0024096: Eliminate compiler warning C4505 in MSVC++ with warning level 4
[occt.git] / src / ShapeFix / ShapeFix_Face.cxx
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b311480e 1// Copyright (c) 1999-2012 OPEN CASCADE SAS
2//
3// The content of this file is subject to the Open CASCADE Technology Public
4// License Version 6.5 (the "License"). You may not use the content of this file
5// except in compliance with the License. Please obtain a copy of the License
6// at http://www.opencascade.org and read it completely before using this file.
7//
8// The Initial Developer of the Original Code is Open CASCADE S.A.S., having its
9// main offices at: 1, place des Freres Montgolfier, 78280 Guyancourt, France.
10//
11// The Original Code and all software distributed under the License is
12// distributed on an "AS IS" basis, without warranty of any kind, and the
13// Initial Developer hereby disclaims all such warranties, including without
14// limitation, any warranties of merchantability, fitness for a particular
15// purpose or non-infringement. Please see the License for the specific terms
16// and conditions governing the rights and limitations under the License.
17
7fd59977 18// pdn 10.12.98: tr9_r0501-ug
19// pdn 28.12.98: PRO10366 shifting pcurve between two singularities
20//:k7 abv 5.01.99: USA60022.igs ent 243: FixMissingSeam() improved
21//:l2 abv 10.01.99: USA60022 7289: corrections for reversed face
22//gka 11.01.99 file PRO7755.stp #2018: work-around error in BRepLib_MakeFace
23//:p4 abv, pdn 23.02.99: PRO9234 #15720: call BRepTools::Update() for faces
24// rln 03.03.99 S4135: transmission of parameter precision to SA_Surface::NbSingularities
25//:q5 abv 19.03.99 code improvement
26//%14 pdn 15.03.99 adding function for fixing null area wires
27//%15 pdn 20.03.99 code improvement
28// abv 09.04.99 S4136: improve tolerance management; remove unused flag Closed
29//#4 szv S4163: optimization
30// smh 31.01.01 BUC60810 : Case of small wire on face in solid
31// sln 25.09.2001 checking order of 3d and 2d representation curves
32// abv 19.10.2001 FixAddNaturalBound improved and extracted as separate fix
33// skl,pdn 14.05.2002 OCC55 (correction precision for small faces)
34
35#include <ShapeFix_Face.ixx>
36
37#include <Standard_Failure.hxx>
38#include <Standard_ErrorHandler.hxx>
39
40#include <Precision.hxx>
41
42#include <Geom2d_Curve.hxx>
43#include <Geom2d_Line.hxx>
fdabc211 44#include <Geom2dAdaptor_Curve.hxx>
7fd59977 45#include <Geom_Curve.hxx>
46#include <Geom_BSplineSurface.hxx>
47#include <GeomAdaptor_HSurface.hxx>
48
49#include <TopoDS.hxx>
50#include <TopoDS_Edge.hxx>
51#include <TopoDS_Vertex.hxx>
52#include <TopoDS_Shell.hxx>
53#include <TopoDS_Compound.hxx>
54#include <TopoDS_Iterator.hxx>
55#include <TopExp_Explorer.hxx>
56#include <TopTools_SequenceOfShape.hxx>
57
58#include <BRep_Tool.hxx>
59#include <BRep_Builder.hxx>
60#include <BRepTopAdaptor_FClass2d.hxx>
61#include <BRepTools.hxx>
84dc990a 62#include <BRepTools_WireExplorer.hxx>
7fd59977 63#include <BRepBuilderAPI_MakeFace.hxx>
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64#include <BRepBuilderAPI_MakeVertex.hxx>
65#include <BRepBuilderAPI_MakeWire.hxx>
7fd59977 66
67#include <Message_Msg.hxx>
68#include <ShapeBuild_ReShape.hxx>
69#include <ShapeExtend_WireData.hxx>
70#include <ShapeAnalysis.hxx>
71#include <ShapeFix_Wire.hxx>
72#include <ShapeFix_Edge.hxx>
73#include <ShapeAnalysis_Edge.hxx>
74#include <Bnd_Box2d.hxx>
84dc990a 75#include <Geom_Circle.hxx>
7fd59977 76#include <Geom_SphericalSurface.hxx>
77#include <Geom_RectangularTrimmedSurface.hxx>
84dc990a 78#include <Geom_ConicalSurface.hxx>
7fd59977 79#include <ShapeAnalysis_Wire.hxx>
80#include <ShapeAnalysis_Surface.hxx>
81
82#include <ShapeExtend_CompositeSurface.hxx>
83#include <ShapeFix_ComposeShell.hxx>
84#include <TColGeom_HArray2OfSurface.hxx>
85#include <ShapeBuild_Edge.hxx>
86#include <TColgp_SequenceOfPnt2d.hxx>
87#include <Bnd_Box.hxx>
88#include <TopTools_IndexedMapOfShape.hxx>
89#include <TopTools_DataMapOfShapeListOfShape.hxx>
90#include <TopTools_ListIteratorOfListOfShape.hxx>
91#include <TopTools_MapOfShape.hxx>
92#include <TopoDS.hxx>
93#include <TopExp.hxx>
94
95#include <ShapeFix.hxx>
96#include <ShapeFix_DataMapOfShapeBox2d.hxx>
97#include <BndLib_Add2dCurve.hxx>
98#include <Geom2dAdaptor_Curve.hxx>
99#include <IntRes2d_Domain.hxx>
100#include <Geom2dInt_GInter.hxx>
101#include <IntRes2d_IntersectionPoint.hxx>
102#include <IntRes2d_Transition.hxx>
103#include <TopTools_SequenceOfShape.hxx>
104#include <IntRes2d_IntersectionSegment.hxx>
105#include <TopTools_DataMapOfShapeInteger.hxx>
106
107#include <ShapeFix_IntersectionTool.hxx>
108#include <ShapeFix_SplitTool.hxx>
109#include <TColStd_MapOfInteger.hxx>
110#include <TopTools_DataMapOfShapeShape.hxx>
111
112#ifdef DEB
113#define DEBUG
114#endif
115
116//=======================================================================
117//function : ShapeFix_Face
118//purpose :
119//=======================================================================
120
121ShapeFix_Face::ShapeFix_Face()
122{
123 myFwd = Standard_True;
124 myStatus = 0;
125 myFixWire = new ShapeFix_Wire;
126 ClearModes();
127}
128
129//=======================================================================
130//function : ShapeFix_Face
131//purpose :
132//=======================================================================
133
134ShapeFix_Face::ShapeFix_Face(const TopoDS_Face &face)
135{
136 myFwd = Standard_True;
137 myStatus = 0;
138 myFixWire = new ShapeFix_Wire;
139 ClearModes();
140 Init( face );
141}
142
143//=======================================================================
144//function : ClearModes
145//purpose :
146//=======================================================================
147
148void ShapeFix_Face::ClearModes()
149{
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150 myFixWireMode = -1;
151 myFixOrientationMode = -1;
152 myFixAddNaturalBoundMode = -1;
153 myFixMissingSeamMode = -1;
154 myFixSmallAreaWireMode = -1;
7fd59977 155 myFixIntersectingWiresMode = -1;
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156 myFixLoopWiresMode = -1;
157 myFixSplitFaceMode = -1;
158 myAutoCorrectPrecisionMode = 1;
159 myFixPeriodicDegenerated = -1;
7fd59977 160}
161
162//=======================================================================
163//function : SetMsgRegistrator
164//purpose :
165//=======================================================================
166
167void ShapeFix_Face::SetMsgRegistrator(const Handle(ShapeExtend_BasicMsgRegistrator)& msgreg)
168{
169 ShapeFix_Root::SetMsgRegistrator ( msgreg );
170 myFixWire->SetMsgRegistrator ( msgreg );
171}
172
173//=======================================================================
174//function : SetPrecision
175//purpose :
176//=======================================================================
177
178void ShapeFix_Face::SetPrecision (const Standard_Real preci)
179{
180 ShapeFix_Root::SetPrecision ( preci );
181 myFixWire->SetPrecision ( preci );
182}
183
184//=======================================================================
185//function : SetMinTolerance
186//purpose :
187//=======================================================================
188
189void ShapeFix_Face::SetMinTolerance (const Standard_Real mintol)
190{
191 ShapeFix_Root::SetMinTolerance ( mintol );
192 myFixWire->SetMinTolerance ( mintol );
193}
194
195//=======================================================================
196//function : SetMaxTolerance
197//purpose :
198//=======================================================================
199
200void ShapeFix_Face::SetMaxTolerance (const Standard_Real maxtol)
201{
202 ShapeFix_Root::SetMaxTolerance ( maxtol );
203 myFixWire->SetMaxTolerance ( maxtol );
204}
205
206//=======================================================================
207//function : Init
208//purpose :
209//=======================================================================
210
211void ShapeFix_Face::Init (const Handle(Geom_Surface)& surf,
212 const Standard_Real preci, const Standard_Boolean fwd)
213{
214 myStatus = 0;
215 Handle(ShapeAnalysis_Surface) sas = new ShapeAnalysis_Surface ( surf );
216 Init ( sas, preci, fwd );
217}
218
219//=======================================================================
220//function : Init
221//purpose :
222//=======================================================================
223
224void ShapeFix_Face::Init (const Handle(ShapeAnalysis_Surface)& surf,
225 const Standard_Real preci, const Standard_Boolean fwd)
226{
227 myStatus = 0;
228 mySurf = surf;
229 SetPrecision ( preci );
230 BRep_Builder B;
231 B.MakeFace ( myFace, mySurf->Surface(), ::Precision::Confusion() );
232 myShape = myFace;
233 myFwd = fwd;
234 if ( !fwd ) myFace.Orientation(TopAbs_REVERSED);
235}
236
237//=======================================================================
238//function : Init
239//purpose :
240//=======================================================================
241
242void ShapeFix_Face::Init (const TopoDS_Face& face)
243{
244 myStatus = 0;
245 mySurf = new ShapeAnalysis_Surface ( BRep_Tool::Surface (face) );
246 myFwd = ( face.Orientation() != TopAbs_REVERSED );
247 myFace = face;
248 myShape = myFace;
249// myFace = TopoDS::Face(face.EmptyCopied());
250// for (TopoDS_Iterator ws (face,Standard_False); ws.More(); ws.Next())
251// Add (TopoDS::Wire (ws.Value()) );
252}
253
254//=======================================================================
255//function : Add
256//purpose :
257//=======================================================================
258
259void ShapeFix_Face::Add (const TopoDS_Wire& wire)
260{
261 if ( wire.IsNull() ) return;
262 BRep_Builder B;
263 //szv#4:S4163:12Mar99 SGI warns
264 TopoDS_Shape fc = myFace.Oriented(TopAbs_FORWARD); //:l2 abv 10 Jan 99: Oriented()
265 B.Add ( fc, wire );
266}
267
268
269//=======================================================================
270//function : SplitWire
271//purpose : auxilary - try to split wire (it is needed if some segments
272// were removed in ShapeFix_Wire::FixSelfIntersection()
273//=======================================================================
fdabc211 274static Standard_Boolean SplitWire(const TopoDS_Face &face, const TopoDS_Wire& wire,
7fd59977 275 TopTools_SequenceOfShape& aResWires)
276{
277 TColStd_MapOfInteger UsedEdges;
278 Handle(ShapeExtend_WireData) sewd = new ShapeExtend_WireData(wire);
279 Standard_Integer i,j,k;
280 ShapeAnalysis_Edge sae;
281 for(i=1; i<=sewd->NbEdges(); i++) {
282 if(UsedEdges.Contains(i)) continue;
283 TopoDS_Edge E1 = sewd->Edge(i);
284 UsedEdges.Add(i);
285 TopoDS_Vertex V0,V1,V2;
286 V0 = sae.FirstVertex(E1);
287 V1 = sae.LastVertex(E1);
288 Handle(ShapeExtend_WireData) sewd1 = new ShapeExtend_WireData;
289 sewd1->Add(E1);
290 Standard_Boolean IsConnectedEdge = Standard_True;
291 for(j=2; j<=sewd->NbEdges() && IsConnectedEdge; j++) {
fdabc211 292 TopoDS_Edge E2;
7fd59977 293 for(k=2; k<=sewd->NbEdges(); k++) {
294 if(UsedEdges.Contains(k)) continue;
fdabc211 295 E2 = sewd->Edge(k);
7fd59977 296 TopoDS_Vertex V21 = sae.FirstVertex(E2);
297 TopoDS_Vertex V22 = sae.LastVertex(E2);
298 if( sae.FirstVertex(E2).IsSame(V1) ) {
299 sewd1->Add(E2);
300 UsedEdges.Add(k);
301 V1 = sae.LastVertex(E2);
302 break;
303 }
304 }
7fd59977 305 if(k>sewd->NbEdges()) {
306 IsConnectedEdge = Standard_False;
307 break;
308 }
fdabc211 309 if(V1.IsSame(V0)) {
310 //check that V0 and V1 are same in 2d too
311 Standard_Real a1,b1,a2,b2;
312 Handle (Geom2d_Curve) curve1 = BRep_Tool::CurveOnSurface(E1,face,a1,b1);
313 Handle (Geom2d_Curve) curve2 = BRep_Tool::CurveOnSurface(E2,face,a2,b2);
314 gp_Pnt2d v0,v1;
315 if (E1.Orientation() == TopAbs_REVERSED)
316 a1 = b1;
317 if (E2.Orientation() == TopAbs_REVERSED)
318 b2 = a2;
319 curve1->D0(a1,v0);
320 curve2->D0(b2,v1);
321 GeomAdaptor_Surface anAdaptor(BRep_Tool::Surface(face));
322 Standard_Real tol = Max(BRep_Tool::Tolerance(V0),BRep_Tool::Tolerance(V1));
