0024510: Remove unused local variables
[occt.git] / src / IntTools / IntTools_EdgeFace.cxx
CommitLineData
b311480e 1// Created on: 2001-02-26
2// Created by: Peter KURNEV
973c2be1 3// Copyright (c) 2001-2014 OPEN CASCADE SAS
7fd59977 4//
973c2be1 5// This file is part of Open CASCADE Technology software library.
b311480e 6//
973c2be1 7// This library is free software; you can redistribute it and / or modify it
8// under the terms of the GNU Lesser General Public version 2.1 as published
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_EdgeFace.ixx>
17
18
19
20#include <IntTools_CArray1OfReal.hxx>
21#include <IntTools.hxx>
22#include <IntTools_CArray1OfInteger.hxx>
23#include <IntTools_Range.hxx>
24#include <IntTools_Tools.hxx>
25#include <IntTools_Array1OfRange.hxx>
26#include <IntTools_QuickSortRange.hxx>
27#include <IntTools_CompareRange.hxx>
28#include <IntTools_CommonPrt.hxx>
29#include <IntTools_Root.hxx>
30#include <IntTools_BeanFaceIntersector.hxx>
4e57c75e 31#include <BOPInt_Context.hxx>
7fd59977 32
33#include <BRep_Tool.hxx>
34
35#include <GeomAdaptor_Surface.hxx>
36#include <GeomAdaptor_Curve.hxx>
37
38#include <Geom_Surface.hxx>
39#include <Geom_Curve.hxx>
40
41#include <GeomAPI_ProjectPointOnSurf.hxx>
42
43#include <Precision.hxx>
44
45#include <Bnd_Box.hxx>
46#include <BndLib_AddSurface.hxx>
47
48#include <gp_Cylinder.hxx>
49#include <gp_Ax1.hxx>
50#include <gp_Lin.hxx>
51#include <gp_Cone.hxx>
52#include <gp_Torus.hxx>
53#include <gp_Circ.hxx>
54#include <gp_Pln.hxx>
55
56
57#include <Extrema_ExtCS.hxx>
58#include <Extrema_POnCurv.hxx>
59#include <Extrema_POnSurf.hxx>
60
61// modified by NIZHNY-MKK Thu Jul 21 11:35:59 2005
62#include <IntCurveSurface_HInter.hxx>
63#include <GeomAdaptor_HCurve.hxx>
64#include <GeomAdaptor_HSurface.hxx>
65#include <IntCurveSurface_IntersectionPoint.hxx>
66
67#ifdef WNT
68#pragma warning ( disable : 4101 )
69#endif
70
71static
72 Standard_Boolean IsCoplanar (const BRepAdaptor_Curve& ,
73 const BRepAdaptor_Surface& );
74static
75 Standard_Boolean IsRadius (const BRepAdaptor_Curve& aCurve ,
76 const BRepAdaptor_Surface& aSurface);
77static
78 Standard_Integer AdaptiveDiscret (const Standard_Integer iDiscret,
79 const BRepAdaptor_Curve& aCurve ,
80 const BRepAdaptor_Surface& aSurface);
81
82//=======================================================================
83//function : IntTools_EdgeFace::IntTools_EdgeFace
84//purpose :
85//=======================================================================
86 IntTools_EdgeFace::IntTools_EdgeFace()
87{
88 myTolE=1.e-7;
89 myTolF=1.e-7;
90 myDiscret=30;
91 myEpsT =1e-12;
92 myEpsNull=1e-12;
93 myDeflection=0.01;
94 myIsDone=Standard_False;
95 myErrorStatus=1;
96 myParallel=Standard_False;
97 myPar1=0.;
4f189102
P
98}
99//=======================================================================
100//function : SetContext
101//purpose :
102//=======================================================================
4e57c75e 103void IntTools_EdgeFace::SetContext(const Handle(BOPInt_Context)& theContext)
4f189102
P
104{
105 myContext = theContext;
7fd59977 106}
107
108//=======================================================================
4f189102
P
109//function : Context
110//purpose :
111//=======================================================================
4e57c75e 112const Handle(BOPInt_Context)& IntTools_EdgeFace::Context()const
4f189102
P
113{
114 return myContext;
115}
116//=======================================================================
7fd59977 117//function : SetEdge
118//purpose :
119//=======================================================================
120 void IntTools_EdgeFace::SetEdge(const TopoDS_Edge& anEdge)
121{
122 myEdge=anEdge;
123}
124
125//=======================================================================
126//function : SetFace
127//purpose :
128//=======================================================================
129 void IntTools_EdgeFace::SetFace(const TopoDS_Face& aFace)
130{
131 myFace=aFace;
132}
133
134//=======================================================================
135//function : SetTolE
136//purpose :
137//=======================================================================
138 void IntTools_EdgeFace::SetTolE(const Standard_Real aTol)
139{
140 myTolE=aTol;
141}
142//=======================================================================
143//function : SetTolF
144//purpose :
145//=======================================================================
146 void IntTools_EdgeFace::SetTolF(const Standard_Real aTol)
147{
148 myTolF=aTol;
149}
150
151//=======================================================================
152//function : SetDiscretize
153//purpose :
154//=======================================================================
155 void IntTools_EdgeFace::SetDiscretize(const Standard_Integer aDiscret)
156{
157 myDiscret=aDiscret;
158}
159//=======================================================================
160//function : SetDeflection
161//purpose :
162//=======================================================================
