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|
/*
** License Applicability. Except to the extent portions of this file are
** made subject to an alternative license as permitted in the SGI Free
** Software License B, Version 1.1 (the "License"), the contents of this
** file are subject only to the provisions of the License. You may not use
** this file except in compliance with the License. You may obtain a copy
** of the License at Silicon Graphics, Inc., attn: Legal Services, 1600
** Amphitheatre Parkway, Mountain View, CA 94043-1351, or at:
**
** http://oss.sgi.com/projects/FreeB
**
** Note that, as provided in the License, the Software is distributed on an
** "AS IS" basis, with ALL EXPRESS AND IMPLIED WARRANTIES AND CONDITIONS
** DISCLAIMED, INCLUDING, WITHOUT LIMITATION, ANY IMPLIED WARRANTIES AND
** CONDITIONS OF MERCHANTABILITY, SATISFACTORY QUALITY, FITNESS FOR A
** PARTICULAR PURPOSE, AND NON-INFRINGEMENT.
**
** Original Code. The Original Code is: OpenGL Sample Implementation,
** Version 1.2.1, released January 26, 2000, developed by Silicon Graphics,
** Inc. The Original Code is Copyright (c) 1991-2000 Silicon Graphics, Inc.
** Copyright in any portions created by third parties is as indicated
** elsewhere herein. All Rights Reserved.
**
** Additional Notice Provisions: The application programming interfaces
** established by SGI in conjunction with the Original Code are The
** OpenGL(R) Graphics System: A Specification (Version 1.2.1), released
** April 1, 1999; The OpenGL(R) Graphics System Utility Library (Version
** 1.3), released November 4, 1998; and OpenGL(R) Graphics with the X
** Window System(R) (Version 1.3), released October 19, 1998. This software
** was created using the OpenGL(R) version 1.2.1 Sample Implementation
** published by SGI, but has not been independently verified as being
** compliant with the OpenGL(R) version 1.2.1 Specification.
*/
/*
* intersect.c++
*
* $Date: 2005/10/28 13:09:23 $ $Revision: 1.3 $
* $Header: /cvs/mesa/Mesa/src/glu/sgi/libnurbs/internals/intersect.cc,v 1.3 2005/10/28 13:09:23 brianp Exp $
*/
#include "glimports.h"
#include "myassert.h"
#include "mystdio.h"
#include "subdivider.h"
#include "arc.h"
#include "bin.h"
#include "backend.h"
#include "trimvertpool.h"
/*#define NOTDEF*/
enum i_result { INTERSECT_VERTEX, INTERSECT_EDGE };
/* local functions */
#ifndef NDEBUG // for asserts only
static int arc_classify( Arc_ptr, int, REAL );
#endif
static enum i_result pwlarc_intersect( PwlArc *, int, REAL, int, int[3] );
void
Subdivider::partition( Bin & bin, Bin & left, Bin & intersections,
Bin & right, Bin & unknown, int param, REAL value )
{
Bin headonleft, headonright, tailonleft, tailonright;
for( Arc_ptr jarc = bin.removearc(); jarc; jarc = bin.removearc() ) {
REAL tdiff = jarc->tail()[param] - value;
REAL hdiff = jarc->head()[param] - value;
if( tdiff > 0.0 ) {
if( hdiff > 0.0 ) {
right.addarc( jarc );
} else if( hdiff == 0.0 ) {
tailonright.addarc( jarc );
} else {
Arc_ptr jtemp;
switch( arc_split(jarc, param, value, 0) ) {
case 2:
tailonright.addarc( jarc );
headonleft.addarc( jarc->next );
break;
case 31:
assert( jarc->head()[param] > value );
right.addarc( jarc );
tailonright.addarc( jtemp = jarc->next );
headonleft.addarc( jtemp->next );
break;
case 32:
assert( jarc->head()[param] <= value );
tailonright .addarc( jarc );
