windows-nt/Source/XPSP1/NT/multimedia/opengl/glu/libtri/monotoni.c

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2020-09-26 03:20:57 -05:00
/**************************************************************************
* *
* Copyright (C) 1989, Silicon Graphics, Inc. *
* *
* These coded instructions, statements, and computer programs contain *
* unpublished proprietary information of Silicon Graphics, Inc., and *
* are protected by Federal copyright law. They may not be disclosed *
* to third parties or copied or duplicated in any form, in whole or *
* in part, without the prior written consent of Silicon Graphics, Inc. *
* *
**************************************************************************/
/* monotonize.c */
/* Derrick Burns - 1989 */
#include <glos.h>
#include <GL/gl.h>
#include <GL/glu.h>
#include "monotone.h"
static Vert * __gl_connectedge( GLUtriangulatorObj *, Vert *, Vert * );
/*----------------------------------------------------------------------------
* monotonize - add edges to a polygon to create monotone pieces
*----------------------------------------------------------------------------
*/
void
__gl_monotonize( GLUtriangulatorObj *tobj )
{
Ray *ray, *new_ray1, *new_ray2;
__gl_sort_priorityq( tobj );
while( __gl_more_priorityq( tobj ) ) {
Vert *vert = __gl_remove_priorityq( tobj );
if( vert->vclass == VC_NO_CLASS ) {
ray = __gl_findray_raylist( tobj, vert );
if( ray->orientation == __gl_ccw_vert( vert ) )
__gl_reverse_vert( vert );
(void) __gl_classify_all( vert );
}
switch (vert->vclass) {
case VC_OK_RIGHT: /* two new rays */
assert( vert->ray == 0 );
ray = __gl_findray_raylist( tobj, vert );
if( ray->orientation != 0 )
__gl_in_error( tobj, 3 );
/* compute top ray */
new_ray1 = __gl_new_ray( tobj, 0 );
__gl_recalc_ray(new_ray1, vert, vert->prev);
if( vert->prev->vclass != VC_BAD_RIGHT )
vert->prev->ray = new_ray1;
/* compute middle ray */
new_ray2 = __gl_new_ray( tobj, 1 );
__gl_recalc_ray(new_ray2, vert, vert->next);
if( vert->next->vclass != VC_OK_LEFT )
vert->next->ray = new_ray2;
new_ray2->vertex = vert;
assert( ! ray->mustconnect );
__gl_add2_raylist( ray->prev, new_ray1, new_ray2 );
break;
case VC_BAD_LEFT: /* two new rays */
assert( vert->ray == 0 );
ray = __gl_findray_raylist( tobj, vert );
if( ray->orientation != 1 )
__gl_in_error( tobj, 3 );
/* compute top ray */
new_ray1 = __gl_new_ray( tobj, 1 );
__gl_recalc_ray(new_ray1, vert, vert->next);
if( vert->next->vclass != VC_OK_LEFT )
vert->next->ray = new_ray1;
/* compute middle ray */
new_ray2 = __gl_new_ray( tobj, 0 );
__gl_recalc_ray(new_ray2, vert, vert->prev);
if( vert->prev->vclass != VC_BAD_RIGHT )
vert->prev->ray = new_ray2;
new_ray1->vertex = __gl_connectedge( tobj,vert, ray->vertex);
/* update bottom ray */
ray->mustconnect = 0;
ray->vertex = vert;
__gl_add2_raylist( ray->prev, new_ray1, new_ray2 );
break;
case VC_OK_LEFT: /* two rays disappear */
ray = vert->ray;
if ( ray == NULL )
__gl_in_error( tobj, 4 );
__gl_checkray_vert( tobj, vert, ray->prev, ray->next->next );
/* region above_ray top ray is outside */
assert( ! ray->mustconnect );
assert( ray->next );
/* region above_ray middle ray is inside */
if( ray->next->mustconnect ) {
__gl_triangulateloop( tobj,__gl_connectedge( tobj,vert,ray->next->vertex));
__gl_triangulateloop( tobj, vert );
} else {
__gl_triangulateloop( tobj, vert );
}
/* region above_ray bottom ray is outside */
assert( ray->next->next );
assert( ! ray->next->next->mustconnect );