163 void IntTools_EdgeFace::SetDeflection(const Standard_Real aDefl)
164{
165 myDeflection=aDefl;
166}
167//=======================================================================
168//function : SetEpsilonT
169//purpose :
170//=======================================================================
171 void IntTools_EdgeFace::SetEpsilonT(const Standard_Real anEpsT)
172{
173 myEpsT=anEpsT;
174}
175//=======================================================================
176//function : SetEpsilonNull
177//purpose :
178//=======================================================================
179 void IntTools_EdgeFace::SetEpsilonNull(const Standard_Real anEpsNull)
180{
181 myEpsNull=anEpsNull;
182}
183
184//=======================================================================
185//function : SetRange
186//purpose :
187//=======================================================================
188 void IntTools_EdgeFace::SetRange(const Standard_Real aFirst,
189 const Standard_Real aLast)
190{
191 myRange.SetFirst (aFirst);
192 myRange.SetLast (aLast);
193}
194
195//=======================================================================
196//function : SetRange
197//purpose :
198//=======================================================================
199 void IntTools_EdgeFace::SetRange(const IntTools_Range& aRange)
200{
201 myRange.SetFirst (aRange.First());
202 myRange.SetLast (aRange.Last());
203}
204//=======================================================================
205//function : IsDone
206//purpose :
207//=======================================================================
4f189102 208Standard_Boolean IntTools_EdgeFace::IsDone()const
7fd59977 209{
210 return myIsDone;
211}
212//=======================================================================
213//function : ErrorStatus
214//purpose :
215//=======================================================================
4f189102 216Standard_Integer IntTools_EdgeFace::ErrorStatus()const
7fd59977 217{
218 return myErrorStatus;
219}
220//=======================================================================
221//function : CommonParts
222//purpose :
223//=======================================================================
4f189102 224const IntTools_SequenceOfCommonPrts& IntTools_EdgeFace::CommonParts() const
7fd59977 225{
226 return mySeqOfCommonPrts;
227}
228//=======================================================================
229//function : Range
230//purpose :
231//=======================================================================
4f189102 232const IntTools_Range& IntTools_EdgeFace::Range() const
7fd59977 233{
234 return myRange;
235}
236
237//=======================================================================
238//function : CheckData
239//purpose :
240//=======================================================================
4f189102 241void IntTools_EdgeFace::CheckData()
7fd59977 242{
243 if (BRep_Tool::Degenerated(myEdge)) {
244 myErrorStatus=2;
245 }
246 if (!BRep_Tool::IsGeometric(myEdge)) {
247 myErrorStatus=3;
248 }
249}
7fd59977 250//=======================================================================
251//function : Prepare
252//purpose :
253//=======================================================================
254 void IntTools_EdgeFace::Prepare()
255{
256 Standard_Integer pri;
257 IntTools_CArray1OfReal aPars;
258
259 //
260 // 1.Prepare Curve's data and Surface's data
261 myC.Initialize(myEdge);
262 GeomAbs_CurveType aCurveType;
263 aCurveType=myC.GetType();
264 //
265 // 2.Prepare myCriteria
266 if (aCurveType==GeomAbs_BSplineCurve||
267 aCurveType==GeomAbs_BezierCurve) {
268 myCriteria=1.5*myTolE+myTolF;
269 }
270 else {
271 myCriteria=myTolE+myTolF;
272 }
273 // 2.a myTmin, myTmax
274 myTmin=myRange.First();
275 myTmax=myRange.Last();
276 // 2.b myFClass2d
277 myS.Initialize (myFace,Standard_True);
278 myFClass2d.Init(myFace, 1.e-6);
279 //
280 // 2.c Prepare adaptive myDiscret
281 myDiscret=AdaptiveDiscret(myDiscret, myC, myS);
282 //
283 //
284 // 3.Prepare myPars
285 pri = IntTools::PrepareArgs(myC, myTmax, myTmin, myDiscret, myDeflection, aPars);
286 if (pri) {
287 myErrorStatus=6;
288 return;
289 }
290 // 4.
291 //ProjectableRanges
292 Standard_Integer i, iProj, aNb, aNbProj, ind0, ind1;
293 Standard_Real t0, t1, tRoot;
294
295 //
296 // Table of Projection's function values
297 aNb=aPars.Length();
298 IntTools_CArray1OfInteger anArrProjectability;
299 anArrProjectability.Resize(aNb);
300
301 for (iProj=0, i=0; i<aNb; i++) {
302 t0=aPars(i);
303 aNbProj=IsProjectable (t0);
304
305 anArrProjectability(i)=0;
306 if (aNbProj) {
307 anArrProjectability(i)=1;
308 iProj++;
309 }
310 }
311 //
312 // Checking
313 if (!iProj ) {
314 myErrorStatus=7;
315 return;
316 }
317
318 //
319 // Projectable Ranges
320 IntTools_Range aRange;
321
322 ind0=anArrProjectability(0);
323 if (ind0) {
324 t0=aPars(0);
325 aRange.SetFirst(t0);
326 }
327
328 for(i=1; i<aNb; i++) {
329 ind1=anArrProjectability(i);
330 t0=aPars(i-1);
331 t1=aPars(i);
332
333 if (i==(aNb-1)) {
334 if (ind1 && ind0) {
335 aRange.SetLast(t1);
