0025703: Visualization - Decrease number of samplers used in ray-tracing mode
[occt.git] / src / IntTools / IntTools_Tools.cxx
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b311480e 1// Created on: 2000-11-16
2// Created by: Peter KURNEV
973c2be1 3// Copyright (c) 2000-2014 OPEN CASCADE SAS
7fd59977 4//
973c2be1 5// This file is part of Open CASCADE Technology software library.
b311480e 6//
d5f74e42 7// This library is free software; you can redistribute it and/or modify it under
8// the terms of the GNU Lesser General Public License version 2.1 as published
973c2be1 9// by the Free Software Foundation, with special exception defined in the file
10// OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT
11// distribution for complete text of the license and disclaimer of any warranty.
b311480e 12//
973c2be1 13// Alternatively, this file may be used under the terms of Open CASCADE
14// commercial license or contractual agreement.
7fd59977 15
16#include <IntTools_Tools.ixx>
17
18#include <Precision.hxx>
19
20#include <TopExp_Explorer.hxx>
21#include <TopTools_IndexedDataMapOfShapeShape.hxx>
22
23#include <TopoDS.hxx>
24#include <TopoDS_Shape.hxx>
25#include <TopoDS_Vertex.hxx>
26#include <TopoDS_Edge.hxx>
27#include <TopoDS_Face.hxx>
28#include <TopoDS_Wire.hxx>
29#include <TopLoc_Location.hxx>
30
31#include <BRep_Builder.hxx>
32#include <BRep_Tool.hxx>
33#include <BRepAdaptor_Surface.hxx>
34#include <BRepAdaptor_Curve.hxx>
35#include <BRepAdaptor_Surface.hxx>
36
37#include <gp_Pnt.hxx>
38#include <gp_Pnt2d.hxx>
39#include <gp.hxx>
40#include <gp_Lin.hxx>
41#include <gp_Dir.hxx>
42#include <gp_Ax1.hxx>
43
44#include <Geom_Curve.hxx>
45#include <GeomAdaptor_Surface.hxx>
46#include <Geom_Surface.hxx>
47#include <GeomAPI_ProjectPointOnSurf.hxx>
48#include <GeomAPI_ProjectPointOnCurve.hxx>
49#include <GeomAdaptor_Curve.hxx>
50#include <GeomAbs_CurveType.hxx>
51#include <Geom_Line.hxx>
52#include <Geom2d_Curve.hxx>
53#include <Geom_BoundedCurve.hxx>
54#include <Geom_Geometry.hxx>
55#include <Geom_TrimmedCurve.hxx>
56#include <Geom2d_TrimmedCurve.hxx>
57
58#include <IntTools_FClass2d.hxx>
59#include <IntTools_Curve.hxx>
60#include <IntTools_SequenceOfCurves.hxx>
61
62static
63 void ParabolaTolerance(const Handle(Geom_Curve)& ,
1e143abb 64 const Standard_Real ,
65 const Standard_Real ,
66 const Standard_Real ,
67 Standard_Real& ,
68 Standard_Real& );
7fd59977 69
70//=======================================================================
71//function : HasInternalEdge
72//purpose :
73//=======================================================================
74 Standard_Boolean IntTools_Tools::HasInternalEdge(const TopoDS_Wire& aW)
75{
76 Standard_Boolean bFlag=Standard_True;
77
78 TopExp_Explorer anExp(aW, TopAbs_EDGE);
79 for (; anExp.More(); anExp.Next()) {
80 const TopoDS_Edge& aE=TopoDS::Edge(anExp.Current());
81 TopAbs_Orientation anOr=aE.Orientation();
82 if (anOr==TopAbs_INTERNAL) {
