (facetA == *neighborsB++)

*skipB= 1;

/* coverity[overrun-local] */

else if (facetA == *neighborsB++)

*skipB= 2;

else {

for (j=3; j < dim; j++) {

if (facetA == *neighborsB++) {

*skipB= j;

break;

}

}

}

if (i >= dim || j >= dim) {

qh_fprintf(qh, qh->ferr, 6104, "qhull internal error (qh_facetintersect): f%d or f%d not in other's neighbors\n",

facetA->id, facetB->id);

qh_errexit2(qh, qh_ERRqhull, facetA, facetB);

}

intersect= qh_setnew_delnthsorted(qh, facetA->vertices, qh->hull_dim, *skipA, prepend);

trace4((qh, qh->ferr, 4047, "qh_facetintersect: f%d skip %d matches f%d skip %d\n",

facetA->id, *skipA, facetB->id, *skipB));

return(intersect);

} /* facetintersect */

/*-<a href="qh-poly_r.htm#TOC"

>-------------------------------</a><a name="gethash">-</a>

qh_gethash(qh, hashsize, set, size, firstindex, skipelem )

return hashvalue for a set with firstindex and skipelem

notes:

returned hash is in [0,hashsize)

assumes at least firstindex+1 elements

assumes skipelem is NULL, in set, or part of hash

hashes memory addresses which may change over different runs of the same data

using sum for hash does badly in high d

*/

int qh_gethash(qhT *qh, int hashsize, setT *set, int size, int firstindex, void *skipelem) {

void **elemp= SETelemaddr_(set, firstindex, void);

ptr_intT hash= 0, elem;

unsigned int uresult;

int i;

#ifdef _MSC_VER /* Microsoft Visual C++ -- warn about 64-bit issues */

#pragma warning( push) /* WARN64 -- ptr_intT holds a 64-bit pointer */

#pragma warning( disable : 4311) /* 'type cast': pointer truncation from 'void*' to 'ptr_intT' */

#endif

switch (size-firstindex) {

case 1:

hash= (ptr_intT)((long long)(ptr_intT)(*elemp) - (ptr_intT) skipelem);

break;

case 2:

/* coverity[overrun-local] */

hash= (ptr_intT)((long long)(ptr_intT)(*elemp) + (ptr_intT)elemp[1] - (ptr_intT) skipelem);

break;

case 3:

hash= (ptr_intT)((long long)(ptr_intT)(*elemp) + (ptr_intT)elemp[1] + (ptr_intT)elemp[2]

- (ptr_intT) skipelem);

break;

case 4:

hash= (ptr_intT)((long long)(ptr_intT)(*elemp) + (ptr_intT)elemp[1] + (ptr_intT)elemp[2]

+ (ptr_intT)elemp[3] - (ptr_intT) skipelem);

break;

case 5:

hash= (ptr_intT)((long long)(ptr_intT)(*elemp) + (ptr_intT)elemp[1] + (ptr_intT)elemp[2]

+ (ptr_intT)elemp[3] + (ptr_intT)elemp[4] - (ptr_intT) skipelem);

break;

case 6:

hash= (ptr_intT)((long long)(ptr_intT)(*elemp) + (ptr_intT)elemp[1] + (ptr_intT)elemp[2]

+ (ptr_intT)elemp[3] + (ptr_intT)elemp[4]+ (ptr_intT)elemp[5]

- (ptr_intT) skipelem);

break;

default:

hash= 0;

i= 3;

do { /* this is about 10% in 10-d */

if ((elem= (ptr_intT)*elemp++) != (ptr_intT)skipelem) {

hash ^= (elem << i) + (elem >> (32-i));

i += 3;

if (i >= 32)

i -= 32;

}

}while (*elemp);

break;

}

if (hashsize<0) {

qh_fprintf(qh, qh->ferr, 6202, "qhull internal error: negative hashsize %d passed to qh_gethash [poly_r.c]\n", hashsize);

qh_errexit2(qh, qh_ERRqhull, NULL, NULL);

}

uresult= (unsigned int)hash;

uresult %= (unsigned int)hashsize;

/* result= 0; for debugging */

return (int)uresult;

#ifdef _MSC_VER

#pragma warning( pop)

