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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.
**
** $Date: 2005/10/28 13:09:23 $ $Revision: 1.3 $
*/
/*
** $Header: /home/krh/git/sync/mesa-cvs-repo/Mesa/src/glu/sgi/libnurbs/internals/monoTriangulationBackend.cc,v 1.3 2005/10/28 13:09:23 brianp Exp $
*/
#include "monoTriangulation.h"
#include "polyUtil.h"
#include "backend.h"
#include "arc.h"
void reflexChain::outputFan(Real v[2], Backend* backend)
{
Int i;
/*
TrimVertex trimVert;
*/
backend->bgntfan();
/*
trimVert.param[0]=v[0];
trimVert.param[1]=v[1];
backend->tmeshvert(&trimVert);
*/
backend->tmeshvert(v[0], v[1]);
if(isIncreasing) {
for(i=0; i<index_queue; i++)
{
/*
trimVert.param[0]=queue[i][0];
trimVert.param[1]=queue[i][1];
backend->tmeshvert(&trimVert);
*/
backend->tmeshvert(queue[i][0], queue[i][1]);
}
}
else {
for(i=index_queue-1; i>=0; i--)
{
/*
trimVert.param[0]=queue[i][0];
trimVert.param[1]=queue[i][1];
backend->tmeshvert(&trimVert);
*/
backend->tmeshvert(queue[i][0], queue[i][1]);
}
}
backend->endtfan();
}
void reflexChain::processNewVertex(Real v[2], Backend* backend)
{
Int i,j,k;
Int isReflex;
/*TrimVertex trimVert;*/
/*if there are at most one vertex in the queue, then simply insert
*/
if(index_queue <=1){
insert(v);
return;
}
/*there are at least two vertices in the queue*/
j=index_queue-1;
for(i=j; i>=1; i--) {
if(isIncreasing) {
isReflex = (area(queue[i-1], queue[i], v) <= 0.0);
}
else /*decreasing*/{
isReflex = (area(v, queue[i], queue[i-1]) <= 0.0);
}
if(isReflex) {
break;
}
}
/*
*if i<j then vertices: i+1--j are convex
* output triangle fan:
* v, and queue[i], i+1, ..., j
*/
if(i<j)
{
backend->bgntfan();
/*
trimVert.param[0]=v[0];
trimVert.param[1]=v[1];
backend->tmeshvert(& trimVert);
*/
backend->tmeshvert(v[0], v[1]);
if(isIncreasing) {
for(k=i; k<=j; k++)
{
/*
trimVert.param[0]=queue[k][0];
trimVert.param[1]=queue[k][1];
backend->tmeshvert(& trimVert);
*/
backend->tmeshvert(queue[k][0], queue[k][1]);
}
}
else {
for(k=j; k>=i; k--)
{
/*
trimVert.param[0]=queue[k][0];
trimVert.param[1]=queue[k][1];
backend->tmeshvert(& trimVert);
*/
backend->tmeshvert(queue[k][0], queue[k][1]);
}
}
backend->endtfan();
}
/*delete vertices i+1--j from the queue*/
index_queue = i+1;
/*finally insert v at the end of the queue*/
insert(v);
}
void monoTriangulationRec(Real* topVertex, Real* botVertex,
vertexArray* inc_chain, Int inc_current,
vertexArray* dec_chain, Int dec_current,
Backend* backend)
{
assert( inc_chain != NULL && dec_chain != NULL);
assert( ! (inc_current>=inc_chain->getNumElements() &&
dec_current>=dec_chain->getNumElements()));
Int inc_nVertices;
Int dec_nVertices;
Real** inc_array ;
Real** dec_array ;
Int i;
assert( ! ( (inc_chain==NULL) && (dec_chain==NULL)));
if(inc_current>=inc_chain->getNumElements()) /*no more vertices on inc_chain*/
{
dec_array = dec_chain->getArray();
dec_nVertices = dec_chain->getNumElements();
reflexChain rChain(20,0);
/*put the top vertex into the reflex chain*/
rChain.processNewVertex(topVertex, backend);
/*process all the vertices on the dec_chain*/