83 return bFlag;
84 }
85 }
86 return !bFlag;
87}
88
89//=======================================================================
90//function : IsClosed
91//purpose :
92//=======================================================================
93 Standard_Boolean IntTools_Tools::IsClosed (const Handle(Geom_Curve)& aC3D)
94{
cf8e963a 95 Standard_Boolean bRet;
96 Standard_Real aF, aL, aDist, aPC;
7fd59977 97 gp_Pnt aP1, aP2;
cf8e963a 98
7fd59977 99 Handle (Geom_BoundedCurve) aGBC=
100 Handle (Geom_BoundedCurve)::DownCast(aC3D);
101 if (aGBC.IsNull()) {
102 return Standard_False;
103 }
cf8e963a 104
7fd59977 105 aF=aC3D->FirstParameter();
106 aL=aC3D-> LastParameter();
107
108 aC3D->D0(aF, aP1);
109 aC3D->D0(aL, aP2);
110
cf8e963a 111
112 //
cf8e963a 113 aPC=Precision::Confusion();
114 aPC=aPC*aPC;
115 aDist=aP1.SquareDistance(aP2);
116 bRet=aDist<aPC;
117 return bRet;
7fd59977 118}
119
120//=======================================================================
121//function : RejectLines
122//purpose :
123//=======================================================================
124 void IntTools_Tools::RejectLines(const IntTools_SequenceOfCurves& aSIn,
1e143abb 125 IntTools_SequenceOfCurves& aSOut)
7fd59977 126{
127 Standard_Integer i, j, aNb;
128 Standard_Boolean bFlag;
129 Handle (Geom_Curve) aC3D;
130
131 gp_Dir aD1, aD2;
132
133 aSOut.Clear();
134
135 aNb=aSIn.Length();
136 for (i=1; i<=aNb; i++) {
137 const IntTools_Curve& IC=aSIn(i);
138 aC3D=IC.Curve();
139 //
140 Handle (Geom_TrimmedCurve) aGTC=
141 Handle (Geom_TrimmedCurve)::DownCast(aC3D);
142
143 if (!aGTC.IsNull()) {
144 aC3D=aGTC->BasisCurve();
145 IntTools_Curve* pIC=(IntTools_Curve*) &IC;
146 pIC->SetCurve(aC3D);
147 }
148 //
149 Handle (Geom_Line) aGLine=
150 Handle (Geom_Line)::DownCast(aC3D);
151
152 if (aGLine.IsNull()) {
153 aSOut.Clear();
154 for (j=1; j<=aNb; j++) {
1e143abb 155 aSOut.Append(aSIn(j));
7fd59977 156 }
157 return;
158 }
159 //
160 gp_Lin aLin=aGLine->Lin();
161 aD2=aLin.Direction();
162 if (i==1) {
163 aSOut.Append(IC);
164 aD1=aD2;
165 continue;
166 }
167
168 bFlag=IntTools_Tools::IsDirsCoinside(aD1, aD2);
169 if (!bFlag) {
170 aSOut.Append(IC);
171 return;
172 }
173 }
174}
175
176//=======================================================================
177//function : IsDirsCoinside
178//purpose :
179//=======================================================================
180 Standard_Boolean IntTools_Tools::IsDirsCoinside (const gp_Dir& D1, const gp_Dir& D2)
181{
182 Standard_Boolean bFlag;
183 gp_Pnt P1(D1.X(), D1.Y(), D1.Z());
184 gp_Pnt P2(D2.X(), D2.Y(), D2.Z());
185 Standard_Real dLim=0.0002, d;
186 d=P1.Distance (P2);
187 bFlag= (d<dLim || fabs (2.-d)<dLim);
188 return bFlag;
189}
190
191//=======================================================================
192//function : IsDirsCoinside
193//purpose :
194//=======================================================================
