0024023: Revamp the OCCT Handle -- ambiguity
[occt.git] / src / GeomAdaptor / GeomAdaptor_Surface.cxx
CommitLineData
b311480e 1// Created on: 1993-05-14
2// Created by: Joelle CHAUVET
3// Copyright (c) 1993-1999 Matra Datavision
973c2be1 4// Copyright (c) 1999-2014 OPEN CASCADE SAS
b311480e 5//
973c2be1 6// This file is part of Open CASCADE Technology software library.
b311480e 7//
d5f74e42 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
973c2be1 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.
b311480e 13//
973c2be1 14// Alternatively, this file may be used under the terms of Open CASCADE
15// commercial license or contractual agreement.
7fd59977 16
17// Modified: Thu Nov 26 16:37:18 1998
7fd59977 18// correction in NbUIntervals for SurfaceOfLinearExtrusion
19// (PRO16346)
20
21#define No_Standard_RangeError
22#define No_Standard_OutOfRange
23#define PosTol (Precision::PConfusion()*0.5)
24
25#include <GeomAdaptor_Surface.ixx>
26
27#include <GeomAdaptor_HSurface.hxx>
28#include <GeomAdaptor_HCurve.hxx>
29#include <GeomAdaptor_Curve.hxx>
30#include <Adaptor3d_HSurface.hxx>
31#include <Standard_OutOfRange.hxx>
32#include <Geom_RectangularTrimmedSurface.hxx>
33#include <Geom_BSplineSurface.hxx>
34#include <Geom_BezierSurface.hxx>
35#include <Geom_OffsetSurface.hxx>
36//#include <GeomConvert_BSplineSurfaceKnotSplitting.hxx>
37#include <Standard_OutOfRange.hxx>
38#include <TColStd_HArray1OfInteger.hxx>
39#include <TColStd_Array1OfReal.hxx>
40#include <TColStd_Array1OfInteger.hxx>
41#include <Geom_Plane.hxx>
42#include <Geom_CylindricalSurface.hxx>
43#include <Geom_SphericalSurface.hxx>
44#include <Geom_ToroidalSurface.hxx>
45#include <Geom_ConicalSurface.hxx>
46#include <Geom_SurfaceOfRevolution.hxx>
47#include <Geom_SurfaceOfLinearExtrusion.hxx>
48#include <Geom_Curve.hxx>
49#include <Geom_Circle.hxx>
50#include <gp_Circ.hxx>
51#include <gp_Lin.hxx>
52#include <gp_Trsf.hxx>
53#include <BSplCLib.hxx>
94f71cad 54#include <BSplSLib_Cache.hxx>
7fd59977 55#include <Precision.hxx>
56#include <Standard_NoSuchObject.hxx>
041bfce9 57#include <Standard_NullObject.hxx>
7fd59977 58
c5f3a425 59#define myBspl Handle(Geom_BSplineSurface)::DownCast (mySurface)
60#define myExtSurf Handle(Geom_SurfaceOfLinearExtrusion)::DownCast (mySurface)
61#define myRevSurf Handle(Geom_SurfaceOfRevolution)::DownCast (mySurface)
62#define myOffSurf Handle(Geom_OffsetSurface)::DownCast (mySurface)
7fd59977 63
64//=======================================================================
65//function : LocalContinuity
66//purpose :
67//=======================================================================
68
69GeomAbs_Shape LocalContinuity(Standard_Integer Degree,
70 Standard_Integer Nb,
71 TColStd_Array1OfReal& TK,
72 TColStd_Array1OfInteger& TM,
73 Standard_Real PFirst,
74 Standard_Real PLast,
75 Standard_Boolean IsPeriodic)
76{
77 Standard_DomainError_Raise_if( (TK.Length()!=Nb || TM.Length()!=Nb )," ");
78 Standard_Integer Index1 = 0;
79 Standard_Integer Index2 = 0;
80 Standard_Real newFirst, newLast;
81 BSplCLib::LocateParameter(Degree,TK,TM,PFirst,IsPeriodic,1,Nb,Index1,newFirst);
82 BSplCLib::LocateParameter(Degree,TK,TM,PLast, IsPeriodic,1,Nb,Index2,newLast );
83 const Standard_Real EpsKnot = Precision::PConfusion();
84 if (Abs(newFirst-TK(Index1+1))< EpsKnot) Index1++;
85 if (Abs(newLast -TK(Index2 ))< EpsKnot) Index2--;
86 // attention aux courbes peridiques.
87 if ( (IsPeriodic) && (Index1 == Nb) )
88 Index1 = 1;
89
90 if (Index2!=Index1)
91 {
92 Standard_Integer i, Multmax = TM(Index1+1);
93 for (i = Index1+1; i<=Index2; i++) {
94 if (TM(i)>Multmax) Multmax=TM(i);
95 }
96 Multmax = Degree - Multmax;
97 if (Multmax <= 0) return GeomAbs_C0;
98 switch (Multmax) {
99 case 1: return GeomAbs_C1;
100 case 2: return GeomAbs_C2;
101 case 3: return GeomAbs_C3;
102 }
103 }
104 return GeomAbs_CN;
105}
106
107//=======================================================================
108//function : Load
109//purpose :
110//=======================================================================
111
041bfce9 112void GeomAdaptor_Surface::load(const Handle(Geom_Surface)& S,
7fd59977 113 const Standard_Real UFirst,
114 const Standard_Real ULast,
115 const Standard_Real VFirst,
116 const Standard_Real VLast,
117 const Standard_Real TolU,
118 const Standard_Real TolV)
119{
7fd59977 120 myTolU = TolU;
121 myTolV = TolV;
122 myUFirst = UFirst;
123 myULast = ULast;
124 myVFirst = VFirst;
125 myVLast = VLast;
126
127 if ( mySurface != S) {
128 mySurface = S;
129
130 const Handle(Standard_Type)& TheType = S->DynamicType();
131 if ( TheType == STANDARD_TYPE(Geom_BezierSurface))
132 mySurfaceType = GeomAbs_BezierSurface;
133 else if (TheType == STANDARD_TYPE(Geom_RectangularTrimmedSurface)) {
c5f3a425 134 Load(Handle(Geom_RectangularTrimmedSurface)::DownCast (S)->BasisSurface(),
94f71cad 135 UFirst,ULast,VFirst,VLast);
7fd59977 136 }
137 else if ( TheType == STANDARD_TYPE(Geom_Plane))
138 mySurfaceType = GeomAbs_Plane;
139 else if ( TheType == STANDARD_TYPE(Geom_CylindricalSurface))
140 mySurfaceType = GeomAbs_Cylinder;
141 else if ( TheType == STANDARD_TYPE(Geom_ConicalSurface))
142 mySurfaceType = GeomAbs_Cone;
143 else if ( TheType == STANDARD_TYPE(Geom_SphericalSurface))
144 mySurfaceType = GeomAbs_Sphere;
145 else if ( TheType == STANDARD_TYPE(Geom_ToroidalSurface))
146 mySurfaceType = GeomAbs_Torus;
147 else if ( TheType == STANDARD_TYPE(Geom_SurfaceOfRevolution))
148 mySurfaceType = GeomAbs_SurfaceOfRevolution;
149 else if ( TheType == STANDARD_TYPE(Geom_SurfaceOfLinearExtrusion))
150 mySurfaceType = GeomAbs_SurfaceOfExtrusion;
151 else if ( TheType == STANDARD_TYPE(Geom_BSplineSurface)) {
152 mySurfaceType = GeomAbs_BSplineSurface;
c5f3a425 153 myBspl = Handle(Geom_BSplineSurface)::DownCast (mySurface);
94f71cad 154 // Create cache for B-spline
155 mySurfaceCache = new BSplSLib_Cache(
156 myBspl->UDegree(), myBspl->IsUPeriodic(), myBspl->UKnotSequence(),
157 myBspl->VDegree(), myBspl->IsVPeriodic(), myBspl->VKnotSequence(),
158 myBspl->Poles(), myBspl->Weights());
7fd59977 159 }
160 else if ( TheType == STANDARD_TYPE(Geom_OffsetSurface))
161 mySurfaceType = GeomAbs_OffsetSurface;
162 else
163 mySurfaceType = GeomAbs_OtherSurface;
164 }
165}
166
167// --
168// -- Global methods - Apply to the whole Surface.
