1 // Created on: 1999-04-06
2 // Created by: Fabrice SERVANT
3 // Copyright (c) 1999-1999 Matra Datavision
4 // Copyright (c) 1999-2014 OPEN CASCADE SAS
6 // This file is part of Open CASCADE Technology software library.
8 // This library is free software; you can redistribute it and/or modify it under
9 // the terms of the GNU Lesser General Public License version 2.1 as published
10 // by the Free Software Foundation, with special exception defined in the file
11 // OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT
12 // distribution for complete text of the license and disclaimer of any warranty.
14 // Alternatively, this file may be used under the terms of Open CASCADE
15 // commercial license or contractual agreement.
18 #include <IntPolyh_StartPoint.hxx>
19 #include <IntPolyh_Triangle.hxx>
22 //#include <Precision.hxx>
23 #define MyConfusionPrecision 10.0e-12
25 IntPolyh_StartPoint::IntPolyh_StartPoint() : x(0),y(0),z(0),u1(0),v1(0),u2(0),v2(0),
26 lambda1(-1.0),lambda2(-1.0),angle(-2.0),t1(-1),e1(-2),t2(-1),e2(-2),
30 IntPolyh_StartPoint::IntPolyh_StartPoint(const Standard_Real _x,
31 const Standard_Real _y,
32 const Standard_Real _z,
33 const Standard_Real _u1,
34 const Standard_Real _v1,
35 const Standard_Real _u2,
36 const Standard_Real _v2,
37 const Standard_Integer _t1,
38 const Standard_Integer _e1,
39 const Standard_Real _lambda1,
40 const Standard_Integer _t2,
41 const Standard_Integer _e2,
42 const Standard_Real _lambda2,
43 const Standard_Integer _chainlist):angle(-2.0) {
47 t1=_t1; e1=_e1; lambda1=_lambda1;
48 t2=_t2; e2=_e2; lambda2=_lambda2;
52 Standard_Real IntPolyh_StartPoint::X() const { return(x); }
53 Standard_Real IntPolyh_StartPoint::Y() const { return(y); }
54 Standard_Real IntPolyh_StartPoint::Z() const { return(z); }
55 Standard_Real IntPolyh_StartPoint::U1() const { return(u1); }
56 Standard_Real IntPolyh_StartPoint::V1() const { return(v1); }
57 Standard_Real IntPolyh_StartPoint::U2() const { return(u2); }
58 Standard_Real IntPolyh_StartPoint::V2() const { return(v2); }
59 Standard_Integer IntPolyh_StartPoint::T1() const { return(t1); }
60 Standard_Integer IntPolyh_StartPoint::E1() const { return(e1); }
61 Standard_Real IntPolyh_StartPoint::Lambda1() const { return(lambda1); }
62 Standard_Integer IntPolyh_StartPoint::T2() const { return(t2); }
63 Standard_Integer IntPolyh_StartPoint::E2() const { return(e2); }
64 Standard_Real IntPolyh_StartPoint::Lambda2() const { return(lambda2); }
65 Standard_Integer IntPolyh_StartPoint::ChainList() const { return(chainlist); }
66 Standard_Real IntPolyh_StartPoint::GetAngle() const { return(angle); }
68 Standard_Integer IntPolyh_StartPoint::GetEdgePoints(const IntPolyh_Triangle &Triangle,
69 Standard_Integer &FirstEdgePoint,
70 Standard_Integer &SecondEdgePoint,
71 Standard_Integer &LastPoint) const {
72 Standard_Integer SurfID;
74 if(e1==1) { FirstEdgePoint = Triangle.FirstPoint(); SecondEdgePoint = Triangle.SecondPoint();
75 LastPoint = Triangle.ThirdPoint(); }
76 else if(e1==2) { FirstEdgePoint = Triangle.SecondPoint(); SecondEdgePoint = Triangle.ThirdPoint();
