// Created on: 2002-03-20
// Created by: QA Admin
-// Copyright (c) 2002-2012 OPEN CASCADE SAS
+// Copyright (c) 2002-2014 OPEN CASCADE SAS
//
-// The content of this file is subject to the Open CASCADE Technology Public
-// License Version 6.5 (the "License"). You may not use the content of this file
-// except in compliance with the License. Please obtain a copy of the License
-// at http://www.opencascade.org and read it completely before using this file.
+// This file is part of Open CASCADE Technology software library.
//
-// The Initial Developer of the Original Code is Open CASCADE S.A.S., having its
-// main offices at: 1, place des Freres Montgolfier, 78280 Guyancourt, France.
+// This library is free software; you can redistribute it and/or modify it under
+// the terms of the GNU Lesser General Public License version 2.1 as published
+// by the Free Software Foundation, with special exception defined in the file
+// OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT
+// distribution for complete text of the license and disclaimer of any warranty.
//
-// The Original Code and all software distributed under the License is
-// distributed on an "AS IS" basis, without warranty of any kind, and the
-// Initial Developer hereby disclaims all such warranties, including without
-// limitation, any warranties of merchantability, fitness for a particular
-// purpose or non-infringement. Please see the License for the specific terms
-// and conditions governing the rights and limitations under the License.
-
-
+// Alternatively, this file may be used under the terms of Open CASCADE
+// commercial license or contractual agreement.
#include <stdio.h>
#include <QABugs.hxx>
+#include <Draw.hxx>
#include <Draw_Interpretor.hxx>
#include <DBRep.hxx>
#include <DrawTrSurf.hxx>
#include <AIS_Shape.hxx>
#include <TopoDS_Shape.hxx>
+#include <Geom_Surface.hxx>
#include <Geom_Axis2Placement.hxx>
#include <gp.hxx>
#include <gp_Trsf.hxx>
#include <TColStd_Array1OfInteger.hxx>
#include <Geom_BSplineCurve.hxx>
#include <TColgp_Array1OfPnt.hxx>
+#include <AIS_ColorScale.hxx>
#include <AIS_ListOfInteractive.hxx>
#include <AIS_ListIteratorOfListOfInteractive.hxx>
#include <ViewerTest_DoubleMapOfInteractiveAndName.hxx>
#include <IGESData_IGESModel.hxx>
#include <IGESData_IGESEntity.hxx>
#include <V3d_View.hxx>
+#include <BRepFeat_SplitShape.hxx>
+#include <BRepAlgoAPI_Section.hxx>
+#include <TColStd_PackedMapOfInteger.hxx>
-#include <tcl.h>
-
-#if ! defined(WNT)
+#if ! defined(_WIN32)
extern ViewerTest_DoubleMapOfInteractiveAndName& GetMapOfAIS();
#else
Standard_EXPORT ViewerTest_DoubleMapOfInteractiveAndName& GetMapOfAIS();
//
// Standard_Integer aNum = -1;
//
-// if(atoi(argv[2])) {
+// if(Draw::Atoi(argv[2])) {
// aNum = anAISCtx->OpenLocalContext();
// }
//
anAISCtx->EraseAll();
//load primitives to context
- Handle(AIS_Shape) aSh1 = new AIS_Shape(aBox);
+ Handle(AIS_InteractiveObject) aSh1 = new AIS_Shape(aBox);
anAISCtx->Display(aSh1);
- Handle(AIS_Shape) aSh2 = new AIS_Shape(aSphere);
+ Handle(AIS_InteractiveObject) aSh2 = new AIS_Shape(aSphere);
anAISCtx->Display(aSh2);
- Handle(AIS_Shape) aSh3 = new AIS_Shape(aCone);
+ Handle(AIS_InteractiveObject) aSh3 = new AIS_Shape(aCone);
anAISCtx->Display(aSh3);
- Handle(AIS_Shape) aSh4 = new AIS_Shape(aCyl);
+ Handle(AIS_InteractiveObject) aSh4 = new AIS_Shape(aCyl);
anAISCtx->Display(aSh4);
//set selected
- anAISCtx->InitCurrent();
- anAISCtx->AddOrRemoveCurrentObject(aSh1);
- anAISCtx->AddOrRemoveCurrentObject(aSh2);
- anAISCtx->AddOrRemoveCurrentObject(aSh3);
- anAISCtx->AddOrRemoveCurrentObject(aSh4);
+ anAISCtx->InitSelected();
+ anAISCtx->AddOrRemoveSelected(aSh1);
+ anAISCtx->AddOrRemoveSelected(aSh2);
+ anAISCtx->AddOrRemoveSelected(aSh3);
+ anAISCtx->AddOrRemoveSelected(aSh4);
//remove all this objects from context
- anAISCtx->Clear(aSh1, Standard_False);
- anAISCtx->Clear(aSh2, Standard_False);
- anAISCtx->Clear(aSh3, Standard_False);
- anAISCtx->Clear(aSh4, Standard_False);
+ anAISCtx->Remove (aSh1, Standard_False);
+ anAISCtx->Remove (aSh2, Standard_False);
+ anAISCtx->Remove (aSh3, Standard_False);
+ anAISCtx->Remove (aSh4, Standard_False);
return 0;
}
printf("Usage: %s iges_input [name]\n",argv[0]);
return(1);
}
- Standard_Character *Ch;
+ Standard_Character *Ch = NULL;
if(argc > 2) {
Ch = new Standard_Character[strlen(argv[2])+3];
di << "Num points = " << plin.NbPoints() << "\n";
if(argc > 2) {
i++;
- sprintf(Ch,"%s_%i",argv[2],1);
+ Sprintf(Ch,"%s_%i",argv[2],1);
DBRep::Set(Ch,E);
}
}
return (1);
}
-static Standard_Integer BUC60661(Draw_Interpretor& di, Standard_Integer argc, const char ** a)
-{
- if(argc!=2)
- {
- di << "Usage : " << a[0] << " file.igs" << "\n";
- return -1;
- }
-
- Handle(AIS_InteractiveContext) myContext = ViewerTest::GetAISContext();
-
- if(myContext.IsNull()) {
- di << "use 'vinit' command before " << a[0] << "\n";
- return -1;
- }
-
- // MKV 30.03.05
-#if ((TCL_MAJOR_VERSION > 8) || ((TCL_MAJOR_VERSION == 8) && (TCL_MINOR_VERSION >= 4))) && !defined(USE_NON_CONST)
- const Standard_Character *DD = Tcl_GetVar(di.Interp(),"Draw_DataDir",TCL_GLOBAL_ONLY);
