/usr/include/libqhull/libqhull.h is in libqhull-dev 2012.1-4.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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>-------------------------------</a><a name="TOP">-</a>
libqhull.h
user-level header file for using qhull.a library
see qh-qhull.htm, qhull_a.h
Copyright (c) 1993-2012 The Geometry Center.
$Id: //main/2011/qhull/src/libqhull/libqhull.h#7 $$Change: 1464 $
$DateTime: 2012/01/25 22:58:41 $$Author: bbarber $
NOTE: access to qh_qh is via the 'qh' macro. This allows
qh_qh to be either a pointer or a structure. An example
of using qh is "qh DROPdim" which accesses the DROPdim
field of qh_qh. Similarly, access to qh_qhstat is via
the 'qhstat' macro.
includes function prototypes for libqhull.c, geom.c, global.c, io.c, user.c
use mem.h for mem.c
use qset.h for qset.c
see unix.c for an example of using libqhull.h
recompile qhull if you change this file
*/
#ifndef qhDEFlibqhull
#define qhDEFlibqhull 1
/*=========================== -included files ==============*/
#include "user.h" /* user definable constants (e.g., qh_QHpointer) */
#include <setjmp.h>
#include <float.h>
#include <time.h>
#include <stdio.h>
#if __MWERKS__ && __POWERPC__
#include <SIOUX.h>
#include <Files.h>
#include <Desk.h>
#endif
#ifndef __STDC__
#ifndef __cplusplus
#if !_MSC_VER
#error Neither __STDC__ nor __cplusplus is defined. Please use strict ANSI C or C++ to compile
#error Qhull. You may need to turn off compiler extensions in your project configuration. If
#error your compiler is a standard C compiler, you can delete this warning from libqhull.h
#endif
#endif
#endif
/*============ constants and basic types ====================*/
extern const char *qh_version; /* defined in global.c */
/*-<a href="qh-geom.htm#TOC"
>--------------------------------</a><a name="coordT">-</a>
coordT
coordinates and coefficients are stored as realT (i.e., double)
notes:
Qhull works well if realT is 'float'. If so joggle (QJ) is not effective.
Could use 'float' for data and 'double' for calculations (realT vs. coordT)
This requires many type casts, and adjusted error bounds.
Also C compilers may do expressions in double anyway.
*/
#define coordT realT
/*-<a href="qh-geom.htm#TOC"
>--------------------------------</a><a name="pointT">-</a>
pointT
a point is an array of coordinates, usually qh.hull_dim
*/
#define pointT coordT
/*-<a href="qh-qhull.htm#TOC"
>--------------------------------</a><a name="flagT">-</a>
flagT
Boolean flag as a bit
*/
#define flagT unsigned int
/*-<a href="qh-qhull.htm#TOC"
>--------------------------------</a><a name="boolT">-</a>
boolT
boolean value, either True or False
notes:
needed for portability
Use qh_False/qh_True as synonyms
*/
#define boolT unsigned int
#ifdef False
#undef False
#endif
#ifdef True
#undef True
#endif
#define False 0
#define True 1
#define qh_False 0
#define qh_True 1
/*-<a href="qh-qhull.htm#TOC"
>--------------------------------</a><a name="CENTERtype">-</a>
qh_CENTER
to distinguish facet->center
*/
typedef enum
{
qh_ASnone = 0, qh_ASvoronoi, qh_AScentrum
}
qh_CENTER;
/*-<a href="qh-qhull.htm#TOC"
>--------------------------------</a><a name="qh_PRINT">-</a>
qh_PRINT
output formats for printing (qh.PRINTout).
'Fa' 'FV' 'Fc' 'FC'
notes:
some of these names are similar to qh names. The similar names are only
used in switch statements in qh_printbegin() etc.
*/
typedef enum {qh_PRINTnone= 0,
qh_PRINTarea, qh_PRINTaverage, /* 'Fa' 'FV' 'Fc' 'FC' */
qh_PRINTcoplanars, qh_PRINTcentrums,
qh_PRINTfacets, qh_PRINTfacets_xridge, /* 'f' 'FF' 'G' 'FI' 'Fi' 'Fn' */
qh_PRINTgeom, qh_PRINTids, qh_PRINTinner, qh_PRINTneighbors,
qh_PRINTnormals, qh_PRINTouter, qh_PRINTmaple, /* 'n' 'Fo' 'i' 'm' 'Fm' 'FM', 'o' */
qh_PRINTincidences, qh_PRINTmathematica, qh_PRINTmerges, qh_PRINToff,
qh_PRINToptions, qh_PRINTpointintersect, /* 'FO' 'Fp' 'FP' 'p' 'FQ' 'FS' */
qh_PRINTpointnearest, qh_PRINTpoints, qh_PRINTqhull, qh_PRINTsize,
qh_PRINTsummary, qh_PRINTtriangles, /* 'Fs' 'Ft' 'Fv' 'FN' 'Fx' */
qh_PRINTvertices, qh_PRINTvneighbors, qh_PRINTextremes,
qh_PRINTEND} qh_PRINT;
/*-<a href="qh-qhull.htm#TOC"
>--------------------------------</a><a name="qh_ALL">-</a>
qh_ALL
argument flag for selecting everything
*/
#define qh_ALL True
#define qh_NOupper True /* argument for qh_findbest */
#define qh_IScheckmax True /* argument for qh_findbesthorizon */
#define qh_ISnewfacets True /* argument for qh_findbest */
#define qh_RESETvisible True /* argument for qh_resetlists */
/*-<a href="qh-qhull.htm#TOC"
>--------------------------------</a><a name="qh_ERR">-</a>
qh_ERR
Qhull exit codes, for indicating errors
See: MSG_ERROR and MSG_WARNING [user.h]
*/
#define qh_ERRnone 0 /* no error occurred during qhull */
#define qh_ERRinput 1 /* input inconsistency */
#define qh_ERRsingular 2 /* singular input data */
#define qh_ERRprec 3 /* precision error */
#define qh_ERRmem 4 /* insufficient memory, matches mem.h */
#define qh_ERRqhull 5 /* internal error detected, matches mem.h */
/*-<a href="qh-qhull.htm#TOC"
>--------------------------------</a><a name="qh_FILEstderr">-</a>
qh_FILEstderr
Fake stderr to distinguish error output from normal output
For C++ interface. Must redefine qh_fprintf_qhull
*/
#define qh_FILEstderr (FILE*)1
/* ============ -structures- ====================
each of the following structures is defined by a typedef
all realT and coordT fields occur at the beginning of a structure
(otherwise space may be wasted due to alignment)
define all flags together and pack into 32-bit number
*/
typedef struct vertexT vertexT;
typedef struct ridgeT ridgeT;
typedef struct facetT facetT;
#ifndef DEFsetT
#define DEFsetT 1
typedef struct setT setT; /* defined in qset.h */
#endif
#ifndef DEFqhstatT
#define DEFqhstatT 1
typedef struct qhstatT qhstatT; /* defined in stat.h */
#endif
/*-<a href="qh-poly.htm#TOC"
>--------------------------------</a><a name="facetT">-</a>
facetT
defines a facet
notes:
qhull() generates the hull as a list of facets.