__gl_remove2_raylist( tobj, ray );
__gl_delete_ray( tobj, ray->next );
__gl_delete_ray( tobj, ray );
break;
case VC_BAD_RIGHT: /* two rays disappear */
ray = vert->ray;
if ( ray == NULL || ray->next == NULL )
__gl_in_error( tobj, 4 );
__gl_checkray_vert( tobj, vert, ray->prev, ray->next->next );
if (ray->mustconnect) {
vert = __gl_connectedge( tobj, vert, ray->vertex );
__gl_triangulateloop( tobj, ray->vertex->next );
}
if ( ray->next->mustconnect ) {
__gl_in_error( tobj, 8 );
}
assert( ray->next );
assert( ray->next->next );
if (ray->next->next->mustconnect)
__gl_triangulateloop( tobj, __gl_connectedge( tobj, vert,
ray->next->next->vertex) );
ray->next->next->vertex = vert;
ray->next->next->mustconnect = 1;
__gl_remove2_raylist( tobj, ray );
__gl_delete_ray( tobj, ray->next );
__gl_delete_ray( tobj, ray );
break;
case VC_OK_TOP: /* one ray changes ends and coords */
ray = vert->ray;
if( ray == NULL || ray->next == NULL )
__gl_in_error( tobj, 4 );
__gl_checkray_vert( tobj, vert, ray->prev, ray->next );
__gl_recalc_ray( ray, vert, vert->next );
if( vert->next->vclass != VC_OK_LEFT )
vert->next->ray = ray;
if (ray->mustconnect) {
ray->vertex = __gl_connectedge( tobj,vert,ray->vertex);
ray->mustconnect = 0;
__gl_triangulateloop( tobj, vert );
} else {
ray->vertex = vert;
}
assert( ray->next );
assert( ! ray->next->mustconnect );
break;
case VC_OK_BOTTOM: /* one ray changes ends and coords */
ray = vert->ray;
if ( ray == NULL || ray->next == NULL )
__gl_in_error( tobj, 4 );
__gl_checkray_vert( tobj, vert, ray->prev, ray->next );
__gl_recalc_ray( ray, vert, vert->prev );
if( vert->prev->vclass != VC_BAD_RIGHT )
vert->prev->ray = ray;
assert( ! ray->mustconnect );
assert( ray->next );
if (ray->next->mustconnect) {
__gl_triangulateloop( tobj,__gl_connectedge( tobj,vert, ray->next->vertex));
ray->next->mustconnect = 0;
ray->next->vertex = vert;
} else {
ray->next->vertex = vert;
}
break;
case VC_BAD_LONE:
break;
case VC_BAD_ERROR:
__gl_in_error( tobj, 4 );
return;
case VC_NO_CLASS:
assert( 0 );
break;
}
}
return;
}
/*----------------------------------------------------------------------------
* connectedge - create two anti-parallel edges splitting a polygon
*----------------------------------------------------------------------------
*/
static Vert *
__gl_connectedge( GLUtriangulatorObj *tobj, Vert *x, Vert *y )
{
Vert *newx, *newy;
if( x == 0 || y == 0 || y->prev == 0 || x->next == 0 ) {
__gl_in_error( tobj, 5 );
return 0;
} else {
assert( x->prev->next == x );
assert( x->next->prev == x );
assert( y->prev->next == y );
assert( y->next->prev == y );
assert( x->next != y );
assert( x != y );
newx = (Vert *) __gl_new_vert( tobj );
newx->myid = x->myid;
newx->nextid = x->nextid;
newx->ray = x->ray;
newx->vclass = x->vclass;
#ifdef ADDED
newx->added = x->added;
#endif
newx->s = x->s;
newx->t = x->t;
newx->data = x->data;
newy = (Vert *) __gl_new_vert( tobj );
newy->myid = y->myid;
newy->nextid = y->nextid;
newy->ray = y->ray;
newy->vclass = y->vclass;
#ifdef ADDED
newy->added = 1;
#endif
newy->s = y->s;
newy->t = y->t;
newy->data = y->data;
newx->prev = newy;
newx->next = x->next;
newy->next = newx;
newy->prev = y->prev;
newx->next->prev = newx;
newy->prev->next = newy;
x->next = y;
y->prev = x;
#ifdef ADDED
x->added = 1;
#endif
assert( x->prev->next == x );
assert( x->next->prev == x );
assert( y->prev->next == y );
assert( y->next->prev == y );
assert( newx->prev->next == newx );
assert( newx->next->prev == newx );
assert( newy->prev->next == newy );
assert( newy->next->prev == newy );
return newx;
}
}