169// --
170
171
172//=======================================================================
173//function : UContinuity
174//purpose :
175//=======================================================================
176
177GeomAbs_Shape GeomAdaptor_Surface::UContinuity() const
178{
179 switch (mySurfaceType)
180 {
181 case GeomAbs_BSplineSurface:
182 {
183 const Standard_Integer N = myBspl->NbUKnots();
184 TColStd_Array1OfReal TK(1,N);
185 TColStd_Array1OfInteger TM(1,N);
186 myBspl->UKnots(TK);
187 myBspl->UMultiplicities(TM);
188 return LocalContinuity(myBspl->UDegree(), myBspl->NbUKnots(), TK, TM,
189 myUFirst, myULast, IsUPeriodic());
190 }
566f8441 191 case GeomAbs_OffsetSurface:
7fd59977 192 {
193 switch(BasisSurface()->UContinuity())
194 {
566f8441 195 case GeomAbs_CN :
196 case GeomAbs_C3 : return GeomAbs_CN;
197 case GeomAbs_G2 :
198 case GeomAbs_C2 : return GeomAbs_C1;
199 case GeomAbs_G1 :
200 case GeomAbs_C1 : return GeomAbs_C0;
201 case GeomAbs_C0 : break;
7fd59977 202 }
203 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::UContinuity");
566f8441 204 break;
7fd59977 205 }
566f8441 206 case GeomAbs_SurfaceOfExtrusion:
7fd59977 207 {
208 GeomAdaptor_Curve GC
c5f3a425 209 (Handle(Geom_SurfaceOfLinearExtrusion)::DownCast (mySurface)->BasisCurve(),myUFirst,myULast);
7fd59977 210 return GC.Continuity();
211 }
566f8441 212 case GeomAbs_OtherSurface:
213 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::UContinuity");
214 case GeomAbs_Plane:
215 case GeomAbs_Cylinder:
216 case GeomAbs_Cone:
217 case GeomAbs_Sphere:
218 case GeomAbs_Torus:
219 case GeomAbs_BezierSurface:
220 case GeomAbs_SurfaceOfRevolution: break;
7fd59977 221 }
222 return GeomAbs_CN;
223}
224
225//=======================================================================
226//function : VContinuity
227//purpose :
228//=======================================================================
229
230GeomAbs_Shape GeomAdaptor_Surface::VContinuity() const
231{
232 switch (mySurfaceType)
233 {
234 case GeomAbs_BSplineSurface:
235 {
236 const Standard_Integer N = myBspl->NbVKnots();
237 TColStd_Array1OfReal TK(1,N);
238 TColStd_Array1OfInteger TM(1,N);
239 myBspl->VKnots(TK);
240 myBspl->VMultiplicities(TM);
241 return LocalContinuity(myBspl->VDegree(), myBspl->NbVKnots(), TK, TM,
242 myVFirst, myVLast, IsVPeriodic());
243 }
566f8441 244 case GeomAbs_OffsetSurface:
7fd59977 245 {
246 switch(BasisSurface()->VContinuity())
247 {
566f8441 248 case GeomAbs_CN :
249 case GeomAbs_C3 : return GeomAbs_CN;
250 case GeomAbs_G2 :
251 case GeomAbs_C2 : return GeomAbs_C1;
252 case GeomAbs_G1 :
253 case GeomAbs_C1 : return GeomAbs_C0;
254 case GeomAbs_C0 : break;
7fd59977 255 }
256 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::VContinuity");
257 break;
258 }
566f8441 259 case GeomAbs_SurfaceOfRevolution:
7fd59977 260 {
261 GeomAdaptor_Curve GC
c5f3a425 262 (Handle(Geom_SurfaceOfRevolution)::DownCast (mySurface)->BasisCurve(),myVFirst,myVLast);
7fd59977 263 return GC.Continuity();
264 }
566f8441 265 case GeomAbs_OtherSurface:
266 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::VContinuity");
267 case GeomAbs_Plane:
268 case GeomAbs_Cylinder:
269 case GeomAbs_Cone:
270 case GeomAbs_Sphere:
271 case GeomAbs_Torus:
272 case GeomAbs_BezierSurface:
273 case GeomAbs_SurfaceOfExtrusion: break;
7fd59977 274 }
275 return GeomAbs_CN;
276}
277
278//=======================================================================
279//function : NbUIntervals
280//purpose :
281//=======================================================================
282
283Standard_Integer GeomAdaptor_Surface::NbUIntervals(const GeomAbs_Shape S) const
284{
285 switch (mySurfaceType)
286 {
287 case GeomAbs_BSplineSurface:
288 {
289 GeomAdaptor_Curve myBasisCurve
290 (myBspl->VIso(myBspl->VKnot(myBspl->FirstVKnotIndex())),myUFirst,myULast);
291 return myBasisCurve.NbIntervals(S);
292 }
566f8441 293 case GeomAbs_SurfaceOfExtrusion:
7fd59977 294 {
295 GeomAdaptor_Curve myBasisCurve
c5f3a425 296 (Handle(Geom_SurfaceOfLinearExtrusion)::DownCast (mySurface)->BasisCurve(),myUFirst,myULast);
7fd59977 297 if (myBasisCurve.GetType() == GeomAbs_BSplineCurve)
298 return myBasisCurve.NbIntervals(S);
299 break;
300 }
566f8441 301 case GeomAbs_OffsetSurface:
7fd59977 302 {
303 GeomAbs_Shape BaseS = GeomAbs_CN;
304 switch(S)
305 {
306 case GeomAbs_G1:
307 case GeomAbs_G2: Standard_DomainError::Raise("GeomAdaptor_Curve::NbUIntervals");
308 case GeomAbs_C0: BaseS = GeomAbs_C1; break;
309 case GeomAbs_C1: BaseS = GeomAbs_C2; break;
310 case GeomAbs_C2: BaseS = GeomAbs_C3; break;
566f8441 311 case GeomAbs_C3:
312 case GeomAbs_CN: break;
7fd59977 313 }
c5f3a425 314 GeomAdaptor_Surface Sur(Handle(Geom_OffsetSurface)::DownCast (mySurface)->BasisSurface());
7fd59977 315 return Sur.NbUIntervals(BaseS);
316 }
566f8441 317 case GeomAbs_Plane:
318 case GeomAbs_Cylinder:
319 case GeomAbs_Cone:
320 case GeomAbs_Sphere:
321 case GeomAbs_Torus:
322 case GeomAbs_BezierSurface:
323 case GeomAbs_OtherSurface:
324 case GeomAbs_SurfaceOfRevolution: break;
7fd59977 325 }
326 return 1;
327}
328
329//=======================================================================
330//function : NbVIntervals
331//purpose :
332//=======================================================================
333
334Standard_Integer GeomAdaptor_Surface::NbVIntervals(const GeomAbs_Shape S) const
335{
336 switch (mySurfaceType)
337 {
338 case GeomAbs_BSplineSurface:
339 {
340 GeomAdaptor_Curve myBasisCurve
341 (myBspl->UIso(myBspl->UKnot(myBspl->FirstUKnotIndex())),myVFirst,myVLast);
342 return myBasisCurve.NbIntervals(S);
343 }
566f8441 344 case GeomAbs_SurfaceOfRevolution:
7fd59977 345 {
346 GeomAdaptor_Curve myBasisCurve