#endif

} /* gethash */

/*-<a href="qh-poly_r.htm#TOC"

>-------------------------------</a><a name="getreplacement">-</a>

qh_getreplacement(qh, visible )

get replacement for visible facet

returns:

valid facet from visible.replace (may be chained)

*/

facetT *qh_getreplacement(qhT *qh, facetT *visible) {

unsigned int count= 0;

facetT *result= visible;

while (result && result->visible) {

result= result->f.replace;

if (count++ > qh->facet_id)

qh_infiniteloop(qh, visible);

}

return result;

}

/*-<a href="qh-poly_r.htm#TOC"

>-------------------------------</a><a name="makenewfacet">-</a>

qh_makenewfacet(qh, vertices, toporient, horizon )

creates a toporient? facet from vertices

returns:

returns newfacet

adds newfacet to qh.facet_list

newfacet->vertices= vertices

if horizon

newfacet->neighbor= horizon, but not vice versa

newvertex_list updated with vertices

*/

facetT *qh_makenewfacet(qhT *qh, setT *vertices, boolT toporient, facetT *horizon) {

facetT *newfacet;

vertexT *vertex, **vertexp;

FOREACHvertex_(vertices) {

if (!vertex->newfacet) {

qh_removevertex(qh, vertex);

qh_appendvertex(qh, vertex);

}

}

newfacet= qh_newfacet(qh);

newfacet->vertices= vertices;

if (toporient)

newfacet->toporient= True;

if (horizon)

qh_setappend(qh, &(newfacet->neighbors), horizon);

qh_appendfacet(qh, newfacet);

return(newfacet);

} /* makenewfacet */

/*-<a href="qh-poly_r.htm#TOC"

>-------------------------------</a><a name="makenewplanes">-</a>

qh_makenewplanes()

make new hyperplanes for facets on qh.newfacet_list

returns:

all facets have hyperplanes or are marked for merging

doesn't create hyperplane if horizon is coplanar (will merge)

updates qh.min_vertex if qh.JOGGLEmax

notes:

facet->f.samecycle is defined for facet->mergehorizon facets

*/

void qh_makenewplanes(qhT *qh /* qh.newfacet_list */) {

facetT *newfacet;

trace4((qh, qh->ferr, 4074, "qh_makenewplanes: make new hyperplanes for facets on qh.newfacet_list f%d\n",

qh->newfacet_list->id));

FORALLnew_facets {

if (!newfacet->mergehorizon)

qh_setfacetplane(qh, newfacet); /* updates Wnewvertexmax */

}

if (qh->JOGGLEmax < REALmax/2)

minimize_(qh->min_vertex, -wwval_(Wnewvertexmax));

} /* makenewplanes */

#ifndef qh_NOmerge

/*-<a href="qh-poly_r.htm#TOC"

>-------------------------------</a><a name="makenew_nonsimplicial">-</a>

qh_makenew_nonsimplicial(qh, visible, apex, numnew )

make new facets for ridges of a visible facet

returns:

first newfacet, bumps numnew as needed

attaches new facets if !qh->NEWtentative

marks ridge neighbors for simplicial visible

if (qh.NEWtentative)

ridges on newfacet, horizon, and visible

else

ridge and neighbors between newfacet and horizon

visible facet's ridges are deleted

visible facet's f.neighbors is empty

notes:

called by qh_makenewfacets and qh_triangulatefacet

qh.visit_id if visible has already been processed

sets neighbor->seen for building f.samecycle

assumes all 'seen' flags initially false

qh_delridge_merge not needed (as tested by qh_checkdelridge in qh_makenewfacets)

design:

for each ridge of visible facet

get neighbor of visible facet

if neighbor was already processed

delete the ridge (will delete all visible facets later)

if neighbor is a horizon facet

create a new facet

if neighbor coplanar

adds newfacet to f.samecycle for later merging

else

updates neighbor's neighbor set

(checks for non-simplicial facet with multiple ridges to visible facet)

updates neighbor's ridge set

(checks for simplicial neighbor to non-simplicial visible facet)

(deletes ridge if neighbor is simplicial)

