0029412: Huge Memory leak since I upgraded to OC 6.9.0
[occt.git] / src / QABugs / QABugs_19.cxx
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b311480e 1// Created on: 2002-05-21
2// Created by: QA Admin
973c2be1 3// Copyright (c) 2002-2014 OPEN CASCADE SAS
b311480e 4//
973c2be1 5// This file is part of Open CASCADE Technology software library.
b311480e 6//
d5f74e42 7// This library is free software; you can redistribute it and/or modify it under
8// the terms of the GNU Lesser General Public License version 2.1 as published
973c2be1 9// by the Free Software Foundation, with special exception defined in the file
10// OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT
11// distribution for complete text of the license and disclaimer of any warranty.
b311480e 12//
973c2be1 13// Alternatively, this file may be used under the terms of Open CASCADE
14// commercial license or contractual agreement.
b311480e 15
1cd84fee 16#include <QABugs.hxx>
7fd59977 17
f376ac72 18#include <AIS_InteractiveContext.hxx>
c070aa39 19#include <AIS_LocalContext.hxx>
a6dee93d 20#include <AIS_Shape.hxx>
431d0f18 21#include <BRepAlgoAPI_Cut.hxx>
6d0e6be5 22#include <BRepOffsetAPI_MakePipe.hxx>
c2ae831c 23#include <BRepPrimAPI_MakeBox.hxx>
24#include <BRepPrimAPI_MakeSphere.hxx>
6d0e6be5 25#include <DBRep.hxx>
26#include <Draw_Interpretor.hxx>
27#include <DrawTrSurf.hxx>
28#include <GCE2d_MakeSegment.hxx>
29#include <Geom2d_TrimmedCurve.hxx>
30#include <GeomFill_Trihedron.hxx>
31#include <Graphic3d_ArrayOfTriangles.hxx>
32#include <gp_Ax1.hxx>
33#include <gp_Pnt2d.hxx>
34#include <gp_Quaternion.hxx>
35#include <Image_Color.hxx>
36#include <Image_PixMap.hxx>
dda67c1c 37#include <NCollection_Handle.hxx>
d09dda09 38#include <NCollection_IncAllocator.hxx>
6d0e6be5 39#include <NCollection_Map.hxx>
40#include <OSD_Parallel.hxx>
41#include <OSD_PerfMeter.hxx>
42#include <OSD_Timer.hxx>
43#include <Precision.hxx>
44#include <Prs3d_ShadingAspect.hxx>
45#include <Prs3d_Text.hxx>
badc9305 46#include <SelectMgr_Filter.hxx>
05d7de53 47#include <Standard_Version.hxx>
6d0e6be5 48#include <StdSelect_BRepOwner.hxx>
49#include <TCollection_HAsciiString.hxx>
50#include <TopExp_Explorer.hxx>
51#include <TopoDS_Shape.hxx>
52#include <V3d_View.hxx>
53#include <ViewerTest.hxx>
6fe96f84 54#include <XmlDrivers_DocumentRetrievalDriver.hxx>
55#include <XmlDrivers_DocumentStorageDriver.hxx>
0f3d1d7c 56#include <TDataStd_Real.hxx>
00af0ebb 57#include <Standard_Atomic.hxx>
05d7de53 58
6d0e6be5 59#include <cstdio>
60#include <cmath>
61#include <iostream>
62
29cb310a 63#define QCOMPARE(val1, val2) \
64 di << "Checking " #val1 " == " #val2 << \
65 ((val1) == (val2) ? ": OK\n" : ": Error\n")
d2786814 66
7fd59977 67static Standard_Integer OCC230 (Draw_Interpretor& di, Standard_Integer argc, const char ** argv)
68{
69 if ( argc != 4) {
586db386 70 di << "ERROR OCC230: Usage : " << argv[0] << " TrimmedCurve Pnt2d Pnt2d\n";
7fd59977 71 return 1;
72 }
73
74 gp_Pnt2d P1, P2;
75 if ( !DrawTrSurf::GetPoint2d(argv[2],P1)) {
586db386 76 di << "ERROR OCC230: " << argv[2] << " is not Pnt2d\n";
7fd59977 77 return 1;
78 }
79 if ( !DrawTrSurf::GetPoint2d(argv[3],P2)) {
586db386 80 di << "ERROR OCC230: " << argv[3] << " is not Pnt2d\n";
7fd59977 81 return 1;
82 }
83
84 GCE2d_MakeSegment MakeSegment(P1,P2);
85 Handle(Geom2d_TrimmedCurve) TrimmedCurve = MakeSegment.Value();
86 DrawTrSurf::Set(argv[1], TrimmedCurve);
87 return 0;
88}
89
f6f03db9 90static Standard_Integer OCC23361 (Draw_Interpretor& di, Standard_Integer /*argc*/, const char ** /*argv*/)
91{
92 gp_Pnt p(0, 0, 2);
93
94 gp_Trsf t1, t2;
95 t1.SetRotation(gp_Ax1(p, gp_Dir(0, 1, 0)), -0.49328285294022267);
96 t2.SetRotation(gp_Ax1(p, gp_Dir(0, 0, 1)), 0.87538474718473880);
97
98 gp_Trsf tComp = t2 * t1;
99
100 gp_Pnt p1(10, 3, 4);
101 gp_Pnt p2 = p1.Transformed(tComp);
102 gp_Pnt p3 = p1.Transformed(t1);
103 p3.Transform(t2);
104
105 // points must be equal
106 if ( ! p2.IsEqual(p3, Precision::Confusion()) )
586db386 107 di << "ERROR OCC23361: equivalent transformations does not produce equal points\n";
f6f03db9 108 else
586db386 109 di << "OCC23361: OK\n";
f6f03db9 110
111 return 0;
112}
113
c2ae831c 114static Standard_Integer OCC23237 (Draw_Interpretor& di, Standard_Integer /*argc*/, const char** /*argv*/)
115{
116 OSD_PerfMeter aPM("TestMeter",0);
117 OSD_Timer aTM;
118
119 // run some operation in cycle for about 2 seconds to have good values of times to compare
120 int count = 0;
121 printf("OSD_PerfMeter test.\nRunning Boolean operation on solids in loop.\n");
122 for (; aTM.ElapsedTime() < 2.; count++)
123 {
124 aPM.Start();
125 aTM.Start();
126
b3a7aa39 127 // do some operation that will take considerable time compared with time of starting / stopping timers
c2ae831c 128 BRepPrimAPI_MakeBox aBox (10., 10., 10.);
129 BRepPrimAPI_MakeSphere aSphere (10.);
431d0f18 130 BRepAlgoAPI_Cut aCutter (aBox.Shape(), aSphere.Shape());
c2ae831c 131
132 aTM.Stop();
133 aPM.Stop();
134 }
135
136 int aNbEnters = 0;
3510db62 137 Standard_Real aPerfMeter_CPUtime = 0., aTimer_CPUTime = 0., aS;
138 Standard_Integer aM, aH;
139 aTM.Show(aS, aM, aH, aTimer_CPUTime);
c2ae831c 140
141 perf_get_meter("TestMeter", &aNbEnters, &aPerfMeter_CPUtime);
3510db62 142 perf_init_meter("TestMeter");
c2ae831c 143
3510db62 144 Standard_Real aTimeDiff = (fabs(aTimer_CPUTime - aPerfMeter_CPUtime) / aTimer_CPUTime);
c2ae831c 145
146 printf("\nMeasurement results (%d cycles):\n", count);
3510db62 147 printf("\nOSD_PerfMeter CPU time: %lf\nOSD_Timer CPU time: %lf\n",
148 aPerfMeter_CPUtime, aTimer_CPUTime);
c2ae831c 149 printf("Time delta is: %.3lf %%\n", aTimeDiff * 100);
150
151 if (aTimeDiff > 0.2)
152 di << "OCC23237: Error: too much difference between CPU and elapsed times";
153 else if (aNbEnters != count)
154 di << "OCC23237: Error: counter reported by PerfMeter (" << aNbEnters << ") does not correspond to actual number of cycles";
155 else
156 di << "OCC23237: OK";
157
158 return 0;
159}
160
1365140b
RL
161class IncrementerDecrementer
162{
163public:
164 IncrementerDecrementer (Standard_Integer* theVal, Standard_Boolean thePositive) : myVal (theVal), myPositive (thePositive)
165 {}
c7b59798 166 void operator() (const size_t) const
1365140b 167 {
c7b59798 168 if ( myPositive )
169 Standard_Atomic_Increment(myVal);
170 else
171 Standard_Atomic_Decrement(myVal);
1365140b
RL
172 }
173private:
174 Standard_Integer* myVal;
c7b59798 175 Standard_Boolean myPositive;
1365140b 176};
1365140b 177
1365140b
RL
178static Standard_Integer OCC22980 (Draw_Interpretor& di, Standard_Integer /*argc*/, const char ** /*argv*/)
179{
180 int aSum = 0;
181
182 //check returned value
183 QCOMPARE (Standard_Atomic_Decrement (&aSum), -1);
184 QCOMPARE (Standard_Atomic_Increment (&aSum), 0);
185 QCOMPARE (Standard_Atomic_Increment (&aSum), 1);
186 QCOMPARE (Standard_Atomic_Increment (&aSum), 2);
187// QCOMPARE (Standard_Atomic_DecrementTest (&aSum), 0);
188// QCOMPARE (Standard_Atomic_DecrementTest (&aSum), 1);
189
190 //check atomicity
191 aSum = 0;
192 const int N = 1 << 24; //big enough to ensure concurrency
193
194 //increment
c7b59798 195 OSD_Parallel::For(0, N, IncrementerDecrementer (&aSum, true));
1365140b
RL
196 QCOMPARE (aSum, N);
197
198 //decrement
c7b59798 199 OSD_Parallel::For(0, N, IncrementerDecrementer (&aSum, false));
1365140b
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200 QCOMPARE (aSum, 0);
201
202 return 0;
203}
204
e6aad0ee 205#include <TDocStd_Application.hxx>
e6aad0ee
RL
206#include <TDocStd_Document.hxx>
207#include <XCAFDoc_ShapeTool.hxx>
208#include <XCAFDoc_DocumentTool.hxx>
209#include <TDF_Label.hxx>
210#include <TDataStd_Name.hxx>
6fe96f84 211#include <DDocStd.hxx>
e6aad0ee 212
773f53f1 213static Standard_Integer OCC23595 (Draw_Interpretor& di, Standard_Integer /*argc*/, const char** /*argv*/)
e6aad0ee 214{
6fe96f84 215 Handle(TDocStd_Application) anApp = DDocStd::GetApplication();
e6aad0ee
RL
216 Handle(TDocStd_Document) aDoc;
217 anApp->NewDocument ("XmlXCAF", aDoc);
218 QCOMPARE (!aDoc.IsNull(), Standard_True);
219
220 Handle(XCAFDoc_ShapeTool) aShTool = XCAFDoc_DocumentTool::ShapeTool (aDoc->Main());
221
222 //check default value
223 Standard_Boolean aValue = XCAFDoc_ShapeTool::AutoNaming();
224 QCOMPARE (aValue, Standard_True);
225
226 //true
227 XCAFDoc_ShapeTool::SetAutoNaming (Standard_True);
228 TopoDS_Shape aShape = BRepPrimAPI_MakeBox (100., 200., 300.).Shape();
229 TDF_Label aLabel = aShTool->AddShape (aShape);
230 Handle(TDataStd_Name) anAttr;
231 QCOMPARE (aLabel.FindAttribute (TDataStd_Name::GetID(), anAttr), Standard_True);
232
233 //false
234 XCAFDoc_ShapeTool::SetAutoNaming (Standard_False);
235 aShape = BRepPrimAPI_MakeBox (300., 200., 100.).Shape();
236 aLabel = aShTool->AddShape (aShape);
237 QCOMPARE (!aLabel.FindAttribute (TDataStd_Name::GetID(), anAttr), Standard_True);
238
239 //restore
240 XCAFDoc_ShapeTool::SetAutoNaming (aValue);
241
242 return 0;
243}
244
5d1833ef 245#include <ExprIntrp_GenExp.hxx>
246Standard_Integer OCC22611 (Draw_Interpretor& di, Standard_Integer argc, const char ** argv)
247{
248
249 if (argc != 3) {
250 di << "Usage : " << argv[0] << " string nb\n";
251 return 1;
252 }
253
254 TCollection_AsciiString aToken = argv[1];
255 Standard_Integer aNb = atoi(argv[2]);
256
257 Handle(ExprIntrp_GenExp) aGen = ExprIntrp_GenExp::Create();
258 for (Standard_Integer i=0; i < aNb; i++)
259 {
260 aGen->Process(aToken);
261 Handle(Expr_GeneralExpression) aExpr = aGen->Expression();
262 }
263
264 return 0;
265}
266
35e08fe8 267Standard_Integer OCC22595 (Draw_Interpretor& di, Standard_Integer /*argc*/, const char ** /*argv*/)
e187cc0a 268{
269 gp_Mat M0;
270 di << "M0 = "
271 << " {" << M0(1,1) << "} {" << M0(1,2) << "} {" << M0(1,3) <<"}"
272 << " {" << M0(2,1) << "} {" << M0(2,2) << "} {" << M0(2,3) <<"}"
273 << " {" << M0(1,1) << "} {" << M0(1,2) << "} {" << M0(1,3) <<"}";
274 return 0;
275}
276
bead40f2 277#include <TopoDS_Face.hxx>
278#include <TopoDS_Face.hxx>
279#include <TopoDS.hxx>
280#include <BRepBuilderAPI_Transform.hxx>
281#include <BRepExtrema_DistShapeShape.hxx>
282#include <BRepTools.hxx>
283
f24125b9 284static Standard_Boolean OCC23774Test(const TopoDS_Face& grossPlateFace, const TopoDS_Shape& originalWire, Draw_Interpretor& di)
bead40f2 285{
286 BRepExtrema_DistShapeShape distShapeShape(grossPlateFace,originalWire,Extrema_ExtFlag_MIN);
287 if(!distShapeShape.IsDone()) {
288 di <<"Distance ShapeShape is Not Done\n";
289 return Standard_False;
290 }
291
292 if(distShapeShape.Value() > 0.01) {
293 di << "Wrong Dist = " <<distShapeShape.Value() << "\n";
294 return Standard_False;
295 } else
296 di << "Dist0 = " <<distShapeShape.Value() <<"\n";
297
298 //////////////////////////////////////////////////////////////////////////
299 /// First Flip Y
300 const gp_Pnt2d axis1P1(1474.8199035519228,1249.9995745636970);
301 const gp_Pnt2d axis1P2(1474.8199035519228,1250.9995745636970);
302
303 gp_Vec2d mirrorVector1(axis1P1,axis1P2);
304
305 gp_Trsf2d mirror1;
306 mirror1.SetMirror(gp_Ax2d(axis1P1,mirrorVector1));
307
308 BRepBuilderAPI_Transform transformer1(mirror1);
309 transformer1.Perform(originalWire);
310 if(!transformer1.IsDone()) {
586db386 311 di << "Not Done1 \n";
bead40f2 312 return Standard_False;
313 }
346cf025 314 TopoDS_Shape step1ModifiedShape = transformer1.ModifiedShape(originalWire);
bead40f2 315
316 BRepExtrema_DistShapeShape distShapeShape1(grossPlateFace,step1ModifiedShape,Extrema_ExtFlag_MIN);
317 if(!distShapeShape1.IsDone())
318 return Standard_False;
319 if(distShapeShape1.Value() > 0.01) {
320 di << "Dist = " <<distShapeShape1.Value() <<"\n";
321 return Standard_False;
322 } else
323 di << "Dist1 = " <<distShapeShape1.Value() <<"\n";
324
325 //////////////////////////////////////////////////////////////////////////
326 /// Second flip Y
327 transformer1.Perform(step1ModifiedShape);
328 if(!transformer1.IsDone()) {
329 di << "Not Done1 \n";
330 return Standard_False;
331 }
346cf025 332 TopoDS_Shape step2ModifiedShape = transformer1.ModifiedShape(step1ModifiedShape);
bead40f2 333
334 //This is identity matrix for values but for type is gp_Rotation ?!