c5f3a425 347 (Handle(Geom_SurfaceOfRevolution)::DownCast (mySurface)->BasisCurve(),myVFirst,myVLast);
7fd59977 348 if (myBasisCurve.GetType() == GeomAbs_BSplineCurve)
349 return myBasisCurve.NbIntervals(S);
350 break;
351 }
566f8441 352 case GeomAbs_OffsetSurface:
7fd59977 353 {
354 GeomAbs_Shape BaseS = GeomAbs_CN;
355 switch(S)
356 {
357 case GeomAbs_G1:
358 case GeomAbs_G2: Standard_DomainError::Raise("GeomAdaptor_Curve::NbVIntervals");
359 case GeomAbs_C0: BaseS = GeomAbs_C1; break;
360 case GeomAbs_C1: BaseS = GeomAbs_C2; break;
361 case GeomAbs_C2: BaseS = GeomAbs_C3; break;
566f8441 362 case GeomAbs_C3:
363 case GeomAbs_CN: break;
7fd59977 364 }
c5f3a425 365 GeomAdaptor_Surface Sur(Handle(Geom_OffsetSurface)::DownCast (mySurface)->BasisSurface());
7fd59977 366 return Sur.NbVIntervals(BaseS);
566f8441 367 }
368 case GeomAbs_Plane:
369 case GeomAbs_Cylinder:
370 case GeomAbs_Cone:
371 case GeomAbs_Sphere:
372 case GeomAbs_Torus:
373 case GeomAbs_BezierSurface:
374 case GeomAbs_OtherSurface:
375 case GeomAbs_SurfaceOfExtrusion: break;
7fd59977 376 }
377 return 1;
378}
379
380//=======================================================================
381//function : UIntervals
382//purpose :
383//=======================================================================
384
385void GeomAdaptor_Surface::UIntervals(TColStd_Array1OfReal& T, const GeomAbs_Shape S) const
386{
387 Standard_Integer myNbUIntervals = 1;
388
389 switch (mySurfaceType)
390 {
391 case GeomAbs_BSplineSurface:
392 {
393 GeomAdaptor_Curve myBasisCurve
394 (myBspl->VIso(myBspl->VKnot(myBspl->FirstVKnotIndex())),myUFirst,myULast);
395 myNbUIntervals = myBasisCurve.NbIntervals(S);
396 myBasisCurve.Intervals(T,S);
397 break;
398 }
566f8441 399 case GeomAbs_SurfaceOfExtrusion:
7fd59977 400 {
401 GeomAdaptor_Curve myBasisCurve
c5f3a425 402 (Handle(Geom_SurfaceOfLinearExtrusion)::DownCast (mySurface)->BasisCurve(),myUFirst,myULast);
7fd59977 403 if (myBasisCurve.GetType() == GeomAbs_BSplineCurve)
404 {
405 myNbUIntervals = myBasisCurve.NbIntervals(S);
406 myBasisCurve.Intervals(T,S);
407 }
408 break;
409 }
566f8441 410 case GeomAbs_OffsetSurface:
7fd59977 411 {
412 GeomAbs_Shape BaseS = GeomAbs_CN;
413 switch(S)
414 {
415 case GeomAbs_G1:
416 case GeomAbs_G2: Standard_DomainError::Raise("GeomAdaptor_Curve::UIntervals");
417 case GeomAbs_C0: BaseS = GeomAbs_C1; break;
418 case GeomAbs_C1: BaseS = GeomAbs_C2; break;
419 case GeomAbs_C2: BaseS = GeomAbs_C3; break;
566f8441 420 case GeomAbs_C3:
421 case GeomAbs_CN: break;
7fd59977 422 }
c5f3a425 423 GeomAdaptor_Surface Sur(Handle(Geom_OffsetSurface)::DownCast (mySurface)->BasisSurface());
7fd59977 424 myNbUIntervals = Sur.NbUIntervals(BaseS);
425 Sur.UIntervals(T, BaseS);
426 }
566f8441 427 case GeomAbs_Plane:
428 case GeomAbs_Cylinder:
429 case GeomAbs_Cone:
430 case GeomAbs_Sphere:
431 case GeomAbs_Torus:
432 case GeomAbs_BezierSurface:
433 case GeomAbs_OtherSurface:
434 case GeomAbs_SurfaceOfRevolution: break;
7fd59977 435 }
436
437 T(T.Lower()) = myUFirst;
438 T(T.Lower() + myNbUIntervals) = myULast;
439}
440
441//=======================================================================
442//function : VIntervals
443//purpose :
444//=======================================================================
445
446void GeomAdaptor_Surface::VIntervals(TColStd_Array1OfReal& T, const GeomAbs_Shape S) const
447{
448 Standard_Integer myNbVIntervals = 1;
449
450 switch (mySurfaceType)
451 {
452 case GeomAbs_BSplineSurface:
453 {
454 GeomAdaptor_Curve myBasisCurve
455 (myBspl->UIso(myBspl->UKnot(myBspl->FirstUKnotIndex())),myVFirst,myVLast);
456 myNbVIntervals = myBasisCurve.NbIntervals(S);
457 myBasisCurve.Intervals(T,S);
458 break;
459 }
566f8441 460 case GeomAbs_SurfaceOfRevolution:
7fd59977 461 {
462 GeomAdaptor_Curve myBasisCurve
c5f3a425 463 (Handle(Geom_SurfaceOfRevolution)::DownCast (mySurface)->BasisCurve(),myVFirst,myVLast);
7fd59977 464 if (myBasisCurve.GetType() == GeomAbs_BSplineCurve)
465 {
466 myNbVIntervals = myBasisCurve.NbIntervals(S);
467 myBasisCurve.Intervals(T,S);
468 }
469 break;
470 }
566f8441 471 case GeomAbs_OffsetSurface:
7fd59977 472 {
473 GeomAbs_Shape BaseS = GeomAbs_CN;
474 switch(S)
475 {
476 case GeomAbs_G1:
477 case GeomAbs_G2: Standard_DomainError::Raise("GeomAdaptor_Curve::VIntervals");
478 case GeomAbs_C0: BaseS = GeomAbs_C1; break;
479 case GeomAbs_C1: BaseS = GeomAbs_C2; break;
480 case GeomAbs_C2: BaseS = GeomAbs_C3; break;
566f8441 481 case GeomAbs_C3:
482 case GeomAbs_CN: break;
7fd59977 483 }
c5f3a425 484 GeomAdaptor_Surface Sur(Handle(Geom_OffsetSurface)::DownCast (mySurface)->BasisSurface());
7fd59977 485 myNbVIntervals = Sur.NbVIntervals(BaseS);
486 Sur.VIntervals(T, BaseS);
487 }
566f8441 488 case GeomAbs_Plane:
489 case GeomAbs_Cylinder:
490 case GeomAbs_Cone:
491 case GeomAbs_Sphere:
492 case GeomAbs_Torus:
493 case GeomAbs_BezierSurface:
494 case GeomAbs_OtherSurface:
495 case GeomAbs_SurfaceOfExtrusion: break;
7fd59977 496 }
497
498 T(T.Lower()) = myVFirst;
499 T(T.Lower() + myNbVIntervals) = myVLast;
500}
501
502//=======================================================================
503//function : UTrim
504//purpose :
505//=======================================================================
506
507Handle(Adaptor3d_HSurface) GeomAdaptor_Surface::UTrim(const Standard_Real First,
508 const Standard_Real Last ,
509 const Standard_Real Tol ) const
510{
511 return Handle(GeomAdaptor_HSurface)
512 (new GeomAdaptor_HSurface(mySurface,First,Last,myVFirst,myVLast,Tol,myTolV));
513}
514
515//=======================================================================
516//function : VTrim
517//purpose :