195 Standard_Boolean IntTools_Tools::IsDirsCoinside (const gp_Dir& D1,
1e143abb 196 const gp_Dir& D2,
197 const Standard_Real dLim)
7fd59977 198{
199 Standard_Boolean bFlag;
200 Standard_Real d;
201 //
202 gp_Pnt P1(D1.X(), D1.Y(), D1.Z());
203 gp_Pnt P2(D2.X(), D2.Y(), D2.Z());
204 d=P1.Distance (P2);
205 bFlag= (d<dLim || fabs (2.-d)<dLim);
206 return bFlag;
207}
208//=======================================================================
209//function : SplitCurve
210//purpose :
211//=======================================================================
212 Standard_Integer IntTools_Tools::SplitCurve(const IntTools_Curve& IC,
1e143abb 213 IntTools_SequenceOfCurves& aCvs)
7fd59977 214{
215 Handle (Geom_Curve) aC3D =IC.Curve();
216 if(aC3D.IsNull())
217 return 0;
218 //
219 Handle (Geom2d_Curve) aC2D1=IC.FirstCurve2d();
220 Handle (Geom2d_Curve) aC2D2=IC.SecondCurve2d();
221 Standard_Boolean bIsClosed;
222
223 bIsClosed=IntTools_Tools::IsClosed(aC3D);
224 if (!bIsClosed) {
225 return 0;
226 }
227
228 Standard_Real aF, aL, aMid;
229
230 //
231 aF=aC3D->FirstParameter();
232 aL=aC3D->LastParameter();
233 aMid=0.5*(aF+aL);
7fd59977 234 GeomAdaptor_Curve aGAC(aC3D);
235 GeomAbs_CurveType aCT=aGAC.GetType();
236 if (aCT==GeomAbs_BSplineCurve ||
237 aCT==GeomAbs_BezierCurve) {
238 //aMid=0.5*aMid;
239 aMid=IntTools_Tools::IntermediatePoint(aF, aL);
240 }
7fd59977 241 //
242 Handle(Geom_Curve) aC3DNewF, aC3DNewL;
243 aC3DNewF =new Geom_TrimmedCurve (aC3D, aF, aMid);
244 aC3DNewL =new Geom_TrimmedCurve (aC3D, aMid, aL);
245
246 //
247 Handle (Geom2d_Curve) aC2D1F, aC2D1L, aC2D2F, aC2D2L;
248 //
249 if(!aC2D1.IsNull()) {
250 aC2D1F=new Geom2d_TrimmedCurve (aC2D1, aF, aMid);
251 aC2D1L=new Geom2d_TrimmedCurve (aC2D1, aMid, aL);
252 }
253
254 if(!aC2D2.IsNull()) {
255 aC2D2F=new Geom2d_TrimmedCurve (aC2D2, aF, aMid);
256 aC2D2L=new Geom2d_TrimmedCurve (aC2D2, aMid, aL);
257 }
258 //
259
260 IntTools_Curve aIC1(aC3DNewF, aC2D1F, aC2D2F);
261 IntTools_Curve aIC2(aC3DNewL, aC2D1L, aC2D2L);
262 //
263 aCvs.Append(aIC1);
264 //
265 aCvs.Append(aIC2);
266 //
267 return 2;
268}
269
270//=======================================================================
271//function : IntermediatePoint
272//purpose :
273//=======================================================================
274 Standard_Real IntTools_Tools::IntermediatePoint (const Standard_Real aFirst,
1e143abb 275 const Standard_Real aLast)
7fd59977 276{
c6541a0c 277 //define parameter division number as 10*e^(-M_PI) = 0.43213918
7fd59977 278 const Standard_Real PAR_T = 0.43213918;
279 Standard_Real aParm;
280 aParm=(1.-PAR_T)*aFirst + PAR_T*aLast;
281 return aParm;
282}
283
284//=======================================================================
285//function : IsVertex
286//purpose :
287//=======================================================================
288 Standard_Boolean IntTools_Tools::IsVertex (const gp_Pnt& aP,
1e143abb 289 const Standard_Real aTolPV,