-#else
- Standard_Character *DD = Tcl_GetVar(di.Interp(),"Draw_DataDir",TCL_GLOBAL_ONLY);
-#endif
-
- Standard_Character *file1 = new Standard_Character [strlen(DD)+strlen(a[1])+2];
- sprintf(file1,"%s/%s",DD,a[1]);
-
- IGESToBRep_Reader reader;
- Standard_Integer status = reader.LoadFile(file1);
- if( !status ) {
- IGESToBRep::Init();
- reader.TransferRoots();
- TopoDS_Shape shape = reader.OneShape();
-
- Handle(AIS_Shape) importedShape = new AIS_Shape(shape);
-
- Handle(V3d_Viewer) myPView = myContext->CurrentViewer();
-
- if( ! myPView.IsNull() && (myPView->DefaultVisualization() == V3d_WIREFRAME) )
- importedShape->SetDisplayMode(AIS_WireFrame);
- else importedShape->SetDisplayMode(AIS_Shaded);
- myContext->Display(importedShape);
- }
-
- printf("\n End of my IGES to 3D-viewer *****************>\n");
- return 0;
-}
-
-
//====================================================
//
// Following code is inserted from
}
// TopoDS_Wire myTopoDSWire = TopoDS::Wire(DBRep::Get("aa.brep"));
TopoDS_Wire myTopoDSWire = TopoDS::Wire(DBRep::Get(argv[1]));
- Standard_Real l = 0.5; //atof(argv[2]);
+ Standard_Real l = 0.5; //Draw::Atof(argv[2]);
// Find the first vertex of the wire
BRepTools_WireExplorer wire_exp(myTopoDSWire);
TopoDS_Vertex vlast;
Standard_Integer n, const char ** a)
{
if (n < 6) {
- di << "Usage: " << a[0] << " result path cur1 cur2 radius [tolerance]" << "\n";
+ di << "Usage: " << a[0] << " result path cur1 cur2 radius [tolerance]\n";
return 1;
}
for (i=2 ; i<=4; i++) {
Handle(Geom_Curve) aC = Handle(Geom_Curve)::DownCast( DrawTrSurf::Get(a[i]) );
if (aC.IsNull()) {
- di << a[i] << " is not a curve" << "\n";
+ di << a[i] << " is not a curve\n";
return 1;
}
aCurveSeq.Append(aC);
GeomFill_Pipe aPipe(Handle(Geom_Curve)::DownCast( aCurveSeq(1) ),
Handle(Geom_Curve)::DownCast( aCurveSeq(2) ),
Handle(Geom_Curve)::DownCast( aCurveSeq(3) ),
- atof (a[5]) );
+ Draw::Atof (a[5]) );
if (n == 7) {
- aPipe.Perform(atof (a[6]), Standard_True);
+ aPipe.Perform(Draw::Atof (a[6]), Standard_True);
} else {
aPipe.Perform(Standard_True/*, Standard_True*/);
}
//static Standard_Integer findplanarsurface(Draw_Interpretor&, Standard_Integer n, const char ** a)
{
if (n<3) {
- di << "bad number of arguments" <<"\n";
+ di << "bad number of arguments\n";
return 1;
}
// try to read a shape:
TopoDS_Shape inputShape=DBRep::Get(a[2]);
if (inputShape.IsNull() || inputShape.ShapeType() != TopAbs_WIRE) {
- di << "Invalid input shape"<< "\n";
+ di << "Invalid input shape\n";
return 1;
}
- Standard_Real toler = atof(a[3]);
+ Standard_Real toler = Draw::Atof(a[3]);
TopoDS_Wire aWire = TopoDS::Wire(inputShape);
BRepLib_FindSurface FS(aWire, toler, Standard_True);
if(FS.Found()) {
- di<<"OCC157: OK; Planar surface is found"<<"\n";
+ di<<"OCC157: OK; Planar surface is found\n";
Handle(Geom_Surface) aSurf = FS.Surface();
BRepBuilderAPI_MakeFace aMakeFace(aSurf,aWire,Standard_True);
if(aMakeFace.IsDone()) {
{
if (n > 2)
{
- di <<"Usage : " << a[0] << " [file]"<<"\n";
+ di <<"Usage : " << a[0] << " [file]\n";
return 1;
}
di.Eval ("axo");
#include<BRepAlgo_Cut.hxx>
#include<BRepPrimAPI_MakeHalfSpace.hxx>
-#include<Handle_Geom_CartesianPoint.hxx>
#include<Geom_CartesianPoint.hxx>
#include<AIS_Point.hxx>
{
if (argc != 2)
{
- di <<"Usage : " << argv[0] << " file"<<"\n";
+ di <<"Usage : " << argv[0] << " file\n";
return 1;
}
Standard_CString file = argv[1];
BRepPrimAPI_MakeBox aBox(gp_Pnt(0, 0, 0), 100, 100, 100);
Handle(AIS_Shape) anAISBox = new AIS_Shape(aBox.Shape());
+ myAISContext->SetAutoActivateSelection (Standard_False);
myAISContext->Display(anAISBox, 1);
- anAISBox->SetSelectionMode(-1);
Standard_Integer myLocContInd = myAISContext->OpenLocalContext();
myAISContext->CloseLocalContext(myLocContInd);
- Standard_Integer aSelMode = ((Handle(AIS_InteractiveObject)) anAISBox)->SelectionMode();
- if(aSelMode != -1)
+ TColStd_ListOfInteger anActivatedModes;
+ myAISContext->ActivatedModes (anAISBox, anActivatedModes);
+ if(anActivatedModes.Extent() != 1 || anActivatedModes.First() != -1 )
return 1;
return 0;
static Standard_Integer OCC381_Save (Draw_Interpretor& di, Standard_Integer nb, const char ** a)
{
if (nb != 2) {
- di << "Usage: " << a[0] << " Doc" << "\n";
+ di << "Usage: " << a[0] << " Doc\n";
return 1;
}
TCollection_ExtendedString theStatusMessage;
if (!D->IsSaved()) {
- di << "this document has never been saved" << "\n";
+ di << "this document has never been saved\n";
return 0;
}
PCDM_StoreStatus theStatus = A->Save(D, theStatusMessage);
if (theStatus != PCDM_SS_OK ) {
switch ( theStatus ) {
- case PCDM_SS_DriverFailure: {
- di << " Could not store , no driver found to make it " <<"\n" ;
- break ;
- }
- case PCDM_SS_WriteFailure: {
- di << " Write access failure " << "\n" ;
- break;
- }
- case PCDM_SS_Failure: {
- di << " Write failure " << "\n" ;
- }
+ case PCDM_SS_DriverFailure: {
+ di << "Error saving document: Could not store , no driver found to make it\n";
+ break ;
+ }
+ case PCDM_SS_WriteFailure: {
+ di << "Error saving document: Write access failure\n";
+ break;
+ }