335 gp_Trsf2d mirror11 = mirror1;
336 mirror11.PreMultiply(mirror1);
337
338 BRepExtrema_DistShapeShape distShapeShape2(grossPlateFace,step2ModifiedShape);//,Extrema_ExtFlag_MIN);
339 if(!distShapeShape2.IsDone())
340 return Standard_False;
341
342 //This last test case give error (the value is 1008.8822038689706)
343 if(distShapeShape2.Value() > 0.01) {
344 di << "Wrong Dist2 = " <<distShapeShape2.Value() <<"\n";
345 Standard_Integer N = distShapeShape2.NbSolution();
346 di << "Nb = " <<N <<"\n";
347 for (Standard_Integer i=1;i <= N;i++)
348 di <<"Sol(" <<i<<") = " <<distShapeShape2.PointOnShape1(i).Distance(distShapeShape2.PointOnShape2(i)) <<"\n";
349 return Standard_False;
350 }
351 di << "Distance2 = " <<distShapeShape2.Value() <<"\n";
352
353 return Standard_True;
354}
355static Standard_Integer OCC23774(Draw_Interpretor& di, Standard_Integer n, const char** a)
356{
357
358 if (n != 3) {
359 di <<"OCC23774: invalid number of input parameters\n";
360 return 1;
361 }
362
363 const char *ns1 = (a[1]), *ns2 = (a[2]);
364 TopoDS_Shape S1(DBRep::Get(ns1)), S2(DBRep::Get(ns2));
365 if (S1.IsNull() || S2.IsNull()) {
366 di <<"OCC23774: Null input shapes\n";
367 return 1;
368 }
369 const TopoDS_Face& aFace = TopoDS::Face(S1);
370 if(!OCC23774Test(aFace, S2, di))
371 di << "Something is wrong\n";
372
373 return 0;
374}
375
1ef32e96
RL
376#include <GeomConvert_ApproxSurface.hxx>
377#include <Geom_BSplineSurface.hxx>
378#include <Draw.hxx>
379#include <OSD_Thread.hxx>
1ef32e96 380
7a5f1202 381struct GeomConvertTest_Data
382{
383 Standard_Integer nbupoles;
384 Handle(Geom_Surface) surf;
1ef32e96
RL
385};
386
7a5f1202 387static Standard_Address GeomConvertTest (Standard_Address data)
1ef32e96 388{
7a5f1202 389 GeomConvertTest_Data* info = (GeomConvertTest_Data*)data;
390
391 GeomConvert_ApproxSurface aGAS (info->surf, 1e-4, GeomAbs_C1, GeomAbs_C1, 9, 9, 100, 1);
392 if (!aGAS.IsDone()) {
393 cout << "Error: ApproxSurface is not done!" << endl;
caaeed1b 394 return 0;
7a5f1202 395 }
396 const Handle(Geom_BSplineSurface)& aBSurf = aGAS.Surface();
397 if (aBSurf.IsNull()) {
398 cout << "Error: BSplineSurface is not created!" << endl;
caaeed1b 399 return 0;
7a5f1202 400 }
401 cout << "Number of UPoles:" << aBSurf->NbUPoles();
402 if (aBSurf->NbUPoles() == info->nbupoles)
403 {
404 cout << ": OK" << endl;
405 return data; // any non-null pointer
406 }
407 else
408 {
409 cout << ": Error, must be " << info->nbupoles << endl;
410 return 0;
411 }
1ef32e96
RL
412}
413
414static Standard_Integer OCC23952sweep (Draw_Interpretor& di, Standard_Integer argc, const char ** argv)
415{
7a5f1202 416 if (argc != 3) {
417 cout << "Error: invalid number of arguments" << endl;
418 return 1;
419 }
420
421 struct GeomConvertTest_Data aStorage;
422 aStorage.nbupoles = Draw::Atoi(argv[1]);
423 aStorage.surf = DrawTrSurf::GetSurface(argv[2]);
424 if (aStorage.surf.IsNull())
425 {
426 cout << "Error: " << argv[2] << " is not a DRAW surface!" << endl;
427 return 0;
428 }
429
430 // start conversion in several threads
431 const int NBTHREADS = 100;
432 OSD_Thread aThread[NBTHREADS];
433 for (int i=0; i < NBTHREADS; i++)
434 {
435 aThread[i].SetFunction (GeomConvertTest);
436 if (!aThread[i].Run(&aStorage))
437 di << "Error: Cannot start thread << " << i << "\n";
438 }
439
440 // check results
441 for (int i=0; i < NBTHREADS; i++)
442 {
443 Standard_Address aResult = 0;
444 if (!aThread[i].Wait(aResult))
445 di << "Error: Failed waiting for thread << " << i << "\n";
446 if (!aResult)
447 di << "Error: wrong number of poles in thread " << i << "!\n";
448 }
449
450 return 0;
1ef32e96 451}
d2786814 452
1ef32e96 453#include <GeomInt_IntSS.hxx>
1ef32e96 454
7a5f1202 455struct GeomIntSSTest_Data
456{
457 Standard_Integer nbsol;
458 Handle(Geom_Surface) surf1, surf2;
1ef32e96 459};
7a5f1202 460
461static Standard_Address GeomIntSSTest (Standard_Address data)
1ef32e96 462{
7a5f1202 463 GeomIntSSTest_Data* info = (GeomIntSSTest_Data*)data;
464 GeomInt_IntSS anInter;
465 anInter.Perform (info->surf1, info->surf2, Precision::Confusion(), Standard_True);
466 if (!anInter.IsDone()) {
467 cout << "An intersection is not done!" << endl;
468 return 0;
469 }
470
471 cout << "Number of Lines:" << anInter.NbLines();
472 if (anInter.NbLines() == info->nbsol)
473 {
474 cout << ": OK" << endl;
475 return data; // any non-null pointer
476 }
477 else
478 {
479 cout << ": Error, must be " << info->nbsol << endl;
480 return 0;
481 }
1ef32e96
RL
482}
483
484static Standard_Integer OCC23952intersect (Draw_Interpretor& di, Standard_Integer argc, const char ** argv)
485{
7a5f1202 486 if (argc != 4) {
487 cout << "Error: invalid number of arguments" << endl;
488 return 1;
489 }
490
491 struct GeomIntSSTest_Data aStorage;
492 aStorage.nbsol = Draw::Atoi(argv[1]);
493 aStorage.surf1 = DrawTrSurf::GetSurface(argv[2]);
494 aStorage.surf2 = DrawTrSurf::GetSurface(argv[3]);
495 if (aStorage.surf1.IsNull() || aStorage.surf2.IsNull())
496 {
497 cout << "Error: Either " << argv[2] << " or " << argv[3] << " is not a DRAW surface!" << endl;
498 return 0;
499 }
500
501 // start conversion in several threads
502 const int NBTHREADS = 100;
503 OSD_Thread aThread[NBTHREADS];
504 for (int i=0; i < NBTHREADS; i++)
505 {
506 aThread[i].SetFunction (GeomIntSSTest);
507 if (!aThread[i].Run(&aStorage))
508 di << "Error: Cannot start thread << " << i << "\n";
509 }
510
511 // check results
512 for (int i=0; i < NBTHREADS; i++)
513 {
514 Standard_Address aResult = 0;
515 if (!aThread[i].Wait(aResult))
516 di << "Error: Failed waiting for thread << " << i << "\n";
517 if (!aResult)
518 di << "Error: wrong number of intersections in thread " << i << "!\n";
519 }
520
521 return 0;
1ef32e96
RL
522}
523
524#include <Geom_SurfaceOfRevolution.hxx>
06be28a4
RL
525static Standard_Integer OCC23683 (Draw_Interpretor& di, Standard_Integer argc,const char ** argv)
526{
527 if (argc < 2) {
586db386 528 di<<"Usage: " << argv[0] << " invalid number of arguments\n";
06be28a4
RL
529 return 1;
530 }
531
532 Standard_Integer ucontinuity = 1;
533 Standard_Integer vcontinuity = 1;
534 Standard_Boolean iscnu = false;
535 Standard_Boolean iscnv = false;
536
537 Handle(Geom_Surface) aSurf = DrawTrSurf::GetSurface(argv[1]);
538
539 QCOMPARE (aSurf->IsCNu (ucontinuity), iscnu);
540 QCOMPARE (aSurf->IsCNv (vcontinuity), iscnv);
541
542 return 0;
543}
544
1939140c 545#include <gp_Ax1.hxx>
546#include <gp_Ax22d.hxx>
547#include <Geom_Plane.hxx>
548#include <Geom2d_Circle.hxx>
549#include <Geom2d_TrimmedCurve.hxx>
550#include <BRepBuilderAPI_MakeEdge.hxx>
551#include <BRepPrimAPI_MakeRevol.hxx>
552#include <Geom2d_OffsetCurve.hxx>
553
554static int test_offset(Draw_Interpretor& di, Standard_Integer argc, const char** argv)
555{
556 // Check the command arguments
557 if ( argc != 1 )
558 {
586db386 559 di << "Error: " << argv[0] << " - invalid number of arguments\n";
1939140c 560 di << "Usage: type help " << argv[0] << "\n";
561 return 1; // TCL_ERROR
562 }
563
564 gp_Ax1 RotoAx( gp::Origin(), gp::DZ() );
565 gp_Ax22d Ax2( gp::Origin2d(), gp::DY2d(), gp::DX2d() );
566 Handle(Geom_Surface) Plane = new Geom_Plane( gp::YOZ() );
567
586db386 568 di << "<<<< Preparing sample surface of revolution based on trimmed curve >>>>\n";
569 di << "-----------------------------------------------------------------------\n";
1939140c 570
571 Handle(Geom2d_Circle) C2d1 = new Geom2d_Circle(Ax2, 1.0);
572 Handle(Geom2d_TrimmedCurve) C2d1Trimmed = new Geom2d_TrimmedCurve(C2d1, 0.0, M_PI/2.0);
573 TopoDS_Edge E1 = BRepBuilderAPI_MakeEdge(C2d1Trimmed, Plane);
574
575 DBRep::Set("e1", E1);
576
577 BRepPrimAPI_MakeRevol aRevolBuilder1(E1, RotoAx);
578 TopoDS_Face F1 = TopoDS::Face( aRevolBuilder1.Shape() );
579
580 DBRep::Set("f1", F1);
581
586db386 582 di << "Result: f1\n";
1939140c 583
586db386 584 di << "<<<< Preparing sample surface of revolution based on offset curve >>>>\n";
585 di << "-----------------------------------------------------------------------\n";
1939140c 586
587 Handle(Geom2d_OffsetCurve) C2d2Offset = new Geom2d_OffsetCurve(C2d1Trimmed, -0.5);
588 TopoDS_Edge E2 = BRepBuilderAPI_MakeEdge(C2d2Offset, Plane);
589
590 DBRep::Set("e2", E2);
591
592 BRepPrimAPI_MakeRevol aRevolBuilder2(E2, RotoAx);
593 TopoDS_Face F2 = TopoDS::Face( aRevolBuilder2.Shape() );
594
595 DBRep::Set("f2", F2);
596
586db386 597 di << "Result: f2\n";
1939140c 598
599 return 0;
600}
601
2e9fd4bc 602#include <Geom_Curve.hxx>
603#include <Geom_Surface.hxx>
604#include <Precision.hxx>
605#include <ShapeConstruct_ProjectCurveOnSurface.hxx>
606//=======================================================================
607//function : OCC24008
608//purpose :
609//=======================================================================
610static Standard_Integer OCC24008 (Draw_Interpretor& di, Standard_Integer argc, const char ** argv)
611{
612 if (argc != 3) {
586db386 613 di << "Usage: " << argv[0] << " invalid number of arguments\n";
2e9fd4bc 614 return 1;
615 }
616 Handle(Geom_Curve) aCurve = DrawTrSurf::GetCurve(argv[1]);
617 Handle(Geom_Surface) aSurf = DrawTrSurf::GetSurface(argv[2]);
618 if (aCurve.IsNull()) {
586db386 619 di << "Curve was not read\n";
2e9fd4bc 620 return 1;
621 }
622 if (aSurf.IsNull()) {
586db386 623 di << "Surface was not read\n";
2e9fd4bc 624 return 1;
625 }
626 ShapeConstruct_ProjectCurveOnSurface aProj;
627 aProj.Init (aSurf, Precision::Confusion());
628 try {
629 Handle(Geom2d_Curve) aPCurve;
630 aProj.Perform (aCurve, aCurve->FirstParameter(), aCurve->LastParameter(), aPCurve);
631 if (aPCurve.IsNull()) {
586db386 632 di << "PCurve was not created\n";
2e9fd4bc 633 return 1;
634 }
635 } catch (...) {
586db386 636 di << "Exception was caught\n";
2e9fd4bc 637 }
638 return 0;
639}
640
470ebb43 641#include <GeomAdaptor_Surface.hxx>
642#include <Draw.hxx>
643//=======================================================================
644//function : OCC23945
645//purpose :
646//=======================================================================
647
35e08fe8 648static Standard_Integer OCC23945 (Draw_Interpretor& /*di*/,Standard_Integer n, const char** a)
470ebb43 649{
650 if (n < 5) return 1;
651
652 Handle(Geom_Surface) aS = DrawTrSurf::GetSurface(a[1]);
653 if (aS.IsNull()) return 1;
654
655 GeomAdaptor_Surface GS(aS);
656
657 Standard_Real U = Draw::Atof(a[2]);
658 Standard_Real V = Draw::Atof(a[3]);
659
660 Standard_Boolean DrawPoint = ( n%3 == 2);
661 if ( DrawPoint) n--;
662
663 gp_Pnt P;
664 if (n >= 13) {
665 gp_Vec DU,DV;
666 if (n >= 22) {
667 gp_Vec D2U,D2V,D2UV;
668 GS.D2(U,V,P,DU,DV,D2U,D2V,D2UV);
669 Draw::Set(a[13],D2U.X());
670 Draw::Set(a[14],D2U.Y());
671 Draw::Set(a[15],D2U.Z());
672 Draw::Set(a[16],D2V.X());
673 Draw::Set(a[17],D2V.Y());
674 Draw::Set(a[18],D2V.Z());
675 Draw::Set(a[19],D2UV.X());
676 Draw::Set(a[20],D2UV.Y());
677 Draw::Set(a[21],D2UV.Z());
678 }
679 else
680 GS.D1(U,V,P,DU,DV);
681
682 Draw::Set(a[7],DU.X());
683 Draw::Set(a[8],DU.Y());
684 Draw::Set(a[9],DU.Z());
685 Draw::Set(a[10],DV.X());
686 Draw::Set(a[11],DV.Y());
687 Draw::Set(a[12],DV.Z());
688 }
689 else
690 GS.D0(U,V,P);
691
692 if ( n > 6) {
693 Draw::Set(a[4],P.X());
694 Draw::Set(a[5],P.Y());
695 Draw::Set(a[6],P.Z());
696 }
697 if ( DrawPoint) {
698 DrawTrSurf::Set(a[n],P);
699 }
700
701 return 0;
702}
703
29cb310a 704//=======================================================================
705//function : OCC11758
706//purpose :
707//=======================================================================
498ce76b 708static Standard_Integer OCC11758 (Draw_Interpretor& di, Standard_Integer n, const char**)
29cb310a 709{
710 if (n != 1) return 1;
711
712 const char* theStr = "0123456789";
713 Standard_Integer i, j;
714 for ( i = 0; i < 5; ++i ) {
715 // TCollection_AsciiString(const Standard_CString astring)
716 TCollection_AsciiString a(theStr+i);
717 // IsEqual (const Standard_CString other)const
718 //assert( a == theStr+i );
719 QCOMPARE ( a , theStr+i );
720
721 //TCollection_AsciiString(const Standard_CString astring,const Standard_Integer aLen )
722 TCollection_AsciiString b(theStr+i, 3);
723 //assert( b.Length() == 3 );
724 //assert( strncmp( b.ToCString(), theStr+i, 3 ) == 0 );
725 //assert( strlen( b.ToCString() ) == 3 );
726 QCOMPARE ( b.Length() , 3 );
727 QCOMPARE ( strncmp( b.ToCString() , theStr+i, 3 ) , 0 );
728 QCOMPARE ( b.Length() , 3 );
729
730 //TCollection_AsciiString(const Standard_Integer aValue)
731 TCollection_AsciiString c(i);
732 //assert( c.IsIntegerValue() );
733 //assert( c.IntegerValue() == i );
734 QCOMPARE ( c.IsIntegerValue() , Standard_True );
735 QCOMPARE ( c.IntegerValue() , i );
736
737 //TCollection_AsciiString(const Standard_Real aValue)
738 TCollection_AsciiString d( 0.1*i );
739 //assert( d.IsRealValue() );
740 //assert( TCollection_AsciiString(3.3) == "3.3");
741 QCOMPARE ( d.IsRealValue() , Standard_True );
742 QCOMPARE ( TCollection_AsciiString(3.3) , "3.3" );
743
744 //TCollection_AsciiString(const TCollection_AsciiString& astring)
745 TCollection_AsciiString e(d);
746 //assert( e == d );
747 //assert( e.Length() == d.Length() );
748 //assert( strcmp( e.ToCString(), d.ToCString() ) == 0 );
749 QCOMPARE ( e ,d );
750 QCOMPARE ( e.Length() , d.Length() );
751 QCOMPARE ( strcmp( e.ToCString(), d.ToCString() ) , 0 );
752
753 // TCollection_AsciiString(const TCollection_AsciiString& astring ,
754 // const Standard_Character other )
755 TCollection_AsciiString f(e,'\a');
756 //assert( f.Length() == e.Length() + 1 );
757 //assert( strncmp( f.ToCString(), e.ToCString(), e.Length() ) == 0 );
758 //assert( f.Value( f.Length() ) == '\a');
759 QCOMPARE ( f.Length() , e.Length() + 1 );
760 QCOMPARE ( strncmp( f.ToCString(), e.ToCString(), e.Length() ) , 0 );
761 QCOMPARE ( f.Value( f.Length() ) , '\a' );
762
763 // TCollection_AsciiString(const TCollection_AsciiString& astring ,
764 // const Standard_CString other )
765 TCollection_AsciiString g(f, theStr);
766 //assert( g.Length() == f.Length() + strlen( theStr ));
767 //assert( strncmp( g.ToCString(), f.ToCString(), f.Length() ) == 0 );
768 //assert( g.Search( theStr ) == f.Length() + 1 );
769 QCOMPARE ( g.Length() , f.Length() + (Standard_Integer)strlen( theStr ) );
770 QCOMPARE ( strncmp( g.ToCString(), f.ToCString(), f.Length() ) , 0 );
771 QCOMPARE ( g.Search( theStr ) , f.Length() + 1 );
772
773 // TCollection_AsciiString(const TCollection_AsciiString& astring ,
774 // const TCollection_AsciiString& other )
775 TCollection_AsciiString h(d,a);
776 //assert( h.Length() == d.Length() + a.Length() );
777 //assert( strncmp( h.ToCString(), d.ToCString(), d.Length() ) == 0 );
778 //assert( strncmp( h.ToCString() + d.Length(), a.ToCString(), a.Length() ) == 0 );
779 QCOMPARE ( h.Length() , d.Length() + a.Length() );
780 QCOMPARE ( strncmp( h.ToCString(), d.ToCString(), d.Length() ) , 0 );
781 QCOMPARE ( strncmp( h.ToCString() + d.Length(), a.ToCString(), a.Length() ) , 0 );
782
783 // AssignCat(const Standard_CString other)
784 c.AssignCat( a.ToCString() );
785 //assert( c.Length() == 1 + a.Length() );
786 //assert( c.Search( a ) == 2 );
787 QCOMPARE ( c.Length() , 1 + a.Length() );
788 QCOMPARE ( c.Search( a ) , 2 );
789
790 // AssignCat(const TCollection_AsciiString& other)
791 Standard_Integer dl = d.Length();
792 d.AssignCat( a );
793 //assert( d.Length() == dl + a.Length() );
794 //assert( d.Search( a ) == dl + 1 );
795 QCOMPARE ( d.Length() , dl + a.Length() );
796 QCOMPARE ( d.Search( a ) , dl + 1 );
797
798 // Capitalize()
799 TCollection_AsciiString capitalize("aBC");
800 capitalize.Capitalize();
801 //assert( capitalize == "Abc" );
802 QCOMPARE ( capitalize , "Abc" );
803
804 // Copy(const Standard_CString fromwhere)
805 d = theStr+i;
806 //assert( d == theStr+i );
807 QCOMPARE ( d , theStr+i );
808
809 // Copy(const TCollection_AsciiString& fromwhere)
810 d = h;
811 // IsEqual (const TCollection_AsciiString& other)const
812 //assert( d == h );
813 QCOMPARE ( d , h );
814
815 // Insert(const Standard_Integer where, const Standard_CString what)
816 dl = d.Length();
817 d.Insert( 2, theStr );
818 //assert( d.Length() == dl + strlen( theStr ));
819 //assert( strncmp( d.ToCString() + 1, theStr, strlen( theStr )) == 0 );
820 QCOMPARE ( d.Length() , dl + (Standard_Integer)strlen( theStr ) );
821 QCOMPARE ( strncmp( d.ToCString() + 1, theStr, strlen( theStr )) , 0 );
822
823 //Insert(const Standard_Integer where,const Standard_Character what)
824 d = theStr;
825 d.Insert( i+1, 'i' );
826 //assert( d.Length() == strlen( theStr ) + 1 );
827 //assert( d.Value( i+1 ) == 'i');
828 //assert( strcmp( d.ToCString() + i + 1, theStr+i ) == 0 );
829 QCOMPARE ( d.Length() , (Standard_Integer)strlen( theStr ) + 1 );
830 QCOMPARE ( d.Value( i+1 ) , 'i' );
831 QCOMPARE ( strcmp( d.ToCString() + i + 1, theStr+i ) , 0 );
832
833 //Insert(const Standard_Integer where,const TCollection_AsciiString& what)
834 d = theStr;
835 d.Insert( i+1, TCollection_AsciiString( "i" ));
836 //assert( d.Length() == strlen( theStr ) + 1 );
837 //assert( d.Value( i+1 ) == 'i');
838 //assert( strcmp( d.ToCString() + i + 1, theStr+i ) == 0 );
839 QCOMPARE ( d.Length() , (Standard_Integer)strlen( theStr ) + 1 );
840 QCOMPARE ( d.Value( i+1 ) , 'i' );
841 QCOMPARE ( strcmp( d.ToCString() + i + 1, theStr+i ) , 0 );
842
843 // IsDifferent (const Standard_CString other)const
844 //assert( d.IsDifferent( theStr ));
845 //assert( d.IsDifferent( "theStr" ));
846 //assert( d.IsDifferent( "" ));
847 //assert( !d.IsDifferent( d.ToCString() ));
848 QCOMPARE ( d.IsDifferent( theStr ) , Standard_True );
849 QCOMPARE ( d.IsDifferent( "theStr" ) , Standard_True );
850 QCOMPARE ( d.IsDifferent( "" ) , Standard_True );
851 QCOMPARE ( !d.IsDifferent( d.ToCString() ) , Standard_True );
852
853 // IsDifferent (const TCollection_AsciiString& other)const
854 //assert( d.IsDifferent( TCollection_AsciiString() ));
855 //assert( d.IsDifferent( a ));
856 //assert( d.IsDifferent( h ));
857 //assert( !d.IsDifferent( d ));
858 QCOMPARE ( d.IsDifferent( TCollection_AsciiString() ) , Standard_True );
859 QCOMPARE ( d.IsDifferent( a ) , Standard_True );
860 QCOMPARE ( d.IsDifferent( h ) , Standard_True );
861 QCOMPARE ( !d.IsDifferent( d ) , Standard_True );
862
863 // IsLess (const Standard_CString other)const
864 //assert( TCollection_AsciiString ("0"). IsLess("1"));
865 //assert( TCollection_AsciiString ("0"). IsLess("00"));
866 //assert( TCollection_AsciiString (""). IsLess("0"));
867 //assert( !TCollection_AsciiString("1"). IsLess("0"));
868 //assert( !TCollection_AsciiString("00").IsLess("0"));
869 //assert( !TCollection_AsciiString("0"). IsLess(""));
870 //assert( TCollection_AsciiString (theStr+i).IsLess(theStr+i+1));
871 QCOMPARE ( TCollection_AsciiString ("0"). IsLess("1") , Standard_True );
872 QCOMPARE ( TCollection_AsciiString ("0"). IsLess("00") , Standard_True );
873 QCOMPARE ( TCollection_AsciiString (""). IsLess("0") , Standard_True );
874 QCOMPARE ( !TCollection_AsciiString("1"). IsLess("0"), Standard_True );
875 QCOMPARE ( !TCollection_AsciiString("00").IsLess("0") , Standard_True );
876 QCOMPARE ( !TCollection_AsciiString("0"). IsLess("") , Standard_True );
877 QCOMPARE ( TCollection_AsciiString (theStr+i).IsLess(theStr+i+1) , Standard_True );
878
879 // IsLess (const TCollection_AsciiString& other)const
880 //assert( TCollection_AsciiString ("0"). IsLess(TCollection_AsciiString("1" )));
881 //assert( TCollection_AsciiString ("0"). IsLess(TCollection_AsciiString("00")));
882 //assert( TCollection_AsciiString (""). IsLess(TCollection_AsciiString("0" )));
883 //assert( !TCollection_AsciiString("1"). IsLess(TCollection_AsciiString("0" )));
884 //assert( !TCollection_AsciiString("00").IsLess(TCollection_AsciiString("0" )));
885 //assert( !TCollection_AsciiString("0"). IsLess(TCollection_AsciiString("" )));
886 //assert( TCollection_AsciiString (theStr+i).IsLess(TCollection_AsciiString(theStr+i+1)));
887 QCOMPARE ( TCollection_AsciiString ("0"). IsLess(TCollection_AsciiString("1" )) , Standard_True );
888 QCOMPARE ( TCollection_AsciiString ("0"). IsLess(TCollection_AsciiString("00")) , Standard_True );
889 QCOMPARE ( TCollection_AsciiString (""). IsLess(TCollection_AsciiString("0" )) , Standard_True );