336 myProjectableRanges.Append(aRange);
337 }
338 if (ind1 && !ind0) {
339 FindProjectableRoot(t0, t1, ind0, ind1, tRoot);
340 aRange.SetFirst(tRoot);
341 aRange.SetLast(t1);
342 myProjectableRanges.Append(aRange);
343 }
344 //
345 if (ind0 && !ind1) {
346 FindProjectableRoot(t0, t1, ind0, ind1, tRoot);
347 aRange.SetLast(tRoot);
348 myProjectableRanges.Append(aRange);
349 }
350 //
351 break;
352 }
353
354 if (ind0 != ind1) {
355 FindProjectableRoot(t0, t1, ind0, ind1, tRoot);
356
357 if (ind0 && !ind1) {
358 aRange.SetLast(tRoot);
359 myProjectableRanges.Append(aRange);
360 }
361 else {
362 aRange.SetFirst(tRoot);
363 }
364 } // if (ind0 != ind1)
365 ind0=ind1;
366 } // for(i=1; i<aNb; i++) {
367}
368
369//=======================================================================
370//function : FindProjectableRoot
371//purpose :
372//=======================================================================
373 void IntTools_EdgeFace::FindProjectableRoot (const Standard_Real tt1,
374 const Standard_Real tt2,
375 const Standard_Integer ff1,
376 const Standard_Integer ff2,
377 Standard_Real& tRoot)
378{
379 Standard_Real tm, t1, t2, aEpsT;
380 Standard_Integer anIsProj1, anIsProj2, anIsProjm;
381 aEpsT=0.5*myEpsT;
382 //
383 // Root is inside [tt1, tt2]
384 t1=tt1;
385 t2=tt2;
386 anIsProj1=ff1;
387 anIsProj2=ff2;
388
302f96fb 389 for(;;) {
7fd59977 390 if (fabs(t1-t2) < aEpsT) {
391 tRoot=(anIsProj1) ? t1 : t2;
392 return;
393 }
394 tm=.5*(t1+t2);
395 anIsProjm=IsProjectable(tm);
396
397 if (anIsProjm != anIsProj1) {
398 t2=tm;
399 anIsProj2=anIsProjm;
400 }
401 else {
402 t1=tm;
403 anIsProj1=anIsProjm;
404 }
405 }
406}
407//=======================================================================
408//function : IsProjectable
409//purpose :
410//=======================================================================
66993778 411Standard_Boolean IntTools_EdgeFace::IsProjectable(const Standard_Real aT) const
7fd59977 412{
66993778 413 Standard_Boolean bFlag;
414 gp_Pnt aPC;
7fd59977 415 //
66993778 416 myC.D0(aT, aPC);
417 bFlag=myContext->IsValidPointForFace(aPC, myFace, myCriteria);
7fd59977 418 //
7fd59977 419 return bFlag;
420}
7fd59977 421//=======================================================================
422//function : DistanceFunction
423//purpose :
424//=======================================================================
66993778 425Standard_Real IntTools_EdgeFace::DistanceFunction(const Standard_Real t)
7fd59977 426{
96a95605
DB
427 Standard_Real aD;
428
7fd59977 429 //
430 gp_Pnt P;
431 myC.D0(t, P);
432 //
433 Standard_Boolean bIsEqDistance;
434
435 bIsEqDistance= IntTools_EdgeFace::IsEqDistance(P, myS, 1.e-7, aD);
436 if (bIsEqDistance) {
437 aD=aD-myCriteria;
438 return aD;
439 }
7fd59977 440
7fd59977 441 //
442 Standard_Boolean bFlag = Standard_False;
443
4f189102
P
444 GeomAPI_ProjectPointOnSurf& aLocProj = myContext->ProjPS(myFace);
445 aLocProj.Perform(P);
446 bFlag = aLocProj.IsDone();
447
448 if(bFlag) {
449 aD = aLocProj.LowerDistance();
7fd59977 450 }
451 //
452
453 if (!bFlag) {
454 myErrorStatus=11;
455 return 99.;
456 }
457
458 //
459 // aD=aProjector.LowerDistance();
460 //
461 aD=aD-myCriteria;
462 return aD;
463}
464//
465//=======================================================================
466//function : IsEqDistance
467//purpose :
468//=======================================================================
469 Standard_Boolean IntTools_EdgeFace::IsEqDistance(const gp_Pnt& aP,
470 const BRepAdaptor_Surface& aBAS,
471 const Standard_Real aTol,
472 Standard_Real& aD)
473{
474 Standard_Boolean bRetFlag=Standard_True;
475
476 GeomAbs_SurfaceType aSurfType=aBAS.GetType();
477
478 if (aSurfType==GeomAbs_Cylinder) {
479 gp_Cylinder aCyl=aBAS.Cylinder();
480 const gp_Ax1& anAx1 =aCyl.Axis();
481 gp_Lin aLinAxis(anAx1);
482 Standard_Real aDC, aRadius=aCyl.Radius();
483 aDC=aLinAxis.Distance(aP);
484 if (aDC < aTol) {
485 aD=aRadius;
486 return bRetFlag;
487 }
488 }
489
490 if (aSurfType==GeomAbs_Cone) {
491 gp_Cone aCone=aBAS.Cone();
492 const gp_Ax1& anAx1 =aCone.Axis();
493 gp_Lin aLinAxis(anAx1);
494 Standard_Real aDC, aRadius, aDS, aSemiAngle;
495 aDC=aLinAxis.Distance(aP);
496 if (aDC < aTol) {
497 gp_Pnt anApex=aCone.Apex();
498 aSemiAngle=aCone.SemiAngle();
499 aDS=aP.Distance(anApex);
500
501 aRadius=aDS*tan(aSemiAngle);
502 aD=aRadius;
503 return bRetFlag;
504 }
505 }
506
507 if (aSurfType==GeomAbs_Torus) {
508 Standard_Real aMajorRadius, aMinorRadius, aDC;
509
510 gp_Torus aTorus=aBAS.Torus();
511 gp_Pnt aPLoc=aTorus.Location();
512 aMajorRadius=aTorus.MajorRadius();
513
514 aDC=fabs(aPLoc.Distance(aP)-aMajorRadius);
515 if (aDC < aTol) {
516 aMinorRadius=aTorus.MinorRadius();
517 aD=aMinorRadius;
518 return bRetFlag;
519 }
520 }
521 return !bRetFlag;
522}
523//
524//=======================================================================
525//function : PrepareArgsFuncArrays
526//purpose : Obtain
527// myFuncArray and myArgsArray for the interval [ta, tb]
528//=======================================================================