290 const TopoDS_Vertex& aV)
7fd59977 291{
cf8e963a 292 Standard_Boolean bRet;
7fd59977 293 Standard_Real aTolV, aD, dTol;
294 gp_Pnt aPv;
295
296 aTolV=BRep_Tool::Tolerance(aV);
297 //
7fd59977 298 dTol=Precision::Confusion();
299 aTolV=aTolV+aTolPV+dTol;
7fd59977 300 //
301 aPv=BRep_Tool::Pnt(aV);
cf8e963a 302 //
cf8e963a 303 aD=aPv.SquareDistance(aP);
304 aTolV=aTolV*aTolV;
305 bRet=(aD<=aTolV);
306 return bRet;
7fd59977 307}
308
309
310//=======================================================================
311//function : IsVertex
312//purpose :
313//=======================================================================
314 Standard_Boolean IntTools_Tools::IsVertex (const IntTools_CommonPrt& aCmnPrt)
315{
316 Standard_Boolean anIsVertex;
317 Standard_Real aParam;
318
319 const TopoDS_Edge& aE1=aCmnPrt.Edge1();
320 const IntTools_Range& aR1=aCmnPrt.Range1();
321 aParam=0.5*(aR1.First()+aR1.Last());
322 anIsVertex=IntTools_Tools::IsVertex (aE1, aParam);
323
324 if (anIsVertex) {
325 return Standard_True;
326 }
327
328 const TopoDS_Edge& aE2=aCmnPrt.Edge2();
329 const IntTools_SequenceOfRanges& aRs2=aCmnPrt.Ranges2();
330 const IntTools_Range& aR2=aRs2(1);
331 aParam=0.5*(aR2.First()+aR2.Last());
332 anIsVertex=IntTools_Tools::IsVertex (aE2, aParam);
333 if (anIsVertex) {
334 return Standard_True;
335 }
336 return Standard_False;
337}
338
339//=======================================================================
340//function : IsVertex
341//purpose :
342//=======================================================================
343 Standard_Boolean IntTools_Tools::IsVertex (const TopoDS_Edge& aE,
1e143abb 344 const TopoDS_Vertex& aV,
345 const Standard_Real t)
7fd59977 346{
347 Standard_Real aTolV, aTolV2, d2;
348 gp_Pnt aPv, aPt;
349
350 BRepAdaptor_Curve aBAC(aE);
351 aBAC.D0(t, aPt);
352
353 aTolV=BRep_Tool::Tolerance(aV);
354 aTolV2=aTolV*aTolV;
355 aPv=BRep_Tool::Pnt(aV);
356 d2=aPv.SquareDistance (aPt);
357 if (d2 < aTolV2) {
358 return Standard_True;
359 }
360 return Standard_False;
361}
362//=======================================================================
363//function : IsVertex
364//purpose :
365//=======================================================================
366 Standard_Boolean IntTools_Tools::IsVertex (const TopoDS_Edge& aE,
1e143abb 367 const Standard_Real t)
7fd59977 368{
369 Standard_Real aTolV, aTolV2, d2;
370 TopoDS_Vertex aV;
371 gp_Pnt aPv, aPt;
372
373 BRepAdaptor_Curve aBAC(aE);
374 aBAC.D0(t, aPt);
375
376 TopExp_Explorer anExp(aE, TopAbs_VERTEX);
377 for (; anExp.More(); anExp.Next()) {
378 aV=TopoDS::Vertex (anExp.Current());
379 aTolV=BRep_Tool::Tolerance(aV);
380 aTolV2=aTolV*aTolV;
381 aTolV2=1.e-12;
382 aPv=BRep_Tool::Pnt(aV);
383 d2=aPv.SquareDistance (aPt);
384 if (d2 < aTolV2) {
385 return Standard_True;
386 }
387 }
388 return Standard_False;
389}
390
391
392//=======================================================================