890 QCOMPARE ( !TCollection_AsciiString("1"). IsLess(TCollection_AsciiString("0" )) , Standard_True );
891 QCOMPARE ( !TCollection_AsciiString("00").IsLess(TCollection_AsciiString("0" )) , Standard_True );
892 QCOMPARE ( !TCollection_AsciiString("0"). IsLess(TCollection_AsciiString("" )) , Standard_True );
893 QCOMPARE ( TCollection_AsciiString (theStr+i).IsLess(TCollection_AsciiString(theStr+i+1)) , Standard_True );
894
895 // IsGreater (const Standard_CString other)const
896 //assert( !TCollection_AsciiString("0"). IsGreater("1"));
897 //assert( !TCollection_AsciiString("0"). IsGreater("00"));
898 //assert( !TCollection_AsciiString(""). IsGreater("0"));
899 //assert( TCollection_AsciiString ("1"). IsGreater("0"));
900 //assert( TCollection_AsciiString ("00").IsGreater("0"));
901 //assert( TCollection_AsciiString ("0"). IsGreater(""));
902 //assert( TCollection_AsciiString (theStr+i+1).IsGreater(theStr+i));
903 QCOMPARE ( !TCollection_AsciiString("0"). IsGreater("1") , Standard_True );
904 QCOMPARE ( !TCollection_AsciiString("0"). IsGreater("00") , Standard_True );
905 QCOMPARE ( !TCollection_AsciiString(""). IsGreater("0") , Standard_True );
906 QCOMPARE ( TCollection_AsciiString ("1"). IsGreater("0") , Standard_True );
907 QCOMPARE ( TCollection_AsciiString ("00").IsGreater("0") , Standard_True );
908 QCOMPARE ( TCollection_AsciiString ("0"). IsGreater("") , Standard_True );
909 QCOMPARE ( TCollection_AsciiString (theStr+i+1).IsGreater(theStr+i) , Standard_True );
910
911 // IsGreater (const TCollection_AsciiString& other)const
912 //assert( !TCollection_AsciiString("0"). IsGreater(TCollection_AsciiString("1" )));
913 //assert( !TCollection_AsciiString("0"). IsGreater(TCollection_AsciiString("00")));
914 //assert( !TCollection_AsciiString(""). IsGreater(TCollection_AsciiString("0" )));
915 //assert( TCollection_AsciiString ("1"). IsGreater(TCollection_AsciiString("0" )));
916 //assert( TCollection_AsciiString ("00").IsGreater(TCollection_AsciiString("0" )));
917 //assert( TCollection_AsciiString ("0"). IsGreater(TCollection_AsciiString("" )));
918 //assert( TCollection_AsciiString (theStr+i+1).IsGreater(TCollection_AsciiString(theStr+i)));
919 QCOMPARE ( !TCollection_AsciiString("0"). IsGreater(TCollection_AsciiString("1" )) , Standard_True );
920 QCOMPARE ( !TCollection_AsciiString("0"). IsGreater(TCollection_AsciiString("00")) , Standard_True );
921 QCOMPARE ( !TCollection_AsciiString(""). IsGreater(TCollection_AsciiString("0" )) , Standard_True );
922 QCOMPARE ( TCollection_AsciiString ("1"). IsGreater(TCollection_AsciiString("0" )) , Standard_True );
923 QCOMPARE ( TCollection_AsciiString ("00").IsGreater(TCollection_AsciiString("0" )) , Standard_True );
924 QCOMPARE ( TCollection_AsciiString ("0"). IsGreater(TCollection_AsciiString("" )) , Standard_True );
925 QCOMPARE ( TCollection_AsciiString (theStr+i+1).IsGreater(TCollection_AsciiString(theStr+i)) , Standard_True );
926
927 // void Read(Standard_IStream& astream)
928 std::istringstream is( theStr );
929 e.Read( is );
930 //assert( e == theStr );
931 QCOMPARE ( e , theStr );
932
933 // Standard_Integer SearchFromEnd (const Standard_CString what)const
934 //assert( e.SearchFromEnd( theStr + i ) == i + 1 );
935 QCOMPARE ( e.SearchFromEnd( theStr + i ) , i + 1 );
936
937 // SetValue(const Standard_Integer where, const Standard_CString what)
938 e.SetValue( i+1, "what");
939 //assert( e.Search( "what" ) == i+1 );
940 //assert( e.Length() == strlen( theStr ));
941 QCOMPARE ( e.Search( "what" ) , i+1 );
942 QCOMPARE ( e.Length() , (Standard_Integer)strlen( theStr ) );
943
944 // TCollection_AsciiString Split (const Standard_Integer where)
945 e = theStr;
946 d = e.Split( i+1 );
947 //assert( d.Length() + e.Length() == strlen( theStr ));
948 QCOMPARE ( d.Length() + e.Length() , (Standard_Integer)strlen( theStr ) );
949
950 // TCollection_AsciiString SubString (const Standard_Integer FromIndex,
951 // const Standard_Integer ToIndex) const
952 e = theStr;
953 d = e.SubString( (unsigned int)i+1, (unsigned int)i+3 );
954 //assert( d.Length() == 3 );
955 //assert( d.Value(1) == theStr[ i ]);
956 QCOMPARE ( d.Length() , 3 );
957 QCOMPARE ( d.Value(1) , theStr[ i ] );
958
959 // TCollection_AsciiString Token (const Standard_CString separators,
960 // const Standard_Integer whichone) const
961 e = " ";
962 for ( j = 0; j < i; ++j ) {
963 e += TCollection_AsciiString( theStr[j] ) + " ";
964 //assert( e.Token(" ", j+1 ) == TCollection_AsciiString( theStr+j, 1 ));
965 QCOMPARE ( e.Token(" ", j+1 ) , TCollection_AsciiString( theStr+j, 1 ) );
966 }
967 }
968 for ( i = 0; i < 5; ++i )
969 {
970 // TCollection_ExtendedString (const Standard_CString astring,
971 // const Standard_Boolean isMultiByte)
972 const TCollection_ExtendedString a( theStr+i );
973 //assert( TCollection_AsciiString( a ) == theStr+i );
974 QCOMPARE ( TCollection_AsciiString( a ) , theStr+i );
975
976 //TCollection_ExtendedString (const Standard_ExtString astring)
977 const TCollection_ExtendedString b( a.ToExtString() );
978 //assert( a == b );
979 QCOMPARE ( a , b );
980
981 // TCollection_ExtendedString (const Standard_Integer length,
982 // const Standard_ExtCharacter filler )
983 const TCollection_ExtendedString c( i, 1 );
984 //assert( c.Length() == i );
985 QCOMPARE ( c.Length() , i );
986 if ( c.Length() > 0 ) {
987 //assert( c.Value( i ) == 1 );
988 QCOMPARE ( c.Value( i ) , 1 );
989 }
990
991 // TCollection_ExtendedString (const Standard_Integer aValue)
992 TCollection_ExtendedString d( i );
993 const TCollection_AsciiString da( d );
994 //assert( da.IsIntegerValue() );
995 //assert( da.IntegerValue() == i );
996 QCOMPARE ( da.IsIntegerValue() , Standard_True );
997 QCOMPARE ( da.IntegerValue(), i );
998
999 // TCollection_ExtendedString (const Standard_Real aValue)
1000 const TCollection_ExtendedString e( 0.1 * i );
1001 const TCollection_AsciiString ea( e );
1002 //assert( ea.IsRealValue() );
1003 //assert( Abs( ea.RealValue() - 0.1 * i ) < 1e-10 );
1004 QCOMPARE ( ea.IsRealValue() , Standard_True );
1005 QCOMPARE ( Abs( ea.RealValue() - 0.1 * i ) < 1e-10 , Standard_True );
1006
1007 // TCollection_ExtendedString (const TCollection_ExtendedString& astring)
1008 const TCollection_ExtendedString f(e);
1009 //assert( f.Length() == e.Length());
1010 //assert( f == e );
1011 QCOMPARE ( f.Length() , e.Length() );
1012 QCOMPARE ( f , e );
1013
1014 // TCollection_ExtendedString (const TCollection_AsciiString& astring)
1015 const TCollection_ExtendedString g( ea );
1016 //assert( g.Length() == ea.Length() );
1017 //assert( TCollection_AsciiString( g ) == ea );
1018 QCOMPARE ( g.Length() , ea.Length() );
1019 QCOMPARE ( TCollection_AsciiString( g ) , ea );
1020
1021 // AssignCat (const TCollection_ExtendedString& other)
1022 const TCollection_ExtendedString sep(",");
1023 d.AssignCat( sep );
1024 d.AssignCat( g );
1025 //assert( d.Length() == 2 + g.Length() );
1026 //assert( d.Token( sep.ToExtString(), 1 ) == TCollection_ExtendedString( i ));
1027 //assert( d.Token( sep.ToExtString(), 2 ) == g );
1028 QCOMPARE ( d.Length() , 2 + g.Length() );
1029 QCOMPARE ( d.Token( sep.ToExtString(), 1 ) , TCollection_ExtendedString( i ) );
1030 QCOMPARE ( d.Token( sep.ToExtString(), 2 ) , g );
1031
1032 // TCollection_ExtendedString Cat (const TCollection_ExtendedString& other) const
1033 const TCollection_ExtendedString cat = a.Cat( sep );
1034 //assert( cat.Length() == a.Length() + sep.Length() );
1035 //assert( cat.Search( a ) == 1 );
1036 //assert( cat.Search( sep ) == a.Length() + 1 );
1037 QCOMPARE ( cat.Length() , a.Length() + sep.Length() );
1038 QCOMPARE ( cat.Search( a ) , 1 );
1039 QCOMPARE ( cat.Search( sep ) , a.Length() + 1 );
1040
1041 // Copy (const TCollection_ExtendedString& fromwhere)
1042 d = cat;
1043 //assert( d.Length() == cat.Length() );
1044 //assert( d == cat );
1045 QCOMPARE ( d.Length() , cat.Length() );
1046 QCOMPARE ( d , cat );
1047
1048 // IsEqual (const Standard_ExtString other) const
1049 //assert( d.IsEqual( d.ToExtString() ));
1050 QCOMPARE ( d.IsEqual( d.ToExtString() ) , Standard_True );
1051
1052 // IsDifferent (const Standard_ExtString other ) const
1053 //assert( d.IsDifferent( a.ToExtString() ));
1054 QCOMPARE ( d.IsDifferent( a.ToExtString() ) , Standard_True );
1055
1056 // IsDifferent (const TCollection_ExtendedString& other) const
1057 //assert( d.IsDifferent( a ));
1058 QCOMPARE ( d.IsDifferent( a ) , Standard_True );
1059
1060 // IsLess (const Standard_ExtString other) const
1061 const TCollection_ExtendedString l0("0"), l1("1"), l00("00"), l, ls(theStr+i), ls1(theStr+i+1);
1062 //assert( l0. IsLess( l1.ToExtString() ));
1063 //assert( l0. IsLess( l00.ToExtString() ));
1064 //assert( l. IsLess( l0.ToExtString() ));
1065 //assert( ! l1. IsLess( l0.ToExtString() ));
1066 //assert( ! l00.IsLess( l0.ToExtString() ));
1067 //assert( ! l0. IsLess( l.ToExtString() ));
1068 //assert( ls.IsLess( ls1.ToExtString() ));
1069 QCOMPARE ( l0. IsLess( l1.ToExtString() ) , Standard_True );
1070 QCOMPARE ( l0. IsLess( l00.ToExtString() ) , Standard_True );
1071 QCOMPARE ( l. IsLess( l0.ToExtString() ) , Standard_True );
1072 QCOMPARE ( ! l1. IsLess( l0.ToExtString() ) , Standard_True );
1073 QCOMPARE ( ! l00.IsLess( l0.ToExtString() ) , Standard_True );
1074 QCOMPARE ( ! l0. IsLess( l.ToExtString() ) , Standard_True );
1075 QCOMPARE ( ls.IsLess( ls1.ToExtString() ) , Standard_True );
1076
1077 // IsLess (const TCollection_ExtendedString& other) const
1078 //assert( l0. IsLess( l1 ));
1079 //assert( l0. IsLess( l00 ));
1080 //assert( l. IsLess( l0 ));
1081 //assert( ! l1. IsLess( l0 ));
1082 //assert( ! l00.IsLess( l0 ));
1083 //assert( ! l0. IsLess( l ));
1084 //assert( ls.IsLess( ls1 ));
1085 QCOMPARE ( l0. IsLess( l1 ) , Standard_True );
1086 QCOMPARE ( l0. IsLess( l00 ) , Standard_True );
1087 QCOMPARE ( l. IsLess( l0 ) , Standard_True );
1088 QCOMPARE ( ! l1. IsLess( l0 ) , Standard_True );
1089 QCOMPARE ( ! l00.IsLess( l0 ) , Standard_True );
1090 QCOMPARE ( ! l0. IsLess( l ) , Standard_True );
1091 QCOMPARE ( ls.IsLess( ls1 ) , Standard_True );
1092
1093 // IsGreater (const Standard_ExtString other) const
1094 //assert( ! l0.IsGreater( l1.ToExtString() ));
1095 //assert( ! l0.IsGreater( l00.ToExtString() ));
1096 //assert( ! l. IsGreater( l0.ToExtString() ));
1097 //assert( l1. IsGreater( l0.ToExtString() ));
1098 //assert( l00.IsGreater( l0.ToExtString() ));
1099 //assert( l0. IsGreater( l.ToExtString() ));
1100 //assert( ls1.IsGreater( ls.ToExtString() ));
1101 QCOMPARE ( ! l0.IsGreater( l1.ToExtString() ) , Standard_True );
1102 QCOMPARE ( ! l0.IsGreater( l00.ToExtString() ) , Standard_True );
1103 QCOMPARE ( ! l. IsGreater( l0.ToExtString() ) , Standard_True );
1104 QCOMPARE ( l1. IsGreater( l0.ToExtString() ) , Standard_True );
1105 QCOMPARE ( l00.IsGreater( l0.ToExtString() ) , Standard_True );
1106 QCOMPARE ( l0. IsGreater( l.ToExtString() ) , Standard_True );
1107 QCOMPARE ( ls1.IsGreater( ls.ToExtString() ) ,Standard_True );
1108
1109 // IsGreater (const TCollection_ExtendedString& other) const
1110 //assert( ! l0.IsGreater( l1));
1111 //assert( ! l0.IsGreater( l00));
1112 //assert( ! l. IsGreater( l0));
1113 //assert( l1. IsGreater( l0));
1114 //assert( l00.IsGreater( l0));
1115 //assert( l0. IsGreater( l));
1116 //assert( ls1.IsGreater( ls));
1117 QCOMPARE ( ! l0.IsGreater( l1) , Standard_True );
1118 QCOMPARE ( ! l0.IsGreater( l00) , Standard_True );
1119 QCOMPARE ( ! l. IsGreater( l0) , Standard_True );
1120 QCOMPARE ( l1. IsGreater( l0) , Standard_True );
1121 QCOMPARE ( l00.IsGreater( l0) , Standard_True );
1122 QCOMPARE ( l0. IsGreater( l) , Standard_True );
1123 QCOMPARE ( ls1.IsGreater( ls) , Standard_True );
1124
1125 // ==========================
1126 //TCollection_HAsciiString::
1127 // ==========================
1128
1129 // IsDifferent(const Handle(TCollection_HAsciiString)& S)
1130 Handle(TCollection_HAsciiString) ha1 = new TCollection_HAsciiString( theStr+i );
1131 Handle(TCollection_HAsciiString) ha2 = new TCollection_HAsciiString( theStr+i+1 );
1132 //assert( ha1->IsDifferent( ha2 ));
1133 //assert( !ha1->IsDifferent( ha1 ));
1134 QCOMPARE ( ha1->IsDifferent( ha2 ) , Standard_True );
1135 QCOMPARE ( !ha1->IsDifferent( ha1 ) , Standard_True );
1136
1137 // IsSameString (const Handle(TCollection_HAsciiString)& S)
1138 //assert( !ha1->IsSameString( ha2 ));
1139 //assert( ha1->IsSameString( ha1 ));
1140 QCOMPARE ( !ha1->IsSameString( ha2 ) , Standard_True );
1141 QCOMPARE ( ha1->IsSameString( ha1 ) , Standard_True );
1142
1143 // IsSameState (const Handle(TCollection_HAsciiString)& other) const
1144 //assert( !ha1->IsSameState( ha2 ));
1145 //assert( ha1->IsSameState( ha1 ));
1146 QCOMPARE ( !ha1->IsSameState( ha2 ) , Standard_True );
1147 QCOMPARE ( ha1->IsSameState( ha1 ) , Standard_True );
1148
1149 // IsSameString (const Handle(TCollection_HAsciiString)& S ,
1150 // const Standard_Boolean CaseSensitive) const
1151 //assert( !ha1->IsSameString( ha2, true ));
1152 //assert( ha1->IsSameString( ha1, true ));
1153 //assert( !ha1->IsSameString( ha2, false ));
1154 //assert( ha1->IsSameString( ha1, false ));
1155 QCOMPARE ( !ha1->IsSameString( ha2, Standard_True ) , Standard_True );
1156 QCOMPARE ( ha1->IsSameString( ha1, Standard_True ) , Standard_True );
1157 QCOMPARE ( !ha1->IsSameString( ha2, Standard_False ) , Standard_True );
1158 QCOMPARE ( ha1->IsSameString( ha1, Standard_False ) , Standard_True );
1159
1160 ha1->SetValue( 1, "AbC0000000");
1161 ha2->SetValue( 1, "aBc0000000");
1162 //assert( !ha1->IsSameString( ha2, true ));
1163 //assert( ha1->IsSameString( ha2, false ));
1164 QCOMPARE ( !ha1->IsSameString( ha2, Standard_True ) , Standard_True );
1165 QCOMPARE ( ha1->IsSameString( ha2, Standard_False ), Standard_True );
1166 }
1167 return 0;
1168}
1169
788cbaf4 1170#include <Geom_CylindricalSurface.hxx>
1171#include <IntTools_FaceFace.hxx>
1172#include <IntTools_Curve.hxx>
1173#include <IntTools_PntOn2Faces.hxx>
1174
1175static Standard_Integer OCC24005 (Draw_Interpretor& theDI, Standard_Integer theNArg, const char** theArgv)
1176{
1177 if(theNArg < 2)
1178 {
1179 theDI << "Wrong a number of arguments!\n";
1180 return 1;
1181 }
1182
857ffd5e 1183 Handle(Geom_Plane) plane(new Geom_Plane(
788cbaf4 1184 gp_Ax3( gp_Pnt(-72.948737453424499, 754.30437716359393, 259.52151854671678),
1185 gp_Dir(6.2471473085930200e-007, -0.99999999999980493, 0.00000000000000000),
1186 gp_Dir(0.99999999999980493, 6.2471473085930200e-007, 0.00000000000000000))));
1187 Handle(Geom_CylindricalSurface) cylinder(
1188 new Geom_CylindricalSurface(
1189 gp_Ax3(gp_Pnt(-6.4812490053250649, 753.39408794522092, 279.16400974257465),
1190 gp_Dir(1.0000000000000000, 0.0, 0.00000000000000000),
1191 gp_Dir(0.0, 1.0000000000000000, 0.00000000000000000)),
1192 19.712534607908712));
1193
1194 DrawTrSurf::Set("pln", plane);
1195 theDI << "pln\n";
1196 DrawTrSurf::Set("cyl", cylinder);
1197 theDI << "cyl\n";
1198
1199 BRep_Builder builder;
1200 TopoDS_Face face1, face2;
1201 builder.MakeFace(face1, plane, Precision::Confusion());
1202 builder.MakeFace(face2, cylinder, Precision::Confusion());
1203 IntTools_FaceFace anInters;
1204 anInters.SetParameters(false, true, true, Precision::Confusion());
1205 anInters.Perform(face1, face2);
1206
1207 if (!anInters.IsDone())
1208 {
586db386 1209 theDI<<"No intersections found!\n";
788cbaf4 1210
1211 return 1;
1212 }
1213
1214 //Handle(Geom_Curve) aResult;
1215 //gp_Pnt aPoint;
1216
1217 const IntTools_SequenceOfCurves& aCvsX=anInters.Lines();
1218 const IntTools_SequenceOfPntOn2Faces& aPntsX=anInters.Points();
1219
1220 char buf[1024];
1221 Standard_Integer aNbCurves, aNbPoints;
1222
1223 aNbCurves=aCvsX.Length();
1224 aNbPoints=aPntsX.Length();
1225
1226 if (aNbCurves >= 2)
1227 {
1228 for (Standard_Integer i=1; i<=aNbCurves; ++i)
1229 {
1230 Sprintf(buf, "%s_%d",theArgv[1],i);
1231 theDI << buf << " ";
1232
1233 const IntTools_Curve& aIC = aCvsX(i);
1234 const Handle(Geom_Curve)& aC3D= aIC.Curve();
1235 DrawTrSurf::Set(buf,aC3D);
1236 }
1237 }
1238 else if (aNbCurves == 1)
1239 {
1240 const IntTools_Curve& aIC = aCvsX(1);
1241 const Handle(Geom_Curve)& aC3D= aIC.Curve();
1242 Sprintf(buf, "%s",theArgv[1]);
1243 theDI << buf << " ";
1244 DrawTrSurf::Set(buf,aC3D);
1245 }
1246
1247 for (Standard_Integer i = 1; i<=aNbPoints; ++i)
1248 {
1249 const IntTools_PntOn2Faces& aPi=aPntsX(i);
1250 const gp_Pnt& aP=aPi.P1().Pnt();
1251
1252 Sprintf(buf,"%s_p_%d",theArgv[1],i);
1253 theDI << buf << " ";
1254 DrawTrSurf::Set(buf, aP);
1255 }
1256
1257 return 0;
1258}
1259
1b7602c8 1260#include <BRepAlgo_NormalProjection.hxx>
1261static Standard_Integer OCC24012 (Draw_Interpretor& di, Standard_Integer argc, const char ** argv)
1262{
1263 if (argc != 3) {
1264 di << "Usage : " << argv[0] << " should be 2 arguments (face and edge)";
1265 return 1;
1266 }
1267
1268 Handle(AIS_InteractiveContext) myAISContext = ViewerTest::GetAISContext();
1269 if(myAISContext.IsNull()) {
1270 di << "use 'vinit' command before " << argv[0] << "\n";
1271 return 1;
1272 }
1273
1274 TopoDS_Face m_Face1 = TopoDS::Face(DBRep::Get(argv[1]));
1275 TopoDS_Edge m_Edge = TopoDS::Edge(DBRep::Get(argv[2]));
1276
1277 BRepAlgo_NormalProjection anormpro(m_Face1);
1278 anormpro.Add(m_Edge);
1279 anormpro.SetDefaultParams();
1280
1281 //anormpro.Compute3d();
1282 //anormpro.SetLimit();
1283
1284 anormpro.Build();
1285
1286 if (anormpro.IsDone())
1287 {
1288 TopoDS_Shape rshape = anormpro.Projection();
1289 Handle(AIS_InteractiveObject) myShape = new AIS_Shape (rshape);
0577ae8c 1290 myAISContext->SetColor (myShape, Quantity_Color(Quantity_NOC_YELLOW), Standard_False);
1291 myAISContext->Display (myShape, Standard_True);
1b7602c8 1292 }
1293
1294 return 0;
1295}
1296
69fd2d1b 1297#include <BRepFeat_SplitShape.hxx>
1298#include <ShapeAnalysis_ShapeContents.hxx>
1299#include <BRepAlgo.hxx>
1300static Standard_Integer OCC24086 (Draw_Interpretor& di, Standard_Integer argc, const char ** argv)
1301{
1302 if (argc != 3) {
1303 di << "Usage : " << argv[0] << " should be 2 arguments (face and wire)";
1304 return 1;
1305 }
1306
1307 Handle(AIS_InteractiveContext) myAISContext = ViewerTest::GetAISContext();
1308 if(myAISContext.IsNull()) {
1309 di << "use 'vinit' command before " << argv[0] << "\n";
1310 return 1;
1311 }
1312
1313 TopoDS_Shape result;
1314 TopoDS_Face face = TopoDS::Face(DBRep::Get(argv[1]));
1315 TopoDS_Wire wire = TopoDS::Wire(DBRep::Get(argv[2]));
1316
1317 BRepFeat_SplitShape asplit(face);
1318 asplit.Add(wire, face);
1319 asplit.Build();
1320 result = asplit.Shape();
1321 ShapeAnalysis_ShapeContents ana;
1322 ana.Perform(result);
1323 ana.NbFaces();
1324
1325 if (!(BRepAlgo::IsValid(result))) {
586db386 1326 di << "Result was checked and it is INVALID\n";
69fd2d1b 1327 } else {
586db386 1328 di << "Result was checked and it is VALID\n";
69fd2d1b 1329 }
1330
1331 Handle(AIS_InteractiveObject) myShape = new AIS_Shape (result);
1332 myAISContext->Display(myShape, Standard_True);
1333
1334 return 0;
1335}
1336
c764e804 1337#include <Geom_Circle.hxx>
1338#include <GeomAdaptor_Curve.hxx>
1339#include <Extrema_ExtPC.hxx>
1340#include <gp_Cylinder.hxx>
1341#include <ElSLib.hxx>
1342static Standard_Integer OCC24945 (Draw_Interpretor& di, Standard_Integer argc, const char ** argv)
1343{
1344 if (argc != 1) {
586db386 1345 di << "Usage: " << argv[0] << " invalid number of arguments\n";
c764e804 1346 return 1;
1347 }
1348
1349 gp_Pnt aP3D( -1725.97, 843.257, -4.22741e-013 );
1350 gp_Ax2 aAxis( gp_Pnt( 0, 843.257, 0 ), gp_Dir( 0, -1, 0 ), gp::DX() );
1351 Handle(Geom_Circle) aCircle = new Geom_Circle( aAxis, 1725.9708621929999 );
1352 GeomAdaptor_Curve aC3D( aCircle );
1353
1354 Extrema_ExtPC aExtPC( aP3D, aC3D );
1355 //Standard_Real aParam = (aExtPC.Point(1)).Parameter();
1356 gp_Pnt aProj = (aExtPC.Point(1)).Value();
1357 di << "Projected point: X = " << aProj.X() << "; Y = " << aProj.Y() << "; Z = " << aProj.Z() << "\n";
1358
1359 // Result of deviation
1360 gp_Ax2 aCylAxis( gp_Pnt( 0, 2103.87, 0 ), -gp::DY(), -gp::DX() );
1361 gp_Cylinder aCylinder( aCylAxis, 1890. );
1362
1363 Standard_Real aU = 0., aV = 0.;