topological information:
f.previous,next doubly-linked list of facets
f.vertices set of vertices
f.ridges set of ridges
f.neighbors set of neighbors
f.toporient True if facet has top-orientation (else bottom)
geometric information:
f.offset,normal hyperplane equation
f.maxoutside offset to outer plane -- all points inside
f.center centrum for testing convexity
f.simplicial True if facet is simplicial
f.flipped True if facet does not include qh.interior_point
for constructing hull:
f.visible True if facet on list of visible facets (will be deleted)
f.newfacet True if facet on list of newly created facets
f.coplanarset set of points coplanar with this facet
(includes near-inside points for later testing)
f.outsideset set of points outside of this facet
f.furthestdist distance to furthest point of outside set
f.visitid marks visited facets during a loop
f.replace replacement facet for to-be-deleted, visible facets
f.samecycle,newcycle cycle of facets for merging into horizon facet
see below for other flags and fields
*/
struct facetT {
#if !qh_COMPUTEfurthest
coordT furthestdist;/* distance to furthest point of outsideset */
#endif
#if qh_MAXoutside
coordT maxoutside; /* max computed distance of point to facet
Before QHULLfinished this is an approximation
since maxdist not always set for mergefacet
Actual outer plane is +DISTround and
computed outer plane is +2*DISTround */
#endif
coordT offset; /* exact offset of hyperplane from origin */
coordT *normal; /* normal of hyperplane, hull_dim coefficients */
/* if tricoplanar, shared with a neighbor */
union { /* in order of testing */
realT area; /* area of facet, only in io.c if ->isarea */
facetT *replace; /* replacement facet if ->visible and NEWfacets
is NULL only if qh_mergedegen_redundant or interior */
facetT *samecycle; /* cycle of facets from the same visible/horizon intersection,
if ->newfacet */
facetT *newcycle; /* in horizon facet, current samecycle of new facets */
facetT *trivisible; /* visible facet for ->tricoplanar facets during qh_triangulate() */
facetT *triowner; /* owner facet for ->tricoplanar, !isarea facets w/ ->keepcentrum */
}f;
coordT *center; /* centrum for convexity, qh CENTERtype == qh_AScentrum */
/* Voronoi center, qh CENTERtype == qh_ASvoronoi */
/* if tricoplanar, shared with a neighbor */
facetT *previous; /* previous facet in the facet_list */
facetT *next; /* next facet in the facet_list */
setT *vertices; /* vertices for this facet, inverse sorted by ID
if simplicial, 1st vertex was apex/furthest */
setT *ridges; /* explicit ridges for nonsimplicial facets.
for simplicial facets, neighbors define the ridges */
setT *neighbors; /* neighbors of the facet. If simplicial, the kth
neighbor is opposite the kth vertex, and the first
neighbor is the horizon facet for the first vertex*/
setT *outsideset; /* set of points outside this facet
if non-empty, last point is furthest
if NARROWhull, includes coplanars for partitioning*/
setT *coplanarset; /* set of points coplanar with this facet
> qh.min_vertex and <= facet->max_outside
a point is assigned to the furthest facet
if non-empty, last point is furthest away */
unsigned visitid; /* visit_id, for visiting all neighbors,
all uses are independent */
unsigned id; /* unique identifier from qh facet_id */
unsigned nummerge:9; /* number of merges */
#define qh_MAXnummerge 511 /* 2^9-1, 32 flags total, see "flags:" in io.c */
flagT tricoplanar:1; /* True if TRIangulate and simplicial and coplanar with a neighbor */
/* all tricoplanars share the same ->center, ->normal, ->offset, ->maxoutside */
/* all tricoplanars share the same apex */
/* if ->degenerate, does not span facet (one logical ridge) */
/* one tricoplanar has ->keepcentrum and ->coplanarset */
/* during qh_triangulate, f.trivisible points to original facet */
flagT newfacet:1; /* True if facet on qh newfacet_list (new or merged) */
flagT visible:1; /* True if visible facet (will be deleted) */
flagT toporient:1; /* True if created with top orientation
after merging, use ridge orientation */
flagT simplicial:1;/* True if simplicial facet, ->ridges may be implicit */
flagT seen:1; /* used to perform operations only once, like visitid */
flagT seen2:1; /* used to perform operations only once, like visitid */
flagT flipped:1; /* True if facet is flipped */
flagT upperdelaunay:1; /* True if facet is upper envelope of Delaunay triangulation */
flagT notfurthest:1; /* True if last point of outsideset is not furthest*/
/*-------- flags primarily for output ---------*/
flagT good:1; /* True if a facet marked good for output */
flagT isarea:1; /* True if facet->f.area is defined */
/*-------- flags for merging ------------------*/
flagT dupridge:1; /* True if duplicate ridge in facet */
flagT mergeridge:1; /* True if facet or neighbor contains a qh_MERGEridge
->normal defined (also defined for mergeridge2) */
flagT mergeridge2:1; /* True if neighbor contains a qh_MERGEridge (mark_dupridges */
flagT coplanar:1; /* True if horizon facet is coplanar at last use */
flagT mergehorizon:1; /* True if will merge into horizon (->coplanar) */
flagT cycledone:1;/* True if mergecycle_all already done */
flagT tested:1; /* True if facet convexity has been tested (false after merge */
flagT keepcentrum:1; /* True if keep old centrum after a merge, or marks owner for ->tricoplanar */
flagT newmerge:1; /* True if facet is newly merged for reducevertices */
flagT degenerate:1; /* True if facet is degenerate (degen_mergeset or ->tricoplanar) */
flagT redundant:1; /* True if facet is redundant (degen_mergeset) */
};
/*-<a href="qh-poly.htm#TOC"
>--------------------------------</a><a name="ridgeT">-</a>
ridgeT
defines a ridge
notes:
a ridge is hull_dim-1 simplex between two neighboring facets. If the
facets are non-simplicial, there may be more than one ridge between
two facets. E.G. a 4-d hypercube has two triangles between each pair
of neighboring facets.