393//function : ComputeVV
394//purpose :
395//=======================================================================
396 Standard_Integer IntTools_Tools::ComputeVV(const TopoDS_Vertex& aV1,
1e143abb 397 const TopoDS_Vertex& aV2)
7fd59977 398{
399 Standard_Real aTolV1, aTolV2, aTolSum, d;
400 gp_Pnt aP1, aP2;
401
402 aTolV1=BRep_Tool::Tolerance(aV1);
403 aTolV2=BRep_Tool::Tolerance(aV2);
404 aTolSum=aTolV1+aTolV2;
cf8e963a 405
7fd59977 406 aP1=BRep_Tool::Pnt(aV1);
407 aP2=BRep_Tool::Pnt(aV2);
cf8e963a 408 aTolSum=aTolSum*aTolSum;
409 d=aP1.SquareDistance(aP2);
7fd59977 410 if (d<aTolSum) {
411 return 0;
412 }
413 return -1;
414}
415
416//=======================================================================
417//function : MakeFaceFromWireAndFace
418//purpose :
419//=======================================================================
420 void IntTools_Tools::MakeFaceFromWireAndFace(const TopoDS_Wire& aW,
1e143abb 421 const TopoDS_Face& aF,
422 TopoDS_Face& aFNew)
7fd59977 423{
424 TopoDS_Face aFF;
425 aFF=aF;
426 aFF.Orientation(TopAbs_FORWARD);
427 aFNew=TopoDS::Face (aFF.EmptyCopied());
428 BRep_Builder BB;
429 BB.Add(aFNew, aW);
430}
431
432//=======================================================================
433//function : ClassifyPointByFace
434//purpose :
435//=======================================================================
436 TopAbs_State IntTools_Tools::ClassifyPointByFace(const TopoDS_Face& aF,
1e143abb 437 const gp_Pnt2d& aP2d)
7fd59977 438{
439 Standard_Real aFaceTolerance;
440 TopAbs_State aState;
441
442 aFaceTolerance=BRep_Tool::Tolerance(aF);
443 IntTools_FClass2d aClass2d(aF, aFaceTolerance);
444 aState=aClass2d.Perform(aP2d);
445
446 return aState;
447}
448
449//=======================================================================
450//function : IsMiddlePointsEqual
451//purpose :
452//=======================================================================
453 Standard_Boolean IntTools_Tools::IsMiddlePointsEqual(const TopoDS_Edge& aE1,
1e143abb 454 const TopoDS_Edge& aE2)
455
7fd59977 456{
cf8e963a 457 Standard_Boolean bRet;
458 Standard_Real f1, l1, m1, f2, l2, m2, aTol1, aTol2, aSumTol, aD2;
7fd59977 459 gp_Pnt aP1, aP2;
460
461 aTol1=BRep_Tool::Tolerance(aE1);
462 Handle(Geom_Curve) C1=BRep_Tool::Curve(aE1, f1, l1);
463 m1=0.5*(f1+l1);
464 C1->D0(m1, aP1);
465
466 aTol2=BRep_Tool::Tolerance(aE2);
467 Handle(Geom_Curve) C2=BRep_Tool::Curve(aE2, f2, l2);
468 m2=0.5*(f2+l2);
469 C2->D0(m2, aP2);
470
471 aSumTol=aTol1+aTol2;
cf8e963a 472 aSumTol=aSumTol*aSumTol;
473 aD2=aP1.SquareDistance(aP2);
474 bRet=aD2<aSumTol;
475 return bRet;
7fd59977 476}
477
478//=======================================================================
479//function : CurveTolerance
480//purpose :
481//=======================================================================
482 Standard_Real IntTools_Tools::CurveTolerance(const Handle(Geom_Curve)& aC3D,
1e143abb 483 const Standard_Real aTolBase)