323 Standard_Real maxResolution = 2 * Max ( anAdaptor.UResolution(tol), anAdaptor.VResolution(tol) );
324 if (v0.SquareDistance(v1) < maxResolution) {
325 // new wire is closed, put it into sequence
326 aResWires.Append(sewd1->Wire());
327 break;
328 }
329 }
7fd59977 330 }
331 if(!IsConnectedEdge) {
332 // create new notclosed wire
333 aResWires.Append(sewd1->Wire());
334 }
335 if(UsedEdges.Extent()==sewd->NbEdges()) break;
336 }
337
338 if(aResWires.Length()>1) {
339#ifdef DEBUG
340 cout<<"Wire was splitted on "<<aResWires.Length()<<" wires"<< endl;
341#endif
342 }
343
344 return Standard_True;
345}
346
347
348//=======================================================================
349//function : Perform
350//purpose :
351//=======================================================================
352
353Standard_Boolean ShapeFix_Face::Perform()
354{
355 myStatus = ShapeExtend::EncodeStatus ( ShapeExtend_OK );
356 myFixWire->SetContext ( Context() );
357 Handle(ShapeFix_Wire) theAdvFixWire = Handle(ShapeFix_Wire)::DownCast(myFixWire);
358 if (theAdvFixWire.IsNull()) return Standard_False;
359
360 BRep_Builder B;
361 TopoDS_Shape aInitFace = myFace;
362 // perform first part of fixes on wires
363 Standard_Boolean isfixReorder = Standard_False;
364 Standard_Boolean isReplaced = Standard_False;
365
366 //gka fix in order to avoid lost messages (following OCC21771)
367 TopTools_DataMapOfShapeShape aMapReorderedWires;
368
369 Standard_Real aSavPreci = Precision();
370 if ( NeedFix ( myFixWireMode ) ) {
371 theAdvFixWire->SetFace ( myFace );
372
373 Standard_Integer usFixLackingMode = theAdvFixWire->FixLackingMode();
374 Standard_Integer usFixNotchedEdgesMode = theAdvFixWire->FixNotchedEdgesMode();
375 Standard_Integer usFixSelfIntersectionMode = theAdvFixWire->FixSelfIntersectionMode();
376 theAdvFixWire->FixLackingMode() = Standard_False;
377 theAdvFixWire->FixNotchedEdgesMode() = Standard_False;
378 theAdvFixWire->FixSelfIntersectionMode() = Standard_False;
379
380 Standard_Boolean fixed = Standard_False;
381 TopoDS_Shape S = myFace;
382 if ( ! Context().IsNull() )
383 S = Context()->Apply ( myFace );
384 TopoDS_Shape emptyCopied = S.EmptyCopied();
385 TopoDS_Face tmpFace = TopoDS::Face(emptyCopied);
386 tmpFace.Orientation ( TopAbs_FORWARD );
387
388 /*
389 // skl 14.05.2002 OCC55 + corrected 03.03.2004
390 Standard_Real dPreci = aSavPreci*aSavPreci;
391 dPreci*=4;
392 Standard_Real newpreci=dPreci;
393 for(TopExp_Explorer exp(S,TopAbs_EDGE); exp.More(); exp.Next()) {
394 TopoDS_Edge edge = TopoDS::Edge ( exp.Current() );
395 Standard_Real first,last;
396 Handle(Geom_Curve) c3d = BRep_Tool::Curve(edge, first, last);
397 if(!c3d.IsNull()) {
398 Bnd_Box bb;
399 bb.Add(c3d->Value(first));
400 bb.Add(c3d->Value(last));
401 bb.Add(c3d->Value((last+first)/2.));
402 Standard_Real x1,x2,y1,y2,z1,z2,size;
403 bb.Get(x1,y1,z1,x2,y2,z2);
404 size = (x2-x1)*(x2-x1) + (y2-y1)*(y2-y1) + (z2-z1)*(z2-z1);
405 if(size<newpreci) newpreci=size;
406 }
407 }
408 newpreci=sqrt(newpreci)/2.*1.00001;
409 if( aSavPreci > newpreci && newpreci > Precision::Confusion()) {
410 SetPrecision(newpreci);
411 theAdvFixWire->SetPrecision(newpreci);
412 }
413 // end skl 14.05.2002
414 */
415
416 // skl 29.03.2010 (OCC21623)
417 if( myAutoCorrectPrecisionMode ) {
418 Standard_Real size = ShapeFix::LeastEdgeSize(S);
419 Standard_Real newpreci = Min(aSavPreci,size/2.);
420 newpreci = newpreci*1.00001;
421 if( aSavPreci > newpreci && newpreci > Precision::Confusion()) {
422 SetPrecision(newpreci);
423 theAdvFixWire->SetPrecision(newpreci);
424 }
425 }
426
427 isfixReorder = Standard_False;
428 for ( TopoDS_Iterator iter(S,Standard_False); iter.More(); iter.Next()) {
429 if(iter.Value().ShapeType() != TopAbs_WIRE) {
430 B.Add ( tmpFace, iter.Value() );
431 continue;
432 }
433 TopoDS_Wire wire = TopoDS::Wire ( iter.Value() );
434 theAdvFixWire->Load ( wire );
435 if(theAdvFixWire->NbEdges() == 0) {
436 if(theAdvFixWire->WireData()->NbNonManifoldEdges())
437 B.Add ( tmpFace, wire );
438 else {
439 fixed = Standard_True;
440 myStatus |= ShapeExtend::EncodeStatus ( ShapeExtend_DONE5 );
441 }
442 continue;
443 }
444 if ( theAdvFixWire->Perform() ) {
445 //fixed = Standard_True;
673693f1 446 isfixReorder = ((theAdvFixWire->StatusReorder(ShapeExtend_DONE) && !theAdvFixWire->StatusReorder(ShapeExtend_DONE5)) || isfixReorder);
7fd59977 447 fixed = (theAdvFixWire->StatusSmall(ShapeExtend_DONE) ||
448 theAdvFixWire->StatusConnected(ShapeExtend_DONE) ||
449 theAdvFixWire->StatusEdgeCurves(ShapeExtend_DONE) ||
450 theAdvFixWire->StatusDegenerated(ShapeExtend_DONE) ||
451 theAdvFixWire->StatusClosed(ShapeExtend_DONE));
452 TopoDS_Wire w = theAdvFixWire->Wire();
453 if(fixed) {
454 if ( ! Context().IsNull() ) Context()->Replace ( wire, w );
455 if(theAdvFixWire->NbEdges() == 0) {
456 myStatus |= ShapeExtend::EncodeStatus ( ShapeExtend_DONE5 );
457 continue;
458 }
459 }
460 else if(!wire.IsSame(w))
461 aMapReorderedWires.Bind(wire,w);
462
463 wire = w;
464 }
465 B.Add ( tmpFace, wire );
466 // if ( theAdvFixWire->Status ( ShapeExtend_FAIL ) )
467 // myStatus |= ShapeExtend::EncodeStatus ( ShapeExtend_FAIL1 );
468 }
469
470 theAdvFixWire->FixLackingMode() = usFixLackingMode;
471 theAdvFixWire->FixNotchedEdgesMode() = usFixNotchedEdgesMode;
472 theAdvFixWire->FixSelfIntersectionMode() = usFixSelfIntersectionMode;
473 if ( ! myFwd ) tmpFace.Orientation ( TopAbs_REVERSED );
474
475 if ( fixed ) {
476 //if ( ! myFwd ) tmpFace.Orientation ( TopAbs_REVERSED );
477 if ( ! Context().IsNull() ) Context()->Replace ( S, tmpFace );
478 //myFace = tmpFace;
479 isReplaced = Standard_True;
7fd59977 480 }
673693f1 481 if(fixed || isfixReorder) {
7fd59977 482 myFace = tmpFace;
673693f1 483 myStatus |= ShapeExtend::EncodeStatus ( ShapeExtend_DONE1 );
484 }
7fd59977 485 }
486
487 myResult = myFace;
488 TopoDS_Shape savShape = myFace; //gka BUG 6555
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489
490 // Specific case for conic surfaces
491 if ( NeedFix(myFixPeriodicDegenerated) )
492 this->FixPeriodicDegenerated();
493
7fd59977 494 // fix missing seam
495 if ( NeedFix ( myFixMissingSeamMode ) ) {
496 if ( FixMissingSeam() ) {
497 myStatus |= ShapeExtend::EncodeStatus ( ShapeExtend_DONE3 );
498 }
499 }
500
501 // cycle by all possible faces coming from FixMissingSeam
502 // each face is processed as if it was single
503 TopExp_Explorer exp(myResult,TopAbs_FACE);
504 for ( ; exp.More(); exp.Next() ) {
505 myFace = TopoDS::Face ( exp.Current() );
506 Standard_Boolean NeedCheckSplitWire = Standard_False;
507
508 // perform second part of fixes on wires
509 if ( NeedFix ( myFixWireMode ) ) {
510 theAdvFixWire->SetFace ( myFace );
511
512 Standard_Integer usFixSmallMode = theAdvFixWire->FixSmallMode();
513 Standard_Integer usFixConnectedMode = theAdvFixWire->FixConnectedMode();
514 Standard_Integer usFixEdgeCurvesMode =theAdvFixWire->FixEdgeCurvesMode();
515 Standard_Integer usFixDegeneratedMode = theAdvFixWire->FixDegeneratedMode();
516 theAdvFixWire->FixSmallMode() = Standard_False;
517 theAdvFixWire->FixConnectedMode() = Standard_False;
518 theAdvFixWire->FixEdgeCurvesMode() = Standard_False;
519 theAdvFixWire->FixDegeneratedMode() = Standard_False;
520
521 Standard_Boolean fixed = Standard_False;
522 TopoDS_Shape S = myFace;
523 if ( ! Context().IsNull() )
524 S = Context()->Apply ( myFace );
525 TopoDS_Shape emptyCopied = S.EmptyCopied();
526 TopoDS_Face tmpFace = TopoDS::Face(emptyCopied);
527 tmpFace.Orientation ( TopAbs_FORWARD );
528 for ( TopoDS_Iterator iter(S,Standard_False); iter.More(); iter.Next()) {
529 if(iter.Value().ShapeType() != TopAbs_WIRE) {
530 B.Add ( tmpFace,iter.Value());
531 continue;
532 }
533
534 TopoDS_Wire wire = TopoDS::Wire ( iter.Value() );
535 theAdvFixWire->Load ( wire );
536 if(theAdvFixWire->NbEdges() == 0) {
537 if(theAdvFixWire->WireData()->NbNonManifoldEdges())
538 B.Add ( tmpFace, wire );
539 else {
540 fixed = Standard_True;
541 myStatus |= ShapeExtend::EncodeStatus ( ShapeExtend_DONE5 );
542 }
543 continue;
544 }
545 if ( theAdvFixWire->Perform() ) {
546 isfixReorder = theAdvFixWire->StatusReorder(ShapeExtend_DONE);
547 fixed = (theAdvFixWire->StatusLacking(ShapeExtend_DONE) ||
548 theAdvFixWire->StatusSelfIntersection(ShapeExtend_DONE) ||
549 theAdvFixWire->StatusNotches(ShapeExtend_DONE)); //Standard_True;
550 TopoDS_Wire w = theAdvFixWire->Wire();
551 if(fixed) {
552 if ( ! Context().IsNull() ) Context()->Replace ( wire, w );
553
554 }
555 else if(!wire.IsSame(w))
556 aMapReorderedWires.Bind(wire,w);
557
558 wire = w;
559 }
560 if(theAdvFixWire->StatusRemovedSegment())
561 NeedCheckSplitWire = Standard_True;
562
563 //fix for loop of wire
564 TopTools_SequenceOfShape aLoopWires;
565 if(NeedFix ( myFixLoopWiresMode) && FixLoopWire(aLoopWires)) {
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566 if (aLoopWires.Length() > 1)
567 SendWarning ( wire, Message_Msg ( "FixAdvFace.FixLoopWire.MSG0" ) );// Wire was splitted on several wires
7fd59977 568 myStatus |= ShapeExtend::EncodeStatus ( ShapeExtend_DONE7 );
569 fixed = Standard_True;
570 Standard_Integer k=1;
571 for( ; k <= aLoopWires.Length(); k++)
572 B.Add (tmpFace,aLoopWires.Value(k));
573 }
574 else
575 B.Add ( tmpFace, wire );
576 }
577
578 theAdvFixWire->FixSmallMode() = usFixSmallMode;
579 theAdvFixWire->FixConnectedMode() = usFixConnectedMode;
580 theAdvFixWire->FixEdgeCurvesMode() = usFixEdgeCurvesMode;
581 theAdvFixWire->FixDegeneratedMode() = usFixDegeneratedMode;
582
583 if ( fixed ) {
584 if ( ! myFwd ) tmpFace.Orientation ( TopAbs_REVERSED );
585 if(!isReplaced && !aInitFace.IsSame(myResult) && ! Context().IsNull()) //gka 06.09.04 BUG 6555
586 Context()->Replace(aInitFace,savShape);
587 if ( ! Context().IsNull() ) Context()->Replace ( S, tmpFace );
588 myFace = tmpFace;
589 myStatus |= ShapeExtend::EncodeStatus ( ShapeExtend_DONE1 );
590 }
591 }
592
593 if(NeedCheckSplitWire) {
594 // try to split wire - it is needed if some segments were removed
595 // in ShapeFix_Wire::FixSelfIntersection()
596 TopoDS_Shape S = myFace;
597 if ( ! Context().IsNull() )
598 S = Context()->Apply ( myFace );
599 TopoDS_Shape emptyCopied = S.EmptyCopied();
600 TopoDS_Face tmpFace = TopoDS::Face(emptyCopied);
601 tmpFace.Orientation ( TopAbs_FORWARD );
602 TopTools_SequenceOfShape aWires;
603 Standard_Integer nbw=0;
604 for ( TopoDS_Iterator iter(S,Standard_False); iter.More(); iter.Next()) {
605 if(iter.Value().ShapeType() != TopAbs_WIRE) {
606 B.Add (tmpFace,iter.Value());
607 continue;
608 }
56084216 609 if(iter.Value().Orientation() != TopAbs_FORWARD &&
7fd59977 610 iter.Value().Orientation() != TopAbs_REVERSED) {
611 B.Add (tmpFace,TopoDS::Wire(iter.Value()));
612 continue;
613 }
614 nbw++;
615 TopoDS_Wire wire = TopoDS::Wire ( iter.Value() );
fdabc211 616 SplitWire(tmpFace,wire,aWires);
7fd59977 617 }
618 if(nbw<aWires.Length()) {
619 for(Standard_Integer iw=1; iw<=aWires.Length(); iw++)
620 B.Add (tmpFace,aWires.Value(iw));
621 if ( ! Context().IsNull() ) Context()->Replace ( S, tmpFace );
622 myStatus |= ShapeExtend::EncodeStatus ( ShapeExtend_DONE8 );
623 myFace = tmpFace;
624 }
625 }
626
627 // fix intersecting wires
628 if(FixWiresTwoCoincEdges())
629 myStatus |= ShapeExtend::EncodeStatus ( ShapeExtend_DONE7 );
630 if ( NeedFix ( myFixIntersectingWiresMode ) ) {
631 if ( FixIntersectingWires() ) {
632 myStatus |= ShapeExtend::EncodeStatus ( ShapeExtend_DONE6 );
633 }
634 }
635
636 // fix orientation
637 TopTools_DataMapOfShapeListOfShape MapWires;
638 MapWires.Clear();
639 if ( NeedFix ( myFixOrientationMode ) ) {
640 if ( FixOrientation(MapWires) )
641 myStatus |= ShapeExtend::EncodeStatus ( ShapeExtend_DONE2 );
642 }
643
644 BRepTools::Update(myFace);
645
646 // fix natural bounds
647 Standard_Boolean NeedSplit = Standard_True;
648 if ( NeedFix ( myFixAddNaturalBoundMode ) ) {
649 if ( FixAddNaturalBound() ) {
650 NeedSplit = Standard_False;
651 myStatus |= ShapeExtend::EncodeStatus ( ShapeExtend_DONE5 );
652 }
653 }
654
655 // split face
656 if ( NeedFix ( myFixSplitFaceMode ) && NeedSplit && MapWires.Extent()>1 ) {