topological information:
vertices a set of vertices
top,bottom neighboring facets with orientation
geometric information:
tested True if ridge is clearly convex
nonconvex True if ridge is non-convex
*/
struct ridgeT {
setT *vertices; /* vertices belonging to this ridge, inverse sorted by ID
NULL if a degen ridge (matchsame) */
facetT *top; /* top facet this ridge is part of */
facetT *bottom; /* bottom facet this ridge is part of */
unsigned id:24; /* unique identifier, =>room for 8 flags, bit field matches qh.ridge_id */
flagT seen:1; /* used to perform operations only once */
flagT tested:1; /* True when ridge is tested for convexity */
flagT nonconvex:1; /* True if getmergeset detected a non-convex neighbor
only one ridge between neighbors may have nonconvex */
};
/*-<a href="qh-poly.htm#TOC"
>--------------------------------</a><a name="vertexT">-</a>
vertexT
defines a vertex
topological information:
next,previous doubly-linked list of all vertices
neighbors set of adjacent facets (only if qh.VERTEXneighbors)
geometric information:
point array of DIM3 coordinates
*/
struct vertexT {
vertexT *next; /* next vertex in vertex_list */
vertexT *previous; /* previous vertex in vertex_list */
pointT *point; /* hull_dim coordinates (coordT) */
setT *neighbors; /* neighboring facets of vertex, qh_vertexneighbors()
inits in io.c or after first merge */
unsigned visitid:31; /* for use with qh vertex_visit, size must match */
flagT seen2:1; /* another seen flag */
unsigned id:24; /* unique identifier, bit field matches qh.vertex_id */
unsigned dim:4; /* dimension of point if non-zero, used by cpp */
/* =>room for 4 flags */
flagT seen:1; /* used to perform operations only once */
flagT delridge:1; /* vertex was part of a deleted ridge */
flagT deleted:1; /* true if vertex on qh del_vertices */
flagT newlist:1; /* true if vertex on qh newvertex_list */
};
#define MAX_vdim 15 /* Maximum size of vertex->dim */
/*======= -global variables -qh ============================*/
/*-<a href="qh-globa.htm#TOC"
>--------------------------------</a><a name="qh">-</a>
qh
all global variables for qhull are in qh, qhmem, and qhstat
notes:
qhmem is defined in mem.h, qhstat is defined in stat.h, qhrbox is defined in rboxpoints.h
Access to qh_qh is via the "qh" macro. See qh_QHpointer in user.h
All global variables for qhull are in qh, qhmem, and qhstat
qh must be unique for each instance of qhull
qhstat may be shared between qhull instances.
qhmem may be shared across multiple instances of Qhull.
Rbox uses global variables rbox_inuse and rbox, but does not persist data across calls.
Qhull is not multithreaded. Global state could be stored in thread-local storage.
*/
extern int qhull_inuse;
typedef struct qhT qhT;
#if qh_QHpointer_dllimport
#define qh qh_qh->
__declspec(dllimport) extern qhT *qh_qh; /* allocated in global.c */
#elif qh_QHpointer
#define qh qh_qh->
extern qhT *qh_qh; /* allocated in global.c */
#elif qh_dllimport
#define qh qh_qh.
__declspec(dllimport) extern qhT qh_qh; /* allocated in global.c */
#else
#define qh qh_qh.
extern qhT qh_qh;
#endif
struct qhT {
/*-<a href="qh-globa.htm#TOC"
>--------------------------------</a><a name="qh-const">-</a>
qh constants
configuration flags and constants for Qhull
notes:
The user configures Qhull by defining flags. They are
copied into qh by qh_setflags(). qh-quick.htm#options defines the flags.