*/

facetT *qh_makenew_nonsimplicial(qhT *qh, facetT *visible, vertexT *apex, int *numnew) {

void **freelistp; /* used if !qh_NOmem by qh_memfree_() */

ridgeT *ridge, **ridgep;

facetT *neighbor, *newfacet= NULL, *samecycle;

setT *vertices;

boolT toporient;

unsigned int ridgeid;

FOREACHridge_(visible->ridges) {

ridgeid= ridge->id;

neighbor= otherfacet_(ridge, visible);

if (neighbor->visible) {

if (!qh->NEWtentative) {

if (neighbor->visitid == qh->visit_id) {

if (qh->traceridge == ridge)

qh->traceridge= NULL;

qh_setfree(qh, &(ridge->vertices)); /* delete on 2nd visit */

qh_memfree_(qh, ridge, (int)sizeof(ridgeT), freelistp);

}

}

}else { /* neighbor is an horizon facet */

toporient= (ridge->top == visible);

vertices= qh_setnew(qh, qh->hull_dim); /* makes sure this is quick */

qh_setappend(qh, &vertices, apex);

qh_setappend_set(qh, &vertices, ridge->vertices);

newfacet= qh_makenewfacet(qh, vertices, toporient, neighbor);

(*numnew)++;

if (neighbor->coplanarhorizon) {

newfacet->mergehorizon= True;

if (!neighbor->seen) {

newfacet->f.samecycle= newfacet;

neighbor->f.newcycle= newfacet;

}else {

samecycle= neighbor->f.newcycle;

newfacet->f.samecycle= samecycle->f.samecycle;

samecycle->f.samecycle= newfacet;

}

}

if (qh->NEWtentative) {

if (!neighbor->simplicial)

qh_setappend(qh, &(newfacet->ridges), ridge);

}else { /* qh_attachnewfacets */

if (neighbor->seen) {

if (neighbor->simplicial) {

qh_fprintf(qh, qh->ferr, 6105, "qhull internal error (qh_makenew_nonsimplicial): simplicial f%d sharing two ridges with f%d\n",

neighbor->id, visible->id);

qh_errexit2(qh, qh_ERRqhull, neighbor, visible);

}

qh_setappend(qh, &(neighbor->neighbors), newfacet);

}else

qh_setreplace(qh, neighbor->neighbors, visible, newfacet);

if (neighbor->simplicial) {

qh_setdel(neighbor->ridges, ridge);

qh_delridge(qh, ridge);

}else {

qh_setappend(qh, &(newfacet->ridges), ridge);

if (toporient) {

ridge->top= newfacet;

ridge->simplicialtop= True;

}else {

ridge->bottom= newfacet;

ridge->simplicialbot= True;

}

}

}

trace4((qh, qh->ferr, 4048, "qh_makenew_nonsimplicial: created facet f%d from v%d and r%d of horizon f%d\n",

newfacet->id, apex->id, ridgeid, neighbor->id));

}

neighbor->seen= True;

} /* for each ridge */

return newfacet;

} /* makenew_nonsimplicial */

#else /* qh_NOmerge */

facetT *qh_makenew_nonsimplicial(qhT *qh, facetT *visible, vertexT *apex, int *numnew) {

QHULL_UNUSED(qh)

QHULL_UNUSED(visible)

QHULL_UNUSED(apex)

QHULL_UNUSED(numnew)

return NULL;

}

#endif /* qh_NOmerge */

/*-<a href="qh-poly_r.htm#TOC"

>-------------------------------</a><a name="makenew_simplicial">-</a>

qh_makenew_simplicial(qh, visible, apex, numnew )

make new facets for simplicial visible facet and apex

returns:

attaches new facets if !qh.NEWtentative

neighbors between newfacet and horizon

notes:

nop if neighbor->seen or neighbor->visible(see qh_makenew_nonsimplicial)

design:

locate neighboring horizon facet for visible facet

determine vertices and orientation

create new facet

if coplanar,

add new facet to f.samecycle

update horizon facet's neighbor list

*/

facetT *qh_makenew_simplicial(qhT *qh, facetT *visible, vertexT *apex, int *numnew) {

facetT *neighbor, **neighborp, *newfacet= NULL;

setT *vertices;

boolT flip, toporient;

int horizonskip= 0, visibleskip= 0;

FOREACHneighbor_(visible) {

if (!neighbor->seen && !neighbor->visible) {

vertices= qh_facetintersect(qh, neighbor,visible, &horizonskip, &visibleskip, 1);