1364 ElSLib::Parameters( aCylinder, aProj, aU, aV );
1365 di << "Parameters on cylinder: U = " << aU << "; V = " << aV << "\n";
1366
1367 return 0;
1368}
1369
e5260e1d 1370#include <Extrema_FuncPSNorm.hxx>
89d8607f 1371#include <math_FunctionSetRoot.hxx>
1372#include <math_Vector.hxx>
1373#include <BRepBuilderAPI_MakeVertex.hxx>
1374static Standard_Integer OCC24137 (Draw_Interpretor& theDI, Standard_Integer theNArg, const char** theArgv)
1375{
1376 Standard_Integer anArgIter = 1;
1377 if (theNArg < 5)
1378 {
586db386 1379 theDI <<"Usage: " << theArgv[0] << " face vertex U V [N]\n";
89d8607f 1380 return 1;
1381 }
1382
1383 // get target shape
1384 Standard_CString aFaceName = theArgv[anArgIter++];
1385 Standard_CString aVertName = theArgv[anArgIter++];
1386 const TopoDS_Shape aShapeF = DBRep::Get (aFaceName);
1387 const TopoDS_Shape aShapeV = DBRep::Get (aVertName);
1388 const Standard_Real aUFrom = Atof (theArgv[anArgIter++]);
1389 const Standard_Real aVFrom = Atof (theArgv[anArgIter++]);
1390 const Standard_Integer aNbIts = (anArgIter < theNArg) ? atol (theArgv[anArgIter++]) : 100;
1391 if (aShapeF.IsNull() || aShapeF.ShapeType() != TopAbs_FACE)
1392 {
1393 std::cout << "Error: " << aFaceName << " shape is null / not a face" << std::endl;
1394 return 1;
1395 }
1396 if (aShapeV.IsNull() || aShapeV.ShapeType() != TopAbs_VERTEX)
1397 {
1398 std::cout << "Error: " << aVertName << " shape is null / not a vertex" << std::endl;
1399 return 1;
1400 }
1401 const TopoDS_Face aFace = TopoDS::Face (aShapeF);
1402 const TopoDS_Vertex aVert = TopoDS::Vertex (aShapeV);
1403 GeomAdaptor_Surface aSurf (BRep_Tool::Surface (aFace));
1404
1405 gp_Pnt aPnt = BRep_Tool::Pnt (aVert), aRes;
1406
e5260e1d 1407 Extrema_FuncPSNorm anExtFunc;
89d8607f 1408 math_FunctionSetRoot aRoot (anExtFunc, aNbIts);
1409
1410 math_Vector aTolUV (1, 2), aUVinf (1, 2), aUVsup (1, 2), aFromUV (1, 2);
1411 aTolUV (1) = Precision::Confusion(); aTolUV (2) = Precision::Confusion();
1412 aUVinf (1) = -Precision::Infinite(); aUVinf (2) = -Precision::Infinite();
1413 aUVsup (1) = Precision::Infinite(); aUVsup (2) = Precision::Infinite();
1414 aFromUV(1) = aUFrom; aFromUV(2) = aVFrom;
1415
1416 anExtFunc.Initialize (aSurf);
1417 anExtFunc.SetPoint (aPnt);
1418 aRoot.SetTolerance (aTolUV);
1419 aRoot.Perform (anExtFunc, aFromUV, aUVinf, aUVsup);
1420 if (!aRoot.IsDone())
1421 {
1422 std::cerr << "No results!\n";
1423 return 1;
1424 }
1425
1426 theDI << aRoot.Root()(1) << " " << aRoot.Root()(2) << "\n";
1427
1428 aSurf.D0 (aRoot.Root()(1), aRoot.Root()(2), aRes);
1429 DBRep::Set ("result", BRepBuilderAPI_MakeVertex (aRes));
1430 return 0;
1431}
1432
ab2db9a5 1433//! Check boolean operations on NCollection_Map
1434static Standard_Integer OCC24271 (Draw_Interpretor& di,
1435 Standard_Integer /*theArgNb*/,
1436 const char** /*theArgVec*/)
1437{
1438 // input data
1439 const Standard_Integer aLeftLower = 1;
1440 const Standard_Integer aLeftUpper = 10;
1441 const Standard_Integer aRightLower = 5;
1442 const Standard_Integer aRightUpper = 15;
1443
1444 // define arguments
1445 NCollection_Map<Standard_Integer> aMapLeft;
1446 for (Standard_Integer aKeyIter = aLeftLower; aKeyIter <= aLeftUpper; ++aKeyIter)
1447 {
1448 aMapLeft.Add (aKeyIter);
1449 }
1450
1451 NCollection_Map<Standard_Integer> aMapRight;
1452 for (Standard_Integer aKeyIter = aRightLower; aKeyIter <= aRightUpper; ++aKeyIter)
1453 {
1454 aMapRight.Add (aKeyIter);
1455 }
1456
1457 QCOMPARE (aMapLeft .Contains (aMapRight), Standard_False);
1458 QCOMPARE (aMapRight.Contains (aMapLeft), Standard_False);
1459
1460 // validate Union operation
1461 NCollection_Map<Standard_Integer> aMapUnion;
1462 aMapUnion.Union (aMapLeft, aMapRight);
1463 QCOMPARE (aMapUnion.Extent(), aRightUpper - aLeftLower + 1);
1464 for (Standard_Integer aKeyIter = aLeftLower; aKeyIter <= aRightUpper; ++aKeyIter)
1465 {
1466 QCOMPARE (aMapUnion.Contains (aKeyIter), Standard_True);
1467 }
1468
1469 // validate Intersection operation
1470 NCollection_Map<Standard_Integer> aMapSect;
1471 aMapSect.Intersection (aMapLeft, aMapRight);
1472 QCOMPARE (aMapSect.Extent(), aLeftUpper - aRightLower + 1);
1473 for (Standard_Integer aKeyIter = aRightLower; aKeyIter <= aLeftUpper; ++aKeyIter)
1474 {
1475 QCOMPARE (aMapSect.Contains (aKeyIter), Standard_True);
1476 }
1477 QCOMPARE (aMapLeft .Contains (aMapSect), Standard_True);
1478 QCOMPARE (aMapRight.Contains (aMapSect), Standard_True);
1479
1480 // validate Substruction operation
1481 NCollection_Map<Standard_Integer> aMapSubsLR;
1482 aMapSubsLR.Subtraction (aMapLeft, aMapRight);
1483 QCOMPARE (aMapSubsLR.Extent(), aRightLower - aLeftLower);
1484 for (Standard_Integer aKeyIter = aLeftLower; aKeyIter < aRightLower; ++aKeyIter)
1485 {
1486 QCOMPARE (aMapSubsLR.Contains (aKeyIter), Standard_True);
1487 }
1488
1489 NCollection_Map<Standard_Integer> aMapSubsRL;
1490 aMapSubsRL.Subtraction (aMapRight, aMapLeft);
1491 QCOMPARE (aMapSubsRL.Extent(), aRightUpper - aLeftUpper);
1492 for (Standard_Integer aKeyIter = aLeftUpper + 1; aKeyIter < aRightUpper; ++aKeyIter)
1493 {
1494 QCOMPARE (aMapSubsRL.Contains (aKeyIter), Standard_True);
1495 }
1496
1497 // validate Difference operation
1498 NCollection_Map<Standard_Integer> aMapDiff;
1499 aMapDiff.Difference (aMapLeft, aMapRight);
1500 QCOMPARE (aMapDiff.Extent(), aRightLower - aLeftLower + aRightUpper - aLeftUpper);
1501 for (Standard_Integer aKeyIter = aLeftLower; aKeyIter < aRightLower; ++aKeyIter)
1502 {
1503 QCOMPARE (aMapDiff.Contains (aKeyIter), Standard_True);
1504 }
1505 for (Standard_Integer aKeyIter = aLeftUpper + 1; aKeyIter < aRightUpper; ++aKeyIter)
1506 {
1507 QCOMPARE (aMapDiff.Contains (aKeyIter), Standard_True);
1508 }
1509
1510 // validate Exchange operation
1511 NCollection_Map<Standard_Integer> aMapSwap;
1512 aMapSwap.Exchange (aMapSect);
1513 for (Standard_Integer aKeyIter = aRightLower; aKeyIter <= aLeftUpper; ++aKeyIter)
1514 {
1515 QCOMPARE (aMapSwap.Contains (aKeyIter), Standard_True);
1516 }
1517 QCOMPARE (aMapSect.IsEmpty(), Standard_True);
1518 aMapSwap.Add (34);
1519 aMapSect.Add (43);
1520
1521 NCollection_Map<Standard_Integer> aMapCopy (aMapSwap);
1522 QCOMPARE (aMapCopy.IsEqual (aMapSwap), Standard_True);
1523 aMapCopy.Remove (34);
1524 aMapCopy.Add (43);
1525 QCOMPARE (aMapCopy.IsEqual (aMapSwap), Standard_False);
1526
1527 return 0;
1528}
1529
e6c9f595 1530#define QVERIFY(val1) \
1531 di << "Checking " #val1 " == Standard_True" << \
1532 ((val1) == Standard_True ? ": OK\n" : ": Error\n")
1533
1534#include <GeomInt_IntSS.hxx>
1535#include <Geom_ConicalSurface.hxx>
1536#include <Standard_ErrorHandler.hxx>
1537//=======================================================================
1538//function : OCC23972
1539//purpose :
1540//=======================================================================
1541static void DoGeomIntSSTest (const Handle(Geom_Surface)& theSurf1,
1542 const Handle(Geom_Surface)& theSurf2,
1543 const Standard_Integer theNbSol,
1544 Draw_Interpretor& di)
1545{
1546 try {
1547 OCC_CATCH_SIGNALS
1548 GeomInt_IntSS anInter;
1549 anInter.Perform (theSurf1, theSurf2, Precision::Confusion(), Standard_True);
1550 QVERIFY (anInter.IsDone());
1551 QCOMPARE (anInter.NbLines(), theNbSol);
1552 } catch (...) {
1553 QVERIFY (Standard_False);
1554 }
1555}
1556
1557namespace {
1558 static Handle(Geom_ConicalSurface) CreateCone (const gp_Pnt& theLoc,
1559 const gp_Dir& theDir,
1560 const gp_Dir& theXDir,
1561 const Standard_Real theRad,
1562 const Standard_Real theSin,
1563 const Standard_Real theCos)
1564 {
1565 const Standard_Real anA = atan (theSin / theCos);
1566 gp_Ax3 anAxis (theLoc, theDir, theXDir);
1567 Handle(Geom_ConicalSurface) aSurf = new Geom_ConicalSurface (anAxis, anA, theRad);
1568 return aSurf;
1569 }
1570}
1571
1572static Standard_Integer OCC23972 (Draw_Interpretor& di,Standard_Integer n, const char**)
1573{
1574 if (n != 1) return 1;
1575
1576 //process specific cones, cannot read them from files because due to rounding the original error
1577 //in math_FunctionRoots gets hidden
1578 Handle(Geom_Surface) aS1 = CreateCone (
1579 gp_Pnt (123.694345356663, 789.9, 68.15),
1580 gp_Dir (-1, 3.48029791472957e-016, -8.41302743359754e-017),
1581 gp_Dir (-3.48029791472957e-016, -1, -3.17572289932207e-016),
1582 3.28206830417112,
1583 0.780868809443031,
1584 0.624695047554424);
1585 Handle(Geom_Surface) aS2 = CreateCone (
1586 gp_Pnt (123.694345356663, 784.9, 68.15),
1587 gp_Dir (-1, -2.5209507537117e-016, -1.49772808948866e-016),
1588 gp_Dir (1.49772808948866e-016, 3.17572289932207e-016, -1),
1589 3.28206830417112,
1590 0.780868809443031,
1591 0.624695047554424);
1592
1593 DoGeomIntSSTest (aS1, aS2, 2, di);
1594
1595 return 0;
1596}
1597
e3096dec 1598#include <ShapeFix_EdgeProjAux.hxx>
1599static Standard_Integer OCC24370 (Draw_Interpretor& di, Standard_Integer argc,const char ** argv)
1600{
1601 if (argc < 5) {
586db386 1602 di<<"Usage: " << argv[0] << " invalid number of arguments\n";
e3096dec 1603 return 1;
1604 }
1605
1606 TopoDS_Shape aSh = DBRep::Get(argv[1]);
1607 if (aSh.IsNull()) {
1608 di << argv[0] << " Error: Null input edge\n";
1609 return 1;
1610 }
1611 const TopoDS_Edge& anEdge = TopoDS::Edge (aSh);
1612
1613 Handle(Geom2d_Curve) aC = DrawTrSurf::GetCurve2d(argv[2]);
1614 if (aC.IsNull()) {
1615 di << argv[0] << " Error: Null input curve\n";
1616 return 1;
1617 }
1618
1619 Handle(Geom_Surface) aS = DrawTrSurf::GetSurface(argv[3]);
1620 if (aS.IsNull()) {
1621 di << argv[0] << " Error: Null input surface\n";
1622 return 1;
1623 }
1624
1625 Standard_Real prec = Draw::Atof(argv[4]);
1626
1627 //prepare data
1628 TopoDS_Face aFace;
1629 BRep_Builder aB;
1630 aB.MakeFace (aFace, aS, Precision::Confusion());
1631 aB.UpdateEdge (anEdge, aC, aFace, Precision::Confusion());
1632 aB.Range (anEdge, aFace, aC->FirstParameter(), aC->LastParameter());
1633
1634 //call algorithm
1635 ShapeFix_EdgeProjAux aProj (aFace, anEdge);
1636 aProj.Compute (prec);
1637
1638 Standard_Boolean isfirstdone = aProj.IsFirstDone();
1639 Standard_Boolean islastdone = aProj.IsLastDone();
1640
1641 Standard_Real first = 0.;
1642 Standard_Real last = 0.;
1643 Standard_Integer isfirstdoneInteger = 0;
1644 Standard_Integer islastdoneInteger = 0;
1645
1646
1647 if (isfirstdone) {
1648 first = aProj.FirstParam();
1649 isfirstdoneInteger = 1;
1650 }
1651
1652 if (islastdone) {
1653 last= aProj.LastParam();
1654 islastdoneInteger = 1;
1655 }
1656
1657 di << isfirstdoneInteger << " "<< islastdoneInteger << " "<< first << " "<< last << " \n";
1658
1659 return 0;
1660}
1661
05d7de53 1662template<typename T, typename HT>
1663static void DoIsNull(Draw_Interpretor& di)
1664{
1665 HT aHandle;
1666 // QVERIFY (aHandle.IsNull());
1667 QCOMPARE (aHandle.IsNull(), Standard_True);
c04c30b3 1668 const T* p = aHandle.get();
05d7de53 1669#if OCC_VERSION_HEX > 0x060700
1670 //QVERIFY (!p);
1671 //QVERIFY (p == 0);
1672 QCOMPARE (!p, Standard_True);
1673 QCOMPARE (p == 0, Standard_True);
1674#endif
1675
1676 aHandle = new T;
1677 //QVERIFY (!aHandle.IsNull());
1678 QCOMPARE (!aHandle.IsNull(), Standard_True);
c04c30b3 1679 p = aHandle.get();
05d7de53 1680 //QVERIFY (p);
1681 //QVERIFY (p != 0);
1682 QCOMPARE (p != NULL, Standard_True);
1683 QCOMPARE (p != 0, Standard_True);
1684}
1685
1686//=======================================================================
1687//function : OCC24533
1688//purpose :
1689//=======================================================================
1690static Standard_Integer OCC24533 (Draw_Interpretor& di, Standard_Integer n, const char**)
1691{
1692 if (n != 1) return 1;
1693
857ffd5e 1694 DoIsNull<Standard_Transient, Handle(Standard_Transient)>(di);
05d7de53 1695
1696 return 0;
1697}
1698
dda67c1c 1699// Dummy class to test interface for compilation issues
1700class QABugs_HandleClass : public Standard_Transient
1701{
1702public:
1703 Standard_Integer HandleProc (Draw_Interpretor& , Standard_Integer , const char** theArgVec)
1704 {
1705 std::cerr << "QABugs_HandleClass[" << this << "] " << theArgVec[0] << "\n";
1706 return 0;
1707 }
92efcf78 1708 DEFINE_STANDARD_RTTI_INLINE(QABugs_HandleClass,Standard_Transient) // Type definition
dda67c1c 1709};
1710DEFINE_STANDARD_HANDLE (QABugs_HandleClass, Standard_Transient)
ec357c5c 1711
dda67c1c 1712
1713// Dummy class to test interface for compilation issues
1714struct QABugs_NHandleClass
1715{
1716 Standard_Integer NHandleProc (Draw_Interpretor& , Standard_Integer , const char** theArgVec)
1717 {
586db386 1718 std::cerr << "QABugs_NHandleClass[" << this << "] " << theArgVec[0] << "\n";
dda67c1c 1719 return 0;
1720 }
1721};
1722
574d7236 1723#include <XCAFDoc_ColorTool.hxx>
1724#include <STEPControl_StepModelType.hxx>
1725#include <STEPCAFControl_Writer.hxx>
1726static Standard_Integer OCC23951 (Draw_Interpretor& di, Standard_Integer argc, const char ** argv)
1727{
7a7e8cf1 1728 if (argc != 2) {
586db386 1729 di << "Usage: " << argv[0] << " invalid number of arguments\n";
574d7236 1730 return 1;
1731 }
1732 Handle(TDocStd_Document) aDoc = new TDocStd_Document("dummy");;
1733 TopoDS_Shape s1 = BRepPrimAPI_MakeBox(1,1,1).Shape();
1734 TDF_Label lab1 = XCAFDoc_DocumentTool::ShapeTool (aDoc->Main ())->NewShape();
1735 XCAFDoc_DocumentTool::ShapeTool (aDoc->Main ())->SetShape(lab1, s1);
1736 TDataStd_Name::Set(lab1, "Box1");
1737
1738 Quantity_Color yellow(1,1,0, Quantity_TOC_RGB);
1739 XCAFDoc_DocumentTool::ColorTool (aDoc->Main())->SetColor(lab1, yellow, XCAFDoc_ColorGen);
1740 XCAFDoc_DocumentTool::ColorTool(aDoc->Main())->SetVisibility(lab1, 0);
1741
1742 STEPControl_StepModelType mode = STEPControl_AsIs;
1743 STEPCAFControl_Writer writer;
1744 if ( ! writer.Transfer (aDoc, mode ) )
1745 {
1746 di << "The document cannot be translated or gives no result" << "\n";
1747 return 1;
1748 }
1749
7a7e8cf1 1750 writer.Write(argv[1]);
574d7236 1751 return 0;
1752}
1753
1754
0c674248 1755//=======================================================================
1756//function : OCC23950
1757//purpose :
1758//=======================================================================
1759static Standard_Integer OCC23950 (Draw_Interpretor& di, Standard_Integer argc, const char ** argv)
1760{
1fa7cb8c 1761 if (argc != 2) {
1762 di << "Usage : " << argv[0] << " step_file\n";
0c674248 1763 return 1;
1764 }
1765
1766 Handle(TDocStd_Document) aDoc = new TDocStd_Document ("dummy");
1767 TopoDS_Shape s6 = BRepBuilderAPI_MakeVertex (gp_Pnt (75, 0, 0));
1768 gp_Trsf t0;
1769 TopLoc_Location location0 (t0);
1770
1771 TDF_Label lab1 = XCAFDoc_DocumentTool::ShapeTool (aDoc->Main ())->NewShape ();
1772 XCAFDoc_DocumentTool::ShapeTool (aDoc->Main ())->SetShape (lab1, s6);
1773 TDataStd_Name::Set(lab1, "Point1");
1774
1775 TDF_Label labelA0 = XCAFDoc_DocumentTool::ShapeTool (aDoc->Main ())->NewShape ();
1776 TDataStd_Name::Set(labelA0, "ASSEMBLY");
1777
1778 TDF_Label component01 = XCAFDoc_DocumentTool::ShapeTool (aDoc->Main ())->AddComponent (labelA0, lab1, location0);
acc909a8 1779 XCAFDoc_DocumentTool::ShapeTool (aDoc->Main ())->UpdateAssemblies();
0c674248 1780
1781 Quantity_Color yellow(1,1,0, Quantity_TOC_RGB);
1782 XCAFDoc_DocumentTool::ColorTool (labelA0)->SetColor (component01, yellow, XCAFDoc_ColorGen);
1783 XCAFDoc_DocumentTool::ColorTool (labelA0)->SetVisibility (component01, 0);
1784
1785 STEPControl_StepModelType mode = STEPControl_AsIs;
1786 STEPCAFControl_Writer writer;
1787 if (! writer.Transfer (aDoc, mode))
1788 {
586db386 1789 di << "The document cannot be translated or gives no result\n";
0c674248 1790 return 1;
1791 }
1792
1fa7cb8c 1793 writer.Write (argv[1]);
0c674248 1794 return 0;
1795}
1796
2cd138b8 1797//=======================================================================
1798//function : OCC24667
1799//purpose :
1800//=======================================================================
1801static Standard_Integer OCC24667 (Draw_Interpretor& di, Standard_Integer n, const char** a)
1802{
1803 if (n == 1)
1804 {
586db386 1805 di << "OCC24667 result Wire_spine Profile [Mode [Approx]]\n";
1806 di << "Mode = 0 - CorrectedFrenet,\n";
1807 di << " = 1 - Frenet,\n";
1808 di << " = 2 - DiscreteTrihedron\n";
1809 di << "Approx - force C1-approximation if result is C0\n";
2cd138b8 1810 return 0;
1811 }
1812
1813 if (n > 1 && n < 4) return 1;
1814
1815 TopoDS_Shape Spine = DBRep::Get(a[2],TopAbs_WIRE);
1816 if ( Spine.IsNull()) return 1;
1817
1818 TopoDS_Shape Profile = DBRep::Get(a[3]);
1819 if ( Profile.IsNull()) return 1;
1820
1821 GeomFill_Trihedron Mode = GeomFill_IsCorrectedFrenet;
1822 if (n >= 5)
1823 {
1824 Standard_Integer iMode = atoi(a[4]);
1825 if (iMode == 1)
1826 Mode = GeomFill_IsFrenet;
1827 else if (iMode == 2)
1828 Mode = GeomFill_IsDiscreteTrihedron;
1829 }
1830
1831 Standard_Boolean ForceApproxC1 = Standard_False;
1832 if (n >= 6)
1833 ForceApproxC1 = Standard_True;
1834
1835 BRepOffsetAPI_MakePipe aPipe(TopoDS::Wire(Spine),
1836 Profile,
1837 Mode,
1838 ForceApproxC1);
1839
1840 TopoDS_Shape S = aPipe.Shape();
1841 TopoDS_Shape aSF = aPipe.FirstShape();
1842 TopoDS_Shape aSL = aPipe.LastShape();
1843
1844 DBRep::Set(a[1],S);
1845
1846 TCollection_AsciiString aStrF(a[1], "_f");
1847 TCollection_AsciiString aStrL(a[1], "_l");
1848
1849 DBRep::Set(aStrF.ToCString(), aSF);
1850 DBRep::Set(aStrL.ToCString(), aSL);
1851
1852 return 0;
1853}
1854
70167e69
RL
1855#include <BRepPrimAPI_MakeCylinder.hxx>
1856#include <BRepBuilderAPI_Copy.hxx>
1857#include <BRepTools_NurbsConvertModification.hxx>
1858static TopoDS_Shape CreateTestShape (int& theShapeNb)
1859{
1860 TopoDS_Compound aComp;
1861 BRep_Builder aBuilder;
1862 aBuilder.MakeCompound (aComp);
1863 //NURBS modifier is used to increase footprint of each shape
35c0599a 1864 Handle(BRepTools_NurbsConvertModification) aNurbsModif = new BRepTools_NurbsConvertModification;
70167e69
RL
1865 TopoDS_Shape aRefShape = BRepPrimAPI_MakeCylinder (50., 100.).Solid();
1866 BRepTools_Modifier aModifier (aRefShape, aNurbsModif);
1867 if (aModifier.IsDone()) {
1868 aRefShape = aModifier.ModifiedShape (aRefShape);
1869 }
1870 int aSiblingNb = 0;
1871 for (; theShapeNb > 0; --theShapeNb) {
1872 TopoDS_Shape aShape;
1873 if (++aSiblingNb <= 100) { //number of siblings is limited to avoid long lists
1874 aShape = BRepBuilderAPI_Copy (aRefShape, Standard_True /*CopyGeom*/).Shape();
1875 } else {
1876 aShape = CreateTestShape (theShapeNb);
1877 }
1878 aBuilder.Add (aComp, aShape);
1879 }
1880 return aComp;
1881}
1882
70167e69
RL
1883#include <TDataStd_Integer.hxx>
1884#include <TNaming_Builder.hxx>
1885static Standard_Integer OCC24931 (Draw_Interpretor& di, Standard_Integer argc, const char** argv)
1886{
7a7e8cf1 1887 if (argc != 2) {
586db386 1888 di << "Usage: " << argv[0] << " invalid number of arguments\n";
70167e69
RL
1889 return 1;
1890 }
7a7e8cf1 1891 TCollection_ExtendedString aFileName (argv[1]);
70167e69
RL
1892 PCDM_StoreStatus aSStatus = PCDM_SS_Failure;
1893
6fe96f84 1894 Handle(TDocStd_Application) anApp = DDocStd::GetApplication();
70167e69
RL
1895 {
1896 Handle(TDocStd_Document) aDoc;
1897 anApp->NewDocument ("XmlOcaf", aDoc);
1898 TDF_Label aLab = aDoc->Main();
1899 TDataStd_Integer::Set (aLab, 0);
1900 int n = 10000; //must be big enough
1901 TopoDS_Shape aShape = CreateTestShape (n);
1902 TNaming_Builder aBuilder (aLab);
1903 aBuilder.Generated (aShape);
1904
1905 aSStatus = anApp->SaveAs (aDoc, aFileName);
1906 anApp->Close (aDoc);
1907 }
1908 QCOMPARE (aSStatus, PCDM_SS_OK);
1909 return 0;
1910}
1911
d01cc61d 1912#include <TDF_AttributeIterator.hxx>
1913//=======================================================================
1914//function : OCC24755
1915//purpose :
1916//=======================================================================
1917static Standard_Integer OCC24755 (Draw_Interpretor& di, Standard_Integer n, const char** a)
1918{
1919 if (n != 1)
1920 {
1921 std::cout << "Usage : " << a[0] << "\n";
1922 return 1;
1923 }
1924
6fe96f84 1925 Handle(TDocStd_Application) anApp = DDocStd::GetApplication();
d01cc61d 1926 Handle(TDocStd_Document) aDoc;
fff263bd 1927 anApp->NewDocument ("BinOcaf", aDoc);
d01cc61d 1928 TDF_Label aLab = aDoc->Main();
0f3d1d7c 1929 // Prepend an int value.