657 if ( FixSplitFace(MapWires) )
658 myStatus |= ShapeExtend::EncodeStatus ( ShapeExtend_DONE8 );
659 }
660
661 }
662
663 //return the original preci
664 SetPrecision(aSavPreci);
665 theAdvFixWire->SetPrecision(aSavPreci);
666
667 // cycle by all possible faces coming from FixAddNaturalBound
668 // each face is processed as if it was single
669 for ( exp.Init(myResult,TopAbs_FACE); exp.More(); exp.Next() ) {
670 myFace = TopoDS::Face ( exp.Current() );
671
672 // fix small-area wires
673 if ( NeedFix ( myFixSmallAreaWireMode, Standard_False ) ) {
674 if ( FixSmallAreaWire() )
675 myStatus |= ShapeExtend::EncodeStatus ( ShapeExtend_DONE4 );
676 }
677 }
678
679
680 if ( ! Context().IsNull() ) {
681 if(Status ( ShapeExtend_DONE ) && !isReplaced && !aInitFace.IsSame(savShape))
682 {
683 //gka fix in order to avoid lost messages (following OCC21771)
684 if(aMapReorderedWires.Extent())
685 {
686 TopoDS_Iterator aItW(aInitFace,Standard_False);
687 for( ; aItW.More() ; aItW.Next())
688 {
689 TopoDS_Shape aCurW = aItW.Value();
690 while(aMapReorderedWires.IsBound(aCurW))
691 {
692 TopoDS_Shape aFixW = aMapReorderedWires.Find(aCurW);
693 Context()->Replace(aCurW, aFixW);
694 aCurW = aFixW;
695 }
696 }
697
698 }
699 Context()->Replace(aInitFace, savShape);
700 }
701 myResult = Context()->Apply ( aInitFace ); //gka 06.09.04
702 }
703 else if(!Status ( ShapeExtend_DONE ))
704 myResult = aInitFace;
705
706 return Status ( ShapeExtend_DONE );
707}
708
709//=======================================================================
710//function : Auxiliary functions
711//purpose :
712//=======================================================================
713
714// Shift all pcurves of edges in the given wire on the given face
715// to vector <vec>
716static void Shift2dWire(const TopoDS_Wire w, const TopoDS_Face f,
717 const gp_Vec2d vec,
718 const Handle(ShapeAnalysis_Surface)& mySurf,
719 Standard_Boolean recompute3d = Standard_False)
720{
721 gp_Trsf2d tr2d;
722 tr2d.SetTranslation(vec.XY());
723 ShapeAnalysis_Edge sae;
724 ShapeBuild_Edge sbe;
725 BRep_Builder B;
726 for (TopoDS_Iterator ei (w,Standard_False); ei.More(); ei.Next()){
727 TopoDS_Edge edge = TopoDS::Edge(ei.Value());
728 Handle (Geom2d_Curve) C2d;
729 Standard_Real cf, cl;
730 if ( ! sae.PCurve(edge, f, C2d, cf, cl, Standard_True) ) continue;
731 C2d->Transform(tr2d);
732 if ( recompute3d ) {
733 // recompute 3d curve and vertex
734 sbe.RemoveCurve3d ( edge );
735 sbe.BuildCurve3d ( edge );
736 B.UpdateVertex ( sae.FirstVertex(edge), mySurf->Value(C2d->Value(cf)), 0. );
737 }
738 }
739}
740
741// Cut interval from the sequence of intervals
742static Standard_Boolean CutInterval (TColgp_SequenceOfPnt2d &intervals,
743 const gp_Pnt2d &toAddI,
744 const Standard_Real period)
745{
746 if ( intervals.Length() <=0 ) return Standard_False;
747 for ( Standard_Integer j=0; j <2; j++ ) { // try twice, align to bottom and to top
748 for ( Standard_Integer i=1; i <= intervals.Length(); i++ ) {
749 gp_Pnt2d interval = intervals(i);
750 // ACIS907, OCC921 a054a.sat (face 124)
751 Standard_Real shift = ShapeAnalysis::AdjustByPeriod ( ( j ? toAddI.X() : toAddI.Y() ),
752 0.5*( interval.X() + interval.Y() ),period);
753 gp_Pnt2d toAdd ( toAddI.X() + shift, toAddI.Y() + shift );
754 if ( toAdd.Y() <= interval.X() || toAdd.X() >= interval.Y() ) continue;
755 if ( toAdd.X() > interval.X() ) {
756 if ( toAdd.Y() < interval.Y() ) {
757 intervals.InsertBefore ( i, interval );
758 intervals.ChangeValue(i+1).SetX ( toAdd.Y() ); // i++...
759 }
760 intervals.ChangeValue(i).SetY ( toAdd.X() );
761 }
762 else if ( toAdd.Y() < interval.Y() ) {
763 intervals.ChangeValue(i).SetX ( toAdd.Y() );
764 }
765 else intervals.Remove ( i-- );
766 }
767 }
768 return Standard_True;
769}
770
771// Find middle of the biggest interval
772static Standard_Real FindBestInterval (TColgp_SequenceOfPnt2d &intervals)
773{
774 Standard_Real shift = 0., max = -1.;
775 for ( Standard_Integer i=1; i <= intervals.Length(); i++ ) {
776 gp_Pnt2d interval = intervals(i);
777 if ( interval.Y() - interval.X() <= max ) continue;
778 max = interval.Y() - interval.X();
779 shift = interval.X() + 0.5 * max;
780 }
781 return shift;
782}
783
784//=======================================================================
785//function : FixAddNaturalBound
786//purpose :
787//=======================================================================
788// Detect missing natural bounary on spherical surfaces and add it if
789// necessary
790//pdn 981202: add natural bounds if missing (on sphere only)
791//:abv 28.08.01: rewritten and extended for toruses
792
793Standard_Boolean ShapeFix_Face::FixAddNaturalBound()
794{
795 if ( ! Context().IsNull() ) {
796 TopoDS_Shape S = Context()->Apply ( myFace );
797 myFace = TopoDS::Face ( S );
798 }
799
800 // collect wires in sequence
801 TopTools_SequenceOfShape ws;
802 TopTools_SequenceOfShape vs;
803 TopoDS_Iterator wi (myFace,Standard_False);
804 for ( ; wi.More(); wi.Next()) {
805 if(wi.Value().ShapeType() == TopAbs_WIRE &&
806 (wi.Value().Orientation() == TopAbs_FORWARD || wi.Value().Orientation() == TopAbs_REVERSED))
807 ws.Append (wi.Value());
808 else
809 vs.Append(wi.Value());
810 }
811
812 // deal with case of empty face: just create a new one by standard tool
813 if ( ws.Length() <=0 ) {
1c72dff6 814 BRepBuilderAPI_MakeFace mf (mySurf->Surface(), Precision::Confusion());
7fd59977 815 if ( ! Context().IsNull() ) Context()->Replace ( myFace, mf.Face() );
816 myFace = mf.Face();
817
818 //gka 11.01.99 file PRO7755.stp entity #2018 surface #1895: error BRepLib_MakeFace func IsDegenerated
819 Handle(ShapeFix_Edge) sfe = myFixWire->FixEdgeTool();
820 for (TopExp_Explorer Eed (myFace, TopAbs_EDGE); Eed.More(); Eed.Next()) {
821 TopoDS_Edge edg = TopoDS::Edge (Eed.Current());
822 sfe->FixVertexTolerance(edg);
823 }
824
825// B.UpdateFace (myFace,myPrecision);
999d2599 826 SendWarning ( myFace, Message_Msg ( "FixAdvFace.FixOrientation.MSG0" ) );// Face created with natural bounds
7fd59977 827 BRepTools::Update(myFace);
828 return Standard_True;
829 }
830
831 // check that surface is double-closed and fix is needed
832 if ( ( mySurf->Adaptor3d()->GetType() != GeomAbs_Sphere &&
833 mySurf->Adaptor3d()->GetType() != GeomAbs_Torus ) ||
834 ShapeAnalysis::IsOuterBound (myFace) )
835 return Standard_False;
836
837 // Collect informations on free intervals in U and V
838 TColgp_SequenceOfPnt2d intU, intV, centers;
839 Standard_Real SUF, SUL, SVF, SVL;
840 mySurf->Bounds(SUF, SUL, SVF, SVL);
841 intU.Append ( gp_Pnt2d(SUF, SUL) );
842 intV.Append ( gp_Pnt2d(SVF, SVL) );
843 Standard_Integer nb = ws.Length();
844 Standard_Integer i;
845 for ( i=1; i <= nb; i ++) {
846 Standard_Real Umin, Vmin, Umax, Vmax;
847// Bnd_Box2d B;
848 TopoDS_Wire aw = TopoDS::Wire (ws.Value(i));
849 // PTV 01.11.2002 ACIS907, OCC921 begin
850// BRepTools::AddUVBounds(myFace,aw,B);
851// B.Get(Umin, Vmin, Umax, Vmax);
852 TopoDS_Face aWireFace = TopoDS::Face( myFace.EmptyCopied() );
853 BRep_Builder aB;
854 aB.Add( aWireFace, aw );
855 ShapeAnalysis::GetFaceUVBounds(aWireFace, Umin, Umax, Vmin, Vmax);
856 // PTV 01.11.2002 ACIS907, OCC921 end
857 if ( mySurf->IsUClosed() ) CutInterval ( intU, gp_Pnt2d(Umin,Umax), SUL-SUF );
858 if ( mySurf->IsVClosed() ) CutInterval ( intV, gp_Pnt2d(Vmin,Vmax), SVL-SVF );
859 centers.Append ( gp_Pnt2d ( 0.5*(Umin+Umax), 0.5*(Vmin+Vmax) ) );
860 }
861
862 // find best interval and thus compute shift
863 gp_Pnt2d shift(0.,0.);
864 if ( mySurf->IsUClosed() ) shift.SetX ( FindBestInterval ( intU ) );
865 if ( mySurf->IsVClosed() ) shift.SetY ( FindBestInterval ( intV ) );
866
867 // Adjust all other wires to be inside outer one
868 gp_Pnt2d center ( shift.X() + 0.5*(SUL-SUF), shift.Y() + 0.5*(SVL-SVF) );
869 for ( i=1; i <= nb; i++ ) {
870 TopoDS_Wire wire = TopoDS::Wire (ws.Value(i));
871 gp_Pnt2d sh(0.,0.);
872 if ( mySurf->IsUClosed() )
873 sh.SetX ( ShapeAnalysis::AdjustByPeriod ( centers(i).X(), center.X(), SUL-SUF ) );
874 if ( mySurf->IsVClosed() )
875 sh.SetY ( ShapeAnalysis::AdjustByPeriod ( centers(i).Y(), center.Y(), SVL-SVF ) );
876 Shift2dWire ( wire, myFace, sh.XY(), mySurf );
877 }
878
879 // Create naturally bounded surface and add that wire to sequence
880/* variant 1
881 // Create fictive grid and call ComposeShell
882 Handle(Geom_RectangularTrimmedSurface) RTS =
883 new Geom_RectangularTrimmedSurface ( mySurf->Surface(), SUF+shift.X(), SUL+shift.X(),
884 SVF+shift.Y(), SVL+shift.Y() );
885 Handle(TColGeom_HArray2OfSurface) grid = new TColGeom_HArray2OfSurface ( 1, 1, 1, 1 );
886 grid->SetValue ( 1, 1, RTS );
887 Handle(ShapeExtend_CompositeSurface) G = new ShapeExtend_CompositeSurface ( grid );
888 TopLoc_Location L;
889
890 ShapeFix_ComposeShell CompShell;
891 CompShell.Init ( G, L, myFace, ::Precision::Confusion() );
892 CompShell.ClosedMode() = Standard_True;
893 CompShell.NaturalBoundMode() = Standard_True;
894 CompShell.SetContext( Context() );
895 CompShell.SetMaxTolerance(MaxTolerance());
896 CompShell.Perform();
897 TopoDS_Shape res = CompShell.Result();
898
899 Context()->Replace ( myFace, res );
900 for (TopExp_Explorer exp ( res, TopAbs_FACE ); exp.More(); exp.Next() ) {
901 myFace = TopoDS::Face ( exp.Current() );
902 BRepTools::Update(myFace); //:p4
903 }
904 myResult = Context()->Apply ( myResult );
905*/
906/* variant 2 */
907 TopLoc_Location L;
908 Handle(Geom_Surface) surf = BRep_Tool::Surface ( myFace, L );
1c72dff6 909 BRepBuilderAPI_MakeFace mf (surf, Precision::Confusion());
7fd59977 910 TopoDS_Face ftmp = mf.Face();
911 ftmp.Location ( L );
912 for (wi.Initialize (ftmp,Standard_False); wi.More(); wi.Next()) {
913 if(wi.Value().ShapeType() != TopAbs_WIRE)
914 continue;
915 TopoDS_Wire wire = TopoDS::Wire ( wi.Value() );
916 ws.Append ( wire );
917 if ( shift.XY().Modulus() < ::Precision::PConfusion() ) continue;
918 Shift2dWire ( wire, myFace, shift.XY(), mySurf, Standard_True );
919 }
920
921 // Fix possible case on sphere when gap contains degenerated edge
922 // and thus has a common part with natural boundary
923 // Such hole should be merged with boundary
924 if ( mySurf->Adaptor3d()->GetType() == GeomAbs_Sphere &&
925 ws.Length() == nb+1 ) {
926 Handle(ShapeExtend_WireData) bnd =
927 new ShapeExtend_WireData ( TopoDS::Wire ( ws.Last() ) );
928 // code to become separate method FixTouchingWires()
929 for ( i=1; i <= nb; i++ ) {
930 Handle(ShapeExtend_WireData) sbwd =
931 new ShapeExtend_WireData ( TopoDS::Wire ( ws.Value(i) ) );
932 for (Standard_Integer j=1; j <= sbwd->NbEdges(); j++ ) {
933 if ( ! BRep_Tool::Degenerated ( sbwd->Edge(j) ) ) continue;
934 // find corresponding place in boundary
935 ShapeAnalysis_Edge sae;
936 TopoDS_Vertex V = sae.FirstVertex ( sbwd->Edge(j) );
937 Standard_Integer k;
938 for ( k=1; k <= bnd->NbEdges(); k++ ) {
939 if ( ! BRep_Tool::Degenerated ( bnd->Edge(k) ) ) continue;
940 if ( BRepTools::Compare ( V, sae.FirstVertex ( bnd->Edge(k) ) ) ) break;
941 }
942 if ( k > bnd->NbEdges() ) continue;
943 // and insert hole to that place
944 BRep_Builder B;
945 B.Degenerated ( sbwd->Edge(j), Standard_False );
946 B.Degenerated ( bnd->Edge(k), Standard_False );
947 sbwd->SetLast ( j );
948 bnd->Add ( sbwd, k+1 );
949 ws.Remove ( i-- );
950 nb--;
951 myFixWire->SetFace ( myFace );
952 myFixWire->Load ( bnd );
953 myFixWire->FixConnected();
954 myFixWire->FixDegenerated();
955 ws.SetValue ( ws.Length(), bnd->Wire() );
956 break;
957 }
958 }
959 }
960
961 // Create resulting face
962 BRep_Builder B;
963 TopoDS_Shape S = myFace.EmptyCopied();
964 S.Orientation ( TopAbs_FORWARD );
965 for ( i = 1; i <= ws.Length(); i++ ) B.Add ( S, ws.Value(i) );
966 for ( i = 1; i <= vs.Length(); i++ ) B.Add ( S, vs.Value(i) );
967 if ( ! myFwd ) S.Orientation (TopAbs_REVERSED);
968 if ( ! Context().IsNull() ) Context()->Replace ( myFace, S );
969 myFace = TopoDS::Face ( S );
970 BRepTools::Update(myFace);
971
972/**/
973#ifdef DEBUG
974 cout<<"Natural bound on sphere or torus with holes added"<<endl; // mise au point !