SETfirst_(vertices)= apex;

flip= ((horizonskip & 0x1) ^ (visibleskip & 0x1));

if (neighbor->toporient)

toporient= horizonskip & 0x1;

else

toporient= (horizonskip & 0x1) ^ 0x1;

newfacet= qh_makenewfacet(qh, vertices, toporient, neighbor);

(*numnew)++;

if (neighbor->coplanarhorizon && (qh->PREmerge || qh->MERGEexact)) {

#ifndef qh_NOmerge

newfacet->f.samecycle= newfacet;

newfacet->mergehorizon= True;

#endif

}

if (!qh->NEWtentative)

SETelem_(neighbor->neighbors, horizonskip)= newfacet;

trace4((qh, qh->ferr, 4049, "qh_makenew_simplicial: create facet f%d top %d from v%d and horizon f%d skip %d top %d and visible f%d skip %d, flip? %d\n",

newfacet->id, toporient, apex->id, neighbor->id, horizonskip,

neighbor->toporient, visible->id, visibleskip, flip));

}

}

return newfacet;

} /* makenew_simplicial */

/*-<a href="qh-poly_r.htm#TOC"

>-------------------------------</a><a name="matchneighbor">-</a>

qh_matchneighbor(qh, newfacet, newskip, hashsize, hashcount )

either match subridge of newfacet with neighbor or add to hash_table

returns:

matched ridges of newfacet, except for duplicate ridges

duplicate ridges marked by qh_DUPLICATEridge for qh_matchdupridge

notes:

called by qh_matchnewfacets

assumes newfacet is simplicial

ridge is newfacet->vertices w/o newskip vertex

do not allocate memory (need to free hash_table cleanly)

uses linear hash chains

see qh_matchdupridge (poly2_r.c)

design:

for each possible matching facet in qh.hash_table

if vertices match

set ismatch, if facets have opposite orientation

if ismatch and matching facet doesn't have a match

match the facets by updating their neighbor sets

else

note: dupridge detected when a match 'f&d skip %d' has already been seen

need to mark all of the dupridges for qh_matchdupridge

indicate a duplicate ridge by qh_DUPLICATEridge and f.dupridge

add facet to hashtable

unless the other facet was already a duplicate ridge

mark both facets with a duplicate ridge

add other facet (if defined) to hash table

state at "indicate a duplicate ridge":

newfacet@newskip= the argument

facet= the hashed facet@skip that has the same vertices as newfacet@newskip

same= true if matched vertices have the same orientation

matchfacet= neighbor at facet@skip

matchfacet=qh_DUPLICATEridge, matchfacet was previously detected as a dupridge of facet@skip

ismatch if 'vertex orientation (same) matches facet/newfacet orientation (toporient)

unknown facet will match later

details at "indicate a duplicate ridge":

if !ismatch and matchfacet,

dupridge is between hashed facet@skip/matchfacet@matchskip and arg newfacet@newskip/unknown

set newfacet@newskip, facet@skip, and matchfacet@matchskip to qh_DUPLICATEridge

add newfacet and matchfacet to hash_table

if ismatch and matchfacet,

same as !ismatch and matchfacet -- it matches facet instead of matchfacet

if !ismatch and !matchfacet

dupridge between hashed facet@skip/unknown and arg newfacet@newskip/unknown

set newfacet@newskip and facet@skip to qh_DUPLICATEridge

add newfacet to hash_table

if ismatch and matchfacet==qh_DUPLICATEridge

dupridge with already duplicated hashed facet@skip and arg newfacet@newskip/unknown

set newfacet@newskip to qh_DUPLICATEridge

add newfacet to hash_table

facet's hyperplane already set

*/

void qh_matchneighbor(qhT *qh, facetT *newfacet, int newskip, int hashsize, int *hashcount) {

boolT newfound= False; /* True, if new facet is already in hash chain */

boolT same, ismatch;

int hash, scan;

facetT *facet, *matchfacet;

int skip, matchskip;

hash= qh_gethash(qh, hashsize, newfacet->vertices, qh->hull_dim, 1,

SETelem_(newfacet->vertices, newskip));

trace4((qh, qh->ferr, 4050, "qh_matchneighbor: newfacet f%d skip %d hash %d hashcount %d\n",

newfacet->id, newskip, hash, *hashcount));

zinc_(Zhashlookup);

for (scan=hash; (facet= SETelemt_(qh->hash_table, scan, facetT));

scan= (++scan >= hashsize ? 0 : scan)) {

if (facet == newfacet) {

newfound= True;

continue;