d01cc61d 1930 TDataStd_Integer::Set (aLab, 0);
0f3d1d7c 1931 // Prepend a name.
d01cc61d 1932 TDataStd_Name::Set (aLab, "test");
0f3d1d7c 1933 // Append a double value.
1934 aLab.AddAttribute(new TDataStd_Real(), true/*append*/);
d01cc61d 1935
1936 TDF_AttributeIterator i (aLab);
1937 Handle(TDF_Attribute) anAttr = i.Value();
0f3d1d7c 1938 QCOMPARE (anAttr->IsKind (STANDARD_TYPE (TDataStd_Name)), Standard_True);
1939 i.Next();
1940 anAttr = i.Value();
d01cc61d 1941 QCOMPARE (anAttr->IsKind (STANDARD_TYPE (TDataStd_Integer)), Standard_True);
1942 i.Next();
1943 anAttr = i.Value();
0f3d1d7c 1944 QCOMPARE (anAttr->IsKind (STANDARD_TYPE (TDataStd_Real)), Standard_True);
d01cc61d 1945
1946 return 0;
1947}
1948
a73267f2 1949struct MyStubObject
1950{
1951 MyStubObject() : ptr(0L) {}
1952 MyStubObject(void* thePtr) : ptr(thePtr) {}
1953 char overhead[40];
1954 void* ptr;
1955};
1956
1957//=======================================================================
1958//function : OCC24834
1959//purpose :
1960//=======================================================================
1961static Standard_Integer OCC24834 (Draw_Interpretor& di, Standard_Integer n, const char** a)
1962{
1963 if (n != 1)
1964 {
1965 std::cout << "Usage : " << a[0] << "\n";
1966 return 1;
1967 }
5a89733f 1968
1969 int i = sizeof (char*);
1970 if (i > 4) {
2d7b28ac 1971 std::cout << "64-bit architecture is not supported.\n";
1972 return 0;
1973 }
a73267f2 1974
1975 NCollection_List<MyStubObject> aList;
1976 const Standard_Integer aSmallBlockSize = 40;
1977 const Standard_Integer aLargeBlockSize = 1500000;
1978
1979 // quick populate memory with large blocks
1980 try
1981 {
1982 for (;;)
1983 {
1984 aList.Append(MyStubObject(Standard::Allocate(aLargeBlockSize)));
1985 }
1986 }
1987 catch (Standard_Failure)
1988 {
1989 di << "caught out of memory for large blocks: OK\n";
1990 }
1991 catch (...)
1992 {
1993 di << "skept out of memory for large blocks: Error\n";
1994 }
1995
1996 // allocate small blocks
1997 try
1998 {
1999 for (;;)
2000 {
2001 aList.Append(MyStubObject(Standard::Allocate(aSmallBlockSize)));
2002 }
2003 }
2004 catch (Standard_Failure)
2005 {
2006 di << "caught out of memory for small blocks: OK\n";
2007 }
2008 catch (...)
2009 {
2010 di << "skept out of memory for small blocks: Error\n";
2011 }
2012
2013 // release all allocated blocks
2014 for (NCollection_List<MyStubObject>::Iterator it(aList); it.More(); it.Next())
2015 {
2016 Standard::Free(it.Value().ptr);
2017 }
2018 return 0;
2019}
2020
8696d65d 2021
2022#include <Geom2dAPI_InterCurveCurve.hxx>
2023#include <IntRes2d_IntersectionPoint.hxx>
2024//=======================================================================
2025//function : OCC24889
2026//purpose :
2027//=======================================================================
2028static Standard_Integer OCC24889 (Draw_Interpretor& theDI,
2029 Standard_Integer /*theNArg*/,
2030 const char** /*theArgs*/)
2031{
2032 // Curves
2033 Handle( Geom2d_Circle ) aCircle1 = new Geom2d_Circle(
2034 gp_Ax22d( gp_Pnt2d( 25, -25 ), gp_Dir2d( 1, 0 ), gp_Dir2d( -0, 1 ) ), 155 );
2035
2036 Handle( Geom2d_Circle ) aCircle2 = new Geom2d_Circle(
2037 gp_Ax22d( gp_Pnt2d( 25, 25 ), gp_Dir2d( 1, 0 ), gp_Dir2d( -0, 1 ) ), 155 );
2038
2039 Handle( Geom2d_TrimmedCurve ) aTrim[2] = {
2040 new Geom2d_TrimmedCurve( aCircle1, 1.57079632679490, 2.97959469729228 ),
2041 new Geom2d_TrimmedCurve( aCircle2, 3.30359060633978, 4.71238898038469 )
2042 };
2043
2044 DrawTrSurf::Set("c_1", aTrim[0]);
2045 DrawTrSurf::Set("c_2", aTrim[1]);
2046
2047 // Intersection
2048 const Standard_Real aTol = Precision::Confusion();
2049 Geom2dAPI_InterCurveCurve aIntTool( aTrim[0], aTrim[1], aTol );
2050
2051 const IntRes2d_IntersectionPoint& aIntPnt =
2052 aIntTool.Intersector().Point( 1 );
2053
2054 gp_Pnt2d aIntRes = aIntTool.Point( 1 );
2055 Standard_Real aPar[2] = {
2056 aIntPnt.ParamOnFirst(),
2057 aIntPnt.ParamOnSecond()
2058 };
2059
2060 //theDI.precision( 5 );
2061 theDI << "Int point: X = " << aIntRes.X() << "; Y = " << aIntRes.Y() << "\n";
2062 for (int i = 0; i < 2; ++i)
2063 {
2064 theDI << "Curve " << i << ": FirstParam = " << aTrim[i]->FirstParameter() <<
2065 "; LastParam = " << aTrim[i]->LastParameter() <<
2066 "; IntParameter = " << aPar[i] << "\n";
2067 }
2068
2069 return 0;
2070}
2071
5493d334 2072#include <math_GlobOptMin.hxx>
2073#include <math_MultipleVarFunctionWithHessian.hxx>
2074//=======================================================================
2075//function : OCC25004
2076//purpose : Check extremaCC on Branin function.
2077//=======================================================================
2078// Function is:
2079// f(u,v) = a*(v - b*u^2 + c*u-r)^2+s(1-t)*cos(u)+s
2080// Standard borders are:
2081// -5 <= u <= 10
2082// 0 <= v <= 15
2083class BraninFunction : public math_MultipleVarFunctionWithHessian
2084{
2085public:
2086 BraninFunction()
2087 {
2088 a = 1.0;
2089 b = 5.1 / (4.0 * M_PI * M_PI);
2090 c = 5.0 / M_PI;
2091 r = 6.0;
2092 s = 10.0;
2093 t = 1.0 / (8.0 * M_PI);
2094 }
2095 virtual Standard_Integer NbVariables() const
2096 {
2097 return 2;
2098 }
2099 virtual Standard_Boolean Value(const math_Vector& X,Standard_Real& F)
2100 {
2101 Standard_Real u = X(1);
2102 Standard_Real v = X(2);
2103
2104 Standard_Real aSqPt = (v - b * u * u + c * u - r); // Square Part of function.
2105 Standard_Real aLnPt = s * (1 - t) * cos(u); // Linear part of funcrtion.
2106 F = a * aSqPt * aSqPt + aLnPt + s;
2107 return Standard_True;
2108 }
2109 virtual Standard_Boolean Gradient(const math_Vector& X,math_Vector& G)
2110 {
2111 Standard_Real u = X(1);
2112 Standard_Real v = X(2);
2113
2114 Standard_Real aSqPt = (v - b * u * u + c * u - r); // Square Part of function.
2115 G(1) = 2 * a * aSqPt * (c - 2 * b * u) - s * (1 - t) * sin(u);
2116 G(2) = 2 * a * aSqPt;
2117
2118 return Standard_True;
2119 }
2120 virtual Standard_Boolean Values(const math_Vector& X,Standard_Real& F,math_Vector& G)
2121 {
2122 Value(X,F);
2123 Gradient(X,G);
2124
2125 return Standard_True;
2126 }
2127 virtual Standard_Boolean Values(const math_Vector& X,Standard_Real& F,math_Vector& G,math_Matrix& H)
2128 {
2129 Value(X,F);
2130 Gradient(X,G);
2131
2132 Standard_Real u = X(1);
2133 Standard_Real v = X(2);
2134
2135 Standard_Real aSqPt = (v - b * u * u + c * u - r); // Square Part of function.
2136 Standard_Real aTmpPt = c - 2 * b *u; // Tmp part.
2137 H(1,1) = 2 * a * aTmpPt * aTmpPt - 4 * a * b * aSqPt - s * (1 - t) * cos(u);
2138 H(1,2) = 2 * a * aTmpPt;
2139 H(2,1) = H(1,2);
2140 H(2,2) = 2 * a;
2141
2142 return Standard_True;
2143 }
2144
2145private:
2146 // Standard parameters.
2147 Standard_Real a, b, c, r, s, t;
2148};
2149
2150static Standard_Integer OCC25004 (Draw_Interpretor& theDI,
2151 Standard_Integer /*theNArg*/,
2152 const char** /*theArgs*/)
2153{
4b65fc77 2154 BraninFunction aFunc;
5493d334 2155
2156 math_Vector aLower(1,2), aUpper(1,2);
2157 aLower(1) = -5;
2158 aLower(2) = 0;
2159 aUpper(1) = 10;
2160 aUpper(2) = 15;
2161
2162 Standard_Integer aGridOrder = 16;
2163 math_Vector aFuncValues(1, aGridOrder * aGridOrder);
2164
2165 Standard_Real aLipConst = 0;
2166 math_Vector aCurrPnt1(1, 2), aCurrPnt2(1, 2);
2167
2168 // Get Lipshitz constant estimation on regular grid.