529 void IntTools_EdgeFace::PrepareArgsFuncArrays(const Standard_Real ta,
530 const Standard_Real tb)
531{
532 IntTools_CArray1OfReal anArgs, aFunc;
533 Standard_Integer i, aNb, pri;
534 Standard_Real t, f, f1;
535 //
536 // Prepare values of arguments for the interval [ta, tb]
537 pri=IntTools::PrepareArgs (myC, tb, ta, myDiscret, myDeflection, anArgs);
538
539 if (pri) {
540 myErrorStatus=8;
541 return;
542 }
543 //...
544 aNb=anArgs.Length();
545
546 if (!aNb){
547 myErrorStatus=9;
548 return;
549 }
550 //
551 // Prepare values of functions for the interval [ta, tb]
552 aFunc.Resize(aNb);
553 for (i=0; i<aNb; i++) {
554 t=anArgs(i);
555 f1=DistanceFunction(t);
556 f=f1+myCriteria;
557
558 if (myErrorStatus==11)
559 return;
560
561 if (f1 < myEpsNull) {
562 f=0.;
563 }
564 aFunc(i)=f;
565 }
566 //
567 // Add points where the derivative = 0
568 AddDerivativePoints(anArgs, aFunc);
569
570}
571
572
573//=======================================================================
574//function : AddDerivativePoints
575//purpose :
576//=======================================================================
577 void IntTools_EdgeFace::AddDerivativePoints(const IntTools_CArray1OfReal& t,
578 const IntTools_CArray1OfReal& f)
579{
580 Standard_Integer i, j, n, k, nn=100;
581 Standard_Real fr, tr, tr1, dEpsNull=10.*myEpsNull;
582 IntTools_CArray1OfReal fd;
583 TColStd_SequenceOfReal aTSeq, aFSeq;
584
585 n=t.Length();
586 fd.Resize(n+1);
587 //
588 // Table of derivatives
589 Standard_Real dfx, tx, tx1, fx, fx1, dt=1.e-6;
590 // Left limit
591 tx=t(0);
592 tx1=tx+dt;
593 fx=f(0);
594 fx1=DistanceFunction(tx1);
595 fx1=fx1+myCriteria;
596 if (fx1 < myEpsNull) {
597 fx1=0.;
598 }
599 dfx=(fx1-fx)/dt;
600 fd(0)=dfx;
601
602 if (fabs(fd(0)) < dEpsNull){
603 fd(0)=0.;
604 }
605
606
607 k=n-1;
608 for (i=1; i<k; i++) {
7fd59977 609 fd(i)=.5*(f(i+1)-f(i-1))/(t(i)-t(i-1));
610 if (fabs(fd(i)) < dEpsNull){
611 fd(i)=0.;
612 }
613 }
614 // Right limit
615 tx=t(n-1);
616 tx1=tx-dt;
617 fx=f(n-1);
618 fx1=DistanceFunction(tx1);
619 fx1=fx1+myCriteria;
620 if (fx1 < myEpsNull) {
621 fx1=0.;
622 }
623 dfx=(fx-fx1)/dt;
624 fd(n-1)=dfx;
625
626 if (fabs(fd(n-1)) < dEpsNull){
627 fd(n-1)=0.;
628 }
629 //
630 // Finding the range where the derivatives have different signs
631 // for neighbouring points
632 for (i=1; i<n; i++) {
633 Standard_Real fd1, fd2, t1, t2;
634 t1 =t(i-1);
635 t2 =t(i);
636 fd1=fd(i-1);
637 fd2=fd(i);
638
639 if (fd1*fd2 < 0.) {
640 if (fabs(fd1) < myEpsNull) {
641 tr=t1;
642 fr=DistanceFunction(tr);//fd1;
643 }
644 else if (fabs(fd2) < myEpsNull) {
645 tr=t2;
646 fr=DistanceFunction(tr);
647 }
648 else {
649 tr=FindSimpleRoot(2, t1, t2, fd1);
650 fr=DistanceFunction(tr);
651 }
652
653 aTSeq.Append(tr);
654 aFSeq.Append(fr);
655 }
656 } // end of for (i=1; i<n; i++)
657 //
658 // remove identical t, f
659 nn=aTSeq.Length();
660 if (nn) {
661 for (i=1; i<=aTSeq.Length(); i++) {
662 tr=aTSeq(i);
663 for (j=0; j<n; j++) {
664 tr1=t(j);
665 if (fabs (tr1-tr) < myEpsT) {
666 aTSeq.Remove(i);
667 aFSeq.Remove(i);
668 }
669 }
670 }
671 nn=aTSeq.Length();
672 }
673 //
674 // sorting args and funcs in increasing order
675 if (nn) {
676 k=nn+n;
677 IntTools_Array1OfRange anArray1OfRange(1, k);
678 for (i=1; i<=n; i++) {
679 anArray1OfRange(i).SetFirst(t(i-1));
680 anArray1OfRange(i).SetLast (f(i-1));
681 }
682 for (i=1; i<=nn; i++) {
683 anArray1OfRange(n+i).SetFirst(aTSeq(i));
684 anArray1OfRange(n+i).SetLast (aFSeq(i));
685 }
686
687 IntTools_QuickSortRange aQuickSortRange;
688 IntTools_CompareRange aComparator;
689 aQuickSortRange.Sort (anArray1OfRange, aComparator);
690
691 // filling the output arrays
692 myArgsArray.Resize(k);
693 myFuncArray.Resize(k);
694 for (i=1; i<=k; i++) {
695 myArgsArray(i-1)=anArray1OfRange(i).First();
696 myFuncArray(i-1)=anArray1OfRange(i).Last ();
697 }
698 }
699
700 else { // nn=0
701 myArgsArray.Resize(n);
702 myFuncArray.Resize(n);
703 for (i=0; i<n; i++) {
704 myArgsArray(i)=t(i);
705 myFuncArray(i)=f(i);
706 }
707 }
708}
709
710//=======================================================================
711//function : DerivativeFunction
712//purpose :
713//=======================================================================
714 Standard_Real IntTools_EdgeFace::DerivativeFunction(const Standard_Real t2)
715{
716 Standard_Real t1, t3, aD1, aD2, aD3;
717 Standard_Real dt=1.e-9;
718 t1=t2-dt;
719 aD1=DistanceFunction(t1);
720 t3=t2+dt;
721 aD3=DistanceFunction(t3);
722
723 aD2=.5*(aD3-aD1)/dt;
724 return aD2;
725}
726
727//=======================================================================
728//function : FindSimpleRoot
729//purpose : [private]
730//=======================================================================
731 Standard_Real IntTools_EdgeFace::FindSimpleRoot (const Standard_Integer IP,
732 const Standard_Real tA,
733 const Standard_Real tB,
734 const Standard_Real fA)
735{
736 Standard_Real r, a, b, y, x0, s;
737
738 a=tA; b=tB; r=fA;
739
302f96fb 740 for(;;) {
7fd59977 741 x0=.5*(a+b);
742
743 if (IP==1)
744 y=DistanceFunction(x0);
745 else
746 y=DerivativeFunction(x0);
747