518//=======================================================================
519
520Handle(Adaptor3d_HSurface) GeomAdaptor_Surface::VTrim(const Standard_Real First,
521 const Standard_Real Last ,
522 const Standard_Real Tol ) const
523{
524 return Handle(GeomAdaptor_HSurface)
525 (new GeomAdaptor_HSurface(mySurface,myUFirst,myULast,First,Last,myTolU,Tol));
526}
527
528//=======================================================================
529//function : IsUClosed
530//purpose :
531//=======================================================================
532
533Standard_Boolean GeomAdaptor_Surface::IsUClosed() const
534{
535 if (!mySurface->IsUClosed())
536 return Standard_False;
537
538 Standard_Real U1,U2,V1,V2;
539 mySurface->Bounds(U1,U2,V1,V2);
540 if (mySurface->IsUPeriodic())
541 return (Abs(Abs(U1-U2)-Abs(myUFirst-myULast))<Precision::PConfusion());
542
543 return ( Abs(U1-myUFirst)<Precision::PConfusion()
544 && Abs(U2-myULast )<Precision::PConfusion() );
545}
546
547//=======================================================================
548//function : IsVClosed
549//purpose :
550//=======================================================================
551
552Standard_Boolean GeomAdaptor_Surface::IsVClosed() const
553{
554 if (!mySurface->IsVClosed())
555 return Standard_False;
556
557 Standard_Real U1,U2,V1,V2;
558 mySurface->Bounds(U1,U2,V1,V2);
559 if (mySurface->IsVPeriodic())
560 return (Abs(Abs(V1-V2)-Abs(myVFirst-myVLast))<Precision::PConfusion());
561
562 return ( Abs(V1-myVFirst)<Precision::PConfusion()
563 && Abs(V2-myVLast )<Precision::PConfusion() );
564}
565
566//=======================================================================
567//function : IsUPeriodic
568//purpose :
569//=======================================================================
570
571Standard_Boolean GeomAdaptor_Surface::IsUPeriodic() const
572{
573 return (mySurface->IsUPeriodic());
574}
575
576//=======================================================================
577//function : UPeriod
578//purpose :
579//=======================================================================
580
581Standard_Real GeomAdaptor_Surface::UPeriod() const
582{
583 Standard_NoSuchObject_Raise_if(!IsUPeriodic()," ");
584 return mySurface->UPeriod();
585}
586
587//=======================================================================
588//function : IsVPeriodic
589//purpose :
590//=======================================================================
591
592Standard_Boolean GeomAdaptor_Surface::IsVPeriodic() const
593{
594 return (mySurface->IsVPeriodic());
595}
596
597//=======================================================================
598//function : VPeriod
599//purpose :
600//=======================================================================
601
602Standard_Real GeomAdaptor_Surface::VPeriod() const
603{
604 Standard_NoSuchObject_Raise_if(!IsVPeriodic()," ");
605 return mySurface->VPeriod();
606}
607
94f71cad 608//=======================================================================
609//function : RebuildCache
610//purpose :
611//=======================================================================
612void GeomAdaptor_Surface::RebuildCache(const Standard_Real theU,
613 const Standard_Real theV) const
614{
615 mySurfaceCache->BuildCache(theU, theV,
616 myBspl->UDegree(), myBspl->IsUPeriodic(), myBspl->UKnotSequence(),
617 myBspl->VDegree(), myBspl->IsVPeriodic(), myBspl->VKnotSequence(),
618 myBspl->Poles(), myBspl->Weights());
619}
620
7fd59977 621//=======================================================================
622//function : Value
623//purpose :
624//=======================================================================
625
626gp_Pnt GeomAdaptor_Surface::Value(const Standard_Real U,
627 const Standard_Real V) const
628{
94f71cad 629 if (mySurfaceType == GeomAbs_BSplineSurface && !mySurfaceCache.IsNull())
630 {
631 if (!mySurfaceCache->IsCacheValid(U, V))
632 RebuildCache(U, V);
633 gp_Pnt P;
634 mySurfaceCache->D0(U, V, P);
635 return P;
636 }
637
7fd59977 638 return mySurface->Value(U,V);
639}
640
641//=======================================================================
642//function : D0
643//purpose :
644//=======================================================================
645
646void GeomAdaptor_Surface::D0(const Standard_Real U,
647 const Standard_Real V, gp_Pnt& P) const
648{
94f71cad 649 if (mySurfaceType == GeomAbs_BSplineSurface && !mySurfaceCache.IsNull())
650 {
651 if (!mySurfaceCache->IsCacheValid(U, V))
652 RebuildCache(U, V);
653 mySurfaceCache->D0(U, V, P);
654 return;
655 }
656
7fd59977 657 mySurface->D0(U,V,P);
658}
659
660
661//=======================================================================
662//function : D1
663//purpose :
664//=======================================================================
665
666void GeomAdaptor_Surface::D1(const Standard_Real U,
667 const Standard_Real V,
94f71cad 668 gp_Pnt& P,
669 gp_Vec& D1U,
670 gp_Vec& D1V ) const
7fd59977 671{
94f71cad 672 Standard_Integer Ideb, Ifin, IVdeb, IVfin, USide=0, VSide=0;
7fd59977 673 Standard_Real u = U, v = V;
674 if (Abs(U-myUFirst) <= myTolU) {USide= 1; u = myUFirst;}
675 else if (Abs(U-myULast) <= myTolU) {USide= -1; u = myULast;}
676 if (Abs(V-myVFirst) <= myTolV) {VSide= 1; v = myVFirst;}
677 else if (Abs(V-myVLast) <= myTolV) {VSide= -1; v = myVLast;}
678
679 switch(mySurfaceType) {
94f71cad 680 case GeomAbs_BSplineSurface:
681 if ((USide != 0 || VSide != 0) &&
682 IfUVBound(u, v, Ideb, Ifin, IVdeb, IVfin, USide, VSide))
683 myBspl->LocalD1(u, v, Ideb, Ifin, IVdeb, IVfin, P, D1U, D1V);
684 else if (!mySurfaceCache.IsNull())
685 {
686 if (!mySurfaceCache->IsCacheValid(U, V))
687 RebuildCache(U, V);