2169 Standard_Integer i, j, idx = 1;
2170 for(i = 1; i <= aGridOrder; i++)
2171 {
2172 for(j = 1; j <= aGridOrder; j++)
2173 {
2174 aCurrPnt1(1) = aLower(1) + (aUpper(1) - aLower(1)) * (i - 1) / (aGridOrder - 1.0);
2175 aCurrPnt1(2) = aLower(2) + (aUpper(2) - aLower(2)) * (j - 1) / (aGridOrder - 1.0);
2176
4b65fc77 2177 aFunc.Value(aCurrPnt1, aFuncValues(idx));
5493d334 2178 idx++;
2179 }
2180 }
2181
2182 Standard_Integer k, l;
2183 Standard_Integer idx1, idx2;
2184 for(i = 1; i <= aGridOrder; i++)
2185 for(j = 1; j <= aGridOrder; j++)
2186 for(k = 1; k <= aGridOrder; k++)
2187 for(l = 1; l <= aGridOrder; l++)
2188 {
2189 if (i == k && j == l)
2190 continue;
2191
2192 aCurrPnt1(1) = aLower(1) + (aUpper(1) - aLower(1)) * (i - 1) / (aGridOrder - 1.0);
2193 aCurrPnt1(2) = aLower(2) + (aUpper(2) - aLower(2)) * (j - 1) / (aGridOrder - 1.0);
2194 idx1 = (i - 1) * aGridOrder + j;
2195
2196 aCurrPnt2(1) = aLower(1) + (aUpper(1) - aLower(1)) * (k - 1) / (aGridOrder - 1.0);
2197 aCurrPnt2(2) = aLower(2) + (aUpper(2) - aLower(2)) * (l - 1) / (aGridOrder - 1.0);
2198 idx2 = (k - 1) * aGridOrder + l;
2199
2200 aCurrPnt1.Add(-aCurrPnt2);
2201 Standard_Real dist = aCurrPnt1.Norm();
2202
2203 Standard_Real C = Abs(aFuncValues(idx1) - aFuncValues(idx2)) / dist;
2204 if (C > aLipConst)
2205 aLipConst = C;
2206 }
2207
4b65fc77 2208 math_GlobOptMin aFinder(&aFunc, aLower, aUpper, aLipConst);
5493d334 2209 aFinder.Perform();
2210 //(-pi , 12.275), (pi , 2.275), (9.42478, 2.475)
2211
2212 Standard_Real anExtValue = aFinder.GetF();
2213 theDI << "F = " << anExtValue << "\n";
2214
2215 Standard_Integer aNbExt = aFinder.NbExtrema();
2216 theDI << "NbExtrema = " << aNbExt << "\n";
2217
2218 return 0;
2219}
8696d65d 2220
b6c0b841
RL
2221#include <OSD_Environment.hxx>
2222#include <Plugin.hxx>
2223#include <Plugin_Macro.hxx>
2224#include <Resource_Manager.hxx>
2225
2226#define THE_QATEST_DOC_FORMAT "My Proprietary Format"
2227
2228#define QA_CHECK(theDesc, theExpr, theValue) \
2229{\
2230 const bool isTrue = !!(theExpr); \
2231 std::cout << theDesc << (isTrue ? " TRUE " : " FALSE ") << (isTrue == theValue ? " is OK\n" : " is FAIL\n"); \
2232}
2233
2234class Test_TDocStd_Application : public TDocStd_Application
2235{
2236public:
2237
6fe96f84 2238 Test_TDocStd_Application ()
b6c0b841 2239 {
b6c0b841
RL
2240 // explicitly initialize resource manager
2241 myResources = new Resource_Manager ("");
2242 myResources->SetResource ("xml.FileFormat", THE_QATEST_DOC_FORMAT);
2243 myResources->SetResource (THE_QATEST_DOC_FORMAT ".Description", "Test XML Document");
2244 myResources->SetResource (THE_QATEST_DOC_FORMAT ".FileExtension", "xml");
b6c0b841
RL
2245 }
2246
6fe96f84 2247 virtual Handle(PCDM_Reader) ReaderFromFormat (const TCollection_ExtendedString&) Standard_OVERRIDE
2248 {
2249 return new XmlDrivers_DocumentRetrievalDriver ();
2250 }
2251 virtual Handle(PCDM_StorageDriver) WriterFromFormat (const TCollection_ExtendedString&) Standard_OVERRIDE
2252 {
2253 return new XmlDrivers_DocumentStorageDriver ("Test");
2254 }
2255 virtual Standard_CString ResourcesName() Standard_OVERRIDE { return ""; }
b6c0b841
RL
2256};
2257
2258//=======================================================================
2259//function : OCC24925
2260//purpose :
2261//=======================================================================
2262static Standard_Integer OCC24925 (Draw_Interpretor& theDI,
2263 Standard_Integer theArgNb,
2264 const char** theArgVec)
2265{
2266 if (theArgNb != 2
2267 && theArgNb != 5)
2268 {
2269 std::cout << "Error: wrong syntax! See usage:\n";
2270 theDI.PrintHelp (theArgVec[0]);
2271 return 1;
2272 }
2273
2274 Standard_Integer anArgIter = 1;
2275 TCollection_ExtendedString aFileName = theArgVec[anArgIter++];
2276 TCollection_AsciiString aPlugin = "TKXml";
2277 TCollection_AsciiString aSaver = "03a56820-8269-11d5-aab2-0050044b1af1"; // XmlStorageDriver in XmlDrivers.cxx
2278 TCollection_AsciiString aLoader = "03a56822-8269-11d5-aab2-0050044b1af1"; // XmlRetrievalDriver in XmlDrivers.cxx
2279 if (anArgIter < theArgNb)
2280 {
2281 aPlugin = theArgVec[anArgIter++];
2282 aSaver = theArgVec[anArgIter++];
2283 aLoader = theArgVec[anArgIter++];
2284 }
2285
2286 PCDM_StoreStatus aSStatus = PCDM_SS_Failure;
2287 PCDM_ReaderStatus aRStatus = PCDM_RS_OpenError;
2288
6fe96f84 2289 Handle(TDocStd_Application) anApp = new Test_TDocStd_Application ();
b6c0b841
RL
2290 {
2291 Handle(TDocStd_Document) aDoc;
2292 anApp->NewDocument (THE_QATEST_DOC_FORMAT, aDoc);
2293 TDF_Label aLab = aDoc->Main();
2294 TDataStd_Integer::Set (aLab, 0);
2295 TDataStd_Name::Set (aLab, "QABugs_19.cxx");
2296
2297 aSStatus = anApp->SaveAs (aDoc, aFileName);
2298 anApp->Close (aDoc);
2299 }
2300 QA_CHECK ("SaveAs()", aSStatus == PCDM_SS_OK, true);
2301
2302 {
2303 Handle(TDocStd_Document) aDoc;
2304 aRStatus = anApp->Open (aFileName, aDoc);
2305 anApp->Close (aDoc);
2306 }
2307 QA_CHECK ("Open() ", aRStatus == PCDM_RS_OK, true);
2308 return 0;
2309}
2310
a967f104 2311//=======================================================================
2312//function : OCC25043
2313//purpose :
2314//=======================================================================
2315#include <BRepAlgoAPI_Check.hxx>
2316static Standard_Integer OCC25043 (Draw_Interpretor& theDI,
2317 Standard_Integer theArgNb,
2318 const char** theArgVec)
2319{
2320 if (theArgNb != 2) {
2321 theDI << "Usage: " << theArgVec[0] << " shape\n";
2322 return 1;
2323 }
2324
2325 TopoDS_Shape aShape = DBRep::Get(theArgVec[1]);
2326 if (aShape.IsNull())
2327 {
2328 theDI << theArgVec[1] << " shape is NULL\n";
2329 return 1;
2330 }
2331
2332 BRepAlgoAPI_Check anAlgoApiCheck(aShape, Standard_True, Standard_True);
2333
2334 if (!anAlgoApiCheck.IsValid())
2335 {
2336 BOPAlgo_ListIteratorOfListOfCheckResult anCheckIter(anAlgoApiCheck.Result());
2337 for (; anCheckIter.More(); anCheckIter.Next())
2338 {
2339 const BOPAlgo_CheckResult& aCurCheckRes = anCheckIter.Value();
1155d05a 2340 const TopTools_ListOfShape& aCurFaultyShapes = aCurCheckRes.GetFaultyShapes1();
2341 TopTools_ListIteratorOfListOfShape aFaultyIter(aCurFaultyShapes);
a967f104 2342 for (; aFaultyIter.More(); aFaultyIter.Next())
2343 {
2344 const TopoDS_Shape& aFaultyShape = aFaultyIter.Value();
2345
2346 Standard_Boolean anIsFaultyShapeFound = Standard_False;
2347 TopExp_Explorer anExp(aShape, aFaultyShape.ShapeType());
2348 for (; anExp.More() && !anIsFaultyShapeFound; anExp.Next())
2349 {
2350 if (anExp.Current().IsEqual(aFaultyShape))
2351 anIsFaultyShapeFound = Standard_True;
2352 }
2353
2354 if (!anIsFaultyShapeFound)
2355 {
2356 theDI << "Error. Faulty Shape is NOT found in source shape.\n";
2357 return 0;
2358 }
2359 else
2360 {
3510db62 2361 theDI << "Info. Faulty shape is found in source shape\n";
a967f104 2362 }
2363 }
2364 }
2365 }
2366 else
2367 {
3510db62 2368 theDI << "Problems are not detected. Test is not performed.";
a967f104 2369 }
2370
2371 return 0;
2372}
2373
4a350f94 2374//=======================================================================
2375//function : OCC24606
2376//purpose :
2377//=======================================================================
2378static Standard_Integer OCC24606 (Draw_Interpretor& theDI,
2379 Standard_Integer theArgNb,
2380 const char** theArgVec)
2381{
2382 if (theArgNb > 1)
2383 {
2384 std::cerr << "Error: incorrect number of arguments.\n";
2385 theDI << "Usage : " << theArgVec[0] << "\n";
2386 return 1;
2387 }
2388
2389 Handle(V3d_View) aView = ViewerTest::CurrentView();
2390 if (aView.IsNull())
2391 {
2392 std::cerr << "Errro: no active view, please call 'vinit'.\n";
2393 return 1;
2394 }
2395
2396 aView->DepthFitAll();
2397 aView->FitAll();
2398
2399 return 0;
2400}
2401
ab860031 2402//=======================================================================
2403//function : OCC25202
2404//purpose :
2405//=======================================================================
2406#include <ShapeBuild_ReShape.hxx>
2407static Standard_Integer OCC25202 ( Draw_Interpretor& theDI,
2408 Standard_Integer theArgN,
2409 const char** theArgVal)
2410{
2411 // 0 1 2 3 4 5 6
2412 //reshape res shape numF1 face1 numF2 face2
2413 if(theArgN < 7)
2414 {
2415 theDI << "Use: reshape res shape numF1 face1 numF2 face2\n";
2416 return 1;
2417 }
2418
2419 TopoDS_Shape aShape = DBRep::Get(theArgVal[2]);
2420 const Standard_Integer aNumOfRE1 = Draw::Atoi(theArgVal[3]),
2421 aNumOfRE2 = Draw::Atoi(theArgVal[5]);
2422 TopoDS_Face aShapeForRepl1 = TopoDS::Face(DBRep::Get(theArgVal[4])),
2423 aShapeForRepl2 = TopoDS::Face(DBRep::Get(theArgVal[6]));
2424
2425 if(aShape.IsNull())
2426 {
2427 theDI << theArgVal[2] << " is null shape\n";
2428 return 1;
2429 }
2430
2431 if(aShapeForRepl1.IsNull())
2432 {
2433 theDI << theArgVal[4] << " is not a replaced type\n";
2434 return 1;
2435 }
2436
2437 if(aShapeForRepl2.IsNull())
2438 {
2439 theDI << theArgVal[6] << " is not a replaced type\n";
2440 return 1;
2441 }
2442
2443
2444 TopoDS_Shape aReplacedShape;
2445 ShapeBuild_ReShape aReshape;
2446
2447 //////////////////// explode (begin)
2448 TopTools_MapOfShape M;
2449 M.Add(aShape);
2450 Standard_Integer aNbShapes = 0;
2451 for (TopExp_Explorer ex(aShape,TopAbs_FACE); ex.More(); ex.Next())
2452 {
2453 const TopoDS_Shape& Sx = ex.Current();
2454 Standard_Boolean added = M.Add(Sx);
2455 if (added)
2456 {
2457 aNbShapes++;
2458 if(aNbShapes == aNumOfRE1)
2459 {
2460 aReplacedShape = Sx;
2461
2462 aReshape.Replace(aReplacedShape, aShapeForRepl1);
2463 }
2464
2465 if(aNbShapes == aNumOfRE2)
2466 {
2467 aReplacedShape = Sx;
2468
2469 aReshape.Replace(aReplacedShape, aShapeForRepl2);
2470 }
2471 }
2472 }
2473 //////////////////// explode (end)
2474
2475 if(aReplacedShape.IsNull())
2476 {
2477 theDI << "There is not any shape for replacing.\n";
2478 }
2479
2480 DBRep::Set (theArgVal[1],aReshape.Apply (aShape,TopAbs_WIRE,2));
2481
2482 return 0;
2483}
2484
c6037065 2485#include <ShapeFix_Wireframe.hxx>
2486//=======================================================================
2487//function : OCC7570
2488//purpose :
2489//=======================================================================
2490static Standard_Integer OCC7570 (Draw_Interpretor& di, Standard_Integer n, const char** a)
2491{
2492 if (n != 2) {
586db386 2493 di<<"Usage: "<<a[0]<<" invalid number of arguments\n";
c6037065 2494 return 1;
2495 }
2496 TopoDS_Shape in_shape (DBRep::Get (a[1]));
2497 ShapeFix_Wireframe fix_tool (in_shape);
2498 fix_tool.ModeDropSmallEdges () = Standard_True;
2499 fix_tool.SetPrecision (1.e+6);
2500 fix_tool.SetLimitAngle (0.01);
2501 fix_tool.FixSmallEdges ();
2502 TopoDS_Shape new_shape = fix_tool.Shape ();
2503 return 0;
2504}
2505
54a16ee4 2506#include <AIS_TypeFilter.hxx>
5e452c37 2507//=======================================================================
2508//function : OCC25340
2509//purpose :
2510//=======================================================================
54a16ee4 2511static Standard_Integer OCC25340 (Draw_Interpretor& /*theDI*/,
2512 Standard_Integer /*theArgNb*/,
2513 const char** /*theArgVec*/)
2514{
2515 Handle(AIS_InteractiveContext) aCtx = ViewerTest::GetAISContext();
2516 if (aCtx.IsNull())
2517 {
2518 std::cerr << "Error: No opened viewer!\n";
2519 return 1;
2520 }
2521 Handle(AIS_TypeFilter) aFilter = new AIS_TypeFilter (AIS_KOI_Shape);
2522 aCtx->AddFilter (aFilter);
2523 return 0;
2524}
2525
c7b59798 2526//=======================================================================
2527//function : OCC24826
2528//purpose :
2529//=======================================================================
2530class ParallelTest_Saxpy
2531{
2532public:
2533 typedef NCollection_Array1<Standard_Real> Vector;
2534
2535 //! Constructor
2536 ParallelTest_Saxpy(const Vector& theX, Vector& theY, Standard_Real theScalar)
2537 : myX(theX),
2538 myY(theY),
2539 myScalar(theScalar)
2540 {
2541 }
2542
2543 //! Dummy calculation
2544 void operator() (const Standard_Integer theIndex) const
2545 {
2546 myY(theIndex) = myScalar * myX(theIndex) + myY(theIndex);
2547 }
2548
2549private:
2550 ParallelTest_Saxpy( const ParallelTest_Saxpy& );
2551 ParallelTest_Saxpy& operator =( ParallelTest_Saxpy& );
2552
2553private:
2554 const Vector& myX;
2555 Vector& myY;
2556 const Standard_Real myScalar;
2557};
2558
2559//---------------------------------------------------------------------
2560static Standard_Integer OCC24826(Draw_Interpretor& theDI,
2561 Standard_Integer trheArgc,
2562 const char** theArgv)
2563{
2564 if ( trheArgc != 2 )
2565 {
2566 theDI << "Usage: "
2567 << theArgv[0]
2568 << " vec_length\n";
2569 return 1;
2570 }
2571
2572 // Generate data;
2573 Standard_Integer aLength = Draw::Atoi(theArgv[1]);
2574
2575 NCollection_Array1<Standard_Real> aX (0, aLength - 1);
2576 NCollection_Array1<Standard_Real> anY(0, aLength - 1);
2577
2578 for ( Standard_Integer i = 0; i < aLength; ++i )
2579 {
2580 aX(i) = anY(i) = (Standard_Real) i;
2581 }
2582
2583 OSD_Timer aTimer;
2584
2585 aTimer.Start();
2586
2587 //! Serial proccesing
2588 for ( Standard_Integer i = 0; i < aLength; ++i )
2589 {
2590 anY(i) = 1e-6 * aX(i) + anY(i);
2591 }
2592
2593 aTimer.Stop();
2594 cout << "Processing time (sequential mode):\n";
2595 aTimer.Show();
2596
2597 const ParallelTest_Saxpy aFunctor(aX, anY, 1e-6);
2598
2599 aTimer.Reset();
2600 aTimer.Start();
2601
2602 // Parallel processing
2603 OSD_Parallel::For(0, aLength, aFunctor);
2604
2605 aTimer.Stop();
2606 cout << "Processing time (parallel mode):\n";
2607 aTimer.Show();
2608
2609 return 0;
2610}
2611
b6c0b841 2612/*****************************************************************************/
8696d65d 2613
058f130e 2614#include <GeomAPI_IntSS.hxx>
2615//=======================================================================
2616//function : OCC25100
2617//purpose :
2618//=======================================================================
2619static Standard_Integer OCC25100 (Draw_Interpretor& di, Standard_Integer argc, const char ** argv)
2620{
2621 if (argc < 2)
2622 {
2623 di << "the method requires a shape name\n";
2624 return 1;
2625 }
2626
2627 TopoDS_Shape S = DBRep::Get(argv[1]);
2628 if ( S.IsNull() )
2629 {
586db386 2630 di << "Shape is empty\n";
058f130e 2631 return 1;
2632 }
2633
2634 TopExp_Explorer aFaceExp(S, TopAbs_FACE);
2635 const Handle(Geom_Surface)& aSurf = BRep_Tool::Surface(TopoDS::Face(aFaceExp.Current()));
2636
2637 GeomAPI_IntSS anIntersector(aSurf, aSurf, Precision::Confusion());
2638
2639 if (!anIntersector.IsDone())
2640 {
2641 di << "Error. Intersection is not done\n";
2642 return 1;
2643 }
2644
2645 di << "Test complete\n";
2646
2647 return 0;
2648}
2649
5e452c37 2650//=======================================================================
2651//function : OCC25348
2652//purpose :
2653//=======================================================================
2654static Standard_Integer OCC25348 (Draw_Interpretor& theDI,
2655 Standard_Integer /*theArgNb*/,
2656 const char** /*theArgVec*/)
2657{
2658 Handle(NCollection_IncAllocator) anAlloc1;
2659 NCollection_List<int> aList1(anAlloc1);
2660 for (int i=0; i < 10; i++)
2661 {
2662 Handle(NCollection_IncAllocator) anAlloc2;
2663 NCollection_List<int> aList2(anAlloc2);
2664 aList2.Append(i);
2665 aList1.Assign(aList2);
2666 }
2667 theDI << "Test complete\n";
2668 return 0;
2669}
2670
6fb3418e 2671#include <IntCurvesFace_ShapeIntersector.hxx>
2672#include <BRepBndLib.hxx>
2673//=======================================================================
2674//function : OCC25413
2675//purpose :
2676//=======================================================================
2677static Standard_Integer OCC25413 (Draw_Interpretor& di, Standard_Integer narg , const char** a)
2678{
2679 if (narg != 2) {
586db386 2680 di << "Usage: " << a[0] << " invalid number of arguments\n";
6fb3418e 2681 return 1;
2682 }
2683 TopoDS_Shape aShape = DBRep::Get (a[1]);
2684
2685 IntCurvesFace_ShapeIntersector Inter;
2686 Inter.Load(aShape, Precision::Confusion());
2687
2688 Bnd_Box aBndBox;
2689 BRepBndLib::Add(aShape, aBndBox);
2690
2691 gp_Dir aDir(0., 1., 0.);
2692 const int N = 250;
2693 Standard_Real xMin = aBndBox.CornerMin().X();
2694 Standard_Real zMin = aBndBox.CornerMin().Z();
2695 Standard_Real xMax = aBndBox.CornerMax().X();
2696 Standard_Real zMax = aBndBox.CornerMax().Z();
2697 Standard_Real xStep = (xMax - xMin) / N;
2698 Standard_Real zStep = (zMax - zMin) / N;
2699
2700 for (Standard_Real x = xMin; x <= xMax; x += xStep)
2701 for (Standard_Real z = zMin; z <= zMax; z += zStep)
2702 {
2703 gp_Pnt aPoint(x, 0.0, z);
2704 gp_Lin aLine(aPoint, aDir);
2705 Inter.PerformNearest(aLine, -100., 100.);
2706 }
2707 return 0;
2708}
058f130e 2709
c088aa93 2710
2711#include <BOPAlgo_PaveFiller.hxx>
2712//
2713#include <BRepAlgoAPI_BooleanOperation.hxx>
2714#include <BRepAlgoAPI_Common.hxx>
2715#include <BRepAlgoAPI_Fuse.hxx>
2716#include <BRepAlgoAPI_Cut.hxx>
2717#include <BRepAlgoAPI_Section.hxx>
2718//
1155d05a 2719#include <TopExp.hxx>
2720#include <TopTools_MapOfShape.hxx>
c088aa93 2721//=======================================================================
2722//function : OCC25446
2723//purpose :
2724//=======================================================================
2725static Standard_Integer OCC25446 (Draw_Interpretor& theDI,
2726 Standard_Integer argc,
2727 const char ** argv)
2728{
2729 if (argc != 5) {
2730 theDI << "Usage: OCC25446 res b1 b2 op\n";
2731 return 1;
2732 }
2733 //
2734 TopoDS_Shape aS1 = DBRep::Get(argv[2]);
2735 if (aS1.IsNull()) {
2736 theDI << argv[2] << " shape is NULL\n";
2737 return 1;
2738 }
2739 //
2740 TopoDS_Shape aS2 = DBRep::Get(argv[3]);
2741 if (aS2.IsNull()) {
2742 theDI << argv[3] << " shape is NULL\n";
2743 return 1;
2744 }
2745 //
2746 Standard_Integer iOp;
2747 BOPAlgo_Operation aOp;
2748 //
2749 iOp = Draw::Atoi(argv[4]);
2750 if (iOp < 0 || iOp > 4) {
2751 theDI << "Invalid operation type\n";
2752 return 1;
2753 }
2754 aOp = (BOPAlgo_Operation)iOp;
2755 //
2756 Standard_Integer iErr;
1155d05a 2757 TopTools_ListOfShape aLS;
c088aa93 2758 BOPAlgo_PaveFiller aPF;
2759 //
2760 aLS.Append(aS1);
2761 aLS.Append(aS2);
2762 aPF.SetArguments(aLS);
2763 //
2764 aPF.Perform();
33ba8565 2765 iErr = aPF.HasErrors();
c088aa93 2766 if (iErr) {
2767 theDI << "Intersection failed with error status: " << iErr << "\n";
2768 return 1;
2769 }
2770 //
2771 BRepAlgoAPI_BooleanOperation* pBuilder = NULL;
2772 //
2773 switch (aOp) {
2774 case BOPAlgo_COMMON:
2775 pBuilder = new BRepAlgoAPI_Common(aS1, aS2, aPF);
2776 break;
2777 case BOPAlgo_FUSE:
2778 pBuilder = new BRepAlgoAPI_Fuse(aS1, aS2, aPF);
2779 break;
2780 case BOPAlgo_CUT:
2781 pBuilder = new BRepAlgoAPI_Cut (aS1, aS2, aPF);
2782 break;
2783 case BOPAlgo_CUT21:
2784 pBuilder = new BRepAlgoAPI_Cut(aS1, aS2, aPF, Standard_False);
2785 break;
2786 case BOPAlgo_SECTION:
2787 pBuilder = new BRepAlgoAPI_Section(aS1, aS2, aPF);
2788 break;
2789 default:
2790 break;
2791 }
2792 //
33ba8565 2793 iErr = pBuilder->HasErrors();
c088aa93 2794 if (!pBuilder->IsDone()) {
2795 theDI << "BOP failed with error status: " << iErr << "\n";
2796 return 1;
2797 }
2798 //
2799 const TopoDS_Shape& aRes = pBuilder->Shape();
2800 DBRep::Set(argv[1], aRes);
2801 //
1155d05a 2802 TopTools_MapOfShape aMapArgs, aMapShape;
2803 TopTools_MapIteratorOfMapOfShape aIt;
c088aa93 2804 Standard_Boolean bIsDeletedHist, bIsDeletedMap;
2805 TopAbs_ShapeEnum aType;
2806 //
1155d05a 2807 TopExp::MapShapes(aS1, aMapArgs);
2808 TopExp::MapShapes(aS2, aMapArgs);
2809 TopExp::MapShapes(aRes, aMapShape);
c088aa93 2810 //
2811 aIt.Initialize(aMapArgs);
2812 for (; aIt.More(); aIt.Next()) {
2813 const TopoDS_Shape& aS = aIt.Value();
2814 aType = aS.ShapeType();
2815 if (!(aType==TopAbs_EDGE || aType==TopAbs_FACE ||
2816 aType==TopAbs_VERTEX || aType==TopAbs_SOLID)) {
2817 continue;
2818 }
2819 //
2820 bIsDeletedHist = pBuilder->IsDeleted(aS);
2821 bIsDeletedMap = !aMapShape.Contains(aS) &&
2822 (pBuilder->Modified(aS).Extent() == 0);
2823 //
2824 if (bIsDeletedHist != bIsDeletedMap) {
2825 theDI << "Error. Wrong value of IsDeleted flag.\n";
2826 return 1;
2827 }
2828 }
2829 //
2830 theDI << "Test complete\n";
2831 return 0;
2832}
2833
ee6bb37b 2834//====================================================
2835// Auxiliary functor class for the command OCC25545;
2836// it gets access to a vertex with the given index and
2837// checks that X coordinate of the point is equal to index;
2838// if it is not so then a data race is reported.
2839//====================================================
2840struct OCC25545_Functor
2841{
2842 OCC25545_Functor(const std::vector<TopoDS_Shape>& theShapeVec)
2843 : myShapeVec(&theShapeVec),
2844 myIsRaceDetected(0)
2845 {}
2846
2847 void operator()(size_t i) const
2848 {
2849 if (!myIsRaceDetected) {
2850 const TopoDS_Vertex& aV = TopoDS::Vertex (myShapeVec->at(i));
2851 gp_Pnt aP = BRep_Tool::Pnt (aV);
2852 if (aP.X () != static_cast<double> (i)) {
2853 Standard_Atomic_Increment(&myIsRaceDetected);
2854 }
2855 }
2856 }
2857
2858 const std::vector<TopoDS_Shape>* myShapeVec;
2859 mutable volatile int myIsRaceDetected;
2860};
2861
2862//=======================================================================
2863//function : OCC25545
2864//purpose : Tests data race when concurrently accessing TopLoc_Location::Transformation()
2865//=======================================================================
00af0ebb 2866
ee6bb37b 2867static Standard_Integer OCC25545 (Draw_Interpretor& di,
2868 Standard_Integer,
2869 const char **)
2870{
2871 // Place vertices in a vector, giving the i-th vertex the
2872 // transformation that translates it on the vector (i,0,0) from the origin.
00af0ebb 2873 Standard_Integer n = 1000;
ee6bb37b 2874 std::vector<TopoDS_Shape> aShapeVec (n);
2875 std::vector<TopLoc_Location> aLocVec (n);
2876 TopoDS_Shape aShape = BRepBuilderAPI_MakeVertex (gp::Origin ());
2877 aShapeVec[0] = aShape;
00af0ebb 2878 for (Standard_Integer i = 1; i < n; ++i) {
ee6bb37b 2879 gp_Trsf aT;
2880 aT.SetTranslation (gp_Vec (1, 0, 0));
2881 aLocVec[i] = aLocVec[i - 1] * aT;
2882 aShapeVec[i] = aShape.Moved (aLocVec[i]);
2883 }
2884
2885 // Evaluator function will access vertices geometry
2886 // concurrently
2887 OCC25545_Functor aFunc(aShapeVec);
2888
00af0ebb 2889 // concurrently process
2890 OSD_Parallel::For (0, n, aFunc);
2891
ee6bb37b 2892 QVERIFY (!aFunc.myIsRaceDetected);
2893 return 0;
2894}
ee6bb37b 2895
d315303d 2896//=======================================================================
2897//function : OCC25547
2898//purpose :
2899//=======================================================================
2900#include <BRepMesh_GeomTool.hxx>
2901#include <BRepAdaptor_Curve.hxx>
2902#include <Geom_TrimmedCurve.hxx>
2903#include <BRepBuilderAPI_MakeFace.hxx>
2904#include <BRepAdaptor_HSurface.hxx>
2905#include <BRepAdaptor_Surface.hxx>
2906static Standard_Integer OCC25547(
2907 Draw_Interpretor& theDI,
2908 Standard_Integer /*argc*/,
2909 const char ** /*argv*/)
2910{
2911 // The general aim of this test is to prevent linkage errors due to missed
2912 // Standard_EXPORT attribute for static methods.