+ case PCDM_SS_Failure: {
+ di << "Error saving document: Write failure\n" ;
+ break;
+ }
+ case PCDM_SS_Doc_IsNull: {
+ di << "Error saving document: No document to save\n";
+ break ;
+ }
+ case PCDM_SS_No_Obj: {
+ di << "Error saving document: No objects written\n";
+ break;
+ }
+ case PCDM_SS_Info_Section_Error: {
+ di << "Error saving document: Write info section failure\n" ;
+ break;
+ }
+ default:
+ break;
}
return 1;
}
static Standard_Integer OCC381_SaveAs (Draw_Interpretor& di, Standard_Integer nb, const char ** a)
{
if (nb != 3) {
- di << "Usage: " << a[0] << " Doc Path" << "\n";
+ di << "Usage: " << a[0] << " Doc Path\n";
return 1;
}
PCDM_StoreStatus theStatus = A->SaveAs(D,path, theStatusMessage);
if (theStatus != PCDM_SS_OK ) {
switch ( theStatus ) {
- case PCDM_SS_DriverFailure: {
- di << " Could not store , no driver found to make it " <<"\n" ;
- break ;
- }
- case PCDM_SS_WriteFailure: {
- di << " Write access failure " << "\n" ;
- break;
- }
- case PCDM_SS_Failure: {
- di << " Write failure " << "\n" ;
- }
+ case PCDM_SS_DriverFailure: {
+ di << "Error saving document: Could not store , no driver found to make it\n";
+ break ;
+ }
+ case PCDM_SS_WriteFailure: {
+ di << "Error saving document: Write access failure\n";
+ break;
+ }
+ case PCDM_SS_Failure: {
+ di << "Error saving document: Write failure\n" ;
+ break;
+ }
+ case PCDM_SS_Doc_IsNull: {
+ di << "Error saving document: No document to save\n";
+ break ;
+ }
+ case PCDM_SS_No_Obj: {
+ di << "Error saving document: No objects written\n";
+ break;
+ }
+ case PCDM_SS_Info_Section_Error: {
+ di << "Error saving document: Write info section failure\n" ;
+ break;
+ }
+ default:
+ break;
}
return 1;
}
#include <BRepClass3d_SolidClassifier.hxx>
-Standard_Integer OCC299bug (Draw_Interpretor& di,
- Standard_Integer n,
- const char ** a)
+Standard_Integer OCC299bug (Draw_Interpretor& theDi,
+ Standard_Integer theArgNb,
+ const char** theArgVec)
{
- char sbf[512];
-
- if (n < 3) {
- di << "Usage : " << a[0] << " Solid Point [Tolerance=1.e-7]" << "\n";
+ if (theArgNb < 3)
+ {
+ theDi << "Usage : " << theArgVec[0] << " Solid Point [Tolerance=1.e-7]\n";
return -1;
}
- TopoDS_Shape aS = DBRep::Get(a[1]);
- if (aS.IsNull()) {
- sprintf(sbf, " Null Shape is not allowed here\n");
- di<<sbf;
+ TopoDS_Shape aS = DBRep::Get (theArgVec[1]);
+ if (aS.IsNull())
+ {
+ theDi << " Null Shape is not allowed here\n";
return 1;
}
-
- if (aS.ShapeType()!=TopAbs_SOLID) {
- sprintf(sbf, " Shape type must be SOLID\n");
- di<<sbf;
+ else if (aS.ShapeType() != TopAbs_SOLID)
+ {
+ theDi << " Shape type must be SOLID\n";
return 1;
}
- //
- Standard_Real aTol=1.e-7;
- TCollection_AsciiString sIN("IN"), sOUT("OUT of"), sON("ON"), sUNKNOWN("UNKNOWN");
- TopAbs_State aState = TopAbs_UNKNOWN;
- gp_Pnt aP(8., 9., 10.);
-
- if (!DrawTrSurf::GetPoint(a[2], aP) ) {
- sprintf(sbf, " Null Point is not allowed here\n");
- di<<sbf;
+
+ gp_Pnt aP (8., 9., 10.);
+ if (!DrawTrSurf::GetPoint (theArgVec[2], aP))
+ {
+ theDi << " Null Point is not allowed here\n";
return 1;
}
+ const Standard_Real aTol = (theArgNb == 4) ? Draw::Atof (theArgVec[3]) : 1.e-7;
- aTol=1.e-7;
- if (n==4) {
- aTol=atof(a[3]);
- }
- //
- BRepClass3d_SolidClassifier aSC(aS);
- aSC.Perform(aP,aTol);
- //
- aState = aSC.State();
- //
- sprintf(sbf, "The point is "); di<<sbf;
- //
- switch (aState) {
- case TopAbs_IN:
- sprintf(sbf, sIN.ToCString());
- break;
- case TopAbs_OUT:
- sprintf(sbf, sOUT.ToCString());
- break;
- case TopAbs_ON:
- sprintf(sbf, sON.ToCString());
- break;
- case TopAbs_UNKNOWN:
- sprintf(sbf, sUNKNOWN.ToCString());
- break;
- default:
- sprintf(sbf, sUNKNOWN.ToCString());
- break;
- }
- di<<sbf;
- //
- sprintf(sbf, " shape\n");
- di<<sbf;
+ BRepClass3d_SolidClassifier aSC (aS);
+ aSC.Perform (aP, aTol);
- return 0;
+ switch (aSC.State())
+ {
+ case TopAbs_IN: theDi << "The point is IN shape\n"; return 0;
+ case TopAbs_OUT: theDi << "The point is OUT of shape\n"; return 0;
+ case TopAbs_ON: theDi << "The point is ON shape\n"; return 0;
+ case TopAbs_UNKNOWN:
+ default: theDi << "The point is UNKNOWN shape\n"; return 0;
+ }
}
#include <OSD_Process.hxx>
OSD_Path d = p.CurrentDirectory();
TCollection_AsciiString s;
d.SystemName(s);
- di << "*" << s.ToCString() << "*" << "\n";
+ di << "*" << s.ToCString() << "*\n";
d.UpTrek();
d.SystemName(s);
- di << "*" << s.ToCString() << "*" <<"\n";
+ di << "*" << s.ToCString() << "*\n";
return 0;
}
// return 1;
//}
if(nb < 1 || nb > 2) {
- di << "Usage : " << a[0] << " [BRepAlgoAPI/BRepAlgo = 1/0]" << "\n";
+ di << "Usage : " << a[0] << " [BRepAlgoAPI/BRepAlgo = 1/0]\n";
return 1;
}
Standard_Boolean IsBRepAlgoAPI = Standard_True;
if (nb == 2) {
- Standard_Integer IsB = atoi(a[1]);
+ Standard_Integer IsB = Draw::Atoi(a[1]);
if (IsB != 1) {
IsBRepAlgoAPI = Standard_False;
}
//#endif
TopoDS_Shape fuse,comm;
if (IsBRepAlgoAPI) {
- di << "fuse = BRepAlgoAPI_Fuse( shape1, shape2 )" <<"\n";
- di << "comm = BRepAlgoAPI_Common( shape1, shape2 )" <<"\n";
+ di << "fuse = BRepAlgoAPI_Fuse( shape1, shape2 )\n";
+ di << "comm = BRepAlgoAPI_Common( shape1, shape2 )\n";