7fd59977 484{
485 Standard_Real aTolReached, aTf, aTl, aTolMin, aTolMax;
486
487 aTolReached=aTolBase;
488 //
489 if (aC3D.IsNull()) {
490 return aTolReached;
491 }
492 //
493 Handle(Geom_TrimmedCurve) aCT3D=Handle(Geom_TrimmedCurve)::DownCast(aC3D);
494 if (aCT3D.IsNull()) {
495 return aTolReached;
496 }
497 //
498 aTolMin=aTolBase;
499 aTolMax=aTolBase;
500 //
501 aTf=aCT3D->FirstParameter();
502 aTl=aCT3D->LastParameter();
503 //
504 GeomAdaptor_Curve aGAC(aCT3D);
505 GeomAbs_CurveType aCType=aGAC.GetType();
506 //
507 if (aCType==GeomAbs_Parabola) {
508 Handle(Geom_Curve) aC3DBase=aCT3D->BasisCurve();
509 ParabolaTolerance(aC3DBase, aTf, aTl, aTolBase, aTolMin, aTolMax);
510 aTolReached=aTolMax;
511 }
512 //
513 return aTolReached;
514}
515
516#include <Geom_Parabola.hxx>
517#include <gp_Parab.hxx>
1e143abb 518#include <BndLib_Add3dCurve.hxx>
7fd59977 519//=======================================================================
520//function : ParabolaTolerance
521//purpose :
522//=======================================================================
523void ParabolaTolerance(const Handle(Geom_Curve)& aC3D,
1e143abb 524 const Standard_Real aTf,
525 const Standard_Real aTl,
526 const Standard_Real aTol,
527 Standard_Real& aTolMin,
528 Standard_Real& aTolMax)
7fd59977 529{
530
531 aTolMin=aTol;
532 aTolMax=aTol;
533
534 Handle(Geom_Parabola) aGP=Handle(Geom_Parabola)::DownCast(aC3D);
535 if (aGP.IsNull()){
536 return;
537 }
538
539 Standard_Integer aNbPoints;
540 Standard_Real aFocal, aX1, aX2, aTol1, aTol2;
541 gp_Pnt aPf, aPl;
542 gp_Parab aParab=aGP->Parab();
543 gp_Ax1 aXAxis=aParab.XAxis();
544 Handle(Geom_Line) aGAxis=new Geom_Line(aXAxis);
545
546 aFocal=aGP->Focal();
547 if (aFocal==0.) {
548 return;
549 }
550 //
551 // aTol1
552 aTol1=aTol;
553 aX1=0.;
554 aGP->D0(aTf, aPf);
555 GeomAPI_ProjectPointOnCurve aProj1(aPf, aGAxis);
556 aNbPoints=aProj1.NbPoints();
557 if (aNbPoints) {
558 aX1=aProj1.LowerDistanceParameter();
559 }
560 if (aX1>=0.) {
561 aTol1=aTol*sqrt(0.5*aX1/aFocal);
562 }
563 if (aTol1==0.) {
564 aTol1=aTol;
565 }
566 //
567 // aTol2
568 aTol2=aTol;
569 aX2=0.;
570 aGP->D0(aTl, aPl);
571 GeomAPI_ProjectPointOnCurve aProj2(aPl, aGAxis);
572 aNbPoints=aProj2.NbPoints();
573 if (aNbPoints) {
574 aX2=aProj2.LowerDistanceParameter();
575 }
576
577 if (aX2>=0.) {
578 aTol2=aTol*sqrt(0.5*aX2/aFocal);
579 }
580 if (aTol2==0.) {
581 aTol2=aTol;
582 }
583 //
584 aTolMax=(aTol1>aTol2) ? aTol1 : aTol2;
585 aTolMin=(aTol1<aTol2) ? aTol1 : aTol2;
586}
1e143abb 587/////////////////////////////////////////////////////////////////////////
588//=======================================================================
589//function : CheckCurve
590//purpose :
591//=======================================================================
592Standard_Boolean IntTools_Tools::CheckCurve(const Handle (Geom_Curve)& aC3D,
593 const Standard_Real aTolR3D,
594 Bnd_Box& aBox)
595{