2913
2914 // However, start checking the main functionality at first.
2915 const Standard_Real aFirstP = 0., aLastP = M_PI;
2916 Handle(Geom_Circle) aCircle = new Geom_Circle(gp_Ax2(gp::Origin(), gp::DZ()), 10);
2917 Handle(Geom_TrimmedCurve) aHalf = new Geom_TrimmedCurve(aCircle, aFirstP, aLastP);
2918 TopoDS_Edge aEdge = BRepBuilderAPI_MakeEdge(aHalf);
2919 BRepAdaptor_Curve aAdaptor(aEdge);
2920 BRepMesh_GeomTool aGeomTool(aAdaptor, aFirstP, aLastP, 0.1, 0.5);
2921
2922 if (aGeomTool.NbPoints() == 0)
2923 {
2924 theDI << "Error. BRepMesh_GeomTool failed to discretize an arc.\n";
2925 return 1;
2926 }
2927
2928 // Test static methods.
2929 TopoDS_Face aFace = BRepBuilderAPI_MakeFace(gp_Pln(gp::Origin(), gp::DZ()));
2930 BRepAdaptor_Surface aSurf(aFace);
2931 Handle(BRepAdaptor_HSurface) aHSurf = new BRepAdaptor_HSurface(aSurf);
2932
2933 gp_Pnt aPnt;
2934 gp_Dir aNormal;
2935 if (!BRepMesh_GeomTool::Normal(aHSurf, 10., 10., aPnt, aNormal))
2936 {
2937 theDI << "Error. BRepMesh_GeomTool failed to take a normal of surface.\n";
2938 return 1;
2939 }
2940
2941 gp_XY aRefPnts[4] = {
2942 gp_XY(-10., -10.), gp_XY(10., 10.),
2943 gp_XY(-10., 10.), gp_XY(10., -10.)
2944 };
2945
2946 gp_Pnt2d aIntPnt;
2947 Standard_Real aParams[2];
2948 BRepMesh_GeomTool::IntFlag aIntFlag = BRepMesh_GeomTool::IntLinLin(
2949 aRefPnts[0], aRefPnts[1], aRefPnts[2], aRefPnts[3],
2950 aIntPnt.ChangeCoord(), aParams);
2951
2952 Standard_Real aDiff = aIntPnt.Distance(gp::Origin2d());
2953 if (aIntFlag != BRepMesh_GeomTool::Cross || aDiff > Precision::PConfusion())
2954 {
2955 theDI << "Error. BRepMesh_GeomTool failed to intersect two lines.\n";
2956 return 1;
2957 }
2958
2959 aIntFlag = BRepMesh_GeomTool::IntSegSeg(
2960 aRefPnts[0], aRefPnts[1], aRefPnts[2], aRefPnts[3],
2961 Standard_False, Standard_False, aIntPnt);
2962
2963 aDiff = aIntPnt.Distance(gp::Origin2d());
2964 if (aIntFlag != BRepMesh_GeomTool::Cross || aDiff > Precision::PConfusion())
2965 {
2966 theDI << "Error. BRepMesh_GeomTool failed to intersect two segments.\n";
2967 return 1;
2968 }
2969
2970
2971 theDI << "Test complete\n";
2972 return 0;
2973}
2974
ec81011f 2975static Standard_Integer OCC26139 (Draw_Interpretor& theDI,
2976 Standard_Integer argc,
2977 const char ** argv)
2978{
2979
2980 Handle(AIS_InteractiveContext) aCtx = ViewerTest::GetAISContext();
2981 if (aCtx.IsNull())
2982 {
2983 theDI << "Use 'vinit' command before " << argv[0] << "\n";
2984 return 1;
2985 }
2986
2987 Standard_Integer aBoxGridSize = 100;
2988 Standard_Integer aCompGridSize = 3;
2989 Standard_Real aBoxSize = 5.0;
2990
2991 if (argc > 1)
2992 {
2993 for (Standard_Integer anArgIdx = 1; anArgIdx < argc; ++anArgIdx)
2994 {
2995 TCollection_AsciiString anArg (argv[anArgIdx]);
2996 anArg.LowerCase();
2997 if (anArg == "-boxgrid")
2998 {
2999 aBoxGridSize = Draw::Atoi (argv[++anArgIdx]);
3000 }
3001 else if (anArg == "-compgrid")
3002 {
3003 aCompGridSize = Draw::Atoi (argv[++anArgIdx]);
3004 }
3005 else if (anArg == "-boxsize")
3006 {
3007 aBoxSize = Draw::Atof (argv[++anArgIdx]);
3008 }
3009 }
3010 }
3011
3012 NCollection_List<Handle(AIS_Shape)> aCompounds;
3013 for (Standard_Integer aCompGridX = 0; aCompGridX < aCompGridSize; ++aCompGridX)
3014 {
3015 for (Standard_Integer aCompGridY = 0; aCompGridY < aCompGridSize; ++aCompGridY)
3016 {
3017 BRep_Builder aBuilder;
3018 TopoDS_Compound aComp;
3019 aBuilder.MakeCompound (aComp);
3020 for (Standard_Integer aBoxGridX = 0; aBoxGridX < aBoxGridSize; ++aBoxGridX)
3021 {
3022 for (Standard_Integer aBoxGridY = 0; aBoxGridY < aBoxGridSize; ++aBoxGridY)
3023 {
3024 BRepPrimAPI_MakeBox aBox (gp_Pnt (aBoxGridX * aBoxSize, aBoxGridY * aBoxSize, 0.0),
3025 aBoxSize, aBoxSize, aBoxSize);
3026 aBuilder.Add (aComp, aBox.Shape());
3027 }
3028 }
3029 gp_Trsf aTrsf;
3030 aTrsf.SetTranslation (gp_Vec (aBoxGridSize * aBoxSize * aCompGridX,
3031 aBoxGridSize * aBoxSize * aCompGridY,
3032 0.0));
3033 TopLoc_Location aLoc (aTrsf);
3034 aComp.Located (aLoc);
3035 aCompounds.Append (new AIS_Shape (aComp));
3036 }
3037 }
3038
3039 OSD_Timer aTimer;
3040 for (NCollection_List<Handle(AIS_Shape)>::Iterator aCompIter (aCompounds); aCompIter.More(); aCompIter.Next())
3041 {
3042 aTimer.Start();
3043 aCtx->Display (aCompIter.Value(), Standard_False);
3044 aTimer.Stop();
3045 theDI << "Display time: " << aTimer.ElapsedTime() << "\n";
3046 aTimer.Reset();
3047 }
3048
3049 aTimer.Reset();
3050 aTimer.Start();
3051 for (NCollection_List<Handle(AIS_Shape)>::Iterator aCompIter (aCompounds); aCompIter.More(); aCompIter.Next())
3052 {
3053 aCtx->Remove (aCompIter.Value(), Standard_False);
3054 }
3055 aTimer.Stop();
3056 theDI << "Remove time: " << aTimer.ElapsedTime() << "\n";
3057
3058 return 0;
3059}
3060
2bfe59b6 3061#include <TColStd_DataMapIteratorOfDataMapOfIntegerInteger.hxx>
3062#include <TColStd_DataMapOfIntegerInteger.hxx>
3063#include <OSD.hxx>
3064#include <ShapeFix_Wire.hxx>
3065#include <ShapeExtend_Status.hxx>
57c28b61 3066#ifdef _WIN32
2bfe59b6 3067#define EXCEPTION ...
3068#else
3069#define EXCEPTION Standard_Failure
3070#endif
3071
3072static ShapeExtend_Status getStatusGap(const Handle(ShapeFix_Wire)& theFix,
3073 const Standard_Boolean theIs3d)
3074{
3075 for (Standard_Integer i=ShapeExtend_OK; i<=ShapeExtend_FAIL; i++)
3076 {
3077 Standard_Boolean isFound;
3078 if (theIs3d)
3079 isFound = theFix->StatusGaps3d( (ShapeExtend_Status) i );
3080 else
3081 isFound = theFix->StatusGaps2d( (ShapeExtend_Status) i );
3082 if (isFound) return ShapeExtend_Status(i);
3083 }
3084 return ShapeExtend_OK;
3085}
3086
3087//===================
3088//function : OCC24881
3089//purpose :
3090//===================
3091static Standard_Integer OCC24881 (Draw_Interpretor& di, Standard_Integer narg , const char** a)
3092{
3093 if (narg < 2) {
586db386 3094 di<<"Usage: "<<a[0]<<" invalid number of arguments\n";
2bfe59b6 3095 return 1;
3096 }
3097// cout <<"FileName1: " << argv[1] <<endl;
3098
3099 TopoDS_Shape aShape = DBRep::Get (a[1]);
3100
3101 OSD::SetSignal();
3102 Handle(ShapeFix_Wire) aWireFix = new ShapeFix_Wire;
3103
3104 // map FixStatus - NbSuchStatuses
3105 TColStd_DataMapOfIntegerInteger aStatusNbDMap;
3106 Standard_Integer nbFixed=0, nbOk=0;
3107
3108//Begin: STEP 7
3109 ShapeExtend_Status aStatus=ShapeExtend_OK;
3110 try {
3111 TopExp_Explorer aFaceExplorer(aShape, TopAbs_FACE);
3112 for (; aFaceExplorer.More(); aFaceExplorer.Next())
3113 {
3114 TopoDS_Shape aFace = aFaceExplorer.Current();
3115 // loop on wires
3116 TopoDS_Iterator aWireItr(aFace);
3117 for (; aWireItr.More(); aWireItr.Next() )
3118 {
3119 Standard_Boolean wasOk = Standard_False;
3120 TopoDS_Wire aSrcWire = TopoDS::Wire(aWireItr.Value());
3121
3122 aWireFix->Load (aSrcWire);
3123 aWireFix->SetFace (TopoDS::Face(aFace));
3124 aWireFix->FixReorder(); //correct order is a prerequisite
3125 // fix 3d
3126 if (!aWireFix->FixGaps3d())
3127 {
3128 // not fixed, why?
3129 aStatus = getStatusGap(aWireFix, Standard_True);
3130 if (aStatus == ShapeExtend_OK)
3131 wasOk = Standard_True;
3132 else
3133 {
3134 // keep 3d fail status
3135 if (aStatusNbDMap.IsBound (aStatus))
3136 aStatusNbDMap(aStatus)++;
3137 else
3138 aStatusNbDMap.Bind(aStatus,1);
3139 continue;
3140 }
3141 }
3142
3143 // fix 2d
3144 if (aWireFix->FixGaps2d())
3145 nbFixed++;
3146 else
3147 {
3148 aStatus = getStatusGap(aWireFix, Standard_False);
3149 if (aStatus == ShapeExtend_OK)
3150 {
3151 if (wasOk)
3152 {
3153 nbOk++;
3154 continue;
3155 }
3156 else
3157 nbFixed++;
3158 }
3159 else
3160 {
3161 // keep 2d fail status
3162 Standard_Integer aStatus2d = aStatus + ShapeExtend_FAIL;
3163 if (aStatusNbDMap.IsBound (aStatus2d))
3164 aStatusNbDMap(aStatus2d)++;
3165 else
3166 aStatusNbDMap.Bind(aStatus2d,1);
3167 continue;
3168 }
3169 }
3170 }
3171 }
3172//End: STEP 7
3173 } catch (EXCEPTION) {
3174 di << "Exception is raised = " <<aStatus << "\n";
3175 return 1;
3176
3177 }
3178// report what is done
3179
3180 if (nbFixed)
3181 {
3182 di <<"Fix_FillGaps_Fixed: nbFixed = "<<nbFixed <<"\n";
3183
3184 }
3185 if (nbOk)
3186 {
586db386 3187 di << "Fix_FillGaps_NothingToDo\n";
2bfe59b6 3188
3189 }
3190 TColStd_DataMapIteratorOfDataMapOfIntegerInteger aStatusItr(aStatusNbDMap);
3191 for (; aStatusItr.More(); aStatusItr.Next())
3192 {
3193 switch ((ShapeExtend_Status) aStatusItr.Key())
3194 {
3195 // treat 3d status
3196 case ShapeExtend_FAIL1:
3197 di <<"Fix_FillGaps_3dNoCurveFail, nb failed = ";
3198 break;
3199 case ShapeExtend_FAIL2:
3200 di <<"Fix_FillGaps_3dSomeGapsFail, nb failed = ";
3201 break;
3202 default:
3203 // treat 2d status
3204 switch ((ShapeExtend_Status) (aStatusItr.Key() - ShapeExtend_FAIL))
3205 {
3206 case ShapeExtend_FAIL1:
3207 di <<"Fix_FillGaps_2dNoPCurveFail, nb failed = ";
3208 break;
3209 case ShapeExtend_FAIL2:
3210 di <<"Fix_FillGaps_2dSomeGapsFail, nb failed = ";
3211 break;
3212 default:
3213 break;
3214 }
3215 }
3216 di <<aStatusItr.Value()<< "\n";
3217 }
3218 di << ("__________________________________") <<"\n";
3219
3220 return 0;
3221}
3222
c070aa39 3223//=======================================================================
3224//function : OCC26172
3225//purpose :
3226//=======================================================================
3227static Standard_Integer OCC26172 (Draw_Interpretor& theDI, Standard_Integer theArgNb, const char** theArgVec)
3228{
3229 if (theArgNb != 1)
3230 {
3231 std::cerr << "Error: wrong number of arguments! See usage:\n";
3232 theDI.PrintHelp (theArgVec[0]);
3233 return 1;
3234 }
3235
3236 Handle(AIS_InteractiveContext) anAISContext = ViewerTest::GetAISContext();
3237 if(anAISContext.IsNull())
3238 {
3239 std::cerr << "Error: no active view. Please call vinit.\n";
3240 return 1;
3241 }
3242
3243 gp_Pnt aStart (100, 100, 100);
3244 gp_Pnt anEnd (300, 400, 600);
3245 BRepBuilderAPI_MakeEdge anEdgeBuilder (aStart, anEnd);
3246 TopoDS_Edge anEdge = anEdgeBuilder.Edge();
3247 Handle(AIS_Shape) aTestAISShape = new AIS_Shape (anEdge);
0577ae8c 3248 anAISContext->Display (aTestAISShape, Standard_True);
c070aa39 3249
3250 // 2. activate it in selection modes
3251 TColStd_SequenceOfInteger aModes;
3252 aModes.Append (AIS_Shape::SelectionMode ((TopAbs_ShapeEnum) TopAbs_VERTEX));
3253 aModes.Append (AIS_Shape::SelectionMode ((TopAbs_ShapeEnum) TopAbs_EDGE));
3254
404c8936 3255 Standard_DISABLE_DEPRECATION_WARNINGS
c070aa39 3256 anAISContext->OpenLocalContext();
404c8936 3257 Standard_ENABLE_DEPRECATION_WARNINGS
c070aa39 3258 anAISContext->Deactivate (aTestAISShape);
3259 anAISContext->Load (aTestAISShape, -1, true);
3260 for (Standard_Integer anIt = 1; anIt <= aModes.Length(); ++anIt)
3261 {
3262 anAISContext->Activate (aTestAISShape, aModes (anIt));
3263 }
3264
3265 // select entities in vertex selection mode
3266 Handle(SelectMgr_Selection) aSelection = aTestAISShape->Selection (aModes (1));
404c8936 3267 Standard_DISABLE_DEPRECATION_WARNINGS
c070aa39 3268 for (aSelection->Init(); aSelection->More(); aSelection->Next())
3269 {
3270 Handle(SelectBasics_SensitiveEntity) anEntity = aSelection->Sensitive()->BaseSensitive();
3271 if (anEntity.IsNull())
3272 {
3273 continue;
3274 }
3275
3276 Handle(SelectMgr_EntityOwner) anOwner =
3277 Handle(SelectMgr_EntityOwner)::DownCast (anEntity->OwnerId());
3278
3279 if (anOwner.IsNull())
3280 {
3281 continue;
3282 }
3283
3284 anAISContext->LocalContext()->AddOrRemoveSelected (anOwner);
3285 }
404c8936 3286 Standard_ENABLE_DEPRECATION_WARNINGS
c070aa39 3287
3288 // select entities in edge selection mode
3289 aSelection = aTestAISShape->Selection (aModes (2));
404c8936 3290 Standard_DISABLE_DEPRECATION_WARNINGS
c070aa39 3291 for (aSelection->Init(); aSelection->More(); aSelection->Next())
3292 {
3293 Handle(SelectBasics_SensitiveEntity) anEntity = aSelection->Sensitive()->BaseSensitive();
3294 if (anEntity.IsNull())
3295 {
3296 continue;
3297 }
3298
3299 Handle(SelectMgr_EntityOwner) anOwner =
3300 Handle(SelectMgr_EntityOwner)::DownCast (anEntity->OwnerId());
3301
3302 if (anOwner.IsNull())
3303 {
3304 continue;
3305 }
3306
3307 anAISContext->LocalContext()->AddOrRemoveSelected (anOwner);
3308 }
404c8936 3309 Standard_ENABLE_DEPRECATION_WARNINGS
c070aa39 3310
3311 // deactivate vertex mode and check clearing of outdated selection
3312 anAISContext->Deactivate (aTestAISShape, aModes (1));
404c8936 3313 Standard_DISABLE_DEPRECATION_WARNINGS
c070aa39 3314 anAISContext->LocalContext()->ClearOutdatedSelection (aTestAISShape, true);
404c8936 3315 Standard_ENABLE_DEPRECATION_WARNINGS
c070aa39 3316
3317 return 0;
3318}
3319
e11850fd 3320//=======================================================================
3321//function : OCC26284
3322//purpose :
3323//=======================================================================
3324static Standard_Integer OCC26284 (Draw_Interpretor& theDI, Standard_Integer theArgNb, const char** theArgVec)
3325{
3326 if (theArgNb != 1)
3327 {
3328 std::cerr << "Error: wrong number of arguments! See usage:\n";
3329 theDI.PrintHelp (theArgVec[0]);
3330 return 1;
3331 }
3332
3333 Handle(AIS_InteractiveContext) anAISContext = ViewerTest::GetAISContext();
3334 if (anAISContext.IsNull())
3335 {
3336 std::cerr << "Error: no active view. Please call vinit.\n";
3337 return 1;
3338 }
3339
3340 BRepPrimAPI_MakeSphere aSphereBuilder (gp_Pnt (0.0, 0.0, 0.0), 1.0);
3341 Handle(AIS_Shape) aSphere = new AIS_Shape (aSphereBuilder.Shape());
0577ae8c 3342 anAISContext->Display (aSphere, Standard_False);
e11850fd 3343 for (Standard_Integer aChildIdx = 0; aChildIdx < 5; ++aChildIdx)
3344 {
3345 BRepPrimAPI_MakeSphere aBuilder (gp_Pnt (1.0 + aChildIdx, 1.0 + aChildIdx, 1.0 + aChildIdx), 1.0);
3346 Handle(AIS_Shape) aChild = new AIS_Shape (aBuilder.Shape());
3347 aSphere->AddChild (aChild);
0577ae8c 3348 anAISContext->Display (aChild, Standard_False);
e11850fd 3349 }
3350
3351 anAISContext->RecomputeSelectionOnly (aSphere);
0577ae8c 3352 anAISContext->UpdateCurrentViewer();
e11850fd 3353
3354 return 0;
3355}
3356
9bf3177f 3357#include <IntTools_Context.hxx>
3358#include <GeomAPI_ProjectPointOnSurf.hxx>
3359
3360//=======================================================================
3361//function : xprojponf
3362//purpose :
3363//=======================================================================
3364Standard_Integer xprojponf (Draw_Interpretor& di,
3365 Standard_Integer n,
3366 const char** a)
3367{
3368 if (n!=3) {
3369 di<<" use xprojponf p f \n";
3370 return 0;
3371 }
3372 //
3373 gp_Pnt aP, aPS;
3374 TopoDS_Shape aS;
3375 TopoDS_Face aF;
3376 Handle(IntTools_Context) aCtx;
3377 //
3378 DrawTrSurf::GetPoint(a[1], aP);
3379 aS=DBRep::Get(a[2]);
3380 //
3381 if (aS.IsNull()) {
3382 di<<" null shape is not allowed\n";
3383 return 0;
3384 }
3385 //
3386 if (aS.ShapeType()!=TopAbs_FACE) {
3387 di << a[2] << " not a face\n";
3388 return 0;
3389 }
3390 //
3391 aCtx=new IntTools_Context;
3392 //
3393 aF=TopoDS::Face(aS);
3394 GeomAPI_ProjectPointOnSurf& aPPS=aCtx->ProjPS(aF);
3395 //
3396 aPPS.Perform(aP);
3397 if (!aPPS.IsDone()) {
3398 di<<" projection failed\n";
3399 return 0;
3400 }
3401 //
3402 aPS=aPPS.NearestPoint();
3403 di<< " point px " << aPS.X() << " " << aPS.Y() << " " << aPS.Z() << "\n";
3404 //
3405 return 0;
3406}
3407
ec26bf88 3408//=======================================================================
3409//function : OCC25547
3410//purpose :
3411//=======================================================================
3412#include <BRepMesh_CircleTool.hxx>
ec357c5c 3413#include <SelectMgr_EntityOwner.hxx>
ec26bf88 3414
3415static Standard_Boolean inspect_point(const gp_XY& thePoint,
3416 const gp_XY& theCenter,
3417 const Standard_Real theRadius)
3418{
3419 static Standard_Real aPrecision = Precision::PConfusion();
3420 static Standard_Real aSqPrecision = aPrecision * aPrecision;
3421 const gp_XY aDistVec = thePoint - theCenter;
3422 if (aDistVec.SquareModulus() - (theRadius * theRadius) < aSqPrecision)
3423 return Standard_True;
3424 else
3425 return Standard_False;
3426}
3427
3428static Standard_Integer OCC24923(
3429 Draw_Interpretor& theDI,
3430 Standard_Integer argc,
3431 const char ** argv)
3432{
3433 srand(static_cast<unsigned int>(time(NULL)));
3434
3435 const Standard_Real aMaxDeviation = (argc > 1) ? Draw::Atof(argv[1]) : 0.01;
3436 const Standard_Integer aPointsNb = 10000000;
3437 const Standard_Real aMinAngle = 5 * M_PI / 180.;
3438 static Standard_Real aSqPrecision = Precision::PConfusion() * Precision::PConfusion();
3439
3440 Standard_Integer aFailedNb = 0;
3441 for (Standard_Integer i = 0; i < aPointsNb; ++i)
3442 {
3443 gp_XY p[3];
3444 for (Standard_Integer j = 0; j < 3; ++j)
3445 p[j].SetCoord(((Standard_Real)rand())/RAND_MAX, ((Standard_Real)rand())/RAND_MAX);
3446
3447 // Check that points do not compose degenerated triangle.