*/
boolT ALLpoints; /* true 'Qs' if search all points for initial simplex */
boolT ANGLEmerge; /* true 'Qa' if sort potential merges by angle */
boolT APPROXhull; /* true 'Wn' if MINoutside set */
realT MINoutside; /* 'Wn' min. distance for an outside point */
boolT ANNOTATEoutput; /* true 'Ta' if annotate output with message codes */
boolT ATinfinity; /* true 'Qz' if point num_points-1 is "at-infinity"
for improving precision in Delaunay triangulations */
boolT AVOIDold; /* true 'Q4' if avoid old->new merges */
boolT BESToutside; /* true 'Qf' if partition points into best outsideset */
boolT CDDinput; /* true 'Pc' if input uses CDD format (1.0/offset first) */
boolT CDDoutput; /* true 'PC' if print normals in CDD format (offset first) */
boolT CHECKfrequently; /* true 'Tc' if checking frequently */
realT premerge_cos; /* 'A-n' cos_max when pre merging */
realT postmerge_cos; /* 'An' cos_max when post merging */
boolT DELAUNAY; /* true 'd' if computing DELAUNAY triangulation */
boolT DOintersections; /* true 'Gh' if print hyperplane intersections */
int DROPdim; /* drops dim 'GDn' for 4-d -> 3-d output */
boolT FORCEoutput; /* true 'Po' if forcing output despite degeneracies */
int GOODpoint; /* 1+n for 'QGn', good facet if visible/not(-) from point n*/
pointT *GOODpointp; /* the actual point */
boolT GOODthreshold; /* true if qh lower_threshold/upper_threshold defined
false if qh SPLITthreshold */
int GOODvertex; /* 1+n, good facet if vertex for point n */
pointT *GOODvertexp; /* the actual point */
boolT HALFspace; /* true 'Hn,n,n' if halfspace intersection */
int IStracing; /* trace execution, 0=none, 1=least, 4=most, -1=events */
int KEEParea; /* 'PAn' number of largest facets to keep */
boolT KEEPcoplanar; /* true 'Qc' if keeping nearest facet for coplanar points */
boolT KEEPinside; /* true 'Qi' if keeping nearest facet for inside points
set automatically if 'd Qc' */
int KEEPmerge; /* 'PMn' number of facets to keep with most merges */
realT KEEPminArea; /* 'PFn' minimum facet area to keep */
realT MAXcoplanar; /* 'Un' max distance below a facet to be coplanar*/
boolT MERGEexact; /* true 'Qx' if exact merges (coplanar, degen, dupridge, flipped) */
boolT MERGEindependent; /* true 'Q2' if merging independent sets */
boolT MERGING; /* true if exact-, pre- or post-merging, with angle and centrum tests */
realT premerge_centrum; /* 'C-n' centrum_radius when pre merging. Default is round-off */
realT postmerge_centrum; /* 'Cn' centrum_radius when post merging. Default is round-off */
boolT MERGEvertices; /* true 'Q3' if merging redundant vertices */
realT MINvisible; /* 'Vn' min. distance for a facet to be visible */
boolT NOnarrow; /* true 'Q10' if no special processing for narrow distributions */
boolT NOnearinside; /* true 'Q8' if ignore near-inside points when partitioning */
boolT NOpremerge; /* true 'Q0' if no defaults for C-0 or Qx */
boolT ONLYgood; /* true 'Qg' if process points with good visible or horizon facets */
boolT ONLYmax; /* true 'Qm' if only process points that increase max_outside */
boolT PICKfurthest; /* true 'Q9' if process furthest of furthest points*/
boolT POSTmerge; /* true if merging after buildhull (Cn or An) */
boolT PREmerge; /* true if merging during buildhull (C-n or A-n) */
/* NOTE: some of these names are similar to qh_PRINT names */
boolT PRINTcentrums; /* true 'Gc' if printing centrums */
boolT PRINTcoplanar; /* true 'Gp' if printing coplanar points */
int PRINTdim; /* print dimension for Geomview output */
boolT PRINTdots; /* true 'Ga' if printing all points as dots */
boolT PRINTgood; /* true 'Pg' if printing good facets */
boolT PRINTinner; /* true 'Gi' if printing inner planes */
boolT PRINTneighbors; /* true 'PG' if printing neighbors of good facets */
boolT PRINTnoplanes; /* true 'Gn' if printing no planes */
boolT PRINToptions1st; /* true 'FO' if printing options to stderr */
boolT PRINTouter; /* true 'Go' if printing outer planes */
boolT PRINTprecision; /* false 'Pp' if not reporting precision problems */
qh_PRINT PRINTout[qh_PRINTEND]; /* list of output formats to print */
boolT PRINTridges; /* true 'Gr' if print ridges */
boolT PRINTspheres; /* true 'Gv' if print vertices as spheres */
boolT PRINTstatistics; /* true 'Ts' if printing statistics to stderr */
boolT PRINTsummary; /* true 's' if printing summary to stderr */
boolT PRINTtransparent; /* true 'Gt' if print transparent outer ridges */
boolT PROJECTdelaunay; /* true if DELAUNAY, no readpoints() and
need projectinput() for Delaunay in qh_init_B */
int PROJECTinput; /* number of projected dimensions 'bn:0Bn:0' */
boolT QUICKhelp; /* true if quick help message for degen input */
boolT RANDOMdist; /* true if randomly change distplane and setfacetplane */
realT RANDOMfactor; /* maximum random perturbation */
realT RANDOMa; /* qh_randomfactor is randr * RANDOMa + RANDOMb */
realT RANDOMb;
boolT RANDOMoutside; /* true if select a random outside point */
int REPORTfreq; /* buildtracing reports every n facets */
int REPORTfreq2; /* tracemerging reports every REPORTfreq/2 facets */
int RERUN; /* 'TRn' rerun qhull n times (qh.build_cnt) */
int ROTATErandom; /* 'QRn' seed, 0 time, >= rotate input */
boolT SCALEinput; /* true 'Qbk' if scaling input */
boolT SCALElast; /* true 'Qbb' if scale last coord to max prev coord */
boolT SETroundoff; /* true 'E' if qh DISTround is predefined */
boolT SKIPcheckmax; /* true 'Q5' if skip qh_check_maxout */
boolT SKIPconvex; /* true 'Q6' if skip convexity testing during pre-merge */
boolT SPLITthresholds; /* true if upper_/lower_threshold defines a region
used only for printing (!for qh ONLYgood) */
int STOPcone; /* 'TCn' 1+n for stopping after cone for point n */
/* also used by qh_build_withresart for err exit*/
int STOPpoint; /* 'TVn' 'TV-n' 1+n for stopping after/before(-)
adding point n */
int TESTpoints; /* 'QTn' num of test points after qh.num_points. Test points always coplanar. */
boolT TESTvneighbors; /* true 'Qv' if test vertex neighbors at end */
int TRACElevel; /* 'Tn' conditional IStracing level */
int TRACElastrun; /* qh.TRACElevel applies to last qh.RERUN */
int TRACEpoint; /* 'TPn' start tracing when point n is a vertex */
realT TRACEdist; /* 'TWn' start tracing when merge distance too big */
int TRACEmerge; /* 'TMn' start tracing before this merge */
boolT TRIangulate; /* true 'Qt' if triangulate non-simplicial facets */
boolT TRInormals; /* true 'Q11' if triangulate duplicates normals (sets Qt) */
boolT UPPERdelaunay; /* true 'Qu' if computing furthest-site Delaunay */
boolT USEstdout; /* true 'Tz' if using stdout instead of stderr */
boolT VERIFYoutput; /* true 'Tv' if verify output at end of qhull */
boolT VIRTUALmemory; /* true 'Q7' if depth-first processing in buildhull */