975#endif
999d2599 976 SendWarning ( myFace, Message_Msg ( "FixAdvFace.FixOrientation.MSG0" ) );// Face created with natural bounds
7fd59977 977 return Standard_True;
978}
979
980
981//=======================================================================
982//function : FixOrientation
983//purpose :
984//=======================================================================
985
986Standard_Boolean ShapeFix_Face::FixOrientation()
987{
988 TopTools_DataMapOfShapeListOfShape MapWires;
989 MapWires.Clear();
990 return FixOrientation(MapWires);
991}
992
993
994//=======================================================================
995//function : FixOrientation
996//purpose :
997//=======================================================================
998
999Standard_Boolean ShapeFix_Face::FixOrientation(TopTools_DataMapOfShapeListOfShape &MapWires)
1000{
1001 Standard_Boolean done = Standard_False;
1002
1003 if ( ! Context().IsNull() ) {
1004 TopoDS_Shape S = Context()->Apply ( myFace );
1005 myFace = TopoDS::Face ( S );
1006 }
1007 TopTools_SequenceOfShape ws;
1008 TopTools_SequenceOfShape allSubShapes;
1009 // smh: BUC60810 : protection against very small wires (one-edge, null-length)
1010 TopTools_SequenceOfShape VerySmallWires;
1011 for ( TopoDS_Iterator wi (myFace,Standard_False); wi.More(); wi.Next()) {
1012 if(wi.Value().ShapeType() == TopAbs_VERTEX ||
1013 (wi.Value().Orientation() != TopAbs_FORWARD &&
1014 wi.Value().Orientation() != TopAbs_REVERSED)) {
1015 allSubShapes.Append (wi.Value());
1016 //ws.Append (wi.Value());
1017 continue;
1018 }
1019
1020 TopoDS_Iterator ei (wi.Value(),Standard_False);
1021 TopoDS_Edge anEdge;
1022 Standard_Real length = RealLast();
1023 if ( ei.More() ) {
1024 anEdge = TopoDS::Edge(ei.Value());
1025 ei.Next();
1026 if ( ! ei.More() ) {
1027 length = 0;
1028 Standard_Real First, Last;
1029 Handle(Geom_Curve) c3d;
1030 ShapeAnalysis_Edge sae;
1031 if ( sae.Curve3d(anEdge,c3d,First,Last) ) {
1032 gp_Pnt pntIni = c3d->Value(First);
1033 gp_XYZ prev;
1034 prev = pntIni.XYZ();
1035 Standard_Integer NbControl = 10;
1036 for ( Standard_Integer j = 1; j < NbControl; j++) {
1037 Standard_Real prm = ((NbControl-1-j)*First + j*Last)/(NbControl-1);
1038 gp_Pnt pntCurr = c3d->Value(prm);
1039 gp_XYZ curr = pntCurr.XYZ();
1040 gp_XYZ delta = curr - prev;
1041 length += delta.Modulus();
1042 prev = curr;
1043 }
1044 }
1045 }
1046 }
1047 else length = 0;
1048 if (length > ::Precision::Confusion()) {
1049 ws.Append (wi.Value());
1050 allSubShapes.Append (wi.Value());
1051 }
1052 else VerySmallWires.Append (wi.Value());
1053 }
1054 if ( VerySmallWires.Length() >0 ) done = Standard_True;
1055
1056 Standard_Integer nb = ws.Length();
1057 Standard_Integer nbAll = allSubShapes.Length();
1058 BRep_Builder B;
1059
1060 // if no wires, just do nothing
1061 if ( nb <= 0) return Standard_False;
1062 Standard_Integer nbInternal=0;
1063 Standard_Boolean isAddNaturalBounds = (NeedFix (myFixAddNaturalBoundMode) &&
1064 ( mySurf->Adaptor3d()->GetType() == GeomAbs_Sphere ||
1065 mySurf->Adaptor3d()->GetType() == GeomAbs_Torus ));
1066 TColStd_SequenceOfInteger aSeqReversed;
1067 // if wire is only one, check its orientation
1068 if ( nb == 1 ) {
1069 // skl 12.04.2002 for cases with nbwires>1 (VerySmallWires>1)
1070 // make face with only one wire (ws.Value(1))
1071 TopoDS_Shape dummy = myFace.EmptyCopied();
1072 TopoDS_Face af = TopoDS::Face ( dummy );
1073 af.Orientation ( TopAbs_FORWARD );
1074 B.Add (af,ws.Value(1));
1075 if ( ( myFixAddNaturalBoundMode != Standard_True || //: abv 29.08.01: Spatial_firex_lofting.sat
1076 ( mySurf->Adaptor3d()->GetType() != GeomAbs_Sphere &&
1077 mySurf->Adaptor3d()->GetType() != GeomAbs_Torus ) ) &&
1078 ! ShapeAnalysis::IsOuterBound (af)) {
1079 Handle(ShapeExtend_WireData) sbdw =
1080 new ShapeExtend_WireData (TopoDS::Wire(ws.Value(1)));
1081 sbdw->Reverse ( myFace );
1082 ws.SetValue ( 1, sbdw->Wire() );
999d2599 1083 SendWarning ( sbdw->Wire(), Message_Msg ( "FixAdvFace.FixOrientation.MSG5" ) );// Wire on face was reversed
7fd59977 1084 done = Standard_True;
1085#ifdef DEBUG
1086 cout<<"Wire reversed"<<endl; // mise au point !
1087#endif
1088 }
1089 }
1090 // in case of several wires, perform complex analysis
1091// ATTENTION ESSAI
1092// Plusieurs wires : orientations relatives
1093// Chaque wire doit "contenir" tous les autres
1094// Evidemment, en cas de peau de leopard, il peut y avoir probleme
1095 else {
1096// On prend chaque wire (NB: pcurves presentes !)
1097// En principe on devrait rejeter les wires non fermes (cf couture manque ?)
1098// On le classe par rapport aux autres, qui doivent tous etre, soit IN soit
1099// OUT. Sinon il y a imbrication -> SDB. Si IN, OK, si OUT on inverse
1100// (nb : ici pas myClos donc pas de pb de couture)
1101// Si au moins une inversion, il faut refaire la face (cf myRebil)
1102
1103 //:94 abv 30 Jan 98: calculate parametric precision
1104
1105// GeomAdaptor_Surface& Ads = mySurf->Adaptor3d()->ChangeSurface();
1106// Standard_Real toluv = Min ( Ads.UResolution(Precision()), Ads.VResolution(Precision()) );
1107 Standard_Boolean uclosed = mySurf->IsUClosed();
1108 Standard_Boolean vclosed = mySurf->IsVClosed();
1109 Standard_Real SUF, SUL, SVF, SVL;
1110 mySurf->Bounds(SUF, SUL, SVF, SVL);
1111
1112 TopTools_DataMapOfShapeListOfShape MW;
1113 TopTools_DataMapOfShapeInteger SI;
1114 TopTools_MapOfShape MapIntWires;
1115 MW.Clear();
1116 SI.Clear();
1117 MapIntWires.Clear();
1118 Standard_Integer NbOuts=0;
1119 Standard_Integer i;
1120
1121 for ( i = 1; i <= nb; i ++) {
1122 TopoDS_Shape asw = ws.Value(i);
1123 TopoDS_Wire aw = TopoDS::Wire (asw);
1124 TopoDS_Shape dummy = myFace.EmptyCopied();
1125 TopoDS_Face af = TopoDS::Face ( dummy );
1126// B.MakeFace (af,mySurf->Surface(),::Precision::Confusion());
1127 af.Orientation ( TopAbs_FORWARD );
1128 B.Add (af,aw);
1129 // PTV OCC945 06.11.2002 files ie_exhaust-A.stp (entities 3782, 3787)
1130 // tolerance is too big. It is seems that to identify placement of 2d point
1131 // it is enough Precision::PConfusion(), cause wea re know that 2d point in TopAbs_ON
1132 // BRepTopAdaptor_FClass2d clas (af,toluv);
1133 Standard_Boolean CheckShift = Standard_True;
1134 BRepTopAdaptor_FClass2d clas (af,::Precision::PConfusion());
1135 TopAbs_State sta = TopAbs_OUT;
1136 TopAbs_State staout = clas.PerformInfinitePoint();
1137 TopTools_ListOfShape IntWires;
1138 for ( Standard_Integer j = 1; j <= nbAll; j ++) {
1139 //if(i==j) continue;
1140 TopoDS_Shape aSh2 = allSubShapes.Value(j);
1141 if(aw == aSh2)
1142 continue;
1143 TopAbs_State stb = TopAbs_UNKNOWN;
1144 if(aSh2.ShapeType() == TopAbs_VERTEX) {
1145 gp_Pnt aP = BRep_Tool::Pnt(TopoDS::Vertex(aSh2));
1146 gp_Pnt2d p2d = mySurf->ValueOfUV(aP,Precision::Confusion());
1147 stb = clas.Perform (p2d,Standard_False);
1148 if(stb == staout && (uclosed || vclosed)) {
1149 gp_Pnt2d p2d1;
1150 if(uclosed) {
1151 Standard_Real period = SUL-SUF;
1152 p2d1.SetCoord(p2d.X()+period, p2d.Y());
1153 stb = clas.Perform (p2d1,Standard_False);
1154
1155 }
1156 if(stb == staout && vclosed) {
1157 Standard_Real period = SVL-SVF;
1158 p2d1.SetCoord(p2d.X(), p2d.Y()+ period);
1159 stb = clas.Perform (p2d1,Standard_False);
1160 }
1161 }
1162 }
1163 else if (aSh2.ShapeType() == TopAbs_WIRE) {
1164 CheckShift = Standard_True;
1165 TopoDS_Wire bw = TopoDS::Wire (aSh2);
1166 // Standard_Integer numin =0;
1167 TopoDS_Iterator ew (bw);
1168 for(;ew.More(); ew.Next()) {
1169 TopoDS_Edge ed = TopoDS::Edge (ew.Value());
1170 Standard_Real cf,cl;
1171 Handle(Geom2d_Curve) cw = BRep_Tool::CurveOnSurface (ed,myFace,cf,cl);
1172 if (cw.IsNull()) continue;
1173 gp_Pnt2d unp = cw->Value ((cf+cl)/2.);
1174 TopAbs_State ste = clas.Perform (unp,Standard_False);
1175 if( ste==TopAbs_OUT || ste==TopAbs_IN ) {
1176 if(stb==TopAbs_UNKNOWN) {
1177 stb = ste;
1178 }
1179 else {
1180 if(!(stb==ste)) {
1181 sta = TopAbs_UNKNOWN;
1182 SI.Bind(aw,0);
1183 j=nb;
1184 break;
1185 }
1186 }
1187 }
1188
1189 Standard_Boolean found = Standard_False;
1190 gp_Pnt2d unp1;
1191 if( stb == staout && CheckShift ) {
1192 CheckShift = Standard_False;
1193 if(uclosed) {
1194 Standard_Real period = SUL-SUF;
1195 unp1.SetCoord(unp.X()+period, unp.Y());
1196 found = (staout != clas.Perform (unp1,Standard_False));
1197 if(!found) {
1198 unp1.SetX(unp.X()-period);
1199 found = (staout != clas.Perform (unp1,Standard_False));
1200 }
1201 }
1202 if(vclosed&&!found) {
1203 Standard_Real period = SVL-SVF;
1204 unp1.SetCoord(unp.X(), unp.Y()+period);
1205 found = (staout != clas.Perform (unp1,Standard_False));
1206 if(!found) {
1207 unp1.SetY(unp.Y()-period);
1208 found = (staout != clas.Perform (unp1,Standard_False));
1209 }
1210 }
1211 }
1212 if(found) {
1213 if(stb==TopAbs_IN) stb = TopAbs_OUT;
1214 else stb = TopAbs_IN;
1215 Shift2dWire(bw,myFace,unp1.XY()-unp.XY(), mySurf);
1216 }
1217 }
1218 }
1219 if(stb==staout) {
1220 sta = TopAbs_IN;
1221 }
1222 else {
1223 IntWires.Append(aSh2);
1224 MapIntWires.Add(aSh2);
1225 }
1226 }
1227
1228 if (sta == TopAbs_UNKNOWN) { // ERREUR
999d2599 1229 SendWarning ( aw, Message_Msg ( "FixAdvFace.FixOrientation.MSG11" ) );// Cannot orient wire
7fd59977 1230 }
1231 else {
1232 MW.Bind(aw,IntWires);
1233 if(sta==TopAbs_OUT) {
1234 NbOuts++;
1235 if(staout==TopAbs_IN) {
1236 // wire is OUT but InfinitePoint is IN => need to reverse
1237 ShapeExtend_WireData sewd (aw);
1238 sewd.Reverse(myFace);
1239 ws.SetValue (i,sewd.Wire());
999d2599 1240 SendWarning ( sewd.Wire(), Message_Msg ( "FixAdvFace.FixOrientation.MSG5" ) );// Wire on face was reversed
7fd59977 1241 aSeqReversed.Append(i);
1242 done = Standard_True;
1243 SI.Bind(ws.Value(i),1);
1244 MapWires.Bind(ws.Value(i),IntWires);
1245 }
1246 else {
1247 SI.Bind(aw,1);
1248 MapWires.Bind(aw,IntWires);
1249 }
1250 }
1251 else {
1252 if(staout==TopAbs_OUT) SI.Bind(aw,2);
1253 else SI.Bind(aw,3);
1254 }
1255 }
1256
1257 }
1258
1259 for(i=1; i<=nb; i++) {
1260 TopoDS_Wire aw = TopoDS::Wire (ws.Value(i));
1261 Standard_Integer tmpi = SI.Find(aw);
1262 if(tmpi>1) {
1263 if(!MapIntWires.Contains(aw)) {
1264 NbOuts++;
1265 const TopTools_ListOfShape& IW = MW.Find(aw);
1266 if(tmpi==3) {
1267 // wire is OUT but InfinitePoint is IN => need to reverse
1268 ShapeExtend_WireData sewd (aw);
1269 sewd.Reverse(myFace);
1270 ws.SetValue (i,sewd.Wire());
999d2599 1271 SendWarning ( sewd.Wire(), Message_Msg ( "FixAdvFace.FixOrientation.MSG5" ) );// Wire on face was reversed
7fd59977 1272 aSeqReversed.Append(i);
1273 done = Standard_True;
1274 MapWires.Bind(ws.Value(i),IW);
1275 }
1276 else MapWires.Bind(aw,IW);
1277 }
1278 else {
1279 if(tmpi==2) {
1280 // wire is IN but InfinitePoint is OUT => need to reverse
1281 ShapeExtend_WireData sewd (aw);
1282 sewd.Reverse(myFace);
1283 ws.SetValue (i,sewd.Wire());
999d2599 1284 SendWarning ( sewd.Wire(), Message_Msg ( "FixAdvFace.FixOrientation.MSG5" ) );// Wire on face was reversed
7fd59977 1285 aSeqReversed.Append(i);
1286 done = Standard_True;
1287 }
1288 }
1289 }
1290 }
1291
1292 }
1293
1294 //done = (done && (nb ==1 || (isAddNaturalBounds || (!isAddNaturalBounds && nbInternal <nb))));
1295 if(isAddNaturalBounds && nb == aSeqReversed.Length())
1296 done = Standard_False;
1297 else
1298 done = (done && (nb ==1 || (isAddNaturalBounds || (!isAddNaturalBounds && nbInternal <nb))));
1299 // Faut-il reconstruire ? si myRebil est mis
1300 if ( done ) {
1301 TopoDS_Shape S = myFace.EmptyCopied();
1302 S.Orientation ( TopAbs_FORWARD );
1303 Standard_Integer i = 1;
1304 for ( ; i <= nb; i++ )
1305 B.Add ( S, ws.Value(i) );
1306
1307 if(nb < nbAll) {
1308 for( i =1; i <= nbAll;i++) {
1309 TopoDS_Shape aS2 = allSubShapes.Value(i);
1310 if(aS2.ShapeType() != TopAbs_WIRE ||
1311 (aS2.Orientation() != TopAbs_FORWARD && aS2.Orientation() != TopAbs_REVERSED))
1312 B.Add ( S,aS2);
1313 }
1314 }
1315
1316 if ( ! myFwd ) S.Orientation (TopAbs_REVERSED);
1317 if ( ! Context().IsNull() ) Context()->Replace ( myFace, S );
1318 myFace = TopoDS::Face ( S );
1319 BRepTools::Update(myFace);
1320 Standard_Integer k =1;
999d2599
D
1321 for( ; k <= aSeqReversed.Length(); k++ )
1322 {
7fd59977 1323#ifdef DEBUG
999d2599 1324 cout<<"Wire no "<<aSeqReversed.Value(k)<<" of "<<nb<<" reversed"<<endl; // mise au point !