748 if (fabs(b-a) < myEpsT || y==0.) {
749 return x0;
750 }
751
752
753 s=y*r;
754
755 if (s<0.) {
756 b=x0;
757 continue;
758 }
759
760 if (s>0.) {
761 a=x0; r=y;
762 }
763 }
764}
765//=======================================================================
766//function : FindGoldRoot
767//purpose : [private]
768//=======================================================================
769 Standard_Real IntTools_EdgeFace::FindGoldRoot (const Standard_Real tA,
770 const Standard_Real tB,
771 const Standard_Real coeff)
772{
773 Standard_Real gs=0.61803399;
774 Standard_Real a, b, xp, xl, yp, yl;
775
776 a=tA; b=tB;
777
778 xp=a+(b-a)*gs;
779 xl=b-(b-a)*gs;
780 yp=coeff*DistanceFunction(xp);
781 yl=coeff*DistanceFunction(xl);
782
783
302f96fb 784 for(;;) {
7fd59977 785
786 if (fabs(b-a) < myEpsT) {
787 return .5*(b+a);
788 }
789
790 if (yp < yl) {
791 a=xl;
792 xl=xp;
793 xp=a+(b-a)*gs;
794 yp=coeff*DistanceFunction(xp);
795 }
796
797 else {
798 b=xp;
799 xp=xl;
800 yp=yl;
801 xl=b-(b-a)*gs;
802 yl=coeff*DistanceFunction(xl);
803 }
804 }
805}
806
807//=======================================================================
808//function : MakeType
809//purpose :
810//=======================================================================
811 Standard_Integer IntTools_EdgeFace::MakeType(IntTools_CommonPrt& aCommonPrt)
812{
813 Standard_Real af1, al1;
295cb053 814 Standard_Real df1, tm;
7fd59977 815 Standard_Boolean bAllNullFlag;
816 //
817 bAllNullFlag=aCommonPrt.AllNullFlag();
818 if (bAllNullFlag) {
819 aCommonPrt.SetType(TopAbs_EDGE);
820 return 0;
821 }
822 //
823 aCommonPrt.Range1(af1, al1);
824
825 {
826 gp_Pnt aPF, aPL;
827 myC.D0(af1, aPF);
828 myC.D0(al1, aPL);
829 df1=aPF.Distance(aPL);
830 Standard_Boolean isWholeRange = Standard_False;
831
832 if((Abs(af1 - myRange.First()) < myC.Resolution(myCriteria)) &&
833 (Abs(al1 - myRange.Last()) < myC.Resolution(myCriteria)))
834 isWholeRange = Standard_True;
835
836
837 if ((df1 > myCriteria * 2.) && isWholeRange) {
838 aCommonPrt.SetType(TopAbs_EDGE);
839 }
840 else {
841 if(isWholeRange) {
842 tm = (af1 + al1) * 0.5;
843
844 if(aPF.Distance(myC.Value(tm)) > myCriteria * 2.) {
845 aCommonPrt.SetType(TopAbs_EDGE);
846 return 0;
847 }
848 }
849
850 if(!CheckTouch(aCommonPrt, tm)) {
851 tm = (af1 + al1) * 0.5;
852 }
853 aCommonPrt.SetType(TopAbs_VERTEX);
854 aCommonPrt.SetVertexParameter1(tm);
855 aCommonPrt.SetRange1 (af1, al1);
856 }
4e76d93b 857 return 0;
7fd59977 858 }
295cb053 859
4e76d93b 860 /*
7fd59977 861 dt=al1-af1;
862 if (dt<1.e-5) {
863 gp_Pnt aPF, aPL;
864 myC.D0(af1, aPF);
865 myC.D0(al1, aPL);
866 df1=aPF.Distance(aPL);
867 if (df1<myCriteria) {
868 //
869 tm=.5*(af1+al1);
870 aCommonPrt.SetType(TopAbs_VERTEX);
871 aCommonPrt.SetVertexParameter1(tm);
872 aCommonPrt.SetRange1 (af1, al1);
873 return 0;
874 }
875 }
876 //
877 IsIntersection (af1, al1);
878 //
879 if (!myParallel) {
880 aCommonPrt.SetType(TopAbs_VERTEX);
881 aCommonPrt.SetVertexParameter1(myPar1);
882 aCommonPrt.SetRange1 (af1, al1);
883 }
884 else {
885 dt=al1-af1;
886 if (dt<1.e-5) {
887 df1=DistanceFunction(af1);
888 df2=DistanceFunction(al1);
889 tm=(df1 < df2) ? af1 : al1;
890 aCommonPrt.SetType(TopAbs_VERTEX);
891 aCommonPrt.SetVertexParameter1(tm);
892 aCommonPrt.SetRange1 (af1, al1);
893 }
894
895 else {
896 aCommonPrt.SetType(TopAbs_EDGE);
897 }
898 }
295cb053 899
900 return 0;*/
7fd59977 901}
902
903
904//=======================================================================
905//function : IsIntersection
906//purpose :
907//=======================================================================
908 void IntTools_EdgeFace::IsIntersection (const Standard_Real ta,
909 const Standard_Real tb)
910{
911 IntTools_CArray1OfReal anArgs, aFunc;
96a95605 912 Standard_Integer i, aNb, aCnt=0;
7fd59977 913 //
914 Standard_Integer aCntIncreasing=1, aCntDecreasing=1;
915 Standard_Real t, f, f1;
916 //
917 // Prepare values of arguments for the interval [ta, tb]
96a95605 918 IntTools::PrepareArgs (myC, tb, ta, myDiscret, myDeflection, anArgs);
7fd59977 919 aNb=anArgs.Length();
920
921 aFunc.Resize(aNb);
922 for (i=0; i<aNb; i++) {
923 t=anArgs(i);
924
925 f1=DistanceFunction(t);
926 f=f1+myCriteria;
927
928 if (fabs(f1) < myEpsNull) {
929 aCnt++;
930 f=0.;
931 }
932 aFunc(i)=f;
933 //
934 if (i) {
935 if (aFunc(i)>aFunc(i-1)) {
936 aCntIncreasing++;
937 }
938 if (aFunc(i)<aFunc(i-1)) {
939 aCntDecreasing++;
940 }
941 }
942 //
943 }
944
945 if (aCnt==aNb) {
946 myParallel=Standard_True;
947 return;
948 }
949
950 FindDerivativeRoot(anArgs, aFunc);
951
952 //
953 if (myParallel) {
954 if (!(myC.GetType()==GeomAbs_Line
955 &&
956 myS.GetType()==GeomAbs_Cylinder)) {
957 if (aCntDecreasing==aNb) {
958 myPar1=anArgs(aNb-1);
959 myParallel=Standard_False;
960 }
961 if (aCntIncreasing==aNb) {
962 myPar1=anArgs(0);
963 myParallel=Standard_False;
964 }
965 }
966 }
967 //
968 return ;
969}
970
971//=======================================================================
972//function : FindDerivativeRoot
973//purpose :
974//=======================================================================