77 LastPoint = Triangle.FirstPoint(); }
78 else if(e1==3) { FirstEdgePoint = Triangle.ThirdPoint(); SecondEdgePoint = Triangle.FirstPoint();
79 LastPoint = Triangle.SecondPoint();}
83 if(e2==1) { FirstEdgePoint = Triangle.FirstPoint(); SecondEdgePoint = Triangle.SecondPoint();
84 LastPoint = Triangle.ThirdPoint();}
85 else if(e2==2) { FirstEdgePoint = Triangle.SecondPoint(); SecondEdgePoint = Triangle.ThirdPoint();
86 LastPoint = Triangle.FirstPoint();}
87 else if(e2==3) { FirstEdgePoint = Triangle.ThirdPoint(); SecondEdgePoint = Triangle.FirstPoint();
88 LastPoint = Triangle.SecondPoint();}
95 void IntPolyh_StartPoint::SetXYZ(const Standard_Real XX,
96 const Standard_Real YY,
97 const Standard_Real ZZ) {
101 void IntPolyh_StartPoint::SetUV1(const Standard_Real UU1,
102 const Standard_Real VV1) {
106 void IntPolyh_StartPoint::SetUV2(const Standard_Real UU2,
107 const Standard_Real VV2) {
111 void IntPolyh_StartPoint::SetEdge1(const Standard_Integer IE1) {
115 void IntPolyh_StartPoint::SetLambda1(const Standard_Real LAM1) {
119 void IntPolyh_StartPoint::SetEdge2(const Standard_Integer IE2) {
123 void IntPolyh_StartPoint::SetLambda2(const Standard_Real LAM2) {
127 void IntPolyh_StartPoint::SetCoupleValue(const Standard_Integer IT1,
128 const Standard_Integer IT2) {
133 void IntPolyh_StartPoint::SetAngle(const Standard_Real Ang) {
137 void IntPolyh_StartPoint::SetChainList(const Standard_Integer ChList) {
141 Standard_Integer IntPolyh_StartPoint::CheckSameSP(const IntPolyh_StartPoint & SP) const {
142 ///Renvoit 1 si monSP==SP
143 Standard_Integer Test=0;
144 if( ( (e1>=-1)&&(e1==SP.e1))||((e2>=-1)&&(e2==SP.e2)) ) {
145 ///Les edges sont definis
147 if( ( (lambda1>-MyConfusionPrecision)&&(Abs(lambda1-SP.lambda1)<MyConfusionPrecision) ) //lambda1!=-1 && lambda1==SP.lambda2
148 ||( (lambda2>-MyConfusionPrecision)&&(Abs(lambda2-SP.lambda2)<MyConfusionPrecision) ) )
150 //if( (Abs(u1-SP.u1)<MyConfusionPrecision)&&(Abs(v1-SP.v1)<MyConfusionPrecision) )
154 if( (Test==0) && ((e1==-1)||(e2==-1)) ) {
155 ///monSP est un sommet
156 if( (Abs(SP.u1-u1)<MyConfusionPrecision)&&(Abs(SP.v1-v1)<MyConfusionPrecision) )
159 else if( (e1==-2)&&(e2==-2) ) {
162 printf("e1==-2 & e2==-2 Can't Check\n");
164 /* if( (Abs(u1-SP.u1)<MyConfusionPrecision)&&(Abs(v1-SP.v1)<MyConfusionPrecision) )
169 void IntPolyh_StartPoint::Dump() const{
170 printf("\nPoint : x=%+8.3eg y=%+8.3eg z=%+8.3eg u1=%+8.3eg v1=%+8.3eg u2=%+8.3eg v2=%+8.3eg\n",
172 printf("Triangle S1:%d Edge S1:%d Lambda1:%f Triangle S2:%d Edge S2:%d Lambda2:%f\n",t1,e1,lambda1,t2,e2,lambda2);
173 printf("Angle: %f List Number: %d\n",angle,chainlist);
176 void IntPolyh_StartPoint::Dump(const Standard_Integer i) const{
177 printf("\nPoint(%d) : x=%+8.3eg y=%+8.3eg z=%+8.3eg u1=%+8.3eg v1=%+8.3eg u2=%+8.3eg v2=%+8.3eg\n",
178 i,x,y,z,u1,v1,u2,v2);
179 printf("Triangle S1:%d Edge S1:%d Lambda1:%f Triangle S2:%d Edge S2:%d Lambda2:%f\n",t1,e1,lambda1,t2,e2,lambda2);
180 printf("Angle: %f List Number: %d\n",angle,chainlist);