/*
--------------------------------- geom_r.h header file for geometric routines see qh-geom_r.htm and geom_r.c Copyright (c) 1993-2015 The Geometry Center. $Id: //main/2015/qhull/src/libqhull_r/geom_r.h#3 $$Change: 2079 $ $DateTime: 2016/02/07 17:43:34 $$Author: bbarber $ */ #ifndef qhDEFgeom #define qhDEFgeom 1 #include "libqhull_r.h" /* ============ -macros- ======================== */ /*---------------------------------- fabs_(a) returns the absolute value of a */ #define fabs_( a ) ((( a ) < 0 ) ? -( a ):( a )) /*---------------------------------- fmax_(a,b) returns the maximum value of a and b */ #define fmax_( a,b ) ( ( a ) < ( b ) ? ( b ) : ( a ) ) /*---------------------------------- fmin_(a,b) returns the minimum value of a and b */ #define fmin_( a,b ) ( ( a ) > ( b ) ? ( b ) : ( a ) ) /*---------------------------------- maximize_(maxval, val) set maxval to val if val is greater than maxval */ #define maximize_( maxval, val ) { if (( maxval ) < ( val )) ( maxval )= ( val ); } /*---------------------------------- minimize_(minval, val) set minval to val if val is less than minval */ #define minimize_( minval, val ) { if (( minval ) > ( val )) ( minval )= ( val ); } /*---------------------------------- det2_(a1, a2, b1, b2) compute a 2-d determinate */ #define det2_( a1,a2,b1,b2 ) (( a1 )*( b2 ) - ( a2 )*( b1 )) /*---------------------------------- det3_(a1, a2, a3, b1, b2, b3, c1, c2, c3) compute a 3-d determinate */ #define det3_( a1,a2,a3,b1,b2,b3,c1,c2,c3 ) ( ( a1 )*det2_( b2,b3,c2,c3 ) \ - ( b1 )*det2_( a2,a3,c2,c3 ) + ( c1 )*det2_( a2,a3,b2,b3 ) ) /*---------------------------------- dX( p1, p2 ) dY( p1, p2 ) dZ( p1, p2 ) given two indices into rows[], compute the difference between X, Y, or Z coordinates */ #define dX( p1,p2 ) ( *( rows[p1] ) - *( rows[p2] )) #define dY( p1,p2 ) ( *( rows[p1]+1 ) - *( rows[p2]+1 )) #define dZ( p1,p2 ) ( *( rows[p1]+2 ) - *( rows[p2]+2 )) #define dW( p1,p2 ) ( *( rows[p1]+3 ) - *( rows[p2]+3 )) /*============= prototypes in alphabetical order, infrequent at end ======= */ #ifdef __cplusplus extern "C" { #endif void qh_backnormal(qhT *qh, realT **rows, int numrow, int numcol, boolT sign, coordT *normal, boolT *nearzero); void qh_distplane(qhT *qh, pointT *point, facetT *facet, realT *dist); facetT *qh_findbest(qhT *qh, pointT *point, facetT *startfacet, boolT bestoutside, boolT isnewfacets, boolT noupper, realT *dist, boolT *isoutside, int *numpart); facetT *qh_findbesthorizon(qhT *qh, boolT ischeckmax, pointT *point, facetT *startfacet, boolT noupper, realT *bestdist, int *numpart); facetT *qh_findbestnew(qhT *qh, pointT *point, facetT *startfacet, realT *dist, boolT bestoutside, boolT *isoutside, int *numpart); void qh_gausselim(qhT *qh, realT **rows, int numrow, int numcol, boolT *sign, boolT *nearzero); realT qh_getangle(qhT *qh, pointT *vect1, pointT *vect2); pointT *qh_getcenter(qhT *qh, setT *vertices); pointT *qh_getcentrum(qhT *qh, facetT *facet); realT qh_getdistance(qhT *qh, facetT *facet, facetT *neighbor, realT *mindist, realT *maxdist); void qh_normalize(qhT *qh, coordT *normal, int dim, boolT toporient); void qh_normalize2(qhT *qh, coordT *normal, int dim, boolT toporient, realT *minnorm, boolT *ismin); pointT *qh_projectpoint(qhT *qh, pointT *point, facetT *facet, realT dist); void qh_setfacetplane(qhT *qh, facetT *newfacets); void qh_sethyperplane_det(qhT *qh, int dim, coordT **rows, coordT *point0, boolT toporient, coordT *normal, realT *offset, boolT *nearzero); void qh_sethyperplane_gauss(qhT *qh, int dim, coordT **rows, pointT *point0, boolT toporient, coordT *normal, coordT *offset, boolT *nearzero); boolT qh_sharpnewfacets(qhT *qh); /*========= infrequently used code in geom2_r.c =============*/ coordT *qh_copypoints(qhT *qh, coordT *points, int numpoints, int dimension); void qh_crossproduct(int dim, realT vecA[3], realT vecB[3], realT vecC[3]); realT qh_determinant(qhT *qh, realT **rows, int dim, boolT *nearzero); realT qh_detjoggle(qhT *qh, pointT *points, int numpoints, int dimension); void qh_detroundoff(qhT *qh); realT qh_detsimplex(qhT *qh, pointT *apex, setT *points, int dim, boolT *nearzero); realT qh_distnorm(int dim, pointT *point, pointT *normal, realT *offsetp); realT qh_distround(qhT *qh, int dimension, realT maxabs, realT maxsumabs); realT qh_divzero(realT numer, realT denom, realT mindenom1, boolT *zerodiv); realT qh_facetarea(qhT *qh, facetT *facet); realT qh_facetarea_simplex(qhT *qh, int dim, coordT *apex, setT *vertices, vertexT *notvertex, boolT toporient, coordT *normal, realT *offset); pointT *qh_facetcenter(qhT *qh, setT *vertices); facetT *qh_findgooddist(qhT *qh, pointT *point, facetT *facetA, realT *distp, facetT **facetlist); void qh_getarea(qhT *qh, facetT *facetlist); boolT qh_gram_schmidt(qhT *qh, int dim, realT **rows); boolT qh_inthresholds(qhT *qh, coordT *normal, realT *angle); void qh_joggleinput(qhT *qh); realT *qh_maxabsval(realT *normal, int dim); setT *qh_maxmin(qhT *qh, pointT *points, int numpoints, int dimension); realT qh_maxouter(qhT *qh); void qh_maxsimplex(qhT *qh, int dim, setT *maxpoints, pointT *points, int numpoints, setT **simplex); realT qh_minabsval(realT *normal, int dim); int qh_mindiff(realT *vecA, realT *vecB, int dim); boolT qh_orientoutside(qhT *qh, facetT *facet); void qh_outerinner(qhT *qh, facetT *facet, realT *outerplane, realT *innerplane); coordT qh_pointdist(pointT *point1, pointT *point2, int dim); void qh_printmatrix(qhT *qh, FILE *fp, const char *string, realT **rows, int numrow, int numcol); void qh_printpoints(qhT *qh, FILE *fp, const char *string, setT *points); void qh_projectinput(qhT *qh); void qh_projectpoints(qhT *qh, signed char *project, int n, realT *points, int numpoints, int dim, realT *newpoints, int newdim); void qh_rotateinput(qhT *qh, realT **rows); void qh_rotatepoints(qhT *qh, realT *points, int numpoints, int dim, realT **rows); void qh_scaleinput(qhT *qh); void qh_scalelast(qhT *qh, coordT *points, int numpoints, int dim, coordT low, coordT high, coordT newhigh); void qh_scalepoints(qhT *qh, pointT *points, int numpoints, int dim, realT *newlows, realT *newhighs); boolT qh_sethalfspace(qhT *qh, int dim, coordT *coords, coordT **nextp, coordT *normal, coordT *offset, coordT *feasible); coordT *qh_sethalfspace_all(qhT *qh, int dim, int count, coordT *halfspaces, pointT *feasible); pointT *qh_voronoi_center(qhT *qh, int dim, setT *points); #ifdef __cplusplus } /* extern "C"*/ #endif #endif /* qhDEFgeom */