}

zinc_(Zhashtests);

if (qh_matchvertices(qh, 1, newfacet->vertices, newskip, facet->vertices, &skip, &same)) {

if (SETelem_(newfacet->vertices, newskip) == SETelem_(facet->vertices, skip)) {

qh_joggle_restart(qh, "two new facets with the same vertices");

/* duplicated for multiple skips, not easily avoided */

qh_fprintf(qh, qh->ferr, 7084, "qhull topology warning (qh_matchneighbor): will merge vertices to undo new facets -- f%d and f%d have the same vertices (skip %d, skip %d) and same horizon ridges to f%d and f%d\n",

facet->id, newfacet->id, skip, newskip, SETfirstt_(facet->neighbors, facetT)->id, SETfirstt_(newfacet->neighbors, facetT)->id);

/* will rename a vertex (QH3053). The fault was duplicate ridges (same vertices) in different facets due to a previous rename. Expensive to detect beforehand */

}

ismatch= (same == (boolT)((newfacet->toporient ^ facet->toporient)));

matchfacet= SETelemt_(facet->neighbors, skip, facetT);

if (ismatch && !matchfacet) {

SETelem_(facet->neighbors, skip)= newfacet;

SETelem_(newfacet->neighbors, newskip)= facet;

(*hashcount)--;

trace4((qh, qh->ferr, 4051, "qh_matchneighbor: f%d skip %d matched with new f%d skip %d\n",

facet->id, skip, newfacet->id, newskip));

return;

}

if (!qh->PREmerge && !qh->MERGEexact) {

qh_joggle_restart(qh, "a ridge with more than two neighbors");

qh_fprintf(qh, qh->ferr, 6107, "qhull topology error: facets f%d, f%d and f%d meet at a ridge with more than 2 neighbors. Can not continue due to no qh.PREmerge and no 'Qx' (MERGEexact)\n",

facet->id, newfacet->id, getid_(matchfacet));

qh_errexit2(qh, qh_ERRtopology, facet, newfacet);

}

SETelem_(newfacet->neighbors, newskip)= qh_DUPLICATEridge;

newfacet->dupridge= True;

qh_addhash(newfacet, qh->hash_table, hashsize, hash);

(*hashcount)++;

if (matchfacet != qh_DUPLICATEridge) {

SETelem_(facet->neighbors, skip)= qh_DUPLICATEridge;

facet->dupridge= True;

if (matchfacet) {

matchskip= qh_setindex(matchfacet->neighbors, facet);

if (matchskip<0) {

qh_fprintf(qh, qh->ferr, 6260, "qhull topology error (qh_matchneighbor): matchfacet f%d is in f%d neighbors but not vice versa. Can not continue.\n",

matchfacet->id, facet->id);

qh_errexit2(qh, qh_ERRtopology, matchfacet, facet);

}

else {

SETelem_(matchfacet->neighbors, matchskip)= qh_DUPLICATEridge; /* matchskip>=0 by QH6260 */

matchfacet->dupridge= True;

qh_addhash(matchfacet, qh->hash_table, hashsize, hash);

*hashcount += 2;

}

}

}

trace4((qh, qh->ferr, 4052, "qh_matchneighbor: new f%d skip %d duplicates ridge for f%d skip %d matching f%d ismatch %d at hash %d\n",

newfacet->id, newskip, facet->id, skip,

(matchfacet == qh_DUPLICATEridge ? -2 : getid_(matchfacet)),

ismatch, hash));

return; /* end of duplicate ridge */

}

}

if (!newfound)

SETelem_(qh->hash_table, scan)= newfacet; /* same as qh_addhash */

(*hashcount)++;

trace4((qh, qh->ferr, 4053, "qh_matchneighbor: no match for f%d skip %d at hash %d\n",

newfacet->id, newskip, hash));

