mirror of
https://github.com/TTimo/GtkRadiant.git
synced 2024-11-14 00:41:08 +00:00
493 lines
9.8 KiB
C++
493 lines
9.8 KiB
C++
/*
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BobToolz plugin for GtkRadiant
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Copyright (C) 2001 Gordon Biggans
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This library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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This library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with this library; if not, write to the Free Software
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Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*/
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// DWinding.cpp: implementation of the DWinding class.
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//
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//////////////////////////////////////////////////////////////////////
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#include "StdAfx.h"
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#include "DWinding.h"
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#include "DPlane.h"
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#include "misc.h"
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//////////////////////////////////////////////////////////////////////
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// Construction/Destruction
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//////////////////////////////////////////////////////////////////////
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DWinding::DWinding(){
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numpoints = 0;
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p = NULL;
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}
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DWinding::~DWinding(){
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if ( p ) {
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delete[] p;
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}
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}
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//////////////////////////////////////////////////////////////////////
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// Implementation
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//////////////////////////////////////////////////////////////////////
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#define BOGUS_RANGE 4096
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void DWinding::AllocWinding( int points ){
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numpoints = points;
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if ( p ) {
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delete[] p;
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}
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p = new vec3_t[points];
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}
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vec_t DWinding::WindingArea(){
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vec3_t d1, d2, cross;
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vec_t total;
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total = 0;
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for ( int i = 2; i < numpoints ; i++ )
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{
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VectorSubtract( p[i - 1], p[0], d1 );
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VectorSubtract( p[i], p[0], d2 );
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CrossProduct( d1, d2, cross );
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total += 0.5f * VectorLength( cross );
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}
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return total;
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}
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void DWinding::RemoveColinearPoints(){
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vec3_t p2[MAX_POINTS_ON_WINDING];
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int nump = 0;
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for ( int i = 0; i < numpoints; i++ )
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{
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int j = ( i + 1 ) % numpoints;
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int k = ( i + numpoints - 1 ) % numpoints;
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vec3_t v1, v2;
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VectorSubtract( p[j], p[i], v1 );
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VectorSubtract( p[i], p[k], v2 );
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VectorNormalize( v1, v1 );
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VectorNormalize( v2, v2 );
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if ( DotProduct( v1, v2 ) < 0.999 ) {
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VectorCopy( p[i], p2[nump] );
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nump++;
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}
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}
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if ( nump == numpoints ) {
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return;
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}
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AllocWinding( nump );
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memcpy( p, p2, nump * sizeof( vec3_t ) );
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}
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DPlane* DWinding::WindingPlane(){
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DPlane* newPlane = new DPlane( p[0], p[1], p[2], NULL );
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return newPlane;
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}
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void DWinding::WindingBounds( vec3_t mins, vec3_t maxs ){
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if ( numpoints == 0 ) {
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return;
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}
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VectorCopy( mins, p[0] );
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VectorCopy( maxs, p[0] );
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for ( int i = 1; i < numpoints ; i++ )
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{
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for ( int j = 0; j < 3; j++ )
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{
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vec_t v = p[i][j];
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if ( v < mins[j] ) {
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mins[j] = v;
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}
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if ( v > maxs[j] ) {
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maxs[j] = v;
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}
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}
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}
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}
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void DWinding::WindingCentre( vec3_t centre ){
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VectorCopy( vec3_origin, centre );
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for ( int i = 0; i < numpoints; i++ )
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VectorAdd( p[i], centre, centre );
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float scale = 1.0f / numpoints;
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VectorScale( centre, scale, centre );
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}
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DWinding* DWinding::CopyWinding(){
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DWinding* c = new DWinding;
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c->AllocWinding( numpoints );
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memcpy( c->p, p, numpoints * sizeof( vec3_t ) );
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return c;
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}
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int DWinding::WindingOnPlaneSide( vec3_t normal, vec_t dist ){
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bool front = FALSE;
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bool back = FALSE;
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for ( int i = 0; i < numpoints; i++ )
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{
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vec_t d = DotProduct( p[i], normal ) - dist;
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if ( d < -ON_EPSILON ) {
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if ( front ) {
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return SIDE_CROSS;
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}
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back = TRUE;
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continue;
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}
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if ( d > ON_EPSILON ) {
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if ( back ) {
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return SIDE_CROSS;
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}
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front = TRUE;