7fd59977 1325#endif
1326 }
1327
1328 }
1329 return done;
1330}
1331
1332
1333//=======================================================================
1334//function : CheckWire
1335//purpose : auxilary for FixMissingSeam
1336//=======================================================================
1337//:i7 abv 18 Sep 98: ProSTEP TR9 r0501-ug.stp: algorithm of fixing missing seam changed
1338// test whether the wire is opened on period of periodical surface
1339static Standard_Boolean CheckWire (const TopoDS_Wire &wire,
1340 const TopoDS_Face &face,
1341 const Standard_Real dU,
1342 const Standard_Real dV,
1343 Standard_Integer &isuopen,
1344 Standard_Integer &isvopen,
1345 Standard_Boolean &isDeg)
1346{
1347 gp_XY vec;
1348 vec.SetX(0);
1349 vec.SetY(0);
1350 ShapeAnalysis_Edge sae;
1351 isDeg = Standard_True;
1352 for ( TopoDS_Iterator ed(wire); ed.More(); ed.Next() ) {
1353 TopoDS_Edge edge = TopoDS::Edge ( ed.Value() );
1354 if ( ! BRep_Tool::Degenerated ( edge ) ) isDeg = Standard_False;
1355 Handle(Geom2d_Curve) c2d;
1356 Standard_Real f, l;
1357 if ( ! sae.PCurve ( edge, face, c2d, f, l, Standard_True ) )
1358 return Standard_False;
1359 vec += c2d->Value(l).XY() - c2d->Value(f).XY();
1360 }
1361 isuopen = ( Abs ( Abs ( vec.X() ) - dU ) < 0.1 * dU ? ( vec.X() >0 ? 1 : -1 ) : 0 );
1362 isvopen = ( Abs ( Abs ( vec.Y() ) - dV ) < 0.1 * dV ? ( vec.Y() >0 ? 1 : -1 ) : 0 );
1363 return isuopen || isvopen;
1364}
1365
1366
1367//=======================================================================
1368//function : FixMissingSeam
1369//purpose :
1370//=======================================================================
1371
1372Standard_Boolean ShapeFix_Face::FixMissingSeam()
1373{
1374 Standard_Boolean uclosed = mySurf->IsUClosed();
1375 Standard_Boolean vclosed = mySurf->IsVClosed();
1376
1377 if ( ! uclosed && ! vclosed ) return Standard_False;
1378
1379 if ( ! Context().IsNull() ) {
1380 TopoDS_Shape S = Context()->Apply ( myFace );
1381 myFace = TopoDS::Face ( S );
1382 }
1383
1384 //%pdn: surface should be made periodic before (see ShapeCustom_Surface)!
1385 if (mySurf->Surface()->IsKind(STANDARD_TYPE (Geom_BSplineSurface))) {
1386 Handle (Geom_BSplineSurface) BSpl = Handle (Geom_BSplineSurface)::DownCast (mySurf->Surface());
1387 if (!BSpl->IsUPeriodic() && !BSpl->IsVPeriodic())
1388 return Standard_False;
1389 }
1390
1391 Standard_Real URange, VRange, SUF, SUL, SVF, SVL;
1392 mySurf->Bounds ( SUF, SUL, SVF, SVL );
1393 Standard_Real fU1,fU2,fV1,fV2;
1394 BRepTools::UVBounds(myFace,fU1,fU2,fV1,fV2);
1395
1396 //pdn OCC55 fix to faces without the wires to avoid identical first and last parameters
1397 if ( ::Precision::IsInfinite ( SUF ) || ::Precision::IsInfinite ( SUL ) ) {
1398 if ( ::Precision::IsInfinite ( SUF ) ) SUF = fU1;
1399 if ( ::Precision::IsInfinite ( SUL ) ) SUL = fU2;
1400 if(Abs(SUL-SUF) < ::Precision::PConfusion())
1401 if ( ::Precision::IsInfinite ( SUF ) ) SUF-=1000.;
1402 else SUL+=1000.;
1403 }
1404 if ( ::Precision::IsInfinite ( SVF ) || ::Precision::IsInfinite ( SVL ) ) {
1405 if ( ::Precision::IsInfinite ( SVF ) ) SVF = fV1;
1406 if ( ::Precision::IsInfinite ( SVL ) ) SVL = fV2;
1407 if(Abs(SVL-SVF) < ::Precision::PConfusion())
1408 if ( ::Precision::IsInfinite ( SVF ) ) SVF-=1000.;
1409 else SVL+=1000.;
1410 }
1411
1412 URange = Abs ( SUL - SUF );
1413 VRange = Abs ( SVL - SVF );
1414// Standard_Real UTol = 0.2 * URange, VTol = 0.2 * VRange;
1415 Standard_Integer ismodeu = 0, ismodev = 0; //szv#4:S4163:12Mar99 was Boolean
1416 Standard_Integer isdeg1=0, isdeg2=0;
1417
1418 TopTools_SequenceOfShape ws;
1419 TopTools_SequenceOfShape aSeqNonManif;
1420 for ( TopoDS_Iterator wi(myFace,Standard_False); wi.More(); wi.Next() ) {
1421 if(wi.Value().ShapeType() != TopAbs_WIRE ||
1422 (wi.Value().Orientation() != TopAbs_FORWARD && wi.Value().Orientation() != TopAbs_REVERSED)) {
1423 aSeqNonManif.Append(wi.Value());
1424 continue;
1425 }
1426 ws.Append ( wi.Value() );
1427 }
1428
1429 TopoDS_Wire w1, w2;
1430 Standard_Integer i;
1431 for ( i=1; i <= ws.Length(); i++ ) {
1432 TopoDS_Wire wire = TopoDS::Wire ( ws.Value(i) );
1433 Standard_Integer isuopen, isvopen;
1434 Standard_Boolean isdeg;
1435 if ( ! CheckWire ( wire, myFace, URange, VRange, isuopen, isvopen, isdeg ) )
1436 continue;
1437 if ( w1.IsNull() ) { w1 = wire; ismodeu = isuopen; ismodev = isvopen; isdeg1 = isdeg ? i : 0; }
1438 else if ( w2.IsNull() ) {
1439 if ( ismodeu == -isuopen && ismodev == -isvopen ) { w2 = wire; isdeg2 = isdeg ? i : 0; }
1440 else if ( ismodeu == isuopen && ismodev == isvopen ) {
1441 w2 = wire;
1442 isdeg2 = isdeg;
1443 //:abv 29.08.01: If wires are contraversal, reverse one of them
1444 // If first one is single degenerated edge, reverse it; else second
1445 if ( isdeg1 ) {
1446 w1.Reverse();
1447 ismodeu = -ismodeu;
1448 ismodev = -ismodev;
1449 }
1450 else {
1451 w2.Reverse();
1452#ifdef DEB
1453 if ( ! isdeg2 ) cout << "Warning: ShapeFix_Face::FixMissingSeam(): wire reversed" << endl;
1454#endif
1455 }
1456 }
1457#ifdef DEB
1458 else cout << "Warning: ShapeFix_Face::FixMissingSeam(): incompatible open wires" << endl;
1459#endif
1460 }
1461// else return Standard_False; // abort
1462 else {
1463#ifdef DEB
1464 cout << "Warning: ShapeFix_Face::FixMissingSeam(): more than two open wires detected!" << endl;
1465#endif
1466 //:abv 30.08.09: if more than one open wires and more than two of them are
1467 // completely degenerated, remove any of them
1468 if ( isdeg || isdeg1 || isdeg2 ) {
1469 ws.Remove ( isdeg ? i : isdeg2 ? isdeg2 : isdeg1 );
1470 w1.Nullify();
1471 w2.Nullify();
1472 i = 0;
1473#ifdef DEB
1474 cout << "Warning: ShapeFix_Face::FixMissingSeam(): open degenerated wire removed" << endl;
1475#endif
1476 continue;
1477 }
1478 }
1479 }
1480
1481 BRep_Builder B;
1482 if ( w1.IsNull() ) return Standard_False;
1483 else if ( w2.IsNull() ) {
1484 // WARNING!!! Temporarily for spheres only:
1485 // If only one of wires limiting face on sphere is open in 2d,
1486 // this means that degenerated edge should be added to one of poles, and
1487 // then usual procedure applied
1488 if ( ismodeu && mySurf->Surface()->IsKind(STANDARD_TYPE(Geom_SphericalSurface)) ) {
c6541a0c 1489 gp_Pnt2d p ( ( ismodeu < 0 ? 0. : 2.*M_PI ), ismodeu * 0.5 * M_PI );
7fd59977 1490 gp_Dir2d d ( -ismodeu, 0. );
1491 Handle(Geom2d_Line) line = new Geom2d_Line ( p, d );
1492 TopoDS_Edge edge;
1493 B.MakeEdge ( edge );
1494 B.Degenerated ( edge, Standard_True );
1495 B.UpdateEdge ( edge, line, myFace, ::Precision::Confusion() );
c6541a0c 1496 B.Range ( edge, myFace, 0., 2*M_PI );
7fd59977 1497 TopoDS_Vertex V;
1498 B.MakeVertex ( V, mySurf->Value ( p.X(), p.Y() ), ::Precision::Confusion() );
1499 V.Orientation(TopAbs_FORWARD);
1500 B.Add(edge,V);
1501 V.Orientation(TopAbs_REVERSED);
1502 B.Add(edge,V);
1503 B.MakeWire ( w2 );
1504 B.Add ( w2, edge );
1505 ws.Append ( w2 );
1506 }
1507 else return Standard_False;
1508 }
1509
1510 // sort original wires
1511 Handle(ShapeFix_Wire) sfw = new ShapeFix_Wire;
1512 sfw->SetFace ( myFace );
1513 sfw->SetPrecision ( Precision() );
1514
1515 Handle(ShapeExtend_WireData) wd1 = new ShapeExtend_WireData ( w1 );
1516 Handle(ShapeExtend_WireData) wd2 = new ShapeExtend_WireData ( w2 );
1517
1518 // sorting
1519// Standard_Boolean degenerated = ( secondDeg != firstDeg );
1520// if ( ! degenerated ) {
1521 sfw->Load ( wd1 );
1522 sfw->FixReorder();
1523// }
1524 sfw->Load ( wd2 );
1525 sfw->FixReorder();
1526
1527 //:abv 29.08.01: reconstruct face taking into account reversing
1528 TopoDS_Shape dummy = myFace.EmptyCopied();
1529 TopoDS_Face tmpF = TopoDS::Face ( dummy );
1530 tmpF.Orientation ( TopAbs_FORWARD );
1531 for ( i=1; i <= ws.Length(); i++ ) {
1532 TopoDS_Wire wire = TopoDS::Wire ( ws.Value(i) );
1533 if ( wire.IsSame ( w1 ) ) wire = w1;
1534 else if ( wire.IsSame ( w2 ) ) wire = w2;
1535 B.Add ( tmpF, wire );
1536 }
1537 tmpF.Orientation ( myFace.Orientation() );
1538
1539 Standard_Real uf=SUF, vf=SVF;
1540
1541 // A special kind of FixShifted is necessary for torus-like
1542 // surfaces to adjust wires by period ALONG the missing SEAM direction
1543 // tr9_r0501-ug.stp #187640
1544 if ( uclosed && vclosed ) {
1545 Standard_Integer coord = ( ismodeu ? 1 : 0 );
1546 Standard_Integer isneg = ( ismodeu ? ismodeu : -ismodev );
1547 Standard_Real period = ( ismodeu ? URange : VRange );
1548 TopoDS_Shape S;
1549 Standard_Real m1[2][2], m2[2][2];
1550 S = tmpF.EmptyCopied();
1551 B.Add ( S, w1 );
1552 ShapeAnalysis::GetFaceUVBounds (TopoDS::Face(S), m1[0][0], m1[0][1], m1[1][0], m1[1][1]);
1553 S = tmpF.EmptyCopied();
1554 B.Add ( S, w2 );
1555 ShapeAnalysis::GetFaceUVBounds (TopoDS::Face(S), m2[0][0], m2[0][1], m2[1][0], m2[1][1]);
1556 Standard_Real shiftw2 =
1557 ShapeAnalysis::AdjustByPeriod ( 0.5 * ( m2[coord][0] + m2[coord][1] ),
1558 0.5 * ( m1[coord][0] + m1[coord][1] +
1559 isneg * ( period + ::Precision::PConfusion() ) ),
1560 period );
1561 m1[coord][0] = Min ( m1[coord][0], m2[coord][0] + shiftw2 );
1562 m1[coord][1] = Max ( m1[coord][1], m2[coord][1] + shiftw2 );
1563 for ( TopoDS_Iterator it(tmpF,Standard_False); it.More(); it.Next() ) {
1564 if(it.Value().ShapeType() != TopAbs_WIRE)
1565 continue;
1566 TopoDS_Wire w = TopoDS::Wire ( it.Value() );
1567 if ( w == w1 ) continue;
1568 Standard_Real shift;
1569 if ( w == w2 ) shift = shiftw2;