596 Standard_Boolean bRet;
597 Standard_Real aXmin, aYmin, aZmin, aXmax, aYmax, aZmax, dX, dY, dZ;
598 Standard_Real dS, aTol;
599 GeomAdaptor_Curve aGAC;
600 //
601 aGAC.Load(aC3D);
602 BndLib_Add3dCurve::Add(aGAC, aTolR3D, aBox);
603 // 910/B1
604 aBox.Get(aXmin, aYmin, aZmin, aXmax, aYmax, aZmax);
605 dX=aXmax-aXmin;
606 dY=aYmax-aYmin;
607 dZ=aZmax-aZmin;
608 dS=1.e-12;
609 aTol=2.*aTolR3D+dS;
610 bRet=(dX>aTol || dY>aTol || dZ>aTol);
611 //
612 return bRet;
613}
614//=======================================================================
615//function : IsOnPave
616//purpose :
617//=======================================================================
618Standard_Boolean IntTools_Tools::IsOnPave(const Standard_Real aT1,
619 const IntTools_Range& aRange,
620 const Standard_Real aTolerance)
621{
622 Standard_Boolean firstisonpave1, firstisonpave2, bIsOnPave;
623 //
624 firstisonpave1 = (Abs(aRange.First() - aT1) < aTolerance);
625 firstisonpave2 = (Abs(aRange.Last() - aT1) < aTolerance);
626 bIsOnPave=(firstisonpave1 || firstisonpave2);
627 return bIsOnPave;
628}
629//=======================================================================
630// function: VertexParameters
631// purpose:
632//=======================================================================
633void IntTools_Tools::VertexParameters(const IntTools_CommonPrt& aCPart,
634 Standard_Real& aT1,
635 Standard_Real& aT2)
636{
637 const IntTools_Range& aR1=aCPart.Range1();
638 aT1=0.5*(aR1.First()+aR1.Last());
639 //
640 if((aCPart.VertexParameter1() >= aR1.First()) &&
641 (aCPart.VertexParameter1() <= aR1.Last())) {
642 aT1 = aCPart.VertexParameter1();
643 }
644 //
645 const IntTools_SequenceOfRanges& aRanges2=aCPart.Ranges2();
646 const IntTools_Range& aR2=aRanges2(1);
647 aT2=0.5*(aR2.First()+aR2.Last());
648 //
649 if((aCPart.VertexParameter2() >= aR2.First()) &&
650 (aCPart.VertexParameter2() <= aR2.Last())) {
651 aT2 = aCPart.VertexParameter2();
652 }
653}
654//=======================================================================
655// function: VertexParameter
656// purpose:
657//=======================================================================
658void IntTools_Tools::VertexParameter(const IntTools_CommonPrt& aCPart,
659 Standard_Real& aT)
660{
661 const IntTools_Range& aR=aCPart.Range1();
662 aT=0.5*(aR.First()+aR.Last());
663 if((aCPart.VertexParameter1() >= aR.First()) &&
664 (aCPart.VertexParameter1() <= aR.Last())) {
665 aT = aCPart.VertexParameter1();
666 }
667}
668//=======================================================================
669// function: IsOnPave1
670// purpose:
671//=======================================================================
672Standard_Boolean IntTools_Tools::IsOnPave1(const Standard_Real aTR,
673 const IntTools_Range& aCPRange,
674 const Standard_Real aTolerance)
675{
676 Standard_Boolean bIsOnPave;
677 Standard_Real aT1, aT2, dT1, dT2;
678 //
679 aT1=aCPRange.First();