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continue;
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}
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}
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if ( back ) {
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return SIDE_BACK;
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}
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if ( front ) {
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return SIDE_FRONT;
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}
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return SIDE_ON;
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}
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void DWinding::CheckWinding(){
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vec_t *p1, *p2;
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vec_t edgedist;
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vec3_t dir, edgenormal;
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if ( numpoints < 3 ) {
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Sys_Printf( "CheckWinding: %i points", numpoints );
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}
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vec_t area = WindingArea();
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if ( area < 1 ) {
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Sys_Printf( "CheckWinding: %f area", area );
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}
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DPlane* wPlane = WindingPlane();
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int i;
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for ( i = 0; i < numpoints; i++ )
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{
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p1 = p[i];
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int j;
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for ( j = 0; j < 3; j++ )
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if ( p1[j] > BOGUS_RANGE || p1[j] < -BOGUS_RANGE ) {
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Sys_Printf( "CheckFace: BUGUS_RANGE: %f", p1[j] );
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}
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j = i + 1 == numpoints ? 0 : i + 1;
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// check the point is on the face plane
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vec_t d = DotProduct( p1, wPlane->normal ) - wPlane->_d;
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if ( d < -ON_EPSILON || d > ON_EPSILON ) {
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Sys_Printf( "CheckWinding: point off plane" );
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}
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// check the edge isnt degenerate
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p2 = p[j];
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VectorSubtract( p2, p1, dir );
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if ( VectorLength( dir ) < ON_EPSILON ) {
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Sys_Printf( "CheckWinding: degenerate edge" );
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}
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CrossProduct( wPlane->normal, dir, edgenormal );
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VectorNormalize( edgenormal, edgenormal );
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edgedist = DotProduct( p1, edgenormal );
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// all other points must be on front side
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for ( j = 0 ; j < numpoints ; j++ )
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{
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if ( j == i ) {
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continue;
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}
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d = DotProduct( p[j], edgenormal );
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if ( d > ( edgedist + ON_EPSILON ) ) {
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Sys_Printf( "CheckWinding: non-convex" );
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}
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}
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}
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delete wPlane;
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}
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DWinding* DWinding::ReverseWinding(){
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DWinding* c = new DWinding;
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c->AllocWinding( numpoints );
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for ( int i = 0; i < numpoints ; i++ )
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VectorCopy( p[numpoints - 1 - i], c->p[i] );
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return c;
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}
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bool DWinding::ChopWindingInPlace( DPlane* chopPlane, vec_t epsilon ){
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vec_t dists[MAX_POINTS_ON_WINDING + 4];
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int sides[MAX_POINTS_ON_WINDING + 4];
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int counts[3];
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vec_t *p1, *p2;
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vec3_t mid;
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counts[0] = counts[1] = counts[2] = 0;
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// determine sides for each point
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int i;
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for ( i = 0; i < numpoints; i++ )
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{
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vec_t dot = DotProduct( p[i], chopPlane->normal );
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dot -= chopPlane->_d;
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dists[i] = dot;
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if ( dot > epsilon ) {
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sides[i] = SIDE_FRONT;
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}
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else if ( dot < -epsilon ) {
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sides[i] = SIDE_BACK;
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}
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else{
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sides[i] = SIDE_ON;
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}
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counts[sides[i]]++;
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}
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sides[i] = sides[0];
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dists[i] = dists[0];
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if ( !counts[0] ) {
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delete this;
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return FALSE;
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}
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if ( !counts[1] ) {
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return TRUE;
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}
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int maxpts = numpoints + 4; // cant use counts[0]+2 because
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// of fp grouping errors
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DWinding* f = new DWinding;
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f->AllocWinding( maxpts );
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f->numpoints = 0;
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for ( i = 0; i < numpoints; i++ )
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{
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p1 = p[i];
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if ( sides[i] == SIDE_ON ) {
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VectorCopy( p1, f->p[f->numpoints] );
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f->numpoints++;
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continue;
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}
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if ( sides[i] == SIDE_FRONT ) {
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VectorCopy( p1, f->p[f->numpoints] );
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f->numpoints++;
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}
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if ( sides[i + 1] == SIDE_ON || sides[i + 1] == sides[i] ) {
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continue;
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}
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// generate a split point
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p2 = p[( i + 1 ) % numpoints];
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vec_t dot = dists[i] / ( dists[i] - dists[i + 1] );
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for ( int j = 0; j < 3; j++ )
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{
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if ( chopPlane->normal[j] == 1 ) {
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mid[j] = chopPlane->_d;
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}