1570 else {
1571 S = tmpF.EmptyCopied();
1572 B.Add ( S, w );
1573 ShapeAnalysis::GetFaceUVBounds (TopoDS::Face(S), m2[0][0], m2[0][1], m2[1][0], m2[1][1]);
1574 shift = ShapeAnalysis::AdjustByPeriod ( 0.5 * ( m2[coord][0] + m2[coord][1] ),
1575 0.5 * ( m1[coord][0] + m1[coord][1] ), period );
1576 }
1577 if ( shift != 0. ) {
1578 gp_Vec2d V(0.,0.);
1579 V.SetCoord ( coord+1, shift );
1580 ShapeAnalysis_Edge sae;
1581 for ( TopoDS_Iterator iw(w); iw.More(); iw.Next() ) {
1582 TopoDS_Edge E = TopoDS::Edge ( iw.Value() );
1583 Handle(Geom2d_Curve) C;
1584 Standard_Real a, b;
1585 if ( ! sae.PCurve ( E, tmpF, C, a, b ) ) continue;
1586 C->Translate ( V );
1587 }
1588 }
1589 }
1590 // abv 05 Feb 02: OCC34
1591 // by the way, select proper split place by V to avoid extra intersections
1592 if ( m1[coord][1] - m1[coord][0] <= period ) {
1593 Standard_Real other = 0.5 * ( m1[coord][0] + m1[coord][1] - period );
1594 if ( ismodeu ) vf = other;
1595 else uf = other;
1596 }
1597 }
1598
1599 // find the best place by u and v to insert a seam
1600 // (so as to minimize splitting edges as possible)
1601 ShapeAnalysis_Edge sae;
1602 Standard_Integer foundU=0, foundV=0;
1603 Standard_Integer nb1 = wd1->NbEdges();
1604 Standard_Integer nb2 = wd2->NbEdges();
1605 for ( Standard_Integer i1 = 1; i1 <= nb1 + nb2; i1++ ) {
1606 TopoDS_Edge edge1 = ( i1 <= nb1 ? wd1->Edge ( i1 ) : wd2->Edge ( i1-nb1 ) );
1607 Handle(Geom2d_Curve) c2d;
1608 Standard_Real f, l;
1609 if ( ! sae.PCurve ( edge1, tmpF, c2d, f, l, Standard_True ) ) return Standard_False;
1610 gp_Pnt2d pos1 = c2d->Value(l).XY();
1611 // the best place is end of edge which is nearest to 0
1612 Standard_Boolean skipU = ! uclosed;
1613 if ( uclosed && ismodeu ) {
1614 pos1.SetX ( pos1.X() + ShapeAnalysis::AdjustByPeriod ( pos1.X(), SUF, URange ) );
1615 if ( foundU ==2 && Abs ( pos1.X() ) > Abs(uf) ) skipU = Standard_True;
1616 else if ( ! foundU || ( foundU ==1 && Abs ( pos1.X() ) < Abs(uf) ) ) {
1617 foundU = 1;
1618 uf = pos1.X();
1619 }
1620 }
1621 Standard_Boolean skipV = ! vclosed;
1622 if ( vclosed && ! ismodeu ) {
1623 pos1.SetY ( pos1.Y() + ShapeAnalysis::AdjustByPeriod ( pos1.Y(), SVF, URange ) );
1624 if ( foundV ==2 && Abs ( pos1.Y() ) > Abs(vf) ) skipV = Standard_True;
1625 else if ( ! foundV || ( foundV ==1 && Abs ( pos1.Y() ) < Abs(vf) ) ) {
1626 foundV = 1;
1627 vf = pos1.Y();
1628 }
1629 }
1630 if ( skipU && skipV )
1631 if ( i1 <= nb1 ) continue;
1632 else break;
1633 // or yet better - if it is end of some edges on both wires
1634 for ( Standard_Integer i2 = 1; i1 <= nb1 && i2 <= nb2; i2++ ) {
1635 TopoDS_Edge edge2 = wd2->Edge ( i2 );
1636 if ( ! sae.PCurve ( edge2, tmpF, c2d, f, l, Standard_True ) ) return Standard_False;
1637 gp_Pnt2d pos2 = c2d->Value(f).XY();
1638 if ( uclosed && ismodeu ) {
1639 pos2.SetX ( pos2.X() + ShapeAnalysis::AdjustByPeriod ( pos2.X(), pos1.X(), URange ) );
1640 if ( Abs ( pos2.X() - pos1.X() ) < ::Precision::PConfusion() &&
1641 ( foundU != 2 || Abs ( pos1.X() ) < Abs ( uf ) ) ) {
1642 foundU = 2;
1643 uf = pos1.X();
1644 }
1645 }
1646 if ( vclosed && ! ismodeu ) {
1647 pos2.SetY ( pos2.Y() + ShapeAnalysis::AdjustByPeriod ( pos2.Y(), pos1.Y(), VRange ) );
1648 if ( Abs ( pos2.Y() - pos1.Y() ) < ::Precision::PConfusion() &&
1649 ( foundV != 2 || Abs ( pos1.Y() ) < Abs ( vf ) ) ) {
1650 foundV = 2;
1651 vf = pos1.Y();
1652 }
1653 }
1654 }
1655 }
1656
1657 //pdn fixing RTS on offsets
1658 if ( uf < SUF || uf > SUL )
1659 uf+=ShapeAnalysis::AdjustToPeriod(uf,SUF,SUF+URange);
1660 if ( vf < SVF || vf > SVL )
1661 vf+=ShapeAnalysis::AdjustToPeriod(vf,SVF,SVF+VRange);
1662
1663 // Create fictive grid and call ComposeShell to insert a seam
1664 Handle(Geom_RectangularTrimmedSurface) RTS =
1665 new Geom_RectangularTrimmedSurface ( mySurf->Surface(), uf, uf+URange, vf, vf+VRange );
1666 Handle(TColGeom_HArray2OfSurface) grid = new TColGeom_HArray2OfSurface ( 1, 1, 1, 1 );
1667 grid->SetValue ( 1, 1, RTS ); //mySurf->Surface() );
1668 Handle(ShapeExtend_CompositeSurface) G = new ShapeExtend_CompositeSurface ( grid );
1669 TopLoc_Location L;
1670
1671 //addition non-manifold topology
1672 Standard_Integer j=1;
1673 for( ; j <= aSeqNonManif.Length(); j++)
1674 B.Add(tmpF,aSeqNonManif.Value(j));
1675
1676 ShapeFix_ComposeShell CompShell;
1677// TopoDS_Face tmpF = myFace;
1678// tmpF.Orientation(TopAbs_FORWARD);
1679 CompShell.Init ( G, L, tmpF, ::Precision::Confusion() );//myPrecision
1680 if ( Context().IsNull() ) SetContext ( new ShapeBuild_ReShape );
1681 CompShell.ClosedMode() = Standard_True;
1682 CompShell.SetContext( Context() );
1683 CompShell.SetMaxTolerance(MaxTolerance());
1684 CompShell.Perform();
1685
1686 // abv 03.07.00: CAX-IF TRJ4: trj4_k1_goe-tu-214.stp: #785: reset mySurf
1687 mySurf = new ShapeAnalysis_Surface ( RTS );
1688
1689 myResult = CompShell.Result();
1690// if ( myFace.Orientation() == TopAbs_REVERSED ) res.Reverse();
1691 Context()->Replace ( myFace, myResult );
1692 for (TopExp_Explorer exp ( myResult, TopAbs_FACE ); exp.More(); exp.Next() ) {
1693 myFace = TopoDS::Face ( exp.Current() );
1694 BRepTools::Update(myFace); //:p4
1695 }
1696
999d2599 1697 SendWarning ( Message_Msg ( "FixAdvFace.FixMissingSeam.MSG0" ) );// Missing seam-edge added
7fd59977 1698 return Standard_True;
1699}
1700
1701//=======================================================================
1702//function : FixSmallAreaWire
1703//purpose :
1704//=======================================================================
1705
1706//%14 pdn 24.02.99 PRO10109, USA60293 fix wire on face with small area.
1707Standard_Boolean ShapeFix_Face::FixSmallAreaWire()
1708{
1709 if ( ! Context().IsNull() ) {
1710 TopoDS_Shape S = Context()->Apply ( myFace );
1711 myFace = TopoDS::Face ( S );
1712 }
1713
1714 //smh#8
1715 TopoDS_Shape emptyCopied = myFace.EmptyCopied();
1716 TopoDS_Face face = TopoDS::Face (emptyCopied);
1717 Standard_Integer nbRemoved = 0, nbWires = 0;
1718 BRep_Builder B;
1719 Standard_Real prec = ::Precision::PConfusion()*100;
1720 for (TopoDS_Iterator wi (myFace, Standard_False); wi.More(); wi.Next()) {
1721 if(wi.Value().ShapeType() != TopAbs_WIRE &&
56084216 1722 (wi.Value().Orientation() != TopAbs_FORWARD && wi.Value().Orientation() != TopAbs_REVERSED))
7fd59977 1723 continue;
1724 TopoDS_Wire wire = TopoDS::Wire ( wi.Value() );
1725 Handle(ShapeAnalysis_Wire) saw = new ShapeAnalysis_Wire(wire,myFace,prec);
999d2599
D
1726 if ( saw->CheckSmallArea(prec) )
1727 {
1728 SendWarning ( wire, Message_Msg ("FixAdvFace.FixSmallAreaWire.MSG0") );// Null area wire detected, wire skipped
1729 nbRemoved++;
1730 }
1731 else
1732 {
7fd59977 1733 B.Add(face,wire);
1734 nbWires++;
1735 }
1736 }
1737 if ( nbRemoved <=0 ) return Standard_False;
1738
1739 if ( nbWires <=0 ) {
1740#ifdef DEB
1741 cout << "Warning: ShapeFix_Face: All wires on a face have small area; left untouched" << endl;
1742#endif
1743 return Standard_False;
1744 }
1745#ifdef DEB
1746 cout << "Warning: ShapeFix_Face: " << nbRemoved << " small area wire(s) removed" << endl;
1747#endif
1748 if ( ! Context().IsNull() ) Context()->Replace ( myFace, face );
1749 myFace = face;
7fd59977 1750 return Standard_True;
1751}
1752//=======================================================================
1753//function : FixLoopWire
1754//purpose :
1755//=======================================================================
1756static void FindNext(const TopoDS_Shape& aVert,
1757 const TopoDS_Shape& ainitEdge,
1758 TopTools_IndexedMapOfShape& aMapVertices,
1759 TopTools_DataMapOfShapeListOfShape& aMapVertexEdges,
1760 const TopTools_MapOfShape& aMapSmallEdges,
1761 const TopTools_MapOfShape& aMapSeemEdges,
1762 TopTools_MapOfShape& aMapEdges,
1763 Handle(ShapeExtend_WireData)& aWireData)
1764{
1765 TopoDS_Iterator aItV(ainitEdge);
1766 TopoDS_Shape anextVert = aVert;
1767 Standard_Boolean isFind = Standard_False;
1768 for( ; aItV.More() && !isFind; aItV.Next())
1769 {
1770 if(!aItV.Value().IsSame(aVert) ) {
1771 isFind = Standard_True;
1772 anextVert = aItV.Value();
1773
1774 }
1775 }
1776
1777 if(!isFind && !aMapSmallEdges.Contains(ainitEdge))
1778 return;
1779 if(isFind && aMapVertices.Contains(anextVert))
1780 return;
1781
1782 const TopTools_ListOfShape& aledges = aMapVertexEdges.Find(anextVert);
1783 TopTools_ListIteratorOfListOfShape liter(aledges);
1784 isFind = Standard_False;
1785 TopoDS_Shape anextEdge;
1786 for( ; liter.More() && !isFind; liter.Next())
1787 {
1788 if(!aMapEdges.Contains(liter.Value()) && !liter.Value().IsSame(ainitEdge)) {
1789 anextEdge = liter.Value();
1790 aWireData->Add(anextEdge);
1791 if(aMapSeemEdges.Contains(anextEdge))
1792 aWireData->Add(anextEdge.Reversed());
1793 isFind = Standard_True;
1794 aMapEdges.Add(anextEdge);
1795 FindNext(anextVert,anextEdge,aMapVertices,aMapVertexEdges,aMapSmallEdges,aMapSeemEdges,aMapEdges,aWireData);
1796 }
1797 }
1798 return;
1799}
1800
1801static Standard_Boolean isClosed2D(const TopoDS_Face& aFace,const TopoDS_Wire& aWire)
1802{
1803 Standard_Boolean isClosed = Standard_True;
1804 Handle(ShapeAnalysis_Wire) asaw = new ShapeAnalysis_Wire(aWire,aFace,Precision::Confusion());
1805 for (Standard_Integer i = 1; i <= asaw->NbEdges() && isClosed; i++) {
1806 TopoDS_Edge edge1 = asaw->WireData()->Edge(i);
1807 //checking that wire is closed in 2D space with tolerance of vertex.