headonleft.addarc( jtemp = jarc->next );
left.addarc( jtemp->next );
break;
case 4:
right.addarc( jarc );
tailonright.addarc( jtemp = jarc->next );
headonleft.addarc( jtemp = jtemp->next );
left.addarc( jtemp->next );
}
}
} else if( tdiff == 0.0 ) {
if( hdiff > 0.0 ) {
headonright.addarc( jarc );
} else if( hdiff == 0.0 ) {
unknown.addarc( jarc );
} else {
headonleft.addarc( jarc );
}
} else {
if( hdiff > 0.0 ) {
Arc_ptr jtemp;
switch( arc_split(jarc, param, value, 1) ) {
case 2:
tailonleft.addarc( jarc );
headonright.addarc( jarc->next );
break;
case 31:
assert( jarc->head()[param] < value );
left.addarc( jarc );
tailonleft.addarc( jtemp = jarc->next );
headonright.addarc( jtemp->next );
break;
case 32:
assert( jarc->head()[param] >= value );
tailonleft.addarc( jarc );
headonright.addarc( jtemp = jarc->next );
right.addarc( jtemp->next );
break;
case 4:
left.addarc( jarc );
tailonleft.addarc( jtemp = jarc->next );
headonright.addarc( jtemp = jtemp->next );
right.addarc( jtemp->next );
}
} else if( hdiff == 0.0 ) {
tailonleft.addarc( jarc );
} else {
left.addarc( jarc );
}
}
}
if( param == 0 ) {
classify_headonleft_s( headonleft, intersections, left, value );
classify_tailonleft_s( tailonleft, intersections, left, value );
classify_headonright_s( headonright, intersections, right, value );
classify_tailonright_s( tailonright, intersections, right, value );
} else {
classify_headonleft_t( headonleft, intersections, left, value );
classify_tailonleft_t( tailonleft, intersections, left, value );
classify_headonright_t( headonright, intersections, right, value );
classify_tailonright_t( tailonright, intersections, right, value );
}
}
inline static void
vert_interp( TrimVertex *n, TrimVertex *l, TrimVertex *r, int p, REAL val )
{
assert( val > l->param[p]);
assert( val < r->param[p]);
n->nuid = l->nuid;
n->param[p] = val;
if( l->param[1-p] != r->param[1-p] ) {
REAL ratio = (val - l->param[p]) / (r->param[p] - l->param[p]);
n->param[1-p] = l->param[1-p] +
ratio * (r->param[1-p] - l->param[1-p]);
} else {
n->param[1-p] = l->param[1-p];
}
}
int
Subdivider::arc_split( Arc_ptr jarc, int param, REAL value, int dir )
{
int maxvertex = jarc->pwlArc->npts;
Arc_ptr jarc1;
TrimVertex* v = jarc->pwlArc->pts;
int loc[3];
switch( pwlarc_intersect( jarc->pwlArc, param, value, dir, loc ) ) {
// When the parameter value lands on a vertex, life is sweet
case INTERSECT_VERTEX: {
jarc1 = new(arcpool) Arc( jarc, new( pwlarcpool) PwlArc( maxvertex-loc[1], &v[loc[1]] ) );
jarc->pwlArc->npts = loc[1] + 1;
jarc1->next = jarc->next;
jarc1->next->prev = jarc1;
jarc->next = jarc1;
jarc1->prev = jarc;
assert(jarc->check() != 0);
return 2;
}
// When the parameter value intersects an edge, we have to
// interpolate a new vertex. There are special cases
// if the new vertex is adjacent to one or both of the
// endpoints of the arc.
case INTERSECT_EDGE: {
int i, j;
if( dir == 0 ) {
i = loc[0];
j = loc[2];
} else {
i = loc[2];
j = loc[0];
}
#ifndef NOTDEF
// The split is between vertices at index j and i, in that
// order (j < i)
// JEB: This code is my idea of how to do the split without
// increasing the number of links. I'm doing this so that
// the is_rect routine can recognize rectangles created by
// subdivision. In exchange for simplifying the curve list,
// however, it costs in allocated space and vertex copies.