for(i=dec_current; i<dec_nVertices; i++){
rChain.processNewVertex(dec_array[i], backend);
}
/*process the bottom vertex*/
rChain.processNewVertex(botVertex, backend);
}
else if(dec_current>= dec_chain->getNumElements()) /*no more vertices on dec_chain*/
{
inc_array = inc_chain->getArray();
inc_nVertices= inc_chain->getNumElements();
reflexChain rChain(20,1);
/*put the top vertex into the reflex chain*/
rChain.processNewVertex(topVertex, backend);
/*process all the vertices on the inc_chain*/
for(i=inc_current; i<inc_nVertices; i++){
rChain.processNewVertex(inc_array[i], backend);
}
/*process the bottom vertex*/
rChain.processNewVertex(botVertex, backend);
}
else /*neither chain is empty*/
{
inc_array = inc_chain -> getArray();
dec_array = dec_chain -> getArray();
inc_nVertices= inc_chain->getNumElements();
dec_nVertices= dec_chain->getNumElements();
/*if top of inc_chain is 'lower' than top of dec_chain, process all the
*vertices on the dec_chain which are higher than top of inc_chain
*/
if(compV2InY(inc_array[inc_current], dec_array[dec_current]) <= 0)
{
reflexChain rChain(20, 0);
rChain.processNewVertex(topVertex, backend);
for(i=dec_current; i<dec_nVertices; i++)
{
if(compV2InY(inc_array[inc_current], dec_array[i]) <= 0)
rChain.processNewVertex(dec_array[i], backend);
else
break;
}
rChain.outputFan(inc_array[inc_current], backend);
monoTriangulationRec(dec_array[i-1], botVertex,
inc_chain, inc_current,
dec_chain, i,
backend);
}
else /*compV2InY(inc_array[inc_current], dec_array[dec_current]) > 0*/
{
reflexChain rChain(20, 1);
rChain.processNewVertex(topVertex, backend);
for(i=inc_current; i<inc_nVertices; i++)
{
if(compV2InY(inc_array[i], dec_array[dec_current]) >0)
rChain.processNewVertex(inc_array[i], backend);
else
break;
}
rChain.outputFan(dec_array[dec_current], backend);
monoTriangulationRec(inc_array[i-1], botVertex,
inc_chain, i,
dec_chain, dec_current,
backend);
}
}/*end case neither is empty*/
}
void monoTriangulationFunBackend(Arc_ptr loop, Int (*compFun)(Real*, Real*), Backend* backend)
{
Int i;
/*find the top vertex, bottom vertex, inccreasing chain, and decreasing chain,
*then call monoTriangulationRec
*/
Arc_ptr tempV;
Arc_ptr topV;
Arc_ptr botV;
topV = botV = loop;
for(tempV = loop->next; tempV != loop; tempV = tempV->next)
{
if(compFun(topV->tail(), tempV->tail())<0) {
topV = tempV;
}
if(compFun(botV->tail(), tempV->tail())>0) {
botV = tempV;
}
}
/*creat increase and decrease chains*/
vertexArray inc_chain(20); /*this is a dynamic array*/
for(i=1; i<=topV->pwlArc->npts-2; i++) { /*the first vertex is the top vertex which doesn't belong to inc_chain*/
inc_chain.appendVertex(topV->pwlArc->pts[i].param);
}
for(tempV = topV->next; tempV != botV; tempV = tempV->next)
{
for(i=0; i<=tempV->pwlArc->npts-2; i++){
inc_chain.appendVertex(tempV->pwlArc->pts[i].param);
}
}
vertexArray dec_chain(20);
for(tempV = topV->prev; tempV != botV; tempV = tempV->prev)
{
for(i=tempV->pwlArc->npts-2; i>=0; i--){
dec_chain.appendVertex(tempV->pwlArc->pts[i].param);
}
}
for(i=botV->pwlArc->npts-2; i>=1; i--){
dec_chain.appendVertex(tempV->pwlArc->pts[i].param);