boolT VORONOI; /* true 'v' if computing Voronoi diagram */
/*--------input constants ---------*/
realT AREAfactor; /* 1/(hull_dim-1)! for converting det's to area */
boolT DOcheckmax; /* true if calling qh_check_maxout (qh_initqhull_globals) */
char *feasible_string; /* feasible point 'Hn,n,n' for halfspace intersection */
coordT *feasible_point; /* as coordinates, both malloc'd */
boolT GETarea; /* true 'Fa', 'FA', 'FS', 'PAn', 'PFn' if compute facet area/Voronoi volume in io.c */
boolT KEEPnearinside; /* true if near-inside points in coplanarset */
int hull_dim; /* dimension of hull, set by initbuffers */
int input_dim; /* dimension of input, set by initbuffers */
int num_points; /* number of input points */
pointT *first_point; /* array of input points, see POINTSmalloc */
boolT POINTSmalloc; /* true if qh first_point/num_points allocated */
pointT *input_points; /* copy of original qh.first_point for input points for qh_joggleinput */
boolT input_malloc; /* true if qh input_points malloc'd */
char qhull_command[256];/* command line that invoked this program */
int qhull_commandsiz2; /* size of qhull_command at qh_clear_outputflags */
char rbox_command[256]; /* command line that produced the input points */
char qhull_options[512];/* descriptive list of options */
int qhull_optionlen; /* length of last line */
int qhull_optionsiz; /* size of qhull_options at qh_build_withrestart */
int qhull_optionsiz2; /* size of qhull_options at qh_clear_outputflags */
int run_id; /* non-zero, random identifier for this instance of qhull */
boolT VERTEXneighbors; /* true if maintaining vertex neighbors */
boolT ZEROcentrum; /* true if 'C-0' or 'C-0 Qx'. sets ZEROall_ok */
realT *upper_threshold; /* don't print if facet->normal[k]>=upper_threshold[k]
must set either GOODthreshold or SPLITthreshold
if Delaunay, default is 0.0 for upper envelope */
realT *lower_threshold; /* don't print if facet->normal[k] <=lower_threshold[k] */
realT *upper_bound; /* scale point[k] to new upper bound */
realT *lower_bound; /* scale point[k] to new lower bound
project if both upper_ and lower_bound == 0 */
/*-<a href="qh-globa.htm#TOC"
>--------------------------------</a><a name="qh-prec">-</a>
qh precision constants
precision constants for Qhull
notes:
qh_detroundoff() computes the maximum roundoff error for distance
and other computations. It also sets default values for the
qh constants above.
*/
realT ANGLEround; /* max round off error for angles */
realT centrum_radius; /* max centrum radius for convexity (roundoff added) */
realT cos_max; /* max cosine for convexity (roundoff added) */
realT DISTround; /* max round off error for distances, 'E' overrides */
realT MAXabs_coord; /* max absolute coordinate */
realT MAXlastcoord; /* max last coordinate for qh_scalelast */
realT MAXsumcoord; /* max sum of coordinates */
realT MAXwidth; /* max rectilinear width of point coordinates */
realT MINdenom_1; /* min. abs. value for 1/x */
realT MINdenom; /* use divzero if denominator < MINdenom */
realT MINdenom_1_2; /* min. abs. val for 1/x that allows normalization */
realT MINdenom_2; /* use divzero if denominator < MINdenom_2 */
realT MINlastcoord; /* min. last coordinate for qh_scalelast */
boolT NARROWhull; /* set in qh_initialhull if angle < qh_MAXnarrow */
realT *NEARzero; /* hull_dim array for near zero in gausselim */
realT NEARinside; /* keep points for qh_check_maxout if close to facet */
realT ONEmerge; /* max distance for merging simplicial facets */
realT outside_err; /* application's epsilon for coplanar points
qh_check_bestdist() qh_check_points() reports error if point outside */
realT WIDEfacet; /* size of wide facet for skipping ridge in
area computation and locking centrum */
/*-<a href="qh-globa.htm#TOC"
>--------------------------------</a><a name="qh-codetern">-</a>
qh internal constants
internal constants for Qhull
*/
char qhull[sizeof("qhull")]; /* "qhull" for checking ownership while debugging */
jmp_buf errexit; /* exit label for qh_errexit, defined by setjmp() */
char jmpXtra[40]; /* extra bytes in case jmp_buf is defined wrong by compiler */
jmp_buf restartexit; /* restart label for qh_errexit, defined by setjmp() */
char jmpXtra2[40]; /* extra bytes in case jmp_buf is defined wrong by compiler*/
FILE *fin; /* pointer to input file, init by qh_meminit */
FILE *fout; /* pointer to output file */
FILE *ferr; /* pointer to error file */
pointT *interior_point; /* center point of the initial simplex*/
int normal_size; /* size in bytes for facet normals and point coords*/
int center_size; /* size in bytes for Voronoi centers */
int TEMPsize; /* size for small, temporary sets (in quick mem) */
/*-<a href="qh-globa.htm#TOC"
>--------------------------------</a><a name="qh-lists">-</a>
qh facet and vertex lists
defines lists of facets, new facets, visible facets, vertices, and
new vertices. Includes counts, next ids, and trace ids.
see:
qh_resetlists()
*/
facetT *facet_list; /* first facet */
facetT *facet_tail; /* end of facet_list (dummy facet) */
facetT *facet_next; /* next facet for buildhull()
previous facets do not have outside sets
NARROWhull: previous facets may have coplanar outside sets for qh_outcoplanar */
facetT *newfacet_list; /* list of new facets to end of facet_list */
facetT *visible_list; /* list of visible facets preceding newfacet_list,
facet->visible set */
int num_visible; /* current number of visible facets */
unsigned tracefacet_id; /* set at init, then can print whenever */
facetT *tracefacet; /* set in newfacet/mergefacet, undone in delfacet*/
unsigned tracevertex_id; /* set at buildtracing, can print whenever */
vertexT *tracevertex; /* set in newvertex, undone in delvertex*/
vertexT *vertex_list; /* list of all vertices, to vertex_tail */
vertexT *vertex_tail; /* end of vertex_list (dummy vertex) */
vertexT *newvertex_list; /* list of vertices in newfacet_list, to vertex_tail
all vertices have 'newlist' set */
int num_facets; /* number of facets in facet_list
includes visble faces (num_visible) */
int num_vertices; /* number of vertices in facet_list */
int num_outside; /* number of points in outsidesets (for tracing and RANDOMoutside)
includes coplanar outsideset points for NARROWhull/qh_outcoplanar() */
int num_good; /* number of good facets (after findgood_all) */
unsigned facet_id; /* ID of next, new facet from newfacet() */
unsigned ridge_id:24; /* ID of next, new ridge from newridge() */
unsigned vertex_id:24; /* ID of next, new vertex from newvertex() */
/*-<a href="qh-globa.htm#TOC"
>--------------------------------</a><a name="qh-var">-</a>
qh global variables
defines minimum and maximum distances, next visit ids, several flags,
and other global variables.