688 mySurfaceCache->D1(U, V, P, D1U, D1V);
7fd59977 689 }
94f71cad 690 else
691 myBspl->D1(u, v, P, D1U, D1V);
692 break;
693
694 case GeomAbs_SurfaceOfExtrusion:
695 if (USide==0)
696 myExtSurf->D1(u, v, P, D1U, D1V);
697 else
698 myExtSurf->LocalD1(u, v, USide, P, D1U, D1V);
699 break;
700
701 case GeomAbs_SurfaceOfRevolution:
702 if (VSide==0)
703 myRevSurf->D1(u, v, P, D1U, D1V);
704 else
705 myRevSurf->LocalD1(u, v, VSide, P, D1U, D1V);
706 break;
707
708 case GeomAbs_OffsetSurface:
709 if (USide==0 && VSide==0)
710 myOffSurf->D1(u, v, P, D1U, D1V);
711 else
712 myOffSurf->LocalD1(u, v, USide, VSide, P, D1U, D1V);
713 break;
714 default:
715 mySurface->D1(u, v, P, D1U, D1V);
7fd59977 716 }
717}
718
719//=======================================================================
720//function : D2
721//purpose :
722//=======================================================================
723
724void GeomAdaptor_Surface::D2(const Standard_Real U,
94f71cad 725 const Standard_Real V,
726 gp_Pnt& P,
727 gp_Vec& D1U,
728 gp_Vec& D1V,
729 gp_Vec& D2U,
730 gp_Vec& D2V,
731 gp_Vec& D2UV) const
7fd59977 732{
94f71cad 733 Standard_Integer Ideb, Ifin, IVdeb, IVfin, USide=0, VSide=0;
7fd59977 734 Standard_Real u = U, v = V;
735 if (Abs(U-myUFirst) <= myTolU) {USide= 1; u = myUFirst;}
736 else if (Abs(U-myULast) <= myTolU) {USide= -1; u = myULast;}
737 if (Abs(V-myVFirst) <= myTolV) {VSide= 1; v = myVFirst;}
738 else if (Abs(V-myVLast) <= myTolV) {VSide= -1; v = myVLast;}
739
94f71cad 740 switch(mySurfaceType) {
741 case GeomAbs_BSplineSurface:
742 if((USide != 0 || VSide != 0) &&
743 IfUVBound(u, v, Ideb, Ifin, IVdeb, IVfin, USide, VSide))
744 myBspl->LocalD2(u, v, Ideb, Ifin, IVdeb, IVfin, P, D1U, D1V, D2U, D2V, D2UV);
745 else if (!mySurfaceCache.IsNull())
7fd59977 746 {
94f71cad 747 if (!mySurfaceCache->IsCacheValid(U, V))
748 RebuildCache(U, V);
749 mySurfaceCache->D2(U, V, P, D1U, D1V, D2U, D2V, D2UV);
750 }
751 else myBspl->D2(u,v,P,D1U,D1V,D2U,D2V,D2UV);
752 break;
753
754 case GeomAbs_SurfaceOfExtrusion :
755
756 if(USide==0) myExtSurf->D2(u,v,P,D1U,D1V,D2U,D2V,D2UV);
757 else myExtSurf->LocalD2(u,v,USide,P,D1U,D1V,D2U,D2V,D2UV);
758 break;
759
760 case GeomAbs_SurfaceOfRevolution :
761
762 if(VSide==0) myRevSurf->D2 (u, v, P,D1U,D1V,D2U,D2V,D2UV );
763 else myRevSurf->LocalD2 (u, v, VSide, P,D1U,D1V,D2U,D2V,D2UV );
764 break;
765
766 case GeomAbs_OffsetSurface :
767 {
768 if((USide==0)&&(VSide==0)) myOffSurf->D2 (u, v,P,D1U,D1V,D2U,D2V,D2UV );
769 else myOffSurf->LocalD2 (u, v, USide, VSide ,P,D1U,D1V,D2U,D2V,D2UV );
770 break;
7fd59977 771 }
94f71cad 772 default : { mySurface->D2(u,v,P,D1U,D1V,D2U,D2V,D2UV);
773 break;}
774 }
7fd59977 775}
776
777
778//=======================================================================
779//function : D3
780//purpose :
781//=======================================================================
782
783void GeomAdaptor_Surface::D3(const Standard_Real U, const Standard_Real V,
784 gp_Pnt& P, gp_Vec& D1U, gp_Vec& D1V,
785 gp_Vec& D2U, gp_Vec& D2V, gp_Vec& D2UV,
786 gp_Vec& D3U, gp_Vec& D3V, gp_Vec& D3UUV,
787 gp_Vec& D3UVV) const
788{
789 Standard_Integer Ideb,Ifin,IVdeb,IVfin,USide=0,VSide=0;
790 Standard_Real u = U, v = V;
791 if (Abs(U-myUFirst) <= myTolU) {USide= 1; u = myUFirst;}
792 else if (Abs(U-myULast) <= myTolU) {USide= -1; u = myULast;}
793 if (Abs(V-myVFirst) <= myTolV) {VSide= 1; v = myVFirst;}
794 else if (Abs(V-myVLast) <= myTolV) {VSide= -1; v = myVLast;}
795
796 switch(mySurfaceType) {
797 case GeomAbs_BSplineSurface:
798
799 if((USide==0)&&(VSide==0))
800 myBspl->D3(u,v,P,D1U,D1V,D2U,D2V,D2UV,D3U,D3V,D3UUV,D3UVV);
801 else {
802 if(IfUVBound(u,v,Ideb,Ifin,IVdeb,IVfin,USide,VSide))
803 myBspl-> LocalD3 (u, v, Ideb, Ifin,IVdeb ,IVfin ,
804 P ,D1U,D1V,D2U,D2V,D2UV,D3U,D3V,D3UUV,D3UVV);
805 else
806 myBspl->D3(u,v,P,D1U,D1V,D2U,D2V,D2UV,D3U,D3V,D3UUV,D3UVV);
807 }
808 break;
809
810 case GeomAbs_SurfaceOfExtrusion :
811
812 if(USide==0) myExtSurf->D3(u,v,P,D1U,D1V,D2U,D2V,D2UV,D3U,D3V,D3UUV,D3UVV);
813 else myExtSurf->LocalD3(u,v,USide,P,D1U,D1V,D2U,D2V,D2UV,
814 D3U,D3V,D3UUV,D3UVV);
815 break;
816
817 case GeomAbs_SurfaceOfRevolution :
818
819 if(VSide==0) myRevSurf->D3 (u, v, P ,D1U,D1V,D2U,D2V,D2UV,
820 D3U,D3V,D3UUV,D3UVV);
821 else myRevSurf->LocalD3 (u, v, VSide, P,D1U,D1V,D2U,D2V,D2UV,
822 D3U,D3V,D3UUV,D3UVV );
823 break;
824
825 case GeomAbs_OffsetSurface :
826 {
827 if((USide==0)&&(VSide==0)) myOffSurf->D3 (u, v,P ,D1U,D1V,D2U,D2V,D2UV,
828 D3U,D3V,D3UUV,D3UVV);
829 else myOffSurf->LocalD3 (u, v, USide, VSide ,P ,D1U,D1V,D2U,D2V,D2UV,
830 D3U,D3V,D3UUV,D3UVV);
831 break;
832 }
833 default : { mySurface->D3(u,v,P,D1U,D1V,D2U,D2V,D2UV,D3U,D3V,D3UUV,D3UVV);
834 break;}
835 }
836}
837
838//=======================================================================
839//function : DN
840//purpose :
841//=======================================================================
842
843gp_Vec GeomAdaptor_Surface::DN(const Standard_Real U,
844 const Standard_Real V,
845 const Standard_Integer Nu,
846 const Standard_Integer Nv) const
847{
848 Standard_Integer Ideb,Ifin,IVdeb,IVfin,USide=0,VSide=0;
849 Standard_Real u = U, v = V;
850 if (Abs(U-myUFirst) <= myTolU) {USide= 1; u = myUFirst;}
851 else if (Abs(U-myULast) <= myTolU) {USide= -1; u = myULast;}
852 if (Abs(V-myVFirst) <= myTolV) {VSide= 1; v = myVFirst;}
853 else if (Abs(V-myVLast) <= myTolV) {VSide= -1; v = myVLast;}
854
855 switch(mySurfaceType)
856 {
857 case GeomAbs_BSplineSurface:
858
859 if((USide==0)&&(VSide==0)) return myBspl->DN(u,v,Nu,Nv);
860 else {
861 if(IfUVBound(u,v,Ideb,Ifin,IVdeb,IVfin,USide,VSide))
862 return myBspl->LocalDN (u, v, Ideb, Ifin,IVdeb ,IVfin ,Nu,Nv );
863 else