}
monoTriangulationRecFunBackend(topV->tail(), botV->tail(), &inc_chain, 0, &dec_chain, 0, compFun, backend);
}
/*if compFun == compV2InY, top to bottom: V-monotone
*if compFun == compV2InX, right to left: U-monotone
*/
void monoTriangulationRecFunBackend(Real* topVertex, Real* botVertex,
vertexArray* inc_chain, Int inc_current,
vertexArray* dec_chain, Int dec_current,
Int (*compFun)(Real*, Real*),
Backend* backend)
{
assert( inc_chain != NULL && dec_chain != NULL);
assert( ! (inc_current>=inc_chain->getNumElements() &&
dec_current>=dec_chain->getNumElements()));
Int inc_nVertices;
Int dec_nVertices;
Real** inc_array ;
Real** dec_array ;
Int i;
assert( ! ( (inc_chain==NULL) && (dec_chain==NULL)));
if(inc_current>=inc_chain->getNumElements()) /*no more vertices on inc_chain*/
{
dec_array = dec_chain->getArray();
dec_nVertices = dec_chain->getNumElements();
reflexChain rChain(20,0);
/*put the top vertex into the reflex chain*/
rChain.processNewVertex(topVertex, backend);
/*process all the vertices on the dec_chain*/
for(i=dec_current; i<dec_nVertices; i++){
rChain.processNewVertex(dec_array[i], backend);
}
/*process the bottom vertex*/
rChain.processNewVertex(botVertex, backend);
}
else if(dec_current>= dec_chain->getNumElements()) /*no more vertices on dec_chain*/
{
inc_array = inc_chain->getArray();
inc_nVertices= inc_chain->getNumElements();
reflexChain rChain(20,1);
/*put the top vertex into the reflex chain*/
rChain.processNewVertex(topVertex, backend);
/*process all the vertices on the inc_chain*/
for(i=inc_current; i<inc_nVertices; i++){
rChain.processNewVertex(inc_array[i], backend);
}
/*process the bottom vertex*/
rChain.processNewVertex(botVertex, backend);
}
else /*neither chain is empty*/
{
inc_array = inc_chain -> getArray();
dec_array = dec_chain -> getArray();
inc_nVertices= inc_chain->getNumElements();
dec_nVertices= dec_chain->getNumElements();
/*if top of inc_chain is 'lower' than top of dec_chain, process all the
*vertices on the dec_chain which are higher than top of inc_chain
*/
if(compFun(inc_array[inc_current], dec_array[dec_current]) <= 0)
{
reflexChain rChain(20, 0);
rChain.processNewVertex(topVertex, backend);
for(i=dec_current; i<dec_nVertices; i++)
{
if(compFun(inc_array[inc_current], dec_array[i]) <= 0)
rChain.processNewVertex(dec_array[i], backend);
else
break;
}
rChain.outputFan(inc_array[inc_current], backend);
monoTriangulationRecFunBackend(dec_array[i-1], botVertex,
inc_chain, inc_current,
dec_chain, i,
compFun,
backend);
}
else /*compFun(inc_array[inc_current], dec_array[dec_current]) > 0*/
{
reflexChain rChain(20, 1);
rChain.processNewVertex(topVertex, backend);
for(i=inc_current; i<inc_nVertices; i++)
{
if(compFun(inc_array[i], dec_array[dec_current]) >0)
rChain.processNewVertex(inc_array[i], backend);
else
break;
}
rChain.outputFan(dec_array[dec_current], backend);
monoTriangulationRecFunBackend(inc_array[i-1], botVertex,
inc_chain, i,
dec_chain, dec_current,
compFun,
backend);
}
}/*end case neither is empty*/
}
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