975 void IntTools_EdgeFace::FindDerivativeRoot(const IntTools_CArray1OfReal& t,
976 const IntTools_CArray1OfReal& f)
977{
978 Standard_Integer i, n, k;
96a95605 979 Standard_Real tr;
7fd59977 980 IntTools_CArray1OfReal fd;
981 TColStd_SequenceOfReal aTSeq, aFSeq;
982
983 myPar1=0.;
984 myParallel=Standard_True;
985
986 n=t.Length();
987 fd.Resize(n+1);
988 //
989 // Table of derivatives
990 fd(0)=(f(1)-f(0))/(t(1)-t(0));
991 if (fabs(fd(0)) < myEpsNull) {
992 fd(0)=0.;
993 }
994
995 k=n-1;
996 for (i=1; i<k; i++) {
997 fd(i)=.5*(f(i+1)-f(i-1))/(t(i)-t(i-1));
998 if (fabs(fd(i)) < myEpsNull) {
999 fd(i)=0.;
1000 }
1001 }
1002
1003 fd(n-1)=(f(n-1)-f(n-2))/(t(n-1)-t(n-2));
1004 if (fabs(fd(n-1)) < myEpsNull) {
1005 fd(n-1)=0.;
1006 }
1007 //
1008 // Finding the range where the derivatives have different signs
1009 // for neighbouring points
1010 for (i=1; i<n; i++) {
1011 Standard_Real fd1, fd2, t1, t2, fabsfd1, fabsfd2;
1012 Standard_Boolean bF1, bF2;
1013 t1 =t(i-1);
1014 t2 =t(i);
1015 fd1=fd(i-1);
1016 fd2=fd(i);
1017
1018 fabsfd1=fabs(fd1);
1019 bF1=fabsfd1 < myEpsNull;
1020
1021 fabsfd2=fabs(fd2);
1022 bF2=fabsfd2 < myEpsNull;
1023 //
1024 if (fd1*fd2 < 0.) {
1025 tr=FindSimpleRoot(2, t1, t2, fd1);
96a95605 1026 DistanceFunction(tr);
7fd59977 1027 myPar1=tr;
1028 myParallel=Standard_False;
1029 break;
1030 }
1031
1032 if (!bF1 && bF2) {
1033 tr=t2;
7fd59977 1034 myPar1=tr;
1035 myParallel=Standard_False;
1036 break;
1037 }
1038
1039 if (bF1 && !bF2) {
1040 tr=t1;
7fd59977 1041 myPar1=tr;
1042 myParallel=Standard_False;
1043 break;
1044 }
1045
1046 }
1047}
1048//=======================================================================
1049//function : RemoveIdenticalRoots
1050//purpose :
1051//=======================================================================
1052 void IntTools_EdgeFace::RemoveIdenticalRoots()
1053{
1054 Standard_Integer aNbRoots, j, k;
1055
1056 aNbRoots=mySequenceOfRoots.Length();
1057 for (j=1; j<=aNbRoots; j++) {
1058 const IntTools_Root& aRj=mySequenceOfRoots(j);
1059 for (k=j+1; k<=aNbRoots; k++) {
1060 const IntTools_Root& aRk=mySequenceOfRoots(k);
1061
1062 Standard_Real aTj, aTk, aDistance;
1063 gp_Pnt aPj, aPk;
1064
1065 aTj=aRj.Root();
1066 aTk=aRk.Root();
1067
1068 myC.D0(aTj, aPj);
1069 myC.D0(aTk, aPk);
1070
1071 aDistance=aPj.Distance(aPk);
1072 if (aDistance < myCriteria) {
1073 mySequenceOfRoots.Remove(k);
1074 aNbRoots=mySequenceOfRoots.Length();
1075 }
1076 }
1077 }
1078}
1079
1080//=======================================================================
1081//function : CheckTouch
1082//purpose :
1083//=======================================================================
1084 Standard_Boolean IntTools_EdgeFace::CheckTouch(const IntTools_CommonPrt& aCP,
1085 Standard_Real& aTx)
1086{
1087 Standard_Real aTF, aTL, Tol, U1f, U1l, V1f, V1l, af, al,aDist2, aMinDist2;
1088 Standard_Boolean theflag=Standard_False;
1089 Standard_Integer aNbExt, i, iLower ;
1090
1091 aCP.Range1(aTF, aTL);
1092
1093 //
1094 Standard_Real aCR;
1095 aCR=myC.Resolution(myCriteria);
1096 if((Abs(aTF - myRange.First()) < aCR) &&
1097 (Abs(aTL - myRange.Last()) < aCR)) {
1098 return theflag; // EDGE
1099 }
1100 //
1101
1102 Tol = Precision::PConfusion();
1103
1104 const Handle(Geom_Curve)& Curve =BRep_Tool::Curve (myC.Edge(), af, al);
1105 const Handle(Geom_Surface)& Surface=BRep_Tool::Surface(myS.Face());
1106 // Surface->Bounds(U1f,U1l,V1f,V1l);
1107 U1f = myS.FirstUParameter();
1108 U1l = myS.LastUParameter();
1109 V1f = myS.FirstVParameter();
1110 V1l = myS.LastVParameter();
1111
1112 GeomAdaptor_Curve TheCurve (Curve,aTF, aTL);
1113 GeomAdaptor_Surface TheSurface (Surface, U1f, U1l, V1f, V1l);
1114
1115 Extrema_ExtCS anExtrema (TheCurve, TheSurface, Tol, Tol);
1116
1117 aDist2 = 1.e100;
1118
1119 if(anExtrema.IsDone()) {
1120 aMinDist2 = aDist2;
1121
1122 if(!anExtrema.IsParallel()) {
1123 aNbExt=anExtrema.NbExt();
1124
1125 if(aNbExt > 0) {
1126 iLower=1;
1127 for (i=1; i<=aNbExt; i++) {
1128 aDist2=anExtrema.SquareDistance(i);
1129 if (aDist2 < aMinDist2) {
1130 aMinDist2=aDist2;
1131 iLower=i;
1132 }
1133 }
1134 aDist2=anExtrema.SquareDistance(iLower);
1135 Extrema_POnCurv aPOnC;
1136 Extrema_POnSurf aPOnS;
1137 anExtrema.Points(iLower, aPOnC, aPOnS);
1138 aTx=aPOnC.Parameter();
1139 }
1140 else {
1141 // modified by NIZHNY-MKK Thu Jul 21 11:35:32 2005.BEGIN
1142 IntCurveSurface_HInter anExactIntersector;
1143
1144 Handle(GeomAdaptor_HCurve) aCurve = new GeomAdaptor_HCurve(TheCurve);
1145 Handle(GeomAdaptor_HSurface) aSurface = new GeomAdaptor_HSurface(TheSurface);
1146
1147 anExactIntersector.Perform(aCurve, aSurface);
1148
1149 if(anExactIntersector.IsDone()) {
1150 Standard_Integer i = 0;
1151
1152 for(i = 1; i <= anExactIntersector.NbPoints(); i++) {
1153 const IntCurveSurface_IntersectionPoint& aPoint = anExactIntersector.Point(i);
1154
1155 if((aPoint.W() >= aTF) && (aPoint.W() <= aTL)) {
1156 aDist2=0.;
1157 aTx = aPoint.W();
1158 }
1159 }
1160 }
1161 // modified by NIZHNY-MKK Thu Jul 21 11:35:40 2005.END
1162 }
1163 }
1164 else {
1165 return theflag;
1166 }
1167 }