864 return myBspl->DN(u,v,Nu,Nv);
865 }
866
867 case GeomAbs_SurfaceOfExtrusion:
868
869 if(USide==0) return myExtSurf-> DN (u, v,Nu,Nv );
870 else return myExtSurf->LocalDN (u, v, USide,Nu,Nv );
871
872 case GeomAbs_SurfaceOfRevolution:
873
874 if(VSide==0) return myRevSurf->DN (u, v, Nu, Nv );
875 else return myRevSurf->LocalDN (u, v,VSide, Nu, Nv );
876
877 case GeomAbs_OffsetSurface:
878
879 if((USide==0)&&(VSide==0)) return myOffSurf->DN (u, v, Nu, Nv );
880 else return myOffSurf->LocalDN (u, v, USide, VSide, Nu, Nv );
881
882 case GeomAbs_Plane:
883 case GeomAbs_Cylinder:
884 case GeomAbs_Cone:
885 case GeomAbs_Sphere:
886 case GeomAbs_Torus:
887 case GeomAbs_BezierSurface:
888 case GeomAbs_OtherSurface:
889 default:
890 break;
891 }
892
893 return mySurface->DN(u,v, Nu, Nv);
894}
895
896
897//=======================================================================
898//function : UResolution
899//purpose :
900//=======================================================================
901
902Standard_Real GeomAdaptor_Surface::UResolution(const Standard_Real R3d) const
903{
904 Standard_Real Res = 0.;
905
906 switch (mySurfaceType)
907 {
908 case GeomAbs_SurfaceOfExtrusion:
909 {
910 GeomAdaptor_Curve myBasisCurve
c5f3a425 911 (Handle(Geom_SurfaceOfLinearExtrusion)::DownCast (mySurface)->BasisCurve(),myUFirst,myULast);
7fd59977 912 return myBasisCurve.Resolution(R3d);
913 }
914 case GeomAbs_Torus:
915 {
a1eb3afd 916 Handle(Geom_ToroidalSurface) S (Handle(Geom_ToroidalSurface)::DownCast (mySurface));
7fd59977 917 const Standard_Real R = S->MajorRadius() + S->MinorRadius();
918 if(R>Precision::Confusion())
919 Res = R3d/(2.*R);
920 break;
921 }
922 case GeomAbs_Sphere:
923 {
a1eb3afd 924 Handle(Geom_SphericalSurface) S (Handle(Geom_SphericalSurface)::DownCast (mySurface));
7fd59977 925 const Standard_Real R = S->Radius();
926 if(R>Precision::Confusion())
927 Res = R3d/(2.*R);
928 break;
929 }
930 case GeomAbs_Cylinder:
931 {
a1eb3afd 932 Handle(Geom_CylindricalSurface) S (Handle(Geom_CylindricalSurface)::DownCast (mySurface));
7fd59977 933 const Standard_Real R = S->Radius();
934 if(R>Precision::Confusion())
935 Res = R3d/(2.*R);
936 break;
937 }
938 case GeomAbs_Cone:
939 {
940 if (myVLast - myVFirst > 1.e10) {
941 // Pas vraiment borne => resolution inconnue
942 return Precision::Parametric(R3d);
943 }
a1eb3afd 944 Handle(Geom_ConicalSurface) S (Handle(Geom_ConicalSurface)::DownCast (mySurface));
7fd59977 945 Handle(Geom_Curve) C = S->VIso(myVLast);
c5f3a425 946 const Standard_Real Rayon1 = Handle(Geom_Circle)::DownCast (C)->Radius();
7fd59977 947 C = S->VIso(myVFirst);
c5f3a425 948 const Standard_Real Rayon2 = Handle(Geom_Circle)::DownCast (C)->Radius();
7fd59977 949 const Standard_Real R = (Rayon1 > Rayon2)? Rayon1 : Rayon2;
950 return (R>Precision::Confusion()? (R3d / R) : 0.);
951 }
952 case GeomAbs_Plane:
953 {
954 return R3d;
955 }
956 case GeomAbs_BezierSurface:
957 {
958 Standard_Real Ures,Vres;
c5f3a425 959 Handle(Geom_BezierSurface)::DownCast (mySurface)->Resolution(R3d,Ures,Vres);
7fd59977 960 return Ures;
961 }
962 case GeomAbs_BSplineSurface:
963 {
964 Standard_Real Ures,Vres;
c5f3a425 965 Handle(Geom_BSplineSurface)::DownCast (mySurface)->Resolution(R3d,Ures,Vres);
7fd59977 966 return Ures;
967 }
968 case GeomAbs_OffsetSurface:
969 {
c5f3a425 970 Handle(Geom_Surface) base = Handle(Geom_OffsetSurface)::DownCast (mySurface)->BasisSurface();
7fd59977 971 GeomAdaptor_Surface gabase(base,myUFirst,myULast,myVFirst,myVLast);
972 return gabase.UResolution(R3d);
973 }
974 default: return Precision::Parametric(R3d);
975 }
976
977 if ( Res <= 1.)
978 return 2.*ASin(Res);
979
c6541a0c 980 return 2.*M_PI;
7fd59977 981}
982
983//=======================================================================
984//function : VResolution
985//purpose :
986//=======================================================================
987
988Standard_Real GeomAdaptor_Surface::VResolution(const Standard_Real R3d) const
989{
990 Standard_Real Res = 0.;
991
992 switch (mySurfaceType)
993 {
994 case GeomAbs_SurfaceOfRevolution:
995 {
996 GeomAdaptor_Curve myBasisCurve
c5f3a425 997 (Handle(Geom_SurfaceOfRevolution)::DownCast (mySurface)->BasisCurve(),myUFirst,myULast);
7fd59977 998 return myBasisCurve.Resolution(R3d);
999 }
1000 case GeomAbs_Torus:
1001 {
a1eb3afd 1002 Handle(Geom_ToroidalSurface) S (Handle(Geom_ToroidalSurface)::DownCast (mySurface));
7fd59977 1003 const Standard_Real R = S->MinorRadius();
1004 if(R>Precision::Confusion())
1005 Res = R3d/(2.*R);
1006 break;
1007 }
1008 case GeomAbs_Sphere:
1009 {
a1eb3afd 1010 Handle(Geom_SphericalSurface) S (Handle(Geom_SphericalSurface)::DownCast (mySurface));
7fd59977 1011 const Standard_Real R = S->Radius();
1012 if(R>Precision::Confusion())
1013 Res = R3d/(2.*R);
1014 break;
1015 }
1016 case GeomAbs_SurfaceOfExtrusion:
1017 case GeomAbs_Cylinder:
1018 case GeomAbs_Cone:
1019 case GeomAbs_Plane:
1020 {
1021 return R3d;
1022 }
1023 case GeomAbs_BezierSurface:
1024 {
1025 Standard_Real Ures,Vres;
c5f3a425 1026 Handle(Geom_BezierSurface)::DownCast (mySurface)->Resolution(R3d,Ures,Vres);
7fd59977 1027 return Vres;
1028 }
1029 case GeomAbs_BSplineSurface:
1030 {
1031 Standard_Real Ures,Vres;
c5f3a425 1032 Handle(Geom_BSplineSurface)::DownCast (mySurface)->Resolution(R3d,Ures,Vres);
7fd59977 1033 return Vres;
1034 }
1035 case GeomAbs_OffsetSurface:
1036 {
c5f3a425 1037 Handle(Geom_Surface) base = Handle(Geom_OffsetSurface)::DownCast (mySurface)->BasisSurface();
7fd59977 1038 GeomAdaptor_Surface gabase(base,myUFirst,myULast,myVFirst,myVLast);
1039 return gabase.VResolution(R3d);
1040 }
1041 default: return Precision::Parametric(R3d);
1042 }
1043
1044 if ( Res <= 1.)