680 aT2=aCPRange.Last();
681 bIsOnPave=(aTR>=aT1 && aTR<=aT1);
682 if (bIsOnPave) {
683 return bIsOnPave;
684 }
685 //
686 dT1=Abs(aTR-aT1);
687 dT2=Abs(aTR-aT2);
688 bIsOnPave=(dT1<=aTolerance || dT2<=aTolerance);
689 return bIsOnPave;
690}
691//=======================================================================
692// function: IsInRange
693// purpose:
694//=======================================================================
695Standard_Boolean IntTools_Tools::IsInRange(const IntTools_Range& aRRef,
696 const IntTools_Range& aR,
697 const Standard_Real aTolerance)
698{
699 Standard_Boolean bIsIn;
700 Standard_Real aT1, aT2, aTRef1, aTRef2;
701 //
702 aR.Range(aT1, aT2);
703 aRRef.Range(aTRef1, aTRef2);
704 //
705 aTRef1-=aTolerance;
706 aTRef2+=aTolerance;
707 //
708 bIsIn = (aT1>=aTRef1 && aT1<=aTRef2) ||
709 (aT2>=aTRef1 && aT2<=aTRef2);
710 //
711 return bIsIn;
712}
713//=======================================================================
714//function : SegPln
715//purpose :
716//=======================================================================
717Standard_Integer IntTools_Tools::SegPln(const gp_Lin& theLin,
718 const Standard_Real theTLin1,
719 const Standard_Real theTLin2,
720 const Standard_Real theTolLin,
721 const gp_Pln& thePln,
722 const Standard_Real theTolPln,
723 gp_Pnt& theP,
724 Standard_Real& theTP,
725 Standard_Real& theTolP,
726 Standard_Real& theTPmin,
727 Standard_Real& theTPmax)
728{
729 Standard_Integer iRet;
730 Standard_Real aTol, aA, aB, aC, aD, aE, aH, aTP, aDist1, aDist2;
731 gp_Pnt aP1, aP2;
732 //
733 iRet=0;
734 aTol=theTolLin+theTolPln;
735 //
736 const gp_Ax3& aPosPln=thePln.Position();
737 const gp_Dir& aDirPln=aPosPln.Direction();
738 const gp_Pnt& aLocPln=aPosPln.Location();
739 //
740 const gp_Dir& aDirLin=theLin.Direction();
741 const gp_Pnt& aLocLin=theLin.Location();
742 //
743 aP1.SetXYZ(aLocLin.XYZ()+theTLin1*aDirLin.XYZ());
744 aDist1=aDirPln.X()*(aP1.X()-aLocPln.X())+
745 aDirPln.Y()*(aP1.Y()-aLocPln.Y())+
746 aDirPln.Z()*(aP1.Z()-aLocPln.Z());
747 //
748 aP2.SetXYZ(aLocLin.XYZ()+theTLin2*aDirLin.XYZ());
749 aDist2=aDirPln.X()*(aP2.X()-aLocPln.X())+
750 aDirPln.Y()*(aP2.Y()-aLocPln.Y())+
751 aDirPln.Z()*(aP2.Z()-aLocPln.Z());
752 //
753 if (aDist1<aTol && aDist2<aTol){
754 iRet=1; // common block
755 return iRet;
756 }
757 //
758 if (aDist1*aDist2 > 0.) {
759 iRet=2; // segment lays on one side to the Plane
760 return iRet;
761 }
762 //
763 thePln.Coefficients(aA, aB, aC, aD);
764 aE=aA*aLocLin.X()+aB*aLocLin.Y()+aC*aLocLin.Z()+aD;
765 aH=aA*aDirLin.X()+aB*aDirLin.Y()+aC*aDirLin.Z();
766 aTP=-aE/aH;
767 if (aTP < theTLin1-aTol || aTP > theTLin2+aTol) {
768 iRet=3; // no intersections due to range of the Line
769 return iRet;
770 }
771 //
772 theTP=aTP;
773 theP.SetXYZ(aLocLin.XYZ()+aTP*aDirLin.XYZ());
774 theTolP=aTol;
775 theTPmin=theTP-theTolPln;
776 theTPmax=theTP+theTolPln;
777 iRet=0; // intersection point
778 return iRet;
779}