TrimVertex *newjunk = trimvertexpool.get(maxvertex -i+1 /*-j*/);
int k;
for(k=0; k<maxvertex-i; k++)
{
newjunk[k+1] = v[i+k];
newjunk[k+1].nuid = jarc->nuid;
}
TrimVertex *vcopy = trimvertexpool.get(maxvertex);
for(k=0; k<maxvertex; k++)
{
vcopy[k].param[0] = v[k].param[0];
vcopy[k].param[1] = v[k].param[1];
}
jarc->pwlArc->pts=vcopy;
v[i].nuid = jarc->nuid;
v[j].nuid = jarc->nuid;
vert_interp( &newjunk[0], &v[loc[0]], &v[loc[2]], param, value );
if( showingDegenerate() )
backend.triangle( &v[i], &newjunk[0], &v[j] );
vcopy[j+1].param[0]=newjunk[0].param[0];
vcopy[j+1].param[1]=newjunk[0].param[1];
jarc1 = new(arcpool) Arc( jarc,
new(pwlarcpool) PwlArc(maxvertex-i+1 , newjunk ) );
jarc->pwlArc->npts = j+2;
jarc1->next = jarc->next;
jarc1->next->prev = jarc1;
jarc->next = jarc1;
jarc1->prev = jarc;
assert(jarc->check() != 0);
return 2;
#endif //not NOTDEF
// JEB: This is the original version:
#ifdef NOTDEF
Arc_ptr jarc2, jarc3;
TrimVertex *newjunk = trimvertexpool.get(3);
v[i].nuid = jarc->nuid;
v[j].nuid = jarc->nuid;
newjunk[0] = v[j];
newjunk[2] = v[i];
vert_interp( &newjunk[1], &v[loc[0]], &v[loc[2]], param, value );
if( showingDegenerate() )
backend.triangle( &newjunk[2], &newjunk[1], &newjunk[0] );
// New vertex adjacent to both endpoints
if (maxvertex == 2) {
jarc1 = new(arcpool) Arc( jarc, new(pwlarcpool) PwlArc( 2, newjunk+1 ) );
jarc->pwlArc->npts = 2;
jarc->pwlArc->pts = newjunk;
jarc1->next = jarc->next;
jarc1->next->prev = jarc1;
jarc->next = jarc1;
jarc1->prev = jarc;
assert(jarc->check() != 0);
return 2;
// New vertex adjacent to ending point of arc
} else if (maxvertex - j == 2) {
jarc1 = new(arcpool) Arc( jarc, new(pwlarcpool) PwlArc( 2, newjunk ) );
jarc2 = new(arcpool) Arc( jarc, new(pwlarcpool) PwlArc( 2, newjunk+1 ) );
jarc->pwlArc->npts = maxvertex-1;
jarc2->next = jarc->next;
jarc2->next->prev = jarc2;
jarc->next = jarc1;
jarc1->prev = jarc;
jarc1->next = jarc2;
jarc2->prev = jarc1;
assert(jarc->check() != 0);
return 31;
// New vertex adjacent to starting point of arc
} else if (i == 1) {
jarc1 = new(arcpool) Arc( jarc, new(pwlarcpool) PwlArc( 2, newjunk+1 ) );
jarc2 = new(arcpool) Arc( jarc,
new(pwlarcpool) PwlArc( maxvertex-1, &jarc->pwlArc->pts[1] ) );
jarc->pwlArc->npts = 2;
jarc->pwlArc->pts = newjunk;
jarc2->next = jarc->next;
jarc2->next->prev = jarc2;
jarc->next = jarc1;
jarc1->prev = jarc;
jarc1->next = jarc2;
jarc2->prev = jarc1;
assert(jarc->check() != 0);
return 32;
// It's somewhere in the middle
} else {
jarc1 = new(arcpool) Arc( jarc, new(pwlarcpool) PwlArc( 2, newjunk ) );
jarc2 = new(arcpool) Arc( jarc, new(pwlarcpool) PwlArc( 2, newjunk+1 ) );
jarc3 = new(arcpool) Arc( jarc, new(pwlarcpool) PwlArc( maxvertex-i, v+i ) );
jarc->pwlArc->npts = j + 1;
jarc3->next = jarc->next;
jarc3->next->prev = jarc3;
jarc->next = jarc1;
jarc1->prev = jarc;
jarc1->next = jarc2;
jarc2->prev = jarc1;
jarc2->next = jarc3;
jarc3->prev = jarc2;
assert(jarc->check() != 0);
return 4;
}
#endif // NOTDEF
}
default:
return -1; //picked -1 since it's not used
}
}