3448 gp_XY aVec1 = p[1] - p[0];
3449 gp_XY aVec2 = p[2] - p[0];
3450 if (aVec1.SquareModulus() > aSqPrecision &&
3451 aVec2.SquareModulus() > aSqPrecision &&
3452 (aVec1 ^ aVec2) > aMinAngle)
3453 {
3454 gp_XY aCenter;
3455 Standard_Real aRadius;
3456 if (BRepMesh_CircleTool::MakeCircle(p[0], p[1], p[2], aCenter, aRadius))
3457 {
3458 if (!inspect_point(p[0], aCenter, aRadius) ||
3459 !inspect_point(p[1], aCenter, aRadius) ||
3460 !inspect_point(p[2], aCenter, aRadius))
3461 {
3462 /* theDI << "Missed: " <<
3463 "p1=(" << p1.X() << ", " << p1.Y() << "), " <<
3464 "p2=(" << p2.X() << ", " << p2.Y() << "), " <<
3465 "p3=(" << p3.X() << ", " << p3.Y() << "), " <<
3466 "c=(" << aCenter.X() << ", " << aCenter.Y() << "), " <<
3467 "r=" << aRadius << "\n";*/
3468
3469 ++aFailedNb;
3470 }
3471
3472 continue;
3473 }
3474 }
3475
3476 // Ensure that aPointsNb suitable for tests are generated
3477 --i;
3478 }
3479
3480 const Standard_Real aDeviation =
3481 1. - (Standard_Real)(aPointsNb - aFailedNb) / (Standard_Real)aPointsNb;
3482
3483 theDI << "Number of failed cases: " << aFailedNb << " (Total " << aPointsNb << ")\n";
3484 if (aDeviation > aMaxDeviation)
3485 {
3486 theDI << "Failed. Number of incorrect results is too huge: " <<
586db386 3487 aDeviation * 100 << "% (Max " << aMaxDeviation * 100 << "%)\n";
ec26bf88 3488 return 1;
3489 }
3490
3491 theDI << "Deviation of incorrect results is: " <<
586db386 3492 aDeviation * 100 << "% (Max " << aMaxDeviation * 100 << "%)\n";
ec26bf88 3493 theDI << "Test completed\n";
3494 return 0;
3495}
3496
4f5ad416 3497//=======================================================================
3498//function : OCC25574
3499//purpose : check implementation of Euler angles in gp_Quaternion
3500//=======================================================================
3501
3502static Standard_Integer OCC25574 (Draw_Interpretor& theDI, Standard_Integer /*argc*/, const char** /*argv*/)
3503{
3504 Standard_Boolean isTestOk = Standard_True;
3505
3506 // Check consistency of Get and Set operations for Euler angles
3507 gp_Quaternion aQuat;
3508 aQuat.Set(0.06766916507860499, 0.21848101129786085, 0.11994599260380681,0.9660744746954637);
3509 Standard_Real alpha,beta,gamma;
3510 gp_Mat aRinv = aQuat.GetMatrix().Inverted();
3511 gp_Mat aI;
3512 aI.SetIdentity();
3513 const char* names[] = { "Extrinsic_XYZ", "Extrinsic_XZY", "Extrinsic_YZX", "Extrinsic_YXZ", "Extrinsic_ZXY", "Extrinsic_ZYX",
3514 "Intrinsic_XYZ", "Intrinsic_XZY", "Intrinsic_YZX", "Intrinsic_YXZ", "Intrinsic_ZXY", "Intrinsic_ZYX",
3515 "Extrinsic_XYX", "Extrinsic_XZX", "Extrinsic_YZY", "Extrinsic_YXY", "Extrinsic_ZYZ", "Extrinsic_ZXZ",
3516 "Intrinsic_XYX", "Intrinsic_XZX", "Intrinsic_YZY", "Intrinsic_YXY", "Intrinsic_ZXZ", "Intrinsic_ZYZ" };
3517 for (int i = gp_Extrinsic_XYZ; i <= gp_Intrinsic_ZYZ; i++)
3518 {
3519 aQuat.GetEulerAngles (gp_EulerSequence(i), alpha, beta, gamma);
3520
3521 gp_Quaternion aQuat2;
3522 aQuat2.SetEulerAngles (gp_EulerSequence(i), alpha, beta, gamma);
3523
3524 gp_Mat aR = aQuat2.GetMatrix();
3525 gp_Mat aDiff = aR * aRinv - aI;
3526 if (aDiff.Determinant() > 1e-5)
3527 {
3528 theDI << "Error: Euler angles conversion incorrect for sequence " << names[i - gp_Extrinsic_XYZ] << "\n";
3529 isTestOk = Standard_False;
3530 }
3531 }
3532
3533 // Check conversion between intrinsic and extrinsic rotations
3534 // Any extrinsic rotation is equivalent to an intrinsic rotation
3535 // by the same angles but with inverted order of elemental rotations, and vice versa
3536 // For instance:
3537 // Extrinsic_XZY = Incrinsic_XZY
3538 // R = X(A)Z(B)Y(G) --> R = Y(G)Z(B)X(A)
3539 alpha = 0.1517461713131;
3540 beta = 1.5162198410141;
3541 gamma = 1.9313156236541;
3542 Standard_Real alpha2, beta2, gamma2;
3543 gp_EulerSequence pairs[][2] = { {gp_Extrinsic_XYZ, gp_Intrinsic_ZYX},
3544 {gp_Extrinsic_XZY, gp_Intrinsic_YZX},
3545 {gp_Extrinsic_YZX, gp_Intrinsic_XZY},
3546 {gp_Extrinsic_YXZ, gp_Intrinsic_ZXY},
3547 {gp_Extrinsic_ZXY, gp_Intrinsic_YXZ},
3548 {gp_Extrinsic_ZYX, gp_Intrinsic_XYZ} };
3549 for (int i = 0; i < 6; i++)
3550 {
3551 aQuat.SetEulerAngles(pairs[i][0], alpha, beta, gamma);
3552 aQuat.GetEulerAngles(pairs[i][1], gamma2, beta2, alpha2);
3553
3554 if (Abs(alpha - alpha2) > 1e-5 || Abs(beta - beta2) > 1e-5 || Abs(gamma - gamma2) > 1e-5)
3555 {
3556 theDI << "Error: intrinsic and extrinsic conversion incorrect for sequence " << names[i] << "\n";
3557 isTestOk = Standard_False;
3558 }
3559 }
3560
3561 // Check correspondence of enumeration and actual rotation it defines,
3562 // by rotation by one axis and checking that it does not change a point on that axis
3563 for (int i = gp_Extrinsic_XYZ; i <= gp_Intrinsic_ZYZ; i++)
3564 {
3565 // Iterate over rotations R(A)R(B)R(G) for each Euler angle Alpha, Beta, Gamma
3566 // There are three ordered axes corresponding to three rotations.
3567 // Each rotation applyed with current angle around current axis.
3568 for (int j=0; j < 3; j++)
3569 {
3570 // note that current axis index is obtained by parsing of enumeration name!
3571 int anAxis = names[i - gp_Extrinsic_XYZ][10 + j] - 'X';
3572 Standard_ASSERT_RETURN (anAxis >=0 && anAxis <= 2, "Incorrect parsing of enumeration name", 1);
3573
3574 // Set 90 degrees to current Euler angle
3575 double anAngles[3] = {0., 0., 0.};
3576 anAngles[j] = 0.5 * M_PI;
3577
3578 gp_Quaternion q2;
3579 q2.SetEulerAngles (gp_EulerSequence(i), anAngles[0], anAngles[1], anAngles[2]);
3580
3581 // Set point on axis corresponding to current rotation
3582 // We will apply rotation around this axis
3583 gp_XYZ v (0., 0., 0.);
3584 v.SetCoord (anAxis + 1, 1.);
3585
3586 // Apply rotation to point
3587 gp_Trsf aT;
3588 aT.SetRotation (q2);
3589 gp_XYZ v2 = v;
3590 aT.Transforms (v2);
3591
3592 // Check that point is still on origin position
3593 if ((v - v2).SquareModulus() > Precision::SquareConfusion())
3594 {
3595 // avoid reporting small coordinates
3596 for (int k=1; k <= 3; k++)
3597 if (Abs (v2.Coord(k)) < Precision::Confusion())
3598 v2.SetCoord (k, 0.);
3599
3600 isTestOk = Standard_False;
3601 theDI << "Error: Euler sequence " << names[i - gp_Extrinsic_XYZ] << " is incorrect:\n";
3602 theDI << "rotating by angle 90 deg around " << (anAxis == 0 ? "X" : anAxis == 1 ? "Y" : "Z") <<
3603 " converts vector (" << v.X() << ", " << v.Y() << ", " << v.Z() << ") to ("
3604 << v2.X() << ", " << v2.Y() << ", " << v2.Z() << ")\n";
3605 }
3606 }
3607 }
3608
3609 // Check correspondence of enumeration and actual rotation it defines,
3610 // by comparing cumulative rotation matrix with sequence of rotations by axes
3611 const Standard_Real anAngle[3] = { 0.1, 0.2, 0.3 };
3612 for (int i = gp_Extrinsic_XYZ; i <= gp_Intrinsic_ZYZ; i++)
3613 {
3614 // Sequence of rotations
3615 gp_Mat aR[3];
3616 for (int j=0; j < 3; j++)
3617 {
3618 // note that current axis index is obtained by parsing of enumeration name!
3619 int anAxis = names[i - gp_Extrinsic_XYZ][10 + j] - 'X';
3620 Standard_ASSERT_RETURN (anAxis >=0 && anAxis <= 2, "Incorrect parsing of enumeration name", 1);
3621
3622 // Set point on axis corresponding to current rotation
3623 // We will apply rotation around this axis
3624 gp_XYZ v (0., 0., 0.);
3625 v.SetCoord (anAxis + 1, 1.);
3626 aR[j].SetRotation (v, anAngle[j]);
3627 }
3628
3629 // construct cumulative transformation (differently for extrinsic and intrinsic rotations);
3630 // note that we parse first symbol of the enum name to identify its type
3631 gp_Mat aRot;
3632 if (names[i - gp_Extrinsic_XYZ][0] == 'E') // extrinsic
3633 {
3634 aRot = aR[2] * aR[1] * aR[0];
3635 }
3636 else // intrinsic
3637 {
3638 aRot = aR[0] * aR[1] * aR[2];
3639 }
3640
3641 // set the same angles in quaternion
4f5ad416 3642 aQuat.SetEulerAngles (gp_EulerSequence(i), anAngle[0], anAngle[1], anAngle[2]);
3643
3644 gp_Mat aRQ = aQuat.GetMatrix();
3645 gp_Mat aDiff = aRQ * aRot.Inverted() - aI;
3646 if (aDiff.Determinant() > 1e-5)
3647 {
3648 theDI << "Error: Euler angles conversion does not correspond to sequential rotations for " << names[i - gp_Extrinsic_XYZ] << "\n";
3649 isTestOk = Standard_False;
3650 }
3651 }
3652
3653 // similar checkfor YawPitchRoll sequence as defined in description of #25574
3654 {
3655 // Start with world coordinate system
3656 gp_Ax2 world;
3657
3658 // Perform three rotations using the yaw-pitch-roll convention.
3659 // This means: rotate around the original z axis with angle alpha,
3660 // then rotate around the new y axis with angle beta,
3661 // then rotate around the new x axis with angle gamma.
3662 alpha = 0.0 / 180.0 * M_PI;
3663 beta = -35.0 / 180.0 * M_PI;
3664 gamma = 90.0 / 180.0 * M_PI;
3665
3666 const gp_Quaternion rotationZ(world.Direction(), alpha);
3667 const gp_Vec rotY = rotationZ.Multiply(world.YDirection());
3668 const gp_Vec rotX = rotationZ.Multiply(world.XDirection());
3669
3670 const gp_Quaternion rotationY(rotY, beta);
3671 const gp_Vec rotZ = rotationY.Multiply(world.Direction());
3672 const gp_Vec rotRotX = rotationY.Multiply(rotX);
3673
3674 const gp_Quaternion rotationX(rotRotX, gamma);
3675 const gp_Vec rotRotZ = rotationX.Multiply(rotZ);
3676
3677 gp_Ax2 result(gp_Pnt(0.0, 0.0, 0.0), rotRotZ, rotRotX);
3678
3679 // Now compute the Euler angles
3680 gp_Trsf transformation;
3681 transformation.SetDisplacement(gp_Ax2(), result);
3682
3683 Standard_Real computedAlpha;
3684 Standard_Real computedBeta;
3685 Standard_Real computedGamma;
3686
3687 transformation.GetRotation().GetEulerAngles(gp_YawPitchRoll, computedAlpha, computedBeta, computedGamma);
3688
3689 // We expect now to get the same angles as we have used for our rotations
3690 if (Abs(alpha - computedAlpha) > 1e-5 || Abs(beta - computedBeta) > 1e-5 || Abs(gamma - computedGamma) > 1e-5)
3691 {
3692 theDI << "Error: unexpected values of Euler angles for YawPitchRoll sequence:\n";
3693 theDI << "alpha: " << alpha / M_PI * 180.0 << " and computed alpha: "
3694 << computedAlpha / M_PI * 180.0 << "\n";
3695 theDI << "beta: " << beta / M_PI * 180.0 << " and computed beta: "
3696 << computedBeta / M_PI * 180.0 << "\n";
3697 theDI << "gamma: " << gamma / M_PI * 180.0 << " and computed gamma: "
3698 << computedGamma / M_PI * 180.0 << "\n";
3699 isTestOk = Standard_False;
3700 }
3701 }
3702
3703 // test from #25946
3704 {
3705 gp_Quaternion q;
3706 q.Set(0.06766916507860499, 0.21848101129786085, 0.11994599260380681,0.9660744746954637);
3707
3708 q.GetEulerAngles(gp_Intrinsic_ZYX, alpha,beta, gamma);
4f5ad416 3709 q.GetEulerAngles(gp_Extrinsic_XYZ, alpha2,beta2,gamma2);
3710
3711 // gp_Intrinsic_ZYX and gp_Extrinsic_XYZ should produce the same values of angles but in opposite order
3712 if (Abs(alpha - gamma2) > 1e-5 || Abs(beta - beta2) > 1e-5 || Abs(gamma - alpha2) > 1e-5)
3713 {
3714 theDI << "Error: Euler angles computed for gp_Intrinsic_ZYX and gp_Extrinsic_XYZ do not match:\n";
3715 theDI << "alpha: " << alpha / M_PI * 180.0 << " and " << alpha2 / M_PI * 180.0 << "\n";
3716 theDI << "beta: " << beta / M_PI * 180.0 << " and " << beta2 / M_PI * 180.0 << "\n";
3717 theDI << "gamma: " << gamma / M_PI * 180.0 << " and " << gamma2 / M_PI * 180.0 << "\n";
3718 isTestOk = Standard_False;
3719 }
3720 }
3721
3722 theDI << (isTestOk ? "Test completed" : "Test failed") << "\n";
3723 return 0;
3724}
3725
3ceb4c3c 3726#include <TColGeom_Array1OfBSplineCurve.hxx>
3727#include <TColStd_Array1OfReal.hxx>
3728#include <TColGeom_HArray1OfBSplineCurve.hxx>
3729#include <GeomConvert.hxx>
3730
3731//=======================================================================
3732//function : OCC26446
3733//purpose :
3734//=======================================================================
3735Standard_Integer OCC26446 (Draw_Interpretor& di,
3736 Standard_Integer n,
3737 const char** a)
3738{
3739 if (n != 4) {
586db386 3740 di << "Usage: OCC26446 r c1 c2\n";
3ceb4c3c 3741 return 1;
3742 }
3743
3744 Handle(Geom_BSplineCurve) aCurve1 =
3745 Handle(Geom_BSplineCurve)::DownCast(DrawTrSurf::GetCurve(a[2]));
3746 Handle(Geom_BSplineCurve) aCurve2 =
3747 Handle(Geom_BSplineCurve)::DownCast(DrawTrSurf::GetCurve(a[3]));
3748
3749 if (aCurve1.IsNull()) {
586db386 3750 di << a[2] << " is not a BSpline curve\n";
3ceb4c3c 3751 return 1;
3752 }
3753
3754 if (aCurve2.IsNull()) {
586db386 3755 di << a[3] << " is not a BSpline curve\n";
3ceb4c3c 3756 return 1;
3757 }
3758
3759 TColGeom_Array1OfBSplineCurve aCurves (0, 1);
3760 TColStd_Array1OfReal aTolerances (0, 0);
3761 Standard_Real aTolConf = 1.e-3;
3762 Standard_Real aTolClosure = Precision::Confusion();
3763 Handle(TColGeom_HArray1OfBSplineCurve) aConcatCurves;
3764 Handle(TColStd_HArray1OfInteger) anIndices;
3765
3766 aCurves.SetValue(0, aCurve1);
3767 aCurves.SetValue(1, aCurve2);
3768 aTolerances.SetValue(0, aTolConf);
3769
3770 GeomConvert::ConcatC1(aCurves,
3771 aTolerances,
3772 anIndices,
3773 aConcatCurves,
3774 Standard_False,
3775 aTolClosure);
3776
3777 Handle(Geom_BSplineCurve) aResult =
3778 aConcatCurves->Value(aConcatCurves->Lower());
3779
3780 DrawTrSurf::Set(a[1], aResult);
3781 return 0;
3782}
3783
fac9298e 3784static Standard_Integer OCC26448 (Draw_Interpretor& theDI, Standard_Integer, const char **)
3785{
3786 TColStd_SequenceOfReal aSeq1, aSeq2;
3787 aSeq1.Append(11.);
3788 aSeq1.Prepend (aSeq2);
3789 theDI << "TCollection: 11 -> " << aSeq1.First() << "\n";
3790
3791 NCollection_Sequence<Standard_Real> nSeq1, nSeq2;
3792 nSeq1.Append(11.);
3793 nSeq1.Prepend (nSeq2);
3794 theDI << "NCollection: 11 -> " << nSeq1.First() << "\n";
3795
3796 theDI << "OK";
3797 return 0;
3798}
3799
71316196 3800//=======================================================================
3801//function : OCC26407
3802//purpose :
3803//=======================================================================
3804#include <BRepBuilderAPI_MakeWire.hxx>
3805#include <BRepBuilderAPI_MakeEdge.hxx>
3806#include <BRepMesh_IncrementalMesh.hxx>
3807#include <TCollection_AsciiString.hxx>
3808static Standard_Integer OCC26407 (Draw_Interpretor& theDI, Standard_Integer theArgNb, const char** theArgVec)
3809{
3810 if (theArgNb != 2)
3811 {
3812 std::cerr << "Error: wrong number of arguments! See usage:\n";
3813 theDI.PrintHelp (theArgVec[0]);
3814 return 1;
3815 }
3816
3817 // Construct vertices.
3818 std::vector<TopoDS_Vertex> wire_vertices;
3819 wire_vertices.push_back(BRepBuilderAPI_MakeVertex(gp_Pnt(587.90000000000009094947, 40.6758179230516248026106, 88.5)));
3820 wire_vertices.push_back(BRepBuilderAPI_MakeVertex(gp_Pnt(807.824182076948432040808, 260.599999999999965893949, 88.5)));
3821 wire_vertices.push_back(BRepBuilderAPI_MakeVertex(gp_Pnt(644.174182076948454778176, 424.249999999999943156581, 88.5000000000000142108547)));
3822 wire_vertices.push_back(BRepBuilderAPI_MakeVertex(gp_Pnt(629.978025792618950617907, 424.25, 88.5)));
3823 wire_vertices.push_back(BRepBuilderAPI_MakeVertex(gp_Pnt(793.628025792618700506864, 260.599999999999852207111, 88.5)));
3824 wire_vertices.push_back(BRepBuilderAPI_MakeVertex(gp_Pnt(587.900000000000204636308, 54.8719742073813492311274, 88.5)));
3825 wire_vertices.push_back(BRepBuilderAPI_MakeVertex(gp_Pnt(218.521974207381418864315, 424.250000000000056843419, 88.5)));
3826 wire_vertices.push_back(BRepBuilderAPI_MakeVertex(gp_Pnt(204.325817923051886282337, 424.249999999999943156581, 88.5)));
3827
3828 // Construct wire.
3829 BRepBuilderAPI_MakeWire wire_builder;
3830 for (size_t i = 0; i < wire_vertices.size(); i++)
3831 {
3832 const TopoDS_Vertex &v = wire_vertices[i];
3833 const TopoDS_Vertex &w = wire_vertices[(i+1) % wire_vertices.size()];
3834
3835 wire_builder.Add(BRepBuilderAPI_MakeEdge(v, w));
3836 }
3837
3838 // Create face and triangulate it.
3839 // Construct face.
3840 gp_Pnt v0 = BRep_Tool::Pnt(wire_vertices[0]);
3841 gp_Pnt v1 = BRep_Tool::Pnt(wire_vertices[1]);
3842 gp_Pnt v2 = BRep_Tool::Pnt(wire_vertices[wire_vertices.size() - 1]);
3843
3844 gp_Vec face_normal = gp_Vec(v0, v1).Crossed(gp_Vec(v0, v2));
3845