fuse = BRepAlgoAPI_Fuse( shape1, shape2 );
comm = BRepAlgoAPI_Common( shape1, shape2 );
} else {
- di << "fuse = BRepAlgo_Fuse( shape1, shape2 )" <<"\n";
+ di << "fuse = BRepAlgo_Fuse( shape1, shape2 )\n";
fuse = BRepAlgo_Fuse( shape1, shape2 );
- di << "comm = BRepAlgo_Common( shape1, shape2 )" <<"\n";
+ di << "comm = BRepAlgo_Common( shape1, shape2 )\n";
comm = BRepAlgo_Common( shape1, shape2 );
}
static Standard_Integer OCC333bug (Draw_Interpretor& di, Standard_Integer n, const char ** a)
{
if( n < 3) {
- di<<"-1"<<"\n";
- di << "Usage: " << a[0] << " edge1 edge2 [toler domaindist]" << "\n";
+ di<<"-1\n";
+ di << "Usage: " << a[0] << " edge1 edge2 [toler domaindist]\n";
return 1;
}
TopoDS_Shape Sh1 = DBRep::Get(a[1]);
TopoDS_Shape Sh2 = DBRep::Get(a[2]);
if(Sh1.IsNull() || Sh2.IsNull()) {
- di<<"-2"<<"\n";
- di<<"Invalid arguments"<<"\n";
+ di<<"-2\n";
+ di<<"Invalid arguments\n";
return 1;
}
TopoDS_Edge e1 = TopoDS::Edge(Sh1);
TopoDS_Edge e2 = TopoDS::Edge(Sh2);
if(e1.IsNull() || e2.IsNull()) {
- di<<"-3"<<"\n";
- di<<"Invalid type of arguments"<<"\n";
+ di<<"-3\n";
+ di<<"Invalid type of arguments\n";
return 1;
}
Standard_Real aTol = Precision::Confusion();
Standard_Real aDistDomain = 0.0;
Standard_Integer k = 3;
if(k < n)
- aTol = atof(a[k++]);
+ aTol = Draw::Atof(a[k++]);
if(k < n)
- aDistDomain = atof(a[k++]);
+ aDistDomain = Draw::Atof(a[k++]);
ShapeAnalysis_Edge sae;
if(sae.CheckOverlapping(e1,e2,aTol,aDistDomain)) {
if(aDistDomain ==0.0) {
- di<<"1"<<"\n";
- di<<"Edges is overlaping comletly"<<"\n";
+ di<<"1\n";
+ di<<"Edges is overlaping comletly\n";
} else {
- di<<"2"<<"\n";
- di<<"Edges is overlaped"<<"\n";
+ di<<"2\n";
+ di<<"Edges is overlaped\n";
di<<"with tolerance = "<<aTol<<"\n";
di<<"on segment length = "<<aDistDomain<<"\n";
}
} else {
- di<<"3"<<"\n";
- di<<"Edges is not overlaped"<<"\n";
+ di<<"3\n";
+ di<<"Edges is not overlaped\n";
}
return 0;
}
// 2. Initialize parameters
gp_Pnt2d p2d;
- p2d.SetX ( atof(argv[2]) );
- p2d.SetY ( atof(argv[3]) );
- Standard_Real precuv = atof (argv[4] );
+ p2d.SetX ( Draw::Atof(argv[2]) );
+ p2d.SetY ( Draw::Atof(argv[3]) );
+ Standard_Real precuv = Draw::Atof (argv[4] );
// 3. Read shape
BRep_Builder B;
di << "Reversed Wire " << i << ": point ( " << p2d.X() << ", " << p2d.Y() << " ) is " << TmpString.ToCString() << "\n";
// 4.3. Compare results (they must be same)
- if(stat1 ==stat2) di << "OCC377 OK" << "\n";
- else {di << "OCC377 FAULTY" << "\n"; return 0;}
+ if(stat1 ==stat2) di << "OCC377 OK\n";
+ else {di << "OCC377 FAULTY\n"; return 0;}
}
}
catch(Standard_Failure)
if(aShape.IsNull()) {di << "OCC369 FAULTY. Entry shape is NULL \n"; return 0;}
// 3. Build mesh
- BRepMesh_IncrementalMesh aMesh(aShape, 0.2, Standard_True, M_PI/6);
+ BRepMesh_FastDiscret::Parameters aMeshParams;
+ aMeshParams.Relative = Standard_True;
+ aMeshParams.Deflection = 0.2;
+ aMeshParams.Angle = M_PI / 6;
+ BRepMesh_IncrementalMesh aMesh(aShape, aMeshParams);
}
catch (Standard_Failure) {di << "OCC369 Exception \n" ;return 0;}
di<<"Usage : " << argv[0] << " LowerVector UpperVector InitialValueVector LowerRowMatrix UpperRowMatrix LowerColMatrix UpperColMatrix InitialValueMatrix\n";
return 1;
}
- Standard_Integer LowerVector = atoi(argv[1]);
- Standard_Integer UpperVector = atoi(argv[2]);
- Standard_Real InitialValueVector = atof(argv[3]);
- Standard_Integer LowerRowMatrix = atoi(argv[4]);
- Standard_Integer UpperRowMatrix = atoi(argv[5]);
- Standard_Integer LowerColMatrix = atoi(argv[6]);
- Standard_Integer UpperColMatrix = atoi(argv[7]);
- Standard_Real InitialValueMatrix = atof(argv[8]);
+ Standard_Integer LowerVector = Draw::Atoi(argv[1]);
+ Standard_Integer UpperVector = Draw::Atoi(argv[2]);
+ Standard_Real InitialValueVector = Draw::Atof(argv[3]);
+ Standard_Integer LowerRowMatrix = Draw::Atoi(argv[4]);
+ Standard_Integer UpperRowMatrix = Draw::Atoi(argv[5]);
+ Standard_Integer LowerColMatrix = Draw::Atoi(argv[6]);
+ Standard_Integer UpperColMatrix = Draw::Atoi(argv[7]);
+ Standard_Real InitialValueMatrix = Draw::Atof(argv[8]);
math_Vector Vector1(LowerVector, UpperVector);
math_Vector Vector2(LowerVector, UpperVector);
di << aSStream1;
di<<"\n";
+ if (Matrix.RowNumber() > 1) {
+ Matrix(Matrix.LowerRow() + 1, Matrix.LowerCol()) += 1.;
+ }
Vector2.TMultiply(Vector, Matrix);
//Vector2.Dump(cout);
return 0;
}
-#include <Viewer2dTest.hxx>
-#include <Viewer2dTest_DoubleMapOfInteractiveAndName.hxx>
-
-#include <AIS2D_InteractiveContext.hxx>
-#include <V2d_View.hxx>
-#include <AIS2D_InteractiveObject.hxx>
-#include <TColStd_HSequenceOfInteger.hxx>
-
-#if ! defined(WNT)
-extern Viewer2dTest_DoubleMapOfInteractiveAndName& GetMapOfAIS2D();
-#else
-Standard_EXPORT Viewer2dTest_DoubleMapOfInteractiveAndName& GetMapOfAIS2D();
-#endif
-
-//=======================================================================
-//function : OCC543
-//purpose :
-//=======================================================================
-static Standard_Integer OCC543 (Draw_Interpretor& di, Standard_Integer argc, const char ** argv)
-{