1168
1169 Standard_Real aBoundaryDist;
1170
1171 aBoundaryDist = DistanceFunction(aTF) + myCriteria;
1172 if(aBoundaryDist * aBoundaryDist < aDist2) {
1173 aDist2 = aBoundaryDist * aBoundaryDist;
1174 aTx = aTF;
1175 }
1176
1177 aBoundaryDist = DistanceFunction(aTL) + myCriteria;
1178 if(aBoundaryDist * aBoundaryDist < aDist2) {
1179 aDist2 = aBoundaryDist * aBoundaryDist;
1180 aTx = aTL;
1181 }
1182
1183 Standard_Real aParameter = (aTF + aTL) * 0.5;
1184 aBoundaryDist = DistanceFunction(aParameter) + myCriteria;
1185 if(aBoundaryDist * aBoundaryDist < aDist2) {
1186 aDist2 = aBoundaryDist * aBoundaryDist;
1187 aTx = aParameter;
1188 }
1189
1190 if(aDist2 > myCriteria * myCriteria) {
1191 return theflag;
1192 }
1193
1194 if (fabs (aTx-aTF) < myEpsT) {
1195 return !theflag;
1196 }
1197
1198 if (fabs (aTx-aTL) < myEpsT) {
1199 return !theflag;
1200 }
1201
1202 if (aTx>aTF && aTx<aTL) {
1203 return !theflag;
1204 }
1205
1206 return theflag;
1207}
1208
7fd59977 1209
1210//=======================================================================
1211//function : Perform
1212//purpose :
1213//=======================================================================
1214 void IntTools_EdgeFace::Perform()
1215{
1216 Standard_Integer i, aNb;
1217 IntTools_CommonPrt aCommonPrt;
7fd59977 1218 //
4f189102 1219 aCommonPrt.SetEdge1(myEdge);
7fd59977 1220 //
1221 myErrorStatus=0;
1222 CheckData();
4f189102 1223 if (myErrorStatus) {
7fd59977 1224 return;
4f189102
P
1225 }
1226 //
1227 if (myContext.IsNull()) {
4e57c75e 1228 myContext=new BOPInt_Context;
4f189102
P
1229 }
1230 //
7fd59977 1231 myIsDone = Standard_False;
1232 myC.Initialize(myEdge);
1233 GeomAbs_CurveType aCurveType;
1234 aCurveType=myC.GetType();
1235 //
1236 // Prepare myCriteria
1237 if (aCurveType==GeomAbs_BSplineCurve||
1238 aCurveType==GeomAbs_BezierCurve) {
1239 //--- 5112
1240 Standard_Real diff1 = (myTolE/myTolF);
1241 Standard_Real diff2 = (myTolF/myTolE);
1242 if( diff1 > 100 || diff2 > 100 ) {
1243 myCriteria = Max(myTolE,myTolF);
1244 }
1245 else //--- 5112
1246 myCriteria=1.5*myTolE+myTolF;
1247 }
1248 else {
1249 myCriteria=myTolE+myTolF;
1250 }
1251
1252 myTmin=myRange.First();
1253 myTmax=myRange.Last();
1254
1255 myS.Initialize (myFace,Standard_True);
1256
4f189102 1257 if(myContext.IsNull()) {
7fd59977 1258 myFClass2d.Init(myFace, 1.e-6);
1259 }
1260
1261 IntTools_BeanFaceIntersector anIntersector(myC, myS, myTolE, myTolF);
1262 anIntersector.SetBeanParameters(myRange.First(), myRange.Last());
1263 //
1264 anIntersector.SetContext(myContext);
1265 //
1266 anIntersector.Perform();
1267
1268 if(!anIntersector.IsDone()) {
1269 return;
1270 }
1271
1272 for(Standard_Integer r = 1; r <= anIntersector.Result().Length(); r++) {
1273 const IntTools_Range& aRange = anIntersector.Result().Value(r);
1274
1275 if(IsProjectable(IntTools_Tools::IntermediatePoint(aRange.First(), aRange.Last()))) {
1276 aCommonPrt.SetRange1(aRange.First(), aRange.Last());
1277 mySeqOfCommonPrts.Append(aCommonPrt);
1278 }
1279 }
1280
1281 aNb = mySeqOfCommonPrts.Length();
1282
1283 for (i=1; i<=aNb; i++) {
1284 IntTools_CommonPrt& aCP=mySeqOfCommonPrts.ChangeValue(i);
1285 //
1286 Standard_Real aTx1, aTx2;
1287 gp_Pnt aPx1, aPx2;
1288 //
1289 aCP.Range1(aTx1, aTx2);
1290 myC.D0(aTx1, aPx1);
1291 myC.D0(aTx2, aPx2);
1292 aCP.SetBoundingPoints(aPx1, aPx2);
1293 //
1294 MakeType (aCP);
1295 }
1296 {
1297 // Line\Cylinder's Common Parts treatement
1298 GeomAbs_CurveType aCType;
1299 GeomAbs_SurfaceType aSType;
1300 TopAbs_ShapeEnum aType;
1301 Standard_Boolean bIsTouch;
1302 Standard_Real aTx;
1303
1304 aCType=myC.GetType();
1305 aSType=myS.GetType();
1306
1307 if (aCType==GeomAbs_Line && aSType==GeomAbs_Cylinder) {
1308 for (i=1; i<=aNb; i++) {
1309 IntTools_CommonPrt& aCP=mySeqOfCommonPrts(i);
1310 aType=aCP.Type();
1311 if (aType==TopAbs_EDGE) {
1312 bIsTouch=CheckTouch (aCP, aTx);
1313 if (bIsTouch) {
1314 aCP.SetType(TopAbs_VERTEX);
1315 aCP.SetVertexParameter1(aTx);
1316 aCP.SetRange1 (aTx, aTx);
1317 }
1318 }
1319 if (aType==TopAbs_VERTEX) {
1320 bIsTouch=CheckTouchVertex (aCP, aTx);
1321 if (bIsTouch) {
1322 aCP.SetVertexParameter1(aTx);
1323 aCP.SetRange1 (aTx, aTx);
1324 }
1325 }
1326 }
1327 }
1328
1329 // Circle\Plane's Common Parts treatement
1330
1331 if (aCType==GeomAbs_Circle && aSType==GeomAbs_Plane) {
1332 Standard_Boolean bIsCoplanar, bIsRadius;
1333 bIsCoplanar=IsCoplanar(myC, myS);
1334 bIsRadius=IsRadius(myC, myS);
1335 if (!bIsCoplanar && !bIsRadius) {
1336 for (i=1; i<=aNb; i++) {
1337 IntTools_CommonPrt& aCP=mySeqOfCommonPrts(i);
1338 aType=aCP.Type();
1339 if (aType==TopAbs_EDGE) {
1340 bIsTouch=CheckTouch (aCP, aTx);
1341 if (bIsTouch) {
1342 aCP.SetType(TopAbs_VERTEX);
1343 aCP.SetVertexParameter1(aTx);
1344 aCP.SetRange1 (aTx, aTx);
1345 }
1346 }
1347 }
1348 }
1349 }
1350 }
1351 myIsDone=Standard_True;
1352}
1353
1354//
1355// myErrorStatus
1356// 1 - the method Perform() is not invoked
1357// 2,3,4,5 -the method CheckData() fails
1358// 6 - PrepareArgs() problems
1359// 7 - No Projectable ranges
1360// 8,9 - PrepareArgs() problems occured inside projectable Ranges