/*----------------------------------------------------------------------------
* pwlarc_intersect - find intersection of pwlArc and isoparametric line
*----------------------------------------------------------------------------
*/
static enum i_result
pwlarc_intersect(
PwlArc *pwlArc,
int param,
REAL value,
int dir,
int loc[3] )
{
assert( pwlArc->npts > 0 );
if( dir ) {
TrimVertex *v = pwlArc->pts;
int imin = 0;
int imax = pwlArc->npts - 1;
assert( value > v[imin].param[param] );
assert( value < v[imax].param[param] );
while( (imax - imin) > 1 ) {
int imid = (imax + imin)/2;
if( v[imid].param[param] > value )
imax = imid;
else if( v[imid].param[param] < value )
imin = imid;
else {
loc[1] = imid;
return INTERSECT_VERTEX;
}
}
loc[0] = imin;
loc[2] = imax;
return INTERSECT_EDGE;
} else {
TrimVertex *v = pwlArc->pts;
int imax = 0;
int imin = pwlArc->npts - 1;
assert( value > v[imin].param[param] );
assert( value < v[imax].param[param] );
while( (imin - imax) > 1 ) {
int imid = (imax + imin)/2;
if( v[imid].param[param] > value )
imax = imid;
else if( v[imid].param[param] < value )
imin = imid;
else {
loc[1] = imid;
return INTERSECT_VERTEX;
}
}
loc[0] = imin;
loc[2] = imax;
return INTERSECT_EDGE;
}
}
/*----------------------------------------------------------------------------
* arc_classify - determine which side of a line a jarc lies
*----------------------------------------------------------------------------
*/
#ifndef NDEBUG // for asserts only
static int
arc_classify( Arc_ptr jarc, int param, REAL value )
{
REAL tdiff, hdiff;
if( param == 0 ) {
tdiff = jarc->tail()[0] - value;
hdiff = jarc->head()[0] - value;
} else {
tdiff = jarc->tail()[1] - value;
hdiff = jarc->head()[1] - value;
}
if( tdiff > 0.0 ) {
if( hdiff > 0.0 ) {
return 0x11;
} else if( hdiff == 0.0 ) {
return 0x12;
} else {
return 0x10;
}
} else if( tdiff == 0.0 ) {
if( hdiff > 0.0 ) {
return 0x21;
} else if( hdiff == 0.0 ) {
return 0x22;
} else {
return 0x20;
}
} else {
if( hdiff > 0.0 ) {
return 0x01;
} else if( hdiff == 0.0 ) {
return 0x02;
} else {
return 0;
}
}
}
#endif
void
Subdivider::classify_tailonleft_s( Bin& bin, Bin& in, Bin& out, REAL val )
{
/* tail at left, head on line */
Arc_ptr j;
while( (j = bin.removearc()) != NULL ) {
assert( arc_classify( j, 0, val ) == 0x02 );
j->clearitail();
REAL diff = j->next->head()[0] - val;
if( diff > 0.0 ) {
in.addarc( j );
} else if( diff < 0.0 ) {
if( ccwTurn_sl( j, j->next ) )
out.addarc( j );
else
in.addarc( j );
} else {
if( j->next->tail()[1] > j->next->head()[1] )
in.addarc(j);
else
out.addarc(j);
}
}
}
void
Subdivider::classify_tailonleft_t( Bin& bin, Bin& in, Bin& out, REAL val )
{
/* tail at left, head on line */
Arc_ptr j;
while( (j = bin.removearc()) != NULL ) {
assert( arc_classify( j, 1, val ) == 0x02 );
j->clearitail();
REAL diff = j->next->head()[1] - val;
if( diff > 0.0 ) {
in.addarc( j );
} else if( diff < 0.0 ) {
if( ccwTurn_tl( j, j->next ) )
out.addarc( j );
else
in.addarc( j );
} else {
if (j->next->tail()[0] > j->next->head()[0] )
out.addarc( j );
else
in.addarc( j );