1808 ShapeAnalysis_Edge sae;
1809 TopoDS_Vertex v1 = sae.FirstVertex(edge1);
1810 asaw->SetPrecision(BRep_Tool::Tolerance(v1));
1811 asaw->CheckGap2d(i);
1812 isClosed = (asaw->LastCheckStatus(ShapeExtend_OK));
1813
1814 }
1815 return isClosed;
1816}
1817
1818//=======================================================================
1819//function : FixLoopWire
1820//purpose :
1821//=======================================================================
1822
1823Standard_Boolean ShapeFix_Face::FixLoopWire(TopTools_SequenceOfShape& aResWires)
1824{
1825 TopTools_IndexedMapOfShape aMapVertices;
1826 TopTools_DataMapOfShapeListOfShape aMapVertexEdges;
1827 TopTools_MapOfShape aMapSmallEdges;
1828 TopTools_MapOfShape aMapSeemEdges;
1829 if(!FixWireTool()->Analyzer()->CheckLoop(aMapVertices, aMapVertexEdges,aMapSmallEdges,aMapSeemEdges))
1830 return Standard_False;
1831
1832
1833 TopTools_MapOfShape aMapEdges;
1834 TopTools_SequenceOfShape aSeqWires;
1835
1836 //collecting wires from common vertex belonging more than 2 edges
1837 Standard_Integer i =1;
1838 for( ; i <= aMapVertices.Extent(); i++) {
1839 TopoDS_Shape aVert = aMapVertices.FindKey(i);
1840 const TopTools_ListOfShape& aledges = aMapVertexEdges.Find(aVert);
1841 TopTools_ListIteratorOfListOfShape liter(aledges);
1842 for( ; liter.More(); liter.Next())
1843 {
1844 TopoDS_Edge Edge = TopoDS::Edge(liter.Value());
1845 if(aMapEdges.Contains(Edge))
1846 continue;
1847
1848 Handle(ShapeExtend_WireData) aWireData = new ShapeExtend_WireData;
1849 aWireData->Add(Edge);
1850 if(aMapSeemEdges.Contains(Edge))
1851 aWireData->Add(Edge.Reversed());
1852 aMapEdges.Add(Edge);
1853 FindNext(aVert,Edge,aMapVertices,aMapVertexEdges,aMapSmallEdges,aMapSeemEdges,aMapEdges,aWireData);
1854 if(aWireData->NbEdges() ==1 && aMapSmallEdges.Contains(aWireData->Edge(1)))
1855 continue;
1856 TopoDS_Vertex aV1,aV2;
1857 TopoDS_Wire aWire = aWireData->Wire();
1858 TopExp::Vertices(aWire,aV1,aV2);
1859
1860 if(aV1.IsSame(aV2)) {
1861 Handle(ShapeExtend_WireData) asewd = new ShapeExtend_WireData(aWire);
1862 Handle(ShapeFix_Wire) asfw = new ShapeFix_Wire;
1863 asfw->Load(asewd);
1864 asfw->FixReorder();
1865 TopoDS_Wire awire2 = asfw->Wire();
1866 aResWires.Append(awire2);
1867
1868 }
1869 else aSeqWires.Append(aWireData->Wire());
1870 }
1871 }
1872
1873
1874 if(aSeqWires.Length() ==1) {
1875 aResWires.Append(aSeqWires.Value(1));
1876 }
1877 else {
1878 //collecting whole wire from two not closed wires having two common vertices.
1879 for( i =1; i <= aSeqWires.Length(); i++) {
1880 TopoDS_Vertex aV1,aV2;
1881 TopoDS_Wire aWire = TopoDS::Wire(aSeqWires.Value(i));
1882 TopExp::Vertices(aWire,aV1,aV2);
1883 Standard_Integer j = i+1;
1884 for( ; j <= aSeqWires.Length(); j++)
1885 {
1886 TopoDS_Vertex aV21,aV22;
1887 TopoDS_Wire aWire2 = TopoDS::Wire(aSeqWires.Value(j));
1888 TopExp::Vertices(aWire2,aV21,aV22);
1889 if((aV1.IsSame(aV21) || aV1.IsSame(aV22)) && (aV2.IsSame(aV21) || aV2.IsSame(aV22)))
1890 {
1891 Handle(ShapeExtend_WireData) asewd = new ShapeExtend_WireData(aWire);
1892 asewd->Add(aWire2);
1893 Handle(ShapeFix_Wire) asfw = new ShapeFix_Wire;
1894 asfw->Load(asewd);
1895 asfw->FixReorder();
1896 aResWires.Append(asfw->Wire());
1897 aSeqWires.Remove(j--);
1898 myStatus |= ShapeExtend::EncodeStatus ( ShapeExtend_DONE7 );
1899 break;
1900 }
1901
1902 }
1903 if(j <= aSeqWires.Length())
1904 aSeqWires.Remove(i--);
1905
1906 }
1907 if(aSeqWires.Length()<3) {
1908 for( i =1; i <= aSeqWires.Length(); i++)
1909 aResWires.Append(aSeqWires.Value(i));
1910
1911 }
1912 else {
1913 //collecting wires having one common vertex
1914 for( i =1; i <= aSeqWires.Length(); i++) {
1915 TopoDS_Vertex aV1,aV2;
1916 TopoDS_Wire aWire = TopoDS::Wire(aSeqWires.Value(i));
1917 TopExp::Vertices(aWire,aV1,aV2);
1918 Standard_Integer j =i+1;
1919 for( ; j <= aSeqWires.Length(); j++)
1920 {
1921 TopoDS_Vertex aV21,aV22;
1922 TopoDS_Wire aWire2 = TopoDS::Wire(aSeqWires.Value(j));
1923 TopExp::Vertices(aWire2,aV21,aV22);
1924 if((aV1.IsSame(aV21) || aV1.IsSame(aV22)) || (aV2.IsSame(aV21) || aV2.IsSame(aV22)))
1925 {
1926 Handle(ShapeExtend_WireData) asewd = new ShapeExtend_WireData(aWire);
1927 asewd->Add(aWire2);
1928 Handle(ShapeFix_Wire) asfw = new ShapeFix_Wire;
1929 asfw->Load(asewd);
1930 asfw->FixReorder();
1931 aWire = asfw->Wire();
1932 TopExp::Vertices(aWire,aV1,aV2);
1933 aSeqWires.Remove(j--);
1934 myStatus |= ShapeExtend::EncodeStatus ( ShapeExtend_DONE7 );
1935 }
1936 }
1937 aResWires.Append(aWire);
1938
1939 }
1940 }
1941 }
1942 Standard_Boolean isClosed = Standard_True;
1943
1944 //checking that obtained wires is closed in 2D space
1945 if (mySurf->Adaptor3d()->GetType() != GeomAbs_Plane) {
1946
1947 TopoDS_Shape emptyCopied = myFace.EmptyCopied();
1948 TopoDS_Face tmpFace = TopoDS::Face(emptyCopied);
1949 tmpFace.Orientation ( TopAbs_FORWARD );
1950
1951 for(i =1; i <= aResWires.Length() && isClosed; i++) {
1952 TopoDS_Wire awire = TopoDS::Wire(aResWires.Value(i));
1953 isClosed = isClosed2D(tmpFace,awire);
1954 }
1955 }
1956
1957 Standard_Boolean isDone =(aResWires.Length() && isClosed);
999d2599
D
1958 if(isDone && aResWires.Length() >1)
1959 {
7fd59977 1960#ifdef DEBUG
999d2599 1961 cout<<"Wire was splitted on "<<aResWires.Length()<<" wires"<< endl;
7fd59977 1962#endif
1963 }
1964
1965 return isDone;
1966}
1967
7fd59977 1968//=======================================================================
1969//function : SplitEdge
1970//purpose :
1971//=======================================================================
1972
1973Standard_Boolean ShapeFix_Face::SplitEdge(const Handle(ShapeExtend_WireData)& sewd,
1974 const Standard_Integer num,
1975 const Standard_Real param,
1976 const TopoDS_Vertex& vert,
1977 const Standard_Real preci,
1978 ShapeFix_DataMapOfShapeBox2d& boxes)
1979{
1980 TopoDS_Edge edge = sewd->Edge(num);
1981 TopoDS_Edge newE1, newE2;
1982 ShapeFix_SplitTool aTool;
1983 if(aTool.SplitEdge(edge,param,vert,myFace,newE1,newE2,preci,0.01*preci)) {
1984 // change context
1985 Handle(ShapeExtend_WireData) wd = new ShapeExtend_WireData;
1986 wd->Add(newE1);
1987 wd->Add(newE2);
1988 if(!Context().IsNull()) Context()->Replace( edge, wd->Wire() );
1989 for (TopExp_Explorer exp ( wd->Wire(), TopAbs_EDGE ); exp.More(); exp.Next() ) {
1990 TopoDS_Edge E = TopoDS::Edge ( exp.Current() );
1991 BRepTools::Update(E);
1992 }
1993
1994// for ( Standard_Integer i=1; i <= sewd->NbEdges(); i++ ) {
1995// TopoDS_Edge E = sewd->Edge(i);
1996// TopoDS_Shape S = Context()->Apply ( E );
1997// if ( S == E ) continue;
1998// for ( TopExp_Explorer exp(S,TopAbs_EDGE); exp.More(); exp.Next() )
1999// sewd->Add ( exp.Current(), i++ );
2000// sewd->Remove ( i-- );
2001// }
2002
2003 // change sewd and boxes
2004 sewd->Set(newE1,num);
2005 if(num==sewd->NbEdges())
2006 sewd->Add(newE2);
2007 else
2008 sewd->Add(newE2,num+1);
2009
2010 boxes.UnBind(edge);
2011 TopLoc_Location L;
2012 const Handle(Geom_Surface)& S = BRep_Tool::Surface(myFace,L);
2013 Handle(Geom2d_Curve) c2d;
2014 Standard_Real cf,cl;
2015 ShapeAnalysis_Edge sae;
2016 if(sae.PCurve(newE1,S,L,c2d,cf,cl,Standard_False)) {
2017 Bnd_Box2d box;
2018 Geom2dAdaptor_Curve gac;
2019 Standard_Real aFirst = c2d->FirstParameter();
2020 Standard_Real aLast = c2d->LastParameter();
2021 if(c2d->IsKind(STANDARD_TYPE(Geom2d_BSplineCurve))
2022 && (cf < aFirst || cl > aLast)) {
2023 //pdn avoiding problems with segment in Bnd_Box
2024 gac.Load(c2d);
2025 }
2026 else
2027 gac.Load(c2d,cf,cl);
2028 BndLib_Add2dCurve::Add(gac,::Precision::Confusion(),box);
2029 boxes.Bind(newE1,box);
2030 }
2031 if(sae.PCurve(newE2,S,L,c2d,cf,cl,Standard_False)) {
2032 Bnd_Box2d box;
2033 Geom2dAdaptor_Curve gac;
2034 Standard_Real aFirst = c2d->FirstParameter();
2035 Standard_Real aLast = c2d->LastParameter();
2036 if(c2d->IsKind(STANDARD_TYPE(Geom2d_BSplineCurve))
2037 && (cf < aFirst || cl > aLast)) {
2038 //pdn avoiding problems with segment in Bnd_Box
2039 gac.Load(c2d);
2040 }
2041 else
2042 gac.Load(c2d,cf,cl);
2043 BndLib_Add2dCurve::Add(gac,::Precision::Confusion(),box);
2044 boxes.Bind(newE2,box);
2045 }
2046 return Standard_True;
2047 }
2048 return Standard_False;
2049}
2050
2051
2052//=======================================================================
2053//function : SplitEdge
2054//purpose :
2055//=======================================================================
2056
2057Standard_Boolean ShapeFix_Face::SplitEdge(const Handle(ShapeExtend_WireData)& sewd,
2058 const Standard_Integer num,
2059 const Standard_Real param1,
2060 const Standard_Real param2,
2061 const TopoDS_Vertex& vert,
2062 const Standard_Real preci,
2063 ShapeFix_DataMapOfShapeBox2d& boxes)
2064{
2065 TopoDS_Edge edge = sewd->Edge(num);
2066 TopoDS_Edge newE1, newE2;
2067 ShapeFix_SplitTool aTool;
2068 if(aTool.SplitEdge(edge,param1,param2,vert,myFace,newE1,newE2,preci,0.01*preci)) {
2069 // change context
2070 Handle(ShapeExtend_WireData) wd = new ShapeExtend_WireData;
2071 wd->Add(newE1);
2072 wd->Add(newE2);
2073 if(!Context().IsNull()) Context()->Replace( edge, wd->Wire() );
2074 for (TopExp_Explorer exp ( wd->Wire(), TopAbs_EDGE ); exp.More(); exp.Next() ) {
2075 TopoDS_Edge E = TopoDS::Edge ( exp.Current() );
2076 BRepTools::Update(E);
2077 }
2078
2079 // change sewd and boxes
2080 sewd->Set(newE1,num);
2081 if(num==sewd->NbEdges())
2082 sewd->Add(newE2);
2083 else
2084 sewd->Add(newE2,num+1);
2085
2086 boxes.UnBind(edge);
2087 TopLoc_Location L;
2088 const Handle(Geom_Surface)& S = BRep_Tool::Surface(myFace,L);
2089 Handle(Geom2d_Curve) c2d;
2090 Standard_Real cf,cl;
2091 ShapeAnalysis_Edge sae;
2092 if(sae.PCurve(newE1,S,L,c2d,cf,cl,Standard_False)) {
2093 Bnd_Box2d box;
2094 Geom2dAdaptor_Curve gac;
2095 Standard_Real aFirst = c2d->FirstParameter();
2096 Standard_Real aLast = c2d->LastParameter();
2097 if(c2d->IsKind(STANDARD_TYPE(Geom2d_BSplineCurve))
2098 && (cf < aFirst || cl > aLast)) {
2099 //pdn avoiding problems with segment in Bnd_Box
2100 gac.Load(c2d);
2101 }
2102 else
2103 gac.Load(c2d,cf,cl);
2104 BndLib_Add2dCurve::Add(gac,::Precision::Confusion(),box);
2105 boxes.Bind(newE1,box);
2106 }
2107 if(sae.PCurve(newE2,S,L,c2d,cf,cl,Standard_False)) {
2108 Bnd_Box2d box;
2109 Geom2dAdaptor_Curve gac;
2110 Standard_Real aFirst = c2d->FirstParameter();
2111 Standard_Real aLast = c2d->LastParameter();
2112 if(c2d->IsKind(STANDARD_TYPE(Geom2d_BSplineCurve))
2113 && (cf < aFirst || cl > aLast)) {
2114 //pdn avoiding problems with segment in Bnd_Box
2115 gac.Load(c2d);
2116 }
2117 else
2118 gac.Load(c2d,cf,cl);
2119 BndLib_Add2dCurve::Add(gac,::Precision::Confusion(),box);
2120 boxes.Bind(newE2,box);
2121 }
2122 return Standard_True;
2123 }
2124 return Standard_False;
2125}
2126
2127
2128//=======================================================================
2129//function : FixIntersectingWires
2130//purpose :
2131//=======================================================================
2132
2133Standard_Boolean ShapeFix_Face::FixIntersectingWires()
2134{
2135 ShapeFix_IntersectionTool ITool(Context(),Precision(),MaxTolerance());
2136 return ITool.FixIntersectingWires(myFace);
2137}
2138
2139
2140//=======================================================================
2141//function : FixWiresTwoCoincEdges
2142//purpose :
2143//=======================================================================
2144
2145Standard_Boolean ShapeFix_Face::FixWiresTwoCoincEdges()
2146{
2147 if ( ! Context().IsNull() ) {
2148 TopoDS_Shape S = Context()->Apply ( myFace );
2149 myFace = TopoDS::Face ( S );
2150 }
2151
2152 TopAbs_Orientation ori = myFace.Orientation();
2153 TopoDS_Shape emptyCopied = myFace.EmptyCopied();
2154 TopoDS_Face face = TopoDS::Face (emptyCopied);