- Handle(AIS2D_InteractiveContext) aContext = Viewer2dTest::GetAIS2DContext();
- if(aContext.IsNull()) {
- di << "ERROR: Use 'v2dinit' command before " << argv[0] << "\n";
- return -1;
- }
- if(argc != 2){
- di<<"Usage : " << argv[0] << " name\n";
- return -1;
- }
- Handle(V2d_View) V = Viewer2dTest::CurrentView();
-
- TCollection_AsciiString name = argv[1];
-
- if (!GetMapOfAIS2D().IsBound2(name)) {
-// di << "There is not an object with name " << name.ToCString() << "\n";
-// return -1;
- }
-
- Handle(AIS2D_InteractiveObject) aShape = GetMapOfAIS2D().Find2(name);
- Standard_Integer PickedIndex = aShape->PickedIndex();
- di << "PickedIndex = " << PickedIndex << "\n";
- return 0;
-}
-
#include <BRepPrimAPI_MakeWedge.hxx>
#include <gce_MakeRotation.hxx>
#include <gce_MakeTranslation.hxx>
// return 1;
//}
if(argc < 4 || argc > 5) {
- di << "Usage : " << argv[0] << " shape1 shape2 shape3 [BRepAlgoAPI/BRepAlgo = 1/0]" << "\n";
+ di << "Usage : " << argv[0] << " shape1 shape2 shape3 [BRepAlgoAPI/BRepAlgo = 1/0]\n";
return 1;
}
Standard_Boolean IsBRepAlgoAPI = Standard_True;
if (argc == 5) {
- Standard_Integer IsB = atoi(argv[4]);
+ Standard_Integer IsB = Draw::Atoi(argv[4]);
if (IsB != 1) {
IsBRepAlgoAPI = Standard_False;
-// di << "Error: There is not BRepAlgo_Fuse class" << "\n";
+// di << "Error: There is not BRepAlgo_Fuse class\n";
// return 1;
-// di << "Error: There is not BRepAlgo_Cut class" << "\n";
+// di << "Error: There is not BRepAlgo_Cut class\n";
// return 1;
}
}
//#endif
TopoDS_Shape wedge_common;
if (IsBRepAlgoAPI) {
- di << "wedge_common = BRepAlgoAPI_Fuse(wedge1a , wedge2a)" <<"\n";
+ di << "wedge_common = BRepAlgoAPI_Fuse(wedge1a , wedge2a)\n";
wedge_common = BRepAlgoAPI_Fuse(wedge1a , wedge2a);
} else {
- di << "wedge_common = BRepAlgo_Fuse(wedge1a , wedge2a)" <<"\n";
+ di << "wedge_common = BRepAlgo_Fuse(wedge1a , wedge2a)\n";
wedge_common = BRepAlgo_Fuse(wedge1a , wedge2a);
}
//#endif
TopoDS_Shape sub_etch1;
if (IsBRepAlgoAPI) {
- di << "sub_etch1 = BRepAlgoAPI_Cut(substrate, wedge_common)" <<"\n";
+ di << "sub_etch1 = BRepAlgoAPI_Cut(substrate, wedge_common)\n";
sub_etch1 = BRepAlgoAPI_Cut(substrate, wedge_common);
} else {
- di << "sub_etch1 = BRepAlgo_Cut(substrate, wedge_common)" <<"\n";
+ di << "sub_etch1 = BRepAlgo_Cut(substrate, wedge_common)\n";
sub_etch1 = BRepAlgo_Cut(substrate, wedge_common);
}
return 0;
}
-#include <Graphic2d_DisplayList.hxx>
-#include <Graphic2d_View.hxx>
-
-//=======================================================================
-//function : OCC627
-//purpose :
-//=======================================================================
-static Standard_Integer OCC627 (Draw_Interpretor& di, Standard_Integer argc, const char ** argv)
-{
- Handle(AIS2D_InteractiveContext) aContext = Viewer2dTest::GetAIS2DContext();
- if(aContext.IsNull()) {
- di << "ERROR: Use 'v2dinit' command before " << argv[0] << "\n";
- return -1;
- }
- if(argc != 1){
- di<<"Usage : " << argv[0] << "\n";
- return -1;
- }
-
- Handle(V2d_View) V = Viewer2dTest::CurrentView();
- Handle(Graphic2d_View) View = V->View();
- Handle(Graphic2d_DisplayList) DisplayList = View->DisplayList();
- Standard_Integer Length = DisplayList->Length();
- di << "Length = " << Length << "\n";
-
- return 0;
-}
-
#include <Standard_GUID.hxx>
//=======================================================================
//function : OCC669
{
Handle(AIS_InteractiveContext) aContext = ViewerTest::GetAISContext();
if(aContext.IsNull()) {
- di << argv[0] << "ERROR : use 'vinit' command before " << "\n";
+ di << argv[0] << "ERROR : use 'vinit' command before \n";
return 1;
}
if ( argc != 2) {
- di << "ERROR : Usage : " << argv[0] << " shape ; Deactivate the current transformation" << "\n";
+ di << "ERROR : Usage : " << argv[0] << " shape ; Deactivate the current transformation\n";
return 1;
}
- Standard_Boolean updateviewer = Standard_True, PutInCollector = Standard_True;
+ Standard_Boolean updateviewer = Standard_True;
ViewerTest_DoubleMapOfInteractiveAndName& aMap = GetMapOfAIS();
Handle(AIS_InteractiveObject) AISObj;
if(!aMap.IsBound2(aName)) {
- di << "Use 'vdisplay' before" << "\n";
+ di << "Use 'vdisplay' before\n";
return 1;
} else {
AISObj = Handle(AIS_InteractiveObject)::DownCast(aMap.Find2(aName));
if(AISObj.IsNull()){
- di << argv[1] << " : No interactive object" << "\n";
+ di << argv[1] << " : No interactive object\n";
return 1;
}
- AISObj->UnsetTransformation();
+ AISObj->ResetTransformation();
if (!aContext->HasOpenedContext()) {
aContext->OpenLocalContext();
}
- aContext->Erase(AISObj, updateviewer, PutInCollector);
+ aContext->Erase(AISObj, updateviewer);
aContext->UpdateCurrentViewer();
aContext->Display(AISObj, updateviewer);
aContext->UpdateCurrentViewer();
di<<"Usage : " << argv[0] << "\n";
return -1;
}
- TColStd_Array2OfInteger Array2OfInteger(1,1,1,1);
- Array2OfInteger.SetValue(5,5,55);
+
+ // check that exception initialized without message string can be safely handled and printed
+ try {
+ Standard_OutOfRange::Raise();
+ }
+ catch (Standard_Failure) {
+ std::cout << "Caught successfully: ";