1045 return 2.*ASin(Res);
1046
c6541a0c 1047 return 2.*M_PI;
7fd59977 1048}
1049
1050//=======================================================================
1051//function : Plane
1052//purpose :
1053//=======================================================================
1054
1055gp_Pln GeomAdaptor_Surface::Plane() const
1056{
1057 if (mySurfaceType != GeomAbs_Plane)
1058 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::Plane");
c5f3a425 1059 return Handle(Geom_Plane)::DownCast (mySurface)->Pln();
7fd59977 1060}
1061
1062//=======================================================================
1063//function : Cylinder
1064//purpose :
1065//=======================================================================
1066
1067gp_Cylinder GeomAdaptor_Surface::Cylinder() const
1068{
1069 if (mySurfaceType != GeomAbs_Cylinder)
1070 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::Cylinder");
c5f3a425 1071 return Handle(Geom_CylindricalSurface)::DownCast (mySurface)->Cylinder();
7fd59977 1072}
1073
1074//=======================================================================
1075//function : Cone
1076//purpose :
1077//=======================================================================
1078
1079gp_Cone GeomAdaptor_Surface::Cone() const
1080{
1081 if (mySurfaceType != GeomAbs_Cone)
1082 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::Cone");
c5f3a425 1083 return Handle(Geom_ConicalSurface)::DownCast (mySurface)->Cone();
7fd59977 1084}
1085
1086//=======================================================================
1087//function : Sphere
1088//purpose :
1089//=======================================================================
1090
1091gp_Sphere GeomAdaptor_Surface::Sphere() const
1092{
1093 if (mySurfaceType != GeomAbs_Sphere)
1094 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::Sphere");
c5f3a425 1095 return Handle(Geom_SphericalSurface)::DownCast (mySurface)->Sphere();
7fd59977 1096}
1097
1098//=======================================================================
1099//function : Torus
1100//purpose :
1101//=======================================================================
1102
1103gp_Torus GeomAdaptor_Surface::Torus() const
1104{
1105 if (mySurfaceType != GeomAbs_Torus)
1106 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::Torus");
c5f3a425 1107 return Handle(Geom_ToroidalSurface)::DownCast (mySurface)->Torus();
7fd59977 1108}
1109
1110//=======================================================================
1111//function : UDegree
1112//purpose :
1113//=======================================================================
1114
1115Standard_Integer GeomAdaptor_Surface::UDegree() const
1116{
1117 if (mySurfaceType == GeomAbs_BSplineSurface)
c5f3a425 1118 return Handle(Geom_BSplineSurface)::DownCast (mySurface)->UDegree();
7fd59977 1119 if ( mySurfaceType == GeomAbs_BezierSurface)
c5f3a425 1120 return Handle(Geom_BezierSurface)::DownCast (mySurface)->UDegree();
7fd59977 1121 if ( mySurfaceType == GeomAbs_SurfaceOfExtrusion)
1122 {
1123 GeomAdaptor_Curve myBasisCurve
c5f3a425 1124 (Handle(Geom_SurfaceOfLinearExtrusion)::DownCast (mySurface)->BasisCurve(),myUFirst,myULast);
7fd59977 1125 return myBasisCurve.Degree();
1126 }
1127 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::UDegree");
1128 return 0;
1129}
1130
1131//=======================================================================
1132//function : NbUPoles
1133//purpose :
1134//=======================================================================
1135
1136Standard_Integer GeomAdaptor_Surface::NbUPoles() const
1137{
1138 if (mySurfaceType == GeomAbs_BSplineSurface)
c5f3a425 1139 return Handle(Geom_BSplineSurface)::DownCast (mySurface)->NbUPoles();
7fd59977 1140 if ( mySurfaceType == GeomAbs_BezierSurface)
c5f3a425 1141 return Handle(Geom_BezierSurface)::DownCast (mySurface)->NbUPoles();
7fd59977 1142 if ( mySurfaceType == GeomAbs_SurfaceOfExtrusion)
1143 {
1144 GeomAdaptor_Curve myBasisCurve
c5f3a425 1145 (Handle(Geom_SurfaceOfLinearExtrusion)::DownCast (mySurface)->BasisCurve(),myUFirst,myULast);
7fd59977 1146 return myBasisCurve.NbPoles();
1147 }
1148 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::NbUPoles");
1149 return 0;
1150}
1151
1152//=======================================================================
1153//function : VDegree
1154//purpose :
1155//=======================================================================
1156
1157Standard_Integer GeomAdaptor_Surface::VDegree() const
1158{
1159 if (mySurfaceType == GeomAbs_BSplineSurface)
c5f3a425 1160 return Handle(Geom_BSplineSurface)::DownCast (mySurface)->VDegree();
7fd59977 1161 if ( mySurfaceType == GeomAbs_BezierSurface)
c5f3a425 1162 return Handle(Geom_BezierSurface)::DownCast (mySurface)->VDegree();
7fd59977 1163 if ( mySurfaceType == GeomAbs_SurfaceOfRevolution)
1164 {
1165 GeomAdaptor_Curve myBasisCurve
c5f3a425 1166 (Handle(Geom_SurfaceOfRevolution)::DownCast (mySurface)->BasisCurve(),myUFirst,myULast);
7fd59977 1167 return myBasisCurve.Degree();
1168 }
1169 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::VDegree");
1170 return 0;
1171}
1172
1173//=======================================================================
1174//function : NbVPoles
1175//purpose :
1176//=======================================================================
1177
1178Standard_Integer GeomAdaptor_Surface::NbVPoles() const
1179{
1180 if (mySurfaceType == GeomAbs_BSplineSurface)
c5f3a425 1181 return Handle(Geom_BSplineSurface)::DownCast (mySurface)->NbVPoles();
7fd59977 1182 if ( mySurfaceType == GeomAbs_BezierSurface)
c5f3a425 1183 return Handle(Geom_BezierSurface)::DownCast (mySurface)->NbVPoles();
7fd59977 1184 if ( mySurfaceType == GeomAbs_SurfaceOfRevolution)
1185 {
1186 GeomAdaptor_Curve myBasisCurve
c5f3a425 1187 (Handle(Geom_SurfaceOfRevolution)::DownCast (mySurface)->BasisCurve(),myUFirst,myULast);
7fd59977 1188 return myBasisCurve.NbPoles();
1189 }
1190 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::NbVPoles");
1191 return 0;
1192}
1193
1194//=======================================================================
1195//function : NbUKnots
1196//purpose :
1197//=======================================================================
1198
1199Standard_Integer GeomAdaptor_Surface::NbUKnots() const
1200{
1201 if (mySurfaceType == GeomAbs_BSplineSurface)
c5f3a425 1202 return Handle(Geom_BSplineSurface)::DownCast (mySurface)->NbUKnots();
7fd59977 1203 if ( mySurfaceType == GeomAbs_SurfaceOfExtrusion)
1204 {
1205 GeomAdaptor_Curve myBasisCurve
c5f3a425 1206 (Handle(Geom_SurfaceOfLinearExtrusion)::DownCast (mySurface)->BasisCurve(),myUFirst,myULast);
7fd59977 1207 return myBasisCurve.NbKnots();
1208 }
1209 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::NbUKnots");
1210 return 0;
1211}
1212
1213//=======================================================================
1214//function : NbVKnots
1215//purpose :
1216//=======================================================================
1217
1218Standard_Integer GeomAdaptor_Surface::NbVKnots() const
1219{
1220 if (mySurfaceType == GeomAbs_BSplineSurface)
c5f3a425 1221 return Handle(Geom_BSplineSurface)::DownCast (mySurface)->NbVKnots();
7fd59977 1222 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::NbVKnots");
1223 return 0;
1224}
1225//=======================================================================
1226//function : IsURational
1227//purpose :
1228//=======================================================================
1229
1230Standard_Boolean GeomAdaptor_Surface::IsURational() const
1231{