1361// 11 - can't fill array aFunc(i) in PrepareArgsFuncArrays
1362
1363
1364//=======================================================================
1365//function : CheckTouch
1366//purpose :
1367//=======================================================================
1368 Standard_Boolean IntTools_EdgeFace::CheckTouchVertex (const IntTools_CommonPrt& aCP,
1369 Standard_Real& aTx)
1370{
1371 Standard_Real aTF, aTL, Tol, U1f,U1l,V1f,V1l, af, al,aDist2, aMinDist2, aTm, aDist2New;
ddd95bbf 1372 Standard_Real aEpsT;
7fd59977 1373 Standard_Boolean theflag=Standard_False;
1374 Standard_Integer aNbExt, i, iLower ;
1375
1376 aCP.Range1(aTF, aTL);
ddd95bbf 1377 aEpsT=8.e-5;
7fd59977 1378 aTm=0.5*(aTF+aTL);
1379 aDist2=DistanceFunction(aTm);
1380 aDist2 *= aDist2;
1381
1382 Tol = Precision::PConfusion();
1383
1384 const Handle(Geom_Curve)& Curve =BRep_Tool::Curve (myC.Edge(), af, al);
1385 const Handle(Geom_Surface)& Surface=BRep_Tool::Surface(myS.Face());
1386
1387 Surface->Bounds(U1f,U1l,V1f,V1l);
1388
1389 GeomAdaptor_Curve TheCurve (Curve,aTF, aTL);
1390 GeomAdaptor_Surface TheSurface (Surface, U1f, U1l, V1f, V1l);
1391
1392 Extrema_ExtCS anExtrema (TheCurve, TheSurface, Tol, Tol);
1393
1394 if(!anExtrema.IsDone()) {
1395 return theflag;
1396 }
1397 if (anExtrema.IsParallel()) {
1398 return theflag;
1399 }
1400
1401 aNbExt=anExtrema.NbExt() ;
1402 if (!aNbExt) {
1403 return theflag;
1404 }
1405
1406 iLower=1;
1407 aMinDist2=1.e100;
1408 for (i=1; i<=aNbExt; ++i) {
1409 aDist2=anExtrema.SquareDistance(i);
1410 if (aDist2 < aMinDist2) {
1411 aMinDist2=aDist2;
1412 iLower=i;
1413 }
1414 }
1415
1416 aDist2New=anExtrema.SquareDistance(iLower);
1417
1418 if (aDist2New > aDist2) {
1419 aTx=aTm;
1420 return !theflag;
1421 }
1422
1423 if (aDist2New > myCriteria * myCriteria) {
1424 return theflag;
1425 }
1426
1427 Extrema_POnCurv aPOnC;
1428 Extrema_POnSurf aPOnS;
1429 anExtrema.Points(iLower, aPOnC, aPOnS);
1430
ddd95bbf 1431
7fd59977 1432 aTx=aPOnC.Parameter();
ddd95bbf 1433 ///
1434 if (fabs (aTx-aTF) < aEpsT) {
1435 return theflag;
7fd59977 1436 }
1437
ddd95bbf 1438 if (fabs (aTx-aTL) < aEpsT) {
1439 return theflag;
7fd59977 1440 }
1441
1442 if (aTx>aTF && aTx<aTL) {
1443 return !theflag;
1444 }
1445
1446 return theflag;
1447}
1448
1449
1450//=======================================================================
1451//function : IsCoplanar
1452//purpose :
1453//=======================================================================
1454Standard_Boolean IsCoplanar (const BRepAdaptor_Curve& aCurve ,
1455 const BRepAdaptor_Surface& aSurface)
1456{
1457 Standard_Boolean bFlag=Standard_False;
1458
1459 GeomAbs_CurveType aCType;
1460 GeomAbs_SurfaceType aSType;
1461
1462 aCType=aCurve.GetType();
1463 aSType=aSurface.GetType();
1464
1465 if (aCType==GeomAbs_Circle && aSType==GeomAbs_Plane) {
1466 gp_Circ aCirc=aCurve.Circle();
1467 const gp_Ax1& anAx1=aCirc.Axis();
1468 const gp_Dir& aDirAx1=anAx1.Direction();
1469
1470 gp_Pln aPln=aSurface.Plane();
1471 const gp_Ax1& anAx=aPln.Axis();
1472 const gp_Dir& aDirPln=anAx.Direction();
1473
1474 bFlag=IntTools_Tools::IsDirsCoinside(aDirAx1, aDirPln);
1475 }
1476 return bFlag;
1477}
1478//=======================================================================
1479//function : IsRadius
1480//purpose :
1481//=======================================================================
1482Standard_Boolean IsRadius (const BRepAdaptor_Curve& aCurve ,
1483 const BRepAdaptor_Surface& aSurface)
1484{
1485 Standard_Boolean bFlag=Standard_False;
1486
1487 GeomAbs_CurveType aCType;
1488 GeomAbs_SurfaceType aSType;
1489
1490 aCType=aCurve.GetType();
1491 aSType=aSurface.GetType();
1492
1493 if (aCType==GeomAbs_Circle && aSType==GeomAbs_Plane) {
1494 gp_Circ aCirc=aCurve.Circle();
1495 const gp_Pnt aCenter=aCirc.Location();
1496 Standard_Real aR=aCirc.Radius();
1497 gp_Pln aPln=aSurface.Plane();
1498 Standard_Real aD=aPln.Distance(aCenter);
1499 if (fabs (aD-aR) < 1.e-7) {
1500 return !bFlag;
1501 }
1502 }
1503 return bFlag;
1504}
1505//
1506//=======================================================================
1507//function : AdaptiveDiscret
1508//purpose :
1509//=======================================================================
1510Standard_Integer AdaptiveDiscret (const Standard_Integer iDiscret,
1511 const BRepAdaptor_Curve& aCurve ,
1512 const BRepAdaptor_Surface& aSurface)
1513{
1514 Standard_Integer iDiscretNew;
1515
1516 iDiscretNew=iDiscret;
1517
7fd59977 1518 GeomAbs_SurfaceType aSType;
1519
7fd59977 1520 aSType=aSurface.GetType();
1521
1522 if (aSType==GeomAbs_Cylinder) {
96a95605 1523 Standard_Real aELength, aRadius, dLR;
7fd59977 1524
1525 aELength=IntTools::Length(aCurve.Edge());
7fd59977 1526
1527 gp_Cylinder aCylinder=aSurface.Cylinder();
1528 aRadius=aCylinder.Radius();
1529 dLR=2*aRadius;
1530
1531 iDiscretNew=(Standard_Integer)(aELength/dLR);
1532
1533 if (iDiscretNew<iDiscret) {
1534 iDiscretNew=iDiscret;
1535 }
1536
1537 }
1538 return iDiscretNew;
1539}
1540
1541
1542#ifdef WNT
1543#pragma warning ( default : 4101 )
1544#endif