initialize in qh_initbuild or qh_maxmin if used in qh_buildhull
*/
unsigned long hulltime; /* ignore time to set up input and randomize */
/* use unsigned to avoid wrap-around errors */
boolT ALLOWrestart; /* true if qh_precision can use qh.restartexit */
int build_cnt; /* number of calls to qh_initbuild */
qh_CENTER CENTERtype; /* current type of facet->center, qh_CENTER */
int furthest_id; /* pointid of furthest point, for tracing */
facetT *GOODclosest; /* closest facet to GOODthreshold in qh_findgood */
boolT hasAreaVolume; /* true if totarea, totvol was defined by qh_getarea */
boolT hasTriangulation; /* true if triangulation created by qh_triangulate */
realT JOGGLEmax; /* set 'QJn' if randomly joggle input */
boolT maxoutdone; /* set qh_check_maxout(), cleared by qh_addpoint() */
realT max_outside; /* maximum distance from a point to a facet,
before roundoff, not simplicial vertices
actual outer plane is +DISTround and
computed outer plane is +2*DISTround */
realT max_vertex; /* maximum distance (>0) from vertex to a facet,
before roundoff, due to a merge */
realT min_vertex; /* minimum distance (<0) from vertex to a facet,
before roundoff, due to a merge
if qh.JOGGLEmax, qh_makenewplanes sets it
recomputed if qh.DOcheckmax, default -qh.DISTround */
boolT NEWfacets; /* true while visible facets invalid due to new or merge
from makecone/attachnewfacets to deletevisible */
boolT findbestnew; /* true if partitioning calls qh_findbestnew */
boolT findbest_notsharp; /* true if new facets are at least 90 degrees */
boolT NOerrexit; /* true if qh.errexit is not available */
realT PRINTcradius; /* radius for printing centrums */
realT PRINTradius; /* radius for printing vertex spheres and points */
boolT POSTmerging; /* true when post merging */
int printoutvar; /* temporary variable for qh_printbegin, etc. */
int printoutnum; /* number of facets printed */
boolT QHULLfinished; /* True after qhull() is finished */
realT totarea; /* 'FA': total facet area computed by qh_getarea, hasAreaVolume */
realT totvol; /* 'FA': total volume computed by qh_getarea, hasAreaVolume */
unsigned int visit_id; /* unique ID for searching neighborhoods, */
unsigned int vertex_visit:31; /* unique ID for searching vertices, reset with qh_buildtracing */
boolT ZEROall_ok; /* True if qh_checkzero always succeeds */
boolT WAScoplanar; /* True if qh_partitioncoplanar (qh_check_maxout) */
/*-<a href="qh-globa.htm#TOC"
>--------------------------------</a><a name="qh-set">-</a>
qh global sets
defines sets for merging, initial simplex, hashing, extra input points,
and deleted vertices
*/
setT *facet_mergeset; /* temporary set of merges to be done */
setT *degen_mergeset; /* temporary set of degenerate and redundant merges */
setT *hash_table; /* hash table for matching ridges in qh_matchfacets
size is setsize() */
setT *other_points; /* additional points */
setT *del_vertices; /* vertices to partition and delete with visible
facets. Have deleted set for checkfacet */
/*-<a href="qh-globa.htm#TOC"
>--------------------------------</a><a name="qh-buf">-</a>
qh global buffers
defines buffers for maxtrix operations, input, and error messages
*/
coordT *gm_matrix; /* (dim+1)Xdim matrix for geom.c */
coordT **gm_row; /* array of gm_matrix rows */
char* line; /* malloc'd input line of maxline+1 chars */
int maxline;
coordT *half_space; /* malloc'd input array for halfspace (qh normal_size+coordT) */
coordT *temp_malloc; /* malloc'd input array for points */
/*-<a href="qh-globa.htm#TOC"
>--------------------------------</a><a name="qh-static">-</a>
qh static variables
defines static variables for individual functions
notes:
do not use 'static' within a function. Multiple instances of qhull
may exist.