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else if ( chopPlane->normal[j] == -1 ) {
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mid[j] = -chopPlane->_d;
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}
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else{
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mid[j] = p1[j] + dot * ( p2[j] - p1[j] );
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}
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}
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VectorCopy( mid, f->p[f->numpoints] );
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f->numpoints++;
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}
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if ( f->numpoints > maxpts ) {
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Sys_Printf( "ClipWinding: points exceeded estimate" );
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}
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if ( f->numpoints > MAX_POINTS_ON_WINDING ) {
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Sys_Printf( "ClipWinding: MAX_POINTS_ON_WINDING" );
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}
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delete[] p;
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p = f->p;
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f->p = NULL;
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delete f;
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return TRUE;
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}
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void DWinding::ClipWindingEpsilon( DPlane* chopPlane, vec_t epsilon, DWinding **front, DWinding **back ){
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vec_t dists[MAX_POINTS_ON_WINDING + 4];
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int sides[MAX_POINTS_ON_WINDING + 4];
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int counts[3];
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vec_t *p1, *p2;
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vec3_t mid;
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counts[0] = counts[1] = counts[2] = 0;
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// determine sides for each point
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int i;
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for ( i = 0; i < numpoints; i++ )
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{
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vec_t dot = -chopPlane->DistanceToPoint( p[i] );
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dists[i] = dot;
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if ( dot > epsilon ) {
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sides[i] = SIDE_FRONT;
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}
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else if ( dot < -epsilon ) {
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sides[i] = SIDE_BACK;
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}
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else{
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sides[i] = SIDE_ON;
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}
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counts[sides[i]]++;
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}
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sides[i] = sides[0];
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dists[i] = dists[0];
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*front = *back = NULL;
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if ( !counts[0] ) {
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*back = CopyWinding();
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return;
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}
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if ( !counts[1] ) {
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*front = CopyWinding();
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return;
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}
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int maxpts = numpoints + 4; // cant use counts[0]+2 because
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// of fp grouping errors
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DWinding* f = new DWinding;
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DWinding* b = new DWinding;
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f->AllocWinding( maxpts );
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f->numpoints = 0;
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b->AllocWinding( maxpts );
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b->numpoints = 0;
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*front = f;
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*back = b;
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for ( i = 0; i < numpoints ; i++ )
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{
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p1 = p[i];
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if ( sides[i] == SIDE_ON ) {
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VectorCopy( p1, f->p[f->numpoints] );
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f->numpoints++;
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VectorCopy( p1, b->p[b->numpoints] );
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b->numpoints++;
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continue;
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}
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if ( sides[i] == SIDE_FRONT ) {
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VectorCopy( p1, f->p[f->numpoints] );
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f->numpoints++;
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}
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if ( sides[i] == SIDE_BACK ) {
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VectorCopy( p1, b->p[b->numpoints] );
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b->numpoints++;
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}
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if ( sides[i + 1] == SIDE_ON || sides[i + 1] == sides[i] ) {
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continue;
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}
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// generate a split point
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p2 = p[( i + 1 ) % numpoints];
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vec_t dot = dists[i] / ( dists[i] - dists[i + 1] );
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for ( int j = 0; j < 3; j++ )
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{
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if ( chopPlane->normal[j] == 1 ) {
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mid[j] = chopPlane->_d;
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}
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else if ( chopPlane->normal[j] == -1 ) {
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mid[j] = -chopPlane->_d;
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}
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else{
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mid[j] = p1[j] + dot * ( p2[j] - p1[j] );
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}
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}
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VectorCopy( mid, f->p[f->numpoints] );
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f->numpoints++;
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VectorCopy( mid, b->p[b->numpoints] );
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b->numpoints++;
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}
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if ( f->numpoints > maxpts || b->numpoints > maxpts ) {
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Sys_Printf( "ClipWinding: points exceeded estimate" );
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}
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if ( f->numpoints > MAX_POINTS_ON_WINDING || b->numpoints > MAX_POINTS_ON_WINDING ) {
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Sys_Printf( "ClipWinding: MAX_POINTS_ON_WINDING" );
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}
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}
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bool DWinding::ChopWinding( DPlane* chopPlane ){
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DWinding *f, *b;
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ClipWindingEpsilon( chopPlane, (float)ON_EPSILON, &f, &b );
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if ( b ) {
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delete ( b );
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}
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if ( !f ) {
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delete this;
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return FALSE;
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}
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delete[] p;
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p = f->p;
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f->p = NULL;
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numpoints = f->numpoints;
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delete f;
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return TRUE;
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}
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