+ Standard_Failure::Caught()->Print (std::cout);
+ std::cout << endl;
+ }
return 0;
}
gp_Pnt aPoint3d;
DrawTrSurf::GetPoint(argv[1],aPoint3d);
Handle (Geom_Surface) aSurface=DrawTrSurf::GetSurface(argv[2]);
- Standard_Real Umin=atof(argv[3]);
- Standard_Real Usup=atof(argv[4]);
- Standard_Real Vmin=atof(argv[5]);
- Standard_Real Vsup=atof(argv[6]);
+ Standard_Real Umin=Draw::Atof(argv[3]);
+ Standard_Real Usup=Draw::Atof(argv[4]);
+ Standard_Real Vmin=Draw::Atof(argv[5]);
+ Standard_Real Vsup=Draw::Atof(argv[6]);
if (aSurface.IsNull()) {
di << argv[2] << " Null surface \n" ;
TopoDS_Wire awire = TopoDS::Wire(DBRep::Get(argv[1])); //read the wire
TopoDS_Face aface = TopoDS::Face(DBRep::Get(argv[2])); //read the face
if (awire.IsNull() || aface.IsNull()) {
- di << "Null object" << "\n";
+ di << "Null object\n";
return 1;
}
{
if (argc != 2)
{
- di <<"Usage : " << argv[0] << " face"<<"\n";
+ di <<"Usage : " << argv[0] << " face\n";
return 1;
}
Standard_Real u1, u2, v1, v2;
{
if (argc != 2)
{
- di <<"Usage : " << argv[0] << " expression"<<"\n";
+ di <<"Usage : " << argv[0] << " expression\n";
return 1;
}
Handle(TPrsStd_AISPresentation) prs;
if(L.FindAttribute( TPrsStd_AISPresentation::GetID(), prs) ) {
if( nb == 4 ) {
- prs->SetTransparency(atof(arg[3]));
+ prs->SetTransparency(Draw::Atof(arg[3]));
TPrsStd_AISViewer::Update(L);
}
else {
return 0;
}
}
- di << arg[0] << " : Error" << "\n";
+ di << arg[0] << " : Error\n";
return 1;
}
Handle(TPrsStd_AISPresentation) prs;
if(L.FindAttribute( TPrsStd_AISPresentation::GetID(), prs) ) {
if( nb == 4 ) {
- prs->SetColor((Quantity_NameOfColor)atoi(arg[3]));
+ prs->SetColor((Quantity_NameOfColor)Draw::Atoi(arg[3]));
TPrsStd_AISViewer::Update(L);
}
else
return 0;
}
}
- di << arg[0] << " : Error" << "\n";
+ di << arg[0] << " : Error\n";
return 1;
}
Handle(TPrsStd_AISPresentation) prs;
if(L.FindAttribute( TPrsStd_AISPresentation::GetID(), prs) ) {
if( nb == 4 ) {
- prs->SetMaterial((Graphic3d_NameOfMaterial)atoi(arg[3]));
+ prs->SetMaterial((Graphic3d_NameOfMaterial)Draw::Atoi(arg[3]));
TPrsStd_AISViewer::Update(L);
}
else {
return 0;
}
}
- di << arg[0] << " : Error" << "\n";
+ di << arg[0] << " : Error\n";
return 1;
}
Handle(TPrsStd_AISPresentation) prs;
if(L.FindAttribute( TPrsStd_AISPresentation::GetID(), prs) ) {
if( nb == 4 ) {
- prs->SetWidth(atof(arg[3]));
+ prs->SetWidth(Draw::Atof(arg[3]));
TPrsStd_AISViewer::Update(L);
}
else {
return 0;
}
}
- di << arg[0] << " : Error" << "\n";
+ di << arg[0] << " : Error\n";
return 1;
}
Handle(TPrsStd_AISPresentation) prs;
if(L.FindAttribute( TPrsStd_AISPresentation::GetID(), prs) ) {
if( nb == 4 ) {
- prs->SetMode(atoi(arg[3]));
+ prs->SetMode(Draw::Atoi(arg[3]));
TPrsStd_AISViewer::Update(L);
}
else {
return 0;
}
}
- di << arg[0] << " : Error" << "\n";
+ di << arg[0] << " : Error\n";
return 1;
}
Handle(TPrsStd_AISPresentation) prs;
if(L.FindAttribute( TPrsStd_AISPresentation::GetID(), prs) ) {
if( nb == 4 ) {
- prs->SetSelectionMode(atoi(arg[3]));
+ prs->SetSelectionMode(Draw::Atoi(arg[3]));
TPrsStd_AISViewer::Update(L);
}
else {
return 0;
}
}
- di << arg[0] << " : Error" << "\n";
+ di << arg[0] << " : Error\n";
return 1;
}
// return -1;
//}
if(argc < 5 || argc > 6) {
- di << "Usage : " << argv[0] << " CylinderVariant(=1/2) cylinder1 cylinder2 cutshape [BRepAlgoAPI/BRepAlgo = 1/0]" << "\n";
+ di << "Usage : " << argv[0] << " CylinderVariant(=1/2) cylinder1 cylinder2 cutshape [BRepAlgoAPI/BRepAlgo = 1/0]\n";
return 1;
}
Standard_Boolean IsBRepAlgoAPI = Standard_True;
if (argc == 6) {
- Standard_Integer IsB = atoi(argv[5]);
+ Standard_Integer IsB = Draw::Atoi(argv[5]);
if (IsB != 1) {
IsBRepAlgoAPI = Standard_False;
-// di << "Error: There is not BRepAlgo_Cut class" << "\n";
+// di << "Error: There is not BRepAlgo_Cut class\n";
// return 1;
}
}
- Standard_Integer CaseNumber = atoi(argv[1]);
+ Standard_Integer CaseNumber = Draw::Atoi(argv[1]);
//BRepPrimAPI_MakeCylinder o_mc1 (gp_Ax2 (gp_Pnt(0,-50,140), gp_Dir(1,0,0)), 50,1000);
gp_Dir myDir(1,0,0);
// o_cut_shape = BRepAlgo_Cut (o_mc1.Solid (), o_mc2.Solid ());
//#endif
if (IsBRepAlgoAPI) {
- di << "o_cut_shape = BRepAlgoAPI_Cut (o_mc1.Solid (), o_mc2.Solid ())" <<"\n";
+ di << "o_cut_shape = BRepAlgoAPI_Cut (o_mc1.Solid (), o_mc2.Solid ())\n";
o_cut_shape = BRepAlgoAPI_Cut (o_mc1.Solid (), o_mc2.Solid ());
} else {
- di << "o_cut_shape = BRepAlgo_Cut (o_mc1.Solid (), o_mc2.Solid ())" <<"\n";
+ di << "o_cut_shape = BRepAlgo_Cut (o_mc1.Solid (), o_mc2.Solid ())\n";
o_cut_shape = BRepAlgo_Cut (o_mc1.Solid (), o_mc2.Solid ());
}
} else {
// o_cut_shape = BRepAlgo_Cut (o_mc1.Solid (), o_mc2.Solid ());
//#endif
if (IsBRepAlgoAPI) {
- di << "o_cut_shape = BRepAlgoAPI_Cut (o_mc1.Solid (), o_mc2.Solid ())" <<"\n";
+ di << "o_cut_shape = BRepAlgoAPI_Cut (o_mc1.Solid (), o_mc2.Solid ())\n";
o_cut_shape = BRepAlgoAPI_Cut (o_mc1.Solid (), o_mc2.Solid ());
} else {
- di << "o_cut_shape = BRepAlgo_Cut (o_mc1.Solid (), o_mc2.Solid ())" <<"\n";
+ di << "o_cut_shape = BRepAlgo_Cut (o_mc1.Solid (), o_mc2.Solid ())\n";
o_cut_shape = BRepAlgo_Cut (o_mc1.Solid (), o_mc2.Solid ());
}
}