2155 face.Orientation(TopAbs_FORWARD);
2156 Standard_Integer nbWires = 0;
2157 BRep_Builder B;
2158
2159 for (TopoDS_Iterator it (myFace, Standard_False); it.More(); it.Next()) {
2160 if(it.Value().ShapeType() != TopAbs_WIRE ||
2161 (it.Value().Orientation() != TopAbs_FORWARD && it.Value().Orientation() != TopAbs_REVERSED)) {
2162 continue;
2163 }
2164 nbWires++;
2165 }
2166 if(nbWires<2) return Standard_False;
2167 Standard_Boolean isFixed = Standard_False;
2168 for (TopoDS_Iterator wi (myFace, Standard_False); wi.More(); wi.Next()) {
2169 if(wi.Value().ShapeType() != TopAbs_WIRE ||
2170 (wi.Value().Orientation() != TopAbs_FORWARD && wi.Value().Orientation() != TopAbs_REVERSED)) {
2171 B.Add(face,wi.Value());
2172 continue;
2173 }
2174 TopoDS_Wire wire = TopoDS::Wire ( wi.Value() );
2175 Handle(ShapeExtend_WireData) sewd = new ShapeExtend_WireData(wire);
2176 if(sewd->NbEdges()==2) {
2177 TopoDS_Edge E1 = sewd->Edge(1);
2178 TopoDS_Edge E2 = sewd->Edge(2);
2179 E1.Orientation(TopAbs_FORWARD);
2180 E2.Orientation(TopAbs_FORWARD);
2181 if( !(E1==E2) ) {
2182 B.Add(face,wire);
2183 }
2184 else isFixed = Standard_True;
2185 }
2186 else {
2187 B.Add(face,wire);
2188 }
2189 }
2190 if(isFixed) {
2191 face.Orientation(ori);
2192 if ( ! Context().IsNull() ) Context()->Replace ( myFace, face );
2193 myFace = face;
2194 }
2195
2196 return isFixed;
2197}
2198
2199
2200//=======================================================================
2201//function : FixSplitFace
2202//purpose :
2203//=======================================================================
2204
2205Standard_Boolean ShapeFix_Face::FixSplitFace(const TopTools_DataMapOfShapeListOfShape &MapWires)
2206{
2207 BRep_Builder B;
2208 TopTools_SequenceOfShape faces;
2209 TopoDS_Shape S = myFace;
2210 if ( ! Context().IsNull() )
2211 S = Context()->Apply ( myFace );
2212 Standard_Integer NbWires=0, NbWiresNew=0;
2213 for(TopoDS_Iterator iter(S,Standard_False); iter.More(); iter.Next()) {
2214 if(iter.Value().ShapeType() != TopAbs_WIRE ||
2215 (iter.Value().Orientation() != TopAbs_FORWARD && iter.Value().Orientation() != TopAbs_REVERSED))
2216 continue;
2217 TopoDS_Wire wire = TopoDS::Wire ( iter.Value() );
2218 NbWires++;
2219 if(MapWires.IsBound(wire)) {
2220 // if wire not closed --> stop split and return false
2221 Handle(ShapeExtend_WireData) sewd = new ShapeExtend_WireData(wire);
2222 TopoDS_Edge E1 = sewd->Edge(1);
2223 TopoDS_Edge E2 = sewd->Edge(sewd->NbEdges());
2224 TopoDS_Vertex V1,V2;
2225 ShapeAnalysis_Edge sae;
2226 V1=sae.FirstVertex(E1);
2227 V2=sae.LastVertex(E2);
2228 if(!V1.IsSame(V2)) {
2229 cout<<"wire not closed --> stop split"<<endl;
2230 return Standard_False;
2231 }
2232 // create face
2233 TopoDS_Shape emptyCopied = S.EmptyCopied();
2234 TopoDS_Face tmpFace = TopoDS::Face(emptyCopied);
2235 tmpFace.Orientation ( TopAbs_FORWARD );
2236 B.Add(tmpFace,wire);
2237 NbWiresNew++;
2238 const TopTools_ListOfShape& IntWires = MapWires.Find(wire);
2239 TopTools_ListIteratorOfListOfShape liter(IntWires);
2240 for( ; liter.More(); liter.Next()) {
2241 B.Add(tmpFace,liter.Value());
2242 NbWiresNew++;
2243 }
2244 if(!myFwd) tmpFace.Orientation(TopAbs_REVERSED);
2245 faces.Append(tmpFace);
2246 }
2247 }
2248
2249 if(NbWires!=NbWiresNew) return Standard_False;
2250
2251 if(faces.Length()>1) {
2252 TopoDS_Compound Comp;
2253 B.MakeCompound(Comp);
2254 for(Standard_Integer i=1; i<=faces.Length(); i++ )
2255 B.Add(Comp,faces(i));
2256 myResult = Comp;
2257 Context()->Replace ( myFace, myResult );
2258 for (TopExp_Explorer exp ( myResult, TopAbs_FACE ); exp.More(); exp.Next() ) {
2259 myFace = TopoDS::Face ( exp.Current() );
2260 BRepTools::Update(myFace);
2261 }
2262 return Standard_True;
2263 }
2264
2265 return Standard_False;
2266}
84dc990a
S
2267
2268//=======================================================================
2269//function : IsPeriodicConicalLoop
2270//purpose : Checks whether the passed wire makes up a periodic loop on
2271// passed conical surface
2272//=======================================================================
2273
2274static Standard_Boolean IsPeriodicConicalLoop(const Handle(Geom_ConicalSurface)& theSurf,
2275 const TopoDS_Wire& theWire,
2276 const Standard_Real theTolerance,
2277 Standard_Real& theMinU,
2278 Standard_Real& theMaxU,
2279 Standard_Real& theMinV,
2280 Standard_Real& theMaxV,
2281 Standard_Boolean& isUDecrease)
2282{
2283 if ( theSurf.IsNull() )
fdbc4fe7 2284 return Standard_False;
84dc990a
S
2285
2286 ShapeAnalysis_Edge aSAE;
2287 TopLoc_Location aLoc;
2288
2289 Standard_Real aCumulDeltaU = 0.0, aCumulDeltaUAbs = 0.0;
2290 Standard_Real aMinU = RealLast();
2291 Standard_Real aMinV = aMinU;
2292 Standard_Real aMaxU = -aMinU;
2293 Standard_Real aMaxV = aMaxU;
2294
2295 // Iterate over the edges to check whether the wire is periodic on conical surface
2296 BRepTools_WireExplorer aWireExp(theWire);
2297 for ( ; aWireExp.More(); aWireExp.Next() )
2298 {
2299 const TopoDS_Edge& aCurrentEdge = aWireExp.Current();
2300 Handle(Geom2d_Curve) aC2d;
2301 Standard_Real aPFirst, aPLast;
2302
2303 aSAE.PCurve(aCurrentEdge, theSurf, aLoc, aC2d, aPFirst, aPLast, Standard_True);
2304
2305 if ( aC2d.IsNull() )
2306 return Standard_False;
2307
2308 gp_Pnt2d aUVFirst = aC2d->Value(aPFirst),
2309 aUVLast = aC2d->Value(aPLast);
2310
2311 Standard_Real aUFirst = aUVFirst.X(), aULast = aUVLast.X();
2312 Standard_Real aVFirst = aUVFirst.Y(), aVLast = aUVLast.Y();
2313
2314 Standard_Real aCurMaxU = Max(aUFirst, aULast),
2315 aCurMinU = Min(aUFirst, aULast);
2316 Standard_Real aCurMaxV = Max(aVFirst, aVLast),
2317 aCurMinV = Min(aVFirst, aVLast);
2318
2319 if ( aCurMinU < aMinU )
2320 aMinU = aCurMinU;
2321 if ( aCurMaxU > aMaxU )
2322 aMaxU = aCurMaxU;
2323 if ( aCurMinV < aMinV )
2324 aMinV = aCurMinV;
2325 if ( aCurMaxV > aMaxV )
2326 aMaxV = aCurMaxV;
2327
2328 Standard_Real aDeltaU = aULast - aUFirst;
2329
2330 aCumulDeltaU += aDeltaU;
2331 aCumulDeltaUAbs += Abs(aDeltaU);
2332 }
2333
2334 theMinU = aMinU;
2335 theMaxU = aMaxU;
2336 theMinV = aMinV;
2337 theMaxV = aMaxV;
2338 isUDecrease = (aCumulDeltaU < 0 ? Standard_True : Standard_False);
2339
2340 Standard_Boolean is2PIDelta = Abs(aCumulDeltaUAbs - 2*M_PI) <= theTolerance;
2341 Standard_Boolean isAroundApex = Abs(theMaxU - theMinU) > 2*M_PI - theTolerance;
2342
2343 return is2PIDelta && isAroundApex;
2344}
2345
2346//=======================================================================
2347//function : FixPeriodicDegenerated
2348//purpose :
2349//=======================================================================
2350
2351Standard_Boolean ShapeFix_Face::FixPeriodicDegenerated()
2352{
2353 /* =====================
2354 * Prepare fix routine
2355 * ===================== */
2356
2357 if ( !Context().IsNull() )
2358 {
2359 TopoDS_Shape aSh = Context()->Apply(myFace);
2360 myFace = TopoDS::Face(aSh);
2361 }
2362
2363 /* ================================================
2364 * Check if fix can be applied on the passed face
2365 * ================================================ */
2366
2367 // Collect all wires owned by the face
2368 TopTools_SequenceOfShape aWireSeq;
2369 for ( TopoDS_Iterator aWireIt(myFace, Standard_False); aWireIt.More(); aWireIt.Next() )
2370 {
2371 const TopoDS_Shape& aSubSh = aWireIt.Value();
2372 if ( aSubSh.ShapeType() != TopAbs_WIRE || ( aSubSh.Orientation() != TopAbs_FORWARD &&
2373 aSubSh.Orientation() != TopAbs_REVERSED ) )
2374 continue;
2375
2376 aWireSeq.Append( aWireIt.Value() );
2377 }
2378
2379 // Get number of wires and surface
2380 Standard_Integer aNbWires = aWireSeq.Length();
2381 Handle(Geom_Surface) aSurface = BRep_Tool::Surface(myFace);
2382
2383 // Only single wires on conical surfaces are checked
2384 if ( aNbWires != 1 || aSurface.IsNull() ||
2385 aSurface->DynamicType() != STANDARD_TYPE(Geom_ConicalSurface) )
2386 return Standard_False;
2387
2388 // Get the single wire
2389 TopoDS_Wire aSoleWire = TopoDS::Wire( aWireSeq.Value(1) );
2390
2391 // Check whether this wire is belting the conical surface by period
2392 Handle(Geom_ConicalSurface) aConeSurf = Handle(Geom_ConicalSurface)::DownCast(aSurface);
2393 Standard_Real aMinLoopU = 0.0, aMaxLoopU = 0.0, aMinLoopV = 0.0, aMaxLoopV = 0.0;
2394 Standard_Boolean isUDecrease = Standard_False;
2395
2396 Standard_Boolean isConicLoop = IsPeriodicConicalLoop(aConeSurf, aSoleWire, Precision(),
2397 aMinLoopU, aMaxLoopU,
2398 aMinLoopV, aMaxLoopV,
2399 isUDecrease);
2400
2401 if ( !isConicLoop )
2402 return Standard_False;
2403
2404 /* ===============
2405 * Retrieve apex
2406 * =============== */
2407
2408 // Get base circle of the conical surface (the circle it was built from)
2409 Handle(Geom_Curve) aConeBaseCrv = aConeSurf->VIso(0.0);
2410 Handle(Geom_Circle) aConeBaseCirc = Handle(Geom_Circle)::DownCast(aConeBaseCrv);
2411
2412 // Retrieve conical props
2413 Standard_Real aConeBaseR = aConeBaseCirc->Radius();
2414 Standard_Real aSemiAngle = aConeSurf->SemiAngle();
2415
2416 if ( fabs(aSemiAngle) <= Precision::Confusion() )
2417 return Standard_False; // Bad surface
2418
2419 // Find the V parameter of the apex
2420 Standard_Real aConeBaseH = aConeBaseR / Sin(aSemiAngle);
2421 Standard_Real anApexV = -aConeBaseH;
2422
2423 // Get apex vertex
2424 TopoDS_Vertex anApex = BRepBuilderAPI_MakeVertex( aConeSurf->Apex() );
2425
2426 // ====================================
2427 // Build degenerated edge in the apex
2428 // ====================================
2429
2430 TopoDS_Edge anApexEdge;
2431 BRep_Builder aBuilder;
2432 aBuilder.MakeEdge(anApexEdge);
2433
2434 // Check if positional relationship between the initial wire and apex
2435 // line in 2D is going to be consistent
2436 if ( fabs(anApexV - aMinLoopV) <= Precision() ||
2437 fabs(anApexV - aMaxLoopV) <= Precision() ||
2438 ( anApexV < aMaxLoopV && anApexV > aMinLoopV ) )
2439 return Standard_False;
2440
2441 Handle(Geom2d_Line) anApexCurve2d;
2442
2443 // Apex curve below the wire
2444 if ( anApexV < aMinLoopV )
2445 {
2446 anApexCurve2d = new Geom2d_Line( gp_Pnt2d(aMinLoopU, anApexV), gp_Dir2d(1, 0) );
2447 if ( !isUDecrease )
2448 aSoleWire.Reverse();
2449 }
2450
2451 // Apex curve above the wire
2452 if ( anApexV > aMaxLoopV )
2453 {
2454 anApexCurve2d = new Geom2d_Line( gp_Pnt2d(aMaxLoopU, anApexV), gp_Dir2d(-1, 0) );
2455 if ( isUDecrease )
2456 aSoleWire.Reverse();
2457 }
2458
2459 // Create degenerated edge & wire for apex
2460 aBuilder.UpdateEdge( anApexEdge, anApexCurve2d, myFace, Precision() );
2461 aBuilder.Add( anApexEdge, anApex );
2462 aBuilder.Add( anApexEdge, anApex.Reversed() );
2463 aBuilder.Degenerated(anApexEdge, Standard_True);
2464 aBuilder.Range( anApexEdge, 0, fabs(aMaxLoopU - aMinLoopU) );
2465 TopoDS_Wire anApexWire = BRepBuilderAPI_MakeWire(anApexEdge);
2466
2467 // ===============================================================
2468 // Finalize the fix building new face and setting up the results
2469 // ===============================================================
2470
2471 // Collect the resulting set of wires
2472 TopTools_SequenceOfShape aNewWireSeq;
2473 aNewWireSeq.Append(aSoleWire);
2474 aNewWireSeq.Append(anApexWire);
2475
2476 // Assemble new face
2477 TopoDS_Face aNewFace = TopoDS::Face( myFace.EmptyCopied() );
2478 aNewFace.Orientation(TopAbs_FORWARD);
2479 BRep_Builder aFaceBuilder;
2480 for ( Standard_Integer i = 1; i <= aNewWireSeq.Length(); i++ )
2481 {
2482 TopoDS_Wire aNewWire = TopoDS::Wire( aNewWireSeq.Value(i) );
2483 aFaceBuilder.Add(aNewFace, aNewWire);
2484 }
2485 aNewFace.Orientation( myFace.Orientation() );
2486
2487 // Adjust the resulting state of the healing tool
2488 myResult = aNewFace;
2489 Context()->Replace(myFace, myResult);
2490
2491 return Standard_True;
2492}