do not assume zero initialization, 'QPn' may cause a restart
*/
boolT ERREXITcalled; /* true during qh_errexit (prevents duplicate calls */
boolT firstcentrum; /* for qh_printcentrum */
boolT old_randomdist; /* save RANDOMdist flag during io, tracing, or statistics */
setT *coplanarfacetset; /* set of coplanar facets for searching qh_findbesthorizon() */
realT last_low; /* qh_scalelast parameters for qh_setdelaunay */
realT last_high;
realT last_newhigh;
unsigned lastreport; /* for qh_buildtracing */
int mergereport; /* for qh_tracemerging */
qhstatT *old_qhstat; /* for saving qh_qhstat in save_qhull() and UsingLibQhull. Free with qh_free() */
setT *old_tempstack; /* for saving qhmem.tempstack in save_qhull */
int ridgeoutnum; /* number of ridges for 4OFF output (qh_printbegin,etc) */
};
/*=========== -macros- =========================*/
/*-<a href="qh-poly.htm#TOC"
>--------------------------------</a><a name="otherfacet_">-</a>
otherfacet_(ridge, facet)
return neighboring facet for a ridge in facet
*/
#define otherfacet_(ridge, facet) \
(((ridge)->top == (facet)) ? (ridge)->bottom : (ridge)->top)
/*-<a href="qh-poly.htm#TOC"
>--------------------------------</a><a name="getid_">-</a>
getid_(p)
return int ID for facet, ridge, or vertex
return -1 if NULL
*/
#define getid_(p) ((p) ? (int)((p)->id) : -1)
/*============== FORALL macros ===================*/
/*-<a href="qh-poly.htm#TOC"
>--------------------------------</a><a name="FORALLfacets">-</a>
FORALLfacets { ... }
assign 'facet' to each facet in qh.facet_list
notes:
uses 'facetT *facet;'
assumes last facet is a sentinel
see:
FORALLfacet_( facetlist )
*/
#define FORALLfacets for (facet=qh facet_list;facet && facet->next;facet=facet->next)
/*-<a href="qh-poly.htm#TOC"
>--------------------------------</a><a name="FORALLpoints">-</a>
FORALLpoints { ... }
assign 'point' to each point in qh.first_point, qh.num_points
declare:
coordT *point, *pointtemp;
*/
#define FORALLpoints FORALLpoint_(qh first_point, qh num_points)
/*-<a href="qh-poly.htm#TOC"
>--------------------------------</a><a name="FORALLpoint_">-</a>
FORALLpoint_( points, num) { ... }
assign 'point' to each point in points array of num points
declare:
coordT *point, *pointtemp;
*/
#define FORALLpoint_(points, num) for (point= (points), \
pointtemp= (points)+qh hull_dim*(num); point < pointtemp; point += qh hull_dim)
/*-<a href="qh-poly.htm#TOC"
>--------------------------------</a><a name="FORALLvertices">-</a>
FORALLvertices { ... }
assign 'vertex' to each vertex in qh.vertex_list
declare:
vertexT *vertex;
notes:
assumes qh.vertex_list terminated with a sentinel
*/
#define FORALLvertices for (vertex=qh vertex_list;vertex && vertex->next;vertex= vertex->next)
/*-<a href="qh-poly.htm#TOC"
>--------------------------------</a><a name="FOREACHfacet_">-</a>
FOREACHfacet_( facets ) { ... }
assign 'facet' to each facet in facets
declare:
facetT *facet, **facetp;
see:
<a href="qset.h#FOREACHsetelement_">FOREACHsetelement_</a>
*/
#define FOREACHfacet_(facets) FOREACHsetelement_(facetT, facets, facet)
/*-<a href="qh-poly.htm#TOC"
>--------------------------------</a><a name="FOREACHneighbor_">-</a>
FOREACHneighbor_( facet ) { ... }
assign 'neighbor' to each neighbor in facet->neighbors
FOREACHneighbor_( vertex ) { ... }
assign 'neighbor' to each neighbor in vertex->neighbors
declare:
facetT *neighbor, **neighborp;
see:
<a href="qset.h#FOREACHsetelement_">FOREACHsetelement_</a>
*/
#define FOREACHneighbor_(facet) FOREACHsetelement_(facetT, facet->neighbors, neighbor)
/*-<a href="qh-poly.htm#TOC"
>--------------------------------</a><a name="FOREACHpoint_">-</a>
FOREACHpoint_( points ) { ... }
assign 'point' to each point in points set
declare:
pointT *point, **pointp;
see:
<a href="qset.h#FOREACHsetelement_">FOREACHsetelement_</a>
*/
#define FOREACHpoint_(points) FOREACHsetelement_(pointT, points, point)
/*-<a href="qh-poly.htm#TOC"
>--------------------------------</a><a name="FOREACHridge_">-</a>
FOREACHridge_( ridges ) { ... }
assign 'ridge' to each ridge in ridges set
declare:
ridgeT *ridge, **ridgep;
see:
<a href="qset.h#FOREACHsetelement_">FOREACHsetelement_</a>
*/
#define FOREACHridge_(ridges) FOREACHsetelement_(ridgeT, ridges, ridge)
/*-<a href="qh-poly.htm#TOC"
>--------------------------------</a><a name="FOREACHvertex_">-</a>
FOREACHvertex_( vertices ) { ... }
assign 'vertex' to each vertex in vertices set
declare:
vertexT *vertex, **vertexp;
see:
<a href="qset.h#FOREACHsetelement_">FOREACHsetelement_</a>
*/
#define FOREACHvertex_(vertices) FOREACHsetelement_(vertexT, vertices,vertex)
/*-<a href="qh-poly.htm#TOC"
>--------------------------------</a><a name="FOREACHfacet_i_">-</a>
FOREACHfacet_i_( facets ) { ... }
assign 'facet' and 'facet_i' for each facet in facets set
declare:
facetT *facet;
int facet_n, facet_i;
see:
<a href="qset.h#FOREACHsetelement_i_">FOREACHsetelement_i_</a>
*/
#define FOREACHfacet_i_(facets) FOREACHsetelement_i_(facetT, facets, facet)
/*-<a href="qh-poly.htm#TOC"
>--------------------------------</a><a name="FOREACHneighbor_i_">-</a>
FOREACHneighbor_i_( facet ) { ... }
assign 'neighbor' and 'neighbor_i' for each neighbor in facet->neighbors
FOREACHneighbor_i_( vertex ) { ... }
assign 'neighbor' and 'neighbor_i' for each neighbor in vertex->neighbors
declare:
facetT *neighbor;
int neighbor_n, neighbor_i;
see:
<a href="qset.h#FOREACHsetelement_i_">FOREACHsetelement_i_</a>
*/
#define FOREACHneighbor_i_(facet) FOREACHsetelement_i_(facetT, facet->neighbors, neighbor)
/*-<a href="qh-poly.htm#TOC"
>--------------------------------</a><a name="FOREACHpoint_i_">-</a>
FOREACHpoint_i_( points ) { ... }