TopoDS_Shape ShapeCut = aBoolenaOperation.Shape();
//#ifdef OCC40
-// Handle_TopOpeBRepBuild_HBuilder build = aBoolenaOperation.Builder();
+// Handle(TopOpeBRepBuild_HBuilder) build = aBoolenaOperation.Builder();
//#endif
TopTools_ListIteratorOfListOfShape its;
TopoDS_Shape theCylinder3 = BRepPrimAPI_MakeCylinder(gp_Ax2(gp_Pnt(0, - 10, 0),
gp_Dir(0, 1, 0)), 3, 20).Shape();
TopoDS_Shape theTmp1 = OCC1077_cut_blend(theCommon,theCylinder1,0.7);
- Handle_ShapeFix_Shape fixer = new ShapeFix_Shape(theTmp1);
+ Handle(ShapeFix_Shape) fixer = new ShapeFix_Shape(theTmp1);
fixer->Perform();
theTmp1 = fixer->Shape();
TopoDS_Shape theTmp2 = OCC1077_cut_blend(theTmp1,theCylinder2,0.7);
static Standard_Integer OCC1077 (Draw_Interpretor& di, Standard_Integer argc, const char ** argv)
{
if(argc < 1 || argc > 2) {
- di << "Usage : " << argv[0] << " result" << "\n";
+ di << "Usage : " << argv[0] << " result\n";
return 1;
}
{
if (argc < 4)
{
- di << "Usage : " << argv[0] << " name shape step" << "\n";
+ di << "Usage : " << argv[0] << " name shape step\n";
return 1;
}
const char *name = argv[1];
TopoDS_Shape wire = DBRep::Get(argv[2]);
if (wire.IsNull() || wire.ShapeType() != TopAbs_WIRE)
{
- di << argv[0] <<" Faulty : incorrect 1st parameter, curve or wire expected"<<"\n";
+ di << argv[0] <<" Faulty : incorrect 1st parameter, curve or wire expected\n";
return 1;
}
adapCurve = new BRepAdaptor_CompCurve(TopoDS::Wire(wire));
}
- double step = atof(argv[3]);
+ double step = Draw::Atof(argv[3]);
GCPnts_UniformAbscissa aUni(*adapCurve, step);
int res;
if (!aUni.IsDone())
{
- di << argv[0] <<" : fail"<<"\n";
+ di << argv[0] <<" : fail\n";
res = 1;
}
else
double par = aUni.Parameter(i+1);
gp_Pnt p = adapCurve->Value(par);
char n[20], *pname=n;
- sprintf(n,"%s_%d",name,i+1);
+ Sprintf(n,"%s_%d",name,i+1);
DrawTrSurf::Set(pname,p);
di<<pname<<" ";
}
{
if (argc != 3)
{
- di << "Usage : " << argv[0] << " nb_of_vectors size" << "\n";
+ di << "Usage : " << argv[0] << " nb_of_vectors size\n";
return 1;
}
- Standard_Integer nb = atoi(argv[1]);
- Standard_Integer sz = atoi(argv[2]);
+ Standard_Integer nb = Draw::Atoi(argv[1]);
+ Standard_Integer sz = Draw::Atoi(argv[2]);
Standard_Real val = 10;
math_Vector **pv = new math_Vector *[nb];
- di<<"creating "<<nb<<" vectors "<<sz<<" elements each..."<<"\n";
+ di<<"creating "<<nb<<" vectors "<<sz<<" elements each...\n";
Standard_Integer i;
for (i=0; i < nb; i++) {
pv[i] = new math_Vector (1, sz, val);
di<<"\n";
}
}
- di<<" done"<<"\n";
- di<<"deleting them ..."<<"\n";
+ di<<" done\n";
+ di<<"deleting them ...\n";
for (i=0; i < nb; i++) {
delete pv[i];
if ((i % (nb/10)) == 0) {
di<<"\n";
}
}
- di<<" done"<<"\n";
+ di<<" done\n";
delete [] pv;
{
if (argc != 2)
{
- di << "Usage : " << argv[0] << " wire" << "\n";
+ di << "Usage : " << argv[0] << " wire\n";
return 1;
}
TopoDS_Shape shape = DBRep::Get(argv[1],TopAbs_WIRE);
if (error_dist > Precision::Confusion()) {
//cout.precision(3);
di<<"error_dist = "<<error_dist<<
- " ( "<<error_dist/need_length*100<<" %)"<<"\n";
+ " ( "<<error_dist/need_length*100<<" %)\n";
return 0;
}
- di<<"OK"<<"\n";
+ di<<"OK\n";
return 0;
}
-static char sarr[2000];
-static int si=1;
-static int StackOverflow(int i = -1)
+// stack overflow can be successfully handled only on 32-bit Windows
+#if defined(_WIN32) && !defined(_WIN64)
+static int StackOverflow (int i = -1)
{
char arr[2000];
- if (si == 1) {
- si = 0;
- memcpy(arr,sarr,2000);
- arr[1999]=0;
- int n = strlen(arr), s=0;
- while (n--)
- s += StackOverflow(i-1);
- return i + s + StackOverflow(i-1);
- }
- else if (i != 0) {
- return i + StackOverflow(i-1);
- }
- si = 1;
+ memset (arr, 0, sizeof(arr));
+ if (i < 0)
+ StackOverflow(i-1);
return i;
}
+#endif
-#ifdef WNT
// this code does not work with optimize mode on Windows
+#if defined(_MSC_VER)
#pragma optimize( "", off )
#endif
static Standard_Integer OCC6143 (Draw_Interpretor& di, Standard_Integer argc, const char ** argv)
{
if (argc != 1)
{
- di << "Usage : " << argv[0] << "\n";
+ cout << "Usage : " << argv[0] << "\n";
return 1;
}
Standard_Boolean Succes;
{//==== Test Divide ByZero (Integer) ========================================
try{
OCC_CATCH_SIGNALS
+ cout << "(Integer) Divide By Zero..." << endl;
di << "(Integer) Divide By Zero...";
//cout.flush();
di << "\n";
Standard_Integer res, a =4, b = 0 ;
res = a / b;
- di << " 4 / 0 = " << res << " Does not Caught... KO"<< "\n";
+ di << " 4 / 0 = " << res << " Does not Caught... KO\n";
Succes = Standard_False;
}
-#if defined(SOLARIS) || defined(WNT)
+#if defined(SOLARIS) || defined(_WIN32)
catch(Standard_DivideByZero)
#else
catch(Standard_NumericError)
#endif
{
- di << " Ok"<< "\n";
+ di << " Ok\n";
}
catch(Standard_Failure) {
//cout << " Caught (" << Standard_Failure::Caught() << ")... KO" << endl;
di << " Caught (";
di << Standard_Failure::Caught()->GetMessageString();
- di << ")... KO" << "\n";
+ di << ")... KO\n";
Succes = Standard_False;
}
#ifndef NO_CXX_EXCEPTION
// this case tests if (...) supersedes (Standard_*),
// the normal behaviour is not
catch(...) {
- di<<" unknown exception... (But) Ok"<<"\n";