}
}
}
void
Subdivider::classify_headonleft_s( Bin& bin, Bin& in, Bin& out, REAL val )
{
/* tail on line, head at left */
Arc_ptr j;
while( (j = bin.removearc()) != NULL ) {
assert( arc_classify( j, 0, val ) == 0x20 );
j->setitail();
REAL diff = j->prev->tail()[0] - val;
if( diff > 0.0 ) {
out.addarc( j );
} else if( diff < 0.0 ) {
if( ccwTurn_sl( j->prev, j ) )
out.addarc( j );
else
in.addarc( j );
} else {
if( j->prev->tail()[1] > j->prev->head()[1] )
in.addarc( j );
else
out.addarc( j );
}
}
}
void
Subdivider::classify_headonleft_t( Bin& bin, Bin& in, Bin& out, REAL val )
{
/* tail on line, head at left */
Arc_ptr j;
while( (j = bin.removearc()) != NULL ) {
assert( arc_classify( j, 1, val ) == 0x20 );
j->setitail();
REAL diff = j->prev->tail()[1] - val;
if( diff > 0.0 ) {
out.addarc( j );
} else if( diff < 0.0 ) {
if( ccwTurn_tl( j->prev, j ) )
out.addarc( j );
else
in.addarc( j );
} else {
if( j->prev->tail()[0] > j->prev->head()[0] )
out.addarc( j );
else
in.addarc( j );
}
}
}
void
Subdivider::classify_tailonright_s( Bin& bin, Bin& in, Bin& out, REAL val )
{
/* tail at right, head on line */
Arc_ptr j;
while( (j = bin.removearc()) != NULL ) {
assert( arc_classify( j, 0, val ) == 0x12);
j->clearitail();
REAL diff = j->next->head()[0] - val;
if( diff > 0.0 ) {
if( ccwTurn_sr( j, j->next ) )
out.addarc( j );
else
in.addarc( j );
} else if( diff < 0.0 ) {
in.addarc( j );
} else {
if( j->next->tail()[1] > j->next->head()[1] )
out.addarc( j );
else
in.addarc( j );
}
}
}
void
Subdivider::classify_tailonright_t( Bin& bin, Bin& in, Bin& out, REAL val )
{
/* tail at right, head on line */
Arc_ptr j;
while( (j = bin.removearc()) != NULL ) {
assert( arc_classify( j, 1, val ) == 0x12);
j->clearitail();
REAL diff = j->next->head()[1] - val;
if( diff > 0.0 ) {
if( ccwTurn_tr( j, j->next ) )
out.addarc( j );
else
in.addarc( j );
} else if( diff < 0.0 ) {
in.addarc( j );
} else {
if( j->next->tail()[0] > j->next->head()[0] )
in.addarc( j );
else
out.addarc( j );
}
}
}
void
Subdivider::classify_headonright_s( Bin& bin, Bin& in, Bin& out, REAL val )
{
/* tail on line, head at right */
Arc_ptr j;
while( (j = bin.removearc()) != NULL ) {
assert( arc_classify( j, 0, val ) == 0x21 );
j->setitail();
REAL diff = j->prev->tail()[0] - val;
if( diff > 0.0 ) {
if( ccwTurn_sr( j->prev, j ) )
out.addarc( j );
else
in.addarc( j );
} else if( diff < 0.0 ) {
out.addarc( j );
} else {
if( j->prev->tail()[1] > j->prev->head()[1] )
out.addarc( j );
else
in.addarc( j );
}
}
}
void
Subdivider::classify_headonright_t( Bin& bin, Bin& in, Bin& out, REAL val )
{
/* tail on line, head at right */
Arc_ptr j;
while( (j = bin.removearc()) != NULL ) {
assert( arc_classify( j, 1, val ) == 0x21 );
j->setitail();
REAL diff = j->prev->tail()[1] - val;
if( diff > 0.0 ) {
if( ccwTurn_tr( j->prev, j ) )
out.addarc( j );
else
in.addarc( j );
} else if( diff < 0.0 ) {
out.addarc( j );
} else {
if( j->prev->tail()[0] > j->prev->head()[0] )
in.addarc( j );
else
out.addarc( j );
}
}
}
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