} /* matchneighbor */

/*-<a href="qh-poly_r.htm#TOC"

>-------------------------------</a><a name="matchnewfacets">-</a>

qh_matchnewfacets(qh )

match new facets in qh.newfacet_list to their newfacet neighbors

all facets are simplicial

returns:

if dupridges and merging

returns maxdupdist (>=0.0) from vertex to opposite facet

sets facet->dupridge

missing neighbor links identify dupridges to be merged (qh_DUPLICATEridge)

else

qh.newfacet_list with full neighbor sets

vertices for the nth neighbor match all but the nth vertex

if not merging and qh.FORCEoutput

for facets with normals (i.e., with dupridges)

sets facet->flippped for flipped normals, also prevents point partitioning

notes:

called by qh_buildcone* and qh_triangulate_facet

neighbor[0] of new facets is the horizon facet

if NEWtentative, new facets not attached to the horizon

assumes qh.hash_table is NULL

vertex->neighbors has not been updated yet

do not allocate memory after qh.hash_table (need to free it cleanly)

design:

truncate neighbor sets to horizon facet for all new facets

initialize a hash table

for all new facets

match facet with neighbors

if unmatched facets (due to duplicate ridges)

for each new facet with a duplicate ridge

try to match facets with the same coplanar horizon

if not all matched

for each new facet with a duplicate ridge

match it with a coplanar facet, or identify a pinched vertex

if not merging and qh.FORCEoutput

check for flipped facets

*/

coordT qh_matchnewfacets(qhT *qh /* qh.newfacet_list */) {

int numnew=0, hashcount=0, newskip;

facetT *newfacet, *neighbor;

coordT maxdupdist= 0.0, maxdist2;

int dim= qh->hull_dim, hashsize, neighbor_i, neighbor_n;

setT *neighbors;

#ifndef qh_NOtrace

int facet_i, facet_n, numunused= 0;

facetT *facet;

#endif

trace1((qh, qh->ferr, 1019, "qh_matchnewfacets: match neighbors for new facets.\n"));

FORALLnew_facets {

numnew++;

{ /* inline qh_setzero(qh, newfacet->neighbors, 1, qh->hull_dim); */

neighbors= newfacet->neighbors;

neighbors->e[neighbors->maxsize].i= dim+1; /*may be overwritten*/

memset((char *)SETelemaddr_(neighbors, 1, void), 0, (size_t)(dim * SETelemsize));

}

}

qh_newhashtable(qh, numnew*(qh->hull_dim-1)); /* twice what is normally needed,

but every ridge could be DUPLICATEridge */

hashsize= qh_setsize(qh, qh->hash_table);

if( hashsize == 0 ) return 0.0; /* make coverity happy */

FORALLnew_facets {

if (!newfacet->simplicial) {

qh_fprintf(qh, qh->ferr, 6377, "qhull internal error (qh_matchnewfacets): expecting simplicial facets on qh.newfacet_list f%d for qh_matchneighbors, qh_matchneighbor, and qh_matchdupridge. Got non-simplicial f%d\n",

qh->newfacet_list->id, newfacet->id);

qh_errexit2(qh, qh_ERRqhull, newfacet, qh->newfacet_list);

}

for (newskip=1; newskip<qh->hull_dim; newskip++) /* furthest/horizon already matched */

/* hashsize>0 because hull_dim>1 and numnew>0 */

qh_matchneighbor(qh, newfacet, newskip, hashsize, &hashcount);

#if 0 /* use the following to trap hashcount errors */

{

int count= 0, k;

facetT *facet, *neighbor;

count= 0;

FORALLfacet_(qh->newfacet_list) { /* newfacet already in use */

for (k=1; k < qh->hull_dim; k++) {

neighbor= SETelemt_(facet->neighbors, k, facetT);

if (!neighbor || neighbor == qh_DUPLICATEridge)

count++;

}

if (facet == newfacet)

break;

}

if (count != hashcount) {

qh_fprintf(qh, qh->ferr, 6266, "qhull error (qh_matchnewfacets): after adding facet %d, hashcount %d != count %d\n",

newfacet->id, hashcount, count);

qh_errexit(qh, qh_ERRdebug, newfacet, NULL);

}

}

#endif /* end of trap code */

} /* end FORALLnew_facets */