assign 'point' and 'point_i' for each point in points set
declare:
pointT *point;
int point_n, point_i;
see:
<a href="qset.h#FOREACHsetelement_i_">FOREACHsetelement_i_</a>
*/
#define FOREACHpoint_i_(points) FOREACHsetelement_i_(pointT, points, point)
/*-<a href="qh-poly.htm#TOC"
>--------------------------------</a><a name="FOREACHridge_i_">-</a>
FOREACHridge_i_( ridges ) { ... }
assign 'ridge' and 'ridge_i' for each ridge in ridges set
declare:
ridgeT *ridge;
int ridge_n, ridge_i;
see:
<a href="qset.h#FOREACHsetelement_i_">FOREACHsetelement_i_</a>
*/
#define FOREACHridge_i_(ridges) FOREACHsetelement_i_(ridgeT, ridges, ridge)
/*-<a href="qh-poly.htm#TOC"
>--------------------------------</a><a name="FOREACHvertex_i_">-</a>
FOREACHvertex_i_( vertices ) { ... }
assign 'vertex' and 'vertex_i' for each vertex in vertices set
declare:
vertexT *vertex;
int vertex_n, vertex_i;
see:
<a href="qset.h#FOREACHsetelement_i_">FOREACHsetelement_i_</a>
*/
#define FOREACHvertex_i_(vertices) FOREACHsetelement_i_(vertexT, vertices,vertex)
/********* -libqhull.c prototypes (duplicated from qhull_a.h) **********************/
void qh_qhull(void);
boolT qh_addpoint(pointT *furthest, facetT *facet, boolT checkdist);
void qh_printsummary(FILE *fp);
/********* -user.c prototypes (alphabetical) **********************/
void qh_errexit(int exitcode, facetT *facet, ridgeT *ridge);
void qh_errprint(const char* string, facetT *atfacet, facetT *otherfacet, ridgeT *atridge, vertexT *atvertex);
int qh_new_qhull(int dim, int numpoints, coordT *points, boolT ismalloc,
char *qhull_cmd, FILE *outfile, FILE *errfile);
void qh_printfacetlist(facetT *facetlist, setT *facets, boolT printall);
void qh_printhelp_degenerate(FILE *fp);
void qh_printhelp_narrowhull(FILE *fp, realT minangle);
void qh_printhelp_singular(FILE *fp);
void qh_user_memsizes(void);
/********* -usermem.c prototypes (alphabetical) **********************/
void qh_exit(int exitcode);
void qh_free(void *mem);
void *qh_malloc(size_t size);
/********* -userprintf.c and userprintf_rbox.c prototypes **********************/
void qh_fprintf(FILE *fp, int msgcode, const char *fmt, ... );
void qh_fprintf_rbox(FILE *fp, int msgcode, const char *fmt, ... );
/***** -geom.c/geom2.c/random.c prototypes (duplicated from geom.h, random.h) ****************/
facetT *qh_findbest(pointT *point, facetT *startfacet,
boolT bestoutside, boolT newfacets, boolT noupper,
realT *dist, boolT *isoutside, int *numpart);
facetT *qh_findbestnew(pointT *point, facetT *startfacet,
realT *dist, boolT bestoutside, boolT *isoutside, int *numpart);
boolT qh_gram_schmidt(int dim, realT **rows);
void qh_outerinner(facetT *facet, realT *outerplane, realT *innerplane);
void qh_printsummary(FILE *fp);
void qh_projectinput(void);
void qh_randommatrix(realT *buffer, int dim, realT **row);
void qh_rotateinput(realT **rows);
void qh_scaleinput(void);
void qh_setdelaunay(int dim, int count, pointT *points);
coordT *qh_sethalfspace_all(int dim, int count, coordT *halfspaces, pointT *feasible);
/***** -global.c prototypes (alphabetical) ***********************/
unsigned long qh_clock(void);
void qh_checkflags(char *command, char *hiddenflags);
void qh_clear_outputflags(void);
void qh_freebuffers(void);
void qh_freeqhull(boolT allmem);
void qh_freeqhull2(boolT allmem);
void qh_init_A(FILE *infile, FILE *outfile, FILE *errfile, int argc, char *argv[]);
void qh_init_B(coordT *points, int numpoints, int dim, boolT ismalloc);
void qh_init_qhull_command(int argc, char *argv[]);
void qh_initbuffers(coordT *points, int numpoints, int dim, boolT ismalloc);
void qh_initflags(char *command);
void qh_initqhull_buffers(void);
void qh_initqhull_globals(coordT *points, int numpoints, int dim, boolT ismalloc);
void qh_initqhull_mem(void);
void qh_initqhull_outputflags(void);
void qh_initqhull_start(FILE *infile, FILE *outfile, FILE *errfile);
void qh_initqhull_start2(FILE *infile, FILE *outfile, FILE *errfile);
void qh_initthresholds(char *command);
void qh_option(const char *option, int *i, realT *r);
#if qh_QHpointer
void qh_restore_qhull(qhT **oldqh);
qhT *qh_save_qhull(void);
#endif
/***** -io.c prototypes (duplicated from io.h) ***********************/
void dfacet( unsigned id);
void dvertex( unsigned id);
void qh_printneighborhood(FILE *fp, qh_PRINT format, facetT *facetA, facetT *facetB, boolT printall);
void qh_produce_output(void);
coordT *qh_readpoints(int *numpoints, int *dimension, boolT *ismalloc);
/********* -mem.c prototypes (duplicated from mem.h) **********************/
void qh_meminit(FILE *ferr);
void qh_memfreeshort(int *curlong, int *totlong);
/********* -poly.c/poly2.c prototypes (duplicated from poly.h) **********************/
void qh_check_output(void);
void qh_check_points(void);
setT *qh_facetvertices(facetT *facetlist, setT *facets, boolT allfacets);
facetT *qh_findbestfacet(pointT *point, boolT bestoutside,
realT *bestdist, boolT *isoutside);
vertexT *qh_nearvertex(facetT *facet, pointT *point, realT *bestdistp);
pointT *qh_point(int id);
setT *qh_pointfacet(void /*qh.facet_list*/);
int qh_pointid(pointT *point);
setT *qh_pointvertex(void /*qh.facet_list*/);
void qh_setvoronoi_all(void);
void qh_triangulate(void /*qh facet_list*/);
/********* -rboxpoints.c prototypes **********************/
int qh_rboxpoints(FILE* fout, FILE* ferr, char* rbox_command);
void qh_errexit_rbox(int exitcode);
/********* -stat.c prototypes (duplicated from stat.h) **********************/
void qh_collectstatistics(void);
void qh_printallstatistics(FILE *fp, const char *string);
#endif /* qhDEFlibqhull */
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