1232 if (mySurfaceType == GeomAbs_BSplineSurface)
c5f3a425 1233 return Handle(Geom_BSplineSurface)::DownCast (mySurface)->IsURational();
7fd59977 1234 if (mySurfaceType == GeomAbs_BezierSurface)
c5f3a425 1235 return Handle(Geom_BezierSurface)::DownCast (mySurface)->IsURational();
7fd59977 1236 return Standard_False;
1237}
1238
1239//=======================================================================
1240//function : IsVRational
1241//purpose :
1242//=======================================================================
1243
1244Standard_Boolean GeomAdaptor_Surface::IsVRational() const
1245{
1246 if (mySurfaceType == GeomAbs_BSplineSurface)
c5f3a425 1247 return Handle(Geom_BSplineSurface)::DownCast (mySurface)->IsVRational();
7fd59977 1248 if (mySurfaceType == GeomAbs_BezierSurface)
c5f3a425 1249 return Handle(Geom_BezierSurface)::DownCast (mySurface)->IsVRational();
7fd59977 1250 return Standard_False;
1251}
1252
1253//=======================================================================
1254//function : Bezier
1255//purpose :
1256//=======================================================================
1257
1258Handle(Geom_BezierSurface) GeomAdaptor_Surface::Bezier() const
1259{
1260 if (mySurfaceType != GeomAbs_BezierSurface)
1261 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::Bezier");
c5f3a425 1262 return Handle(Geom_BezierSurface)::DownCast (mySurface);
7fd59977 1263}
1264
1265//=======================================================================
1266//function : BSpline
1267//purpose :
1268//=======================================================================
1269
1270Handle(Geom_BSplineSurface) GeomAdaptor_Surface::BSpline() const
1271{
1272 if (mySurfaceType != GeomAbs_BSplineSurface)
1273 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::BSpline");
c5f3a425 1274 return Handle(Geom_BSplineSurface)::DownCast (mySurface);
7fd59977 1275}
1276
1277//=======================================================================
1278//function : AxeOfRevolution
1279//purpose :
1280//=======================================================================
1281
1282gp_Ax1 GeomAdaptor_Surface::AxeOfRevolution() const
1283{
1284 if (mySurfaceType != GeomAbs_SurfaceOfRevolution)
1285 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::AxeOfRevolution");
c5f3a425 1286 return Handle(Geom_SurfaceOfRevolution)::DownCast (mySurface)->Axis();
7fd59977 1287}
1288
1289//=======================================================================
1290//function : Direction
1291//purpose :
1292//=======================================================================
1293
1294gp_Dir GeomAdaptor_Surface::Direction() const
1295{
1296 if (mySurfaceType != GeomAbs_SurfaceOfExtrusion)
1297 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::Direction");
c5f3a425 1298 return Handle(Geom_SurfaceOfLinearExtrusion)::DownCast (mySurface)->Direction();
7fd59977 1299}
1300
1301//=======================================================================
1302//function : BasisCurve
1303//purpose :
1304//=======================================================================
1305
1306Handle(Adaptor3d_HCurve) GeomAdaptor_Surface::BasisCurve() const
1307{
1308 Handle(Geom_Curve) C;
1309 if (mySurfaceType == GeomAbs_SurfaceOfExtrusion)
c5f3a425 1310 C = Handle(Geom_SurfaceOfLinearExtrusion)::DownCast (mySurface)->BasisCurve();
7fd59977 1311 else if (mySurfaceType == GeomAbs_SurfaceOfRevolution)
c5f3a425 1312 C = Handle(Geom_SurfaceOfRevolution)::DownCast (mySurface)->BasisCurve();
7fd59977 1313 else
1314 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::BasisCurve");
1315 return Handle(GeomAdaptor_HCurve)(new GeomAdaptor_HCurve(C));
1316}
1317
1318//=======================================================================
1319//function : BasisSurface
1320//purpose :
1321//=======================================================================
1322
1323Handle(Adaptor3d_HSurface) GeomAdaptor_Surface::BasisSurface() const
1324{
1325 if (mySurfaceType != GeomAbs_OffsetSurface)
1326 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::BasisSurface");
1327 return new GeomAdaptor_HSurface
c5f3a425 1328 (Handle(Geom_OffsetSurface)::DownCast (mySurface)->BasisSurface(),
7fd59977 1329 myUFirst,myULast,myVFirst,myVLast);
1330}
1331
1332//=======================================================================
1333//function : OffsetValue
1334//purpose :
1335//=======================================================================
1336
1337Standard_Real GeomAdaptor_Surface::OffsetValue() const
1338{
1339 if (mySurfaceType != GeomAbs_OffsetSurface)
1340 Standard_NoSuchObject::Raise("GeomAdaptor_Surface::BasisSurface");
c5f3a425 1341 return Handle(Geom_OffsetSurface)::DownCast (mySurface)->Offset();
7fd59977 1342}
1343
1344//=======================================================================
1345//function : IfUVBound <private>
1346//purpose : locates U,V parameters if U,V =First, Last,
1347// processes the finding span and returns the
1348// parameters for LocalDi
1349//=======================================================================
1350
1351Standard_Boolean GeomAdaptor_Surface::IfUVBound(const Standard_Real U,
1352 const Standard_Real V,
1353 Standard_Integer& IOutDeb,
1354 Standard_Integer& IOutFin,
1355 Standard_Integer& IOutVDeb,
1356 Standard_Integer& IOutVFin,
1357 const Standard_Integer USide,
1358 const Standard_Integer VSide) const
1359{
1360 Standard_Integer Ideb,Ifin;
470ebb43 1361 Standard_Integer anUFKIndx = myBspl->FirstUKnotIndex(),
1362 anULKIndx = myBspl->LastUKnotIndex(),
1363 aVFKIndx = myBspl->FirstVKnotIndex(), aVLKIndx = myBspl->LastVKnotIndex();
7fd59977 1364 myBspl->LocateU(U, PosTol, Ideb, Ifin, Standard_False);
1365 Standard_Boolean Local = (Ideb == Ifin);
470ebb43 1366 Span(USide,Ideb,Ifin,Ideb,Ifin,anUFKIndx,anULKIndx);
7fd59977 1367 Standard_Integer IVdeb,IVfin;
1368 myBspl->LocateV(V, PosTol, IVdeb, IVfin, Standard_False);
1369 if(IVdeb == IVfin) Local = Standard_True;
470ebb43 1370 Span(VSide,IVdeb,IVfin,IVdeb,IVfin,aVFKIndx,aVLKIndx);
7fd59977 1371
1372 IOutDeb=Ideb; IOutFin=Ifin;
1373 IOutVDeb=IVdeb; IOutVFin=IVfin;
1374
1375 return Local;
1376}
7fd59977 1377//=======================================================================
1378//function : Span <private>
1379//purpose : locates U,V parameters if U=UFirst or U=ULast,
1380// processes the finding span and returns the
1381// parameters for LocalDi
1382//=======================================================================
1383
1384void GeomAdaptor_Surface::Span(const Standard_Integer Side,
1385 const Standard_Integer Ideb,
1386 const Standard_Integer Ifin,
1387 Standard_Integer& OutIdeb,
1388 Standard_Integer& OutIfin,
470ebb43 1389 const Standard_Integer theFKIndx,
1390 const Standard_Integer theLKIndx) const
7fd59977 1391{
1392 if(Ideb!=Ifin)//not a knot
1393 {
470ebb43 1394 if(Ideb<theFKIndx) { OutIdeb=theFKIndx; OutIfin=theFKIndx+1; }
1395 else if(Ifin>theLKIndx) { OutIdeb=theLKIndx-1; OutIfin=theLKIndx; }
1396 else if(Ideb>=(theLKIndx-1)) { OutIdeb=theLKIndx-1; OutIfin=theLKIndx; }
1397 else if(Ifin<=theFKIndx+1) { OutIdeb=theFKIndx; OutIfin=theFKIndx+1; }
7fd59977 1398 else if(Ideb>Ifin) { OutIdeb=Ifin-1; OutIfin=Ifin; }
1399 else { OutIdeb=Ideb; OutIfin=Ifin; }
1400 }
1401 else
1402 {
470ebb43 1403 if(Ideb<=theFKIndx){ OutIdeb=theFKIndx; OutIfin=theFKIndx+1;}//first knot
1404 else if(Ifin>=theLKIndx) { OutIdeb=theLKIndx-1;OutIfin=theLKIndx;}//last knot
7fd59977 1405 else
1406 {
1407 if(Side==-1){OutIdeb=Ideb-1; OutIfin=Ifin;}
1408 else {OutIdeb=Ideb; OutIfin=Ifin+1;}
1409 }
1410 }
1411}