+ di<<" unknown exception... (But) Ok\n";
}
#endif
}
{//==== Test Divide ByZero (Real) ===========================================
try{
OCC_CATCH_SIGNALS
+ cout << "(Real) Divide By Zero..." << endl;
di << "(Real) Divide By Zero...";
//cout.flush();
di << "\n";
Standard_Real res, a= 4.0, b=0.0;
res = a / b;
- di << " 4.0 / 0.0 = " << res << " Does not Caught... KO"<< "\n";
+ di << " 4.0 / 0.0 = " << res << " Does not Caught... OK\n";
+ }
+ catch(Standard_DivideByZero) // Solaris, Windows w/o SSE2
+ {
+ di << " KO\n";
Succes = Standard_False;
}
-#if defined(SOLARIS) || defined(WNT)
- catch(Standard_DivideByZero)
-#else
- catch(Standard_NumericError)
-#endif
+ catch(Standard_NumericError) // Linux, Windows with SSE2
{
- di << " Ok"<< "\n";
+ di << " KO\n";
+ Succes = Standard_False;
}
catch(Standard_Failure) {
//cout << " Caught (" << Standard_Failure::Caught() << ")... KO" << endl;
di << " Caught (";
di << Standard_Failure::Caught()->GetMessageString();
- di << ")... KO" << "\n";
+ di << ")... KO\n";
Succes = Standard_False;
}
}
{//==== Test Overflow (Integer) =============================================
try{
OCC_CATCH_SIGNALS
+ cout << "(Integer) Overflow..." << endl;
di << "(Integer) Overflow...";
//cout.flush();
di << "\n";
res = i + 1;
//++++ cout << " -- "<<res<<"="<<i<<"+1 Does not Caught... KO"<< endl;
//++++ Succes = Standard_False;
- di << " "<<res<<"="<<i<<"+1 Does not Caught... (But) Ok"<< "\n";
+ di << " "<<res<<"="<<i<<"+1 Does not Caught... (But) Ok\n";
}
catch(Standard_Overflow) {
- di << " Ok"<< "\n";
+ di << " Ok\n";
}
catch(Standard_Failure) {
//cout << " Caught (" << Standard_Failure::Caught() << ")... KO" << endl;
di << " Caught (";
di << Standard_Failure::Caught()->GetMessageString();
- di << ")... KO" << "\n";
+ di << ")... KO\n";
Succes = Standard_False;
}
}
{//==== Test Overflow (Real) ================================================
try{
OCC_CATCH_SIGNALS
+ cout << "(Real) Overflow..." << endl;
di << "(Real) Overflow...";
//cout.flush();
di << "\n";
Standard_Real res, r=RealLast();
res = r * r;
- sin(1.); //this function tests FPU flags and raises signal (tested on LINUX).
+ (void)sin(1.); //this function tests FPU flags and raises signal (tested on LINUX).
- di << "-- "<<res<<"="<<r<<"*"<<r<<" Does not Caught... KO"<< "\n";
+ di << "-- "<<res<<"="<<r<<"*"<<r<<" Does not Caught... OK\n";
+ }
+ catch(Standard_Overflow) // Solaris, Windows w/o SSE2
+ {
+ di << " KO\n";
Succes = Standard_False;
}
-#if defined(SOLARIS) || defined(WNT)
- catch(Standard_Overflow)
-#else
- catch(Standard_NumericError)
-#endif
+ catch(Standard_NumericError) // Linux, Windows with SSE2
{
- di << " Ok"<< "\n";
+ di << " KO\n";
+ Succes = Standard_False;
}
catch(Standard_Failure) {
//cout << " Caught (" << Standard_Failure::Caught() << ")... KO" << endl;
di << " Caught (";
di << Standard_Failure::Caught()->GetMessageString();
- di << ")... KO" << "\n";
+ di << ")... KO\n";
Succes = Standard_False;
}
}
{//==== Test Underflow (Real) ===============================================
try{
OCC_CATCH_SIGNALS
+ cout << "(Real) Underflow" << endl; // to have message in log even if process crashed
di << "(Real) Underflow";
//cout.flush();
di << "\n";
//res = res + 1.;
//++++ cout<<"-- "<<res<<"="<<r<<"*"<<r<<" Does not Caught... KO"<<endl;
//++++ Succes = Standard_False;
- di<<" -- "<<res<<"="<<r<<"*"<<r<<" Does not Caught... (But) Ok"<<"\n";
+ di<<" -- "<<res<<"="<<r<<"*"<<r<<" Does not Caught... (But) Ok\n";
}
-#if defined(SOLARIS) || defined(WNT)
- catch(Standard_Underflow)
-#else
- catch(Standard_NumericError)
-#endif
+ catch(Standard_Underflow) // could be on Solaris, Windows w/o SSE2
+ {
+ di << " KO\n";
+ Succes = Standard_False;
+ }
+ catch(Standard_NumericError) // could be on Linux, Windows with SSE2
{
- di << " Ok"<< "\n";
+ di << " KO\n";
+ Succes = Standard_False;
}
catch(Standard_Failure) {
//cout << " Caught (" << Standard_Failure::Caught() << ")... KO" << endl;
di << " Caught (";
di << Standard_Failure::Caught()->GetMessageString();
- di << ")... KO" << "\n";
+ di << ")... KO\n";
Succes = Standard_False;
}
}
{//==== Test Invalid Operation (Real) ===============================================
try{
OCC_CATCH_SIGNALS
+ cout << "(Real) Invalid Operation..." << endl;
di << "(Real) Invalid Operation...";
//cout.flush();
di << "\n";
Standard_Real res, r=-1;
res = sqrt(r);
- di<<" "<<res<<"=sqrt("<<r<<") Does not Caught... KO"<<"\n";
- Succes = Standard_False;
+ di<<" "<<res<<"=sqrt("<<r<<") Does not Caught... OK\n";
}
catch(Standard_NumericError) {
- di << " Ok"<< "\n";
+ di << " KO\n";
+ Succes = Standard_False;
}
catch(Standard_Failure) {
//cout << " Caught (" << Standard_Failure::Caught() << ")... KO" << endl;
di << " Caught (";
di << Standard_Failure::Caught()->GetMessageString();
- di << ")... KO" << "\n";
+ di << ")... KO\n";
Succes = Standard_False;
}
}
{//==== Test Access Violation ===============================================
try {
OCC_CATCH_SIGNALS
+ cout << "Segmentation Fault..." << endl;
di << "Segmentation Fault...";
//cout.flush();
di << "\n";
int* pint=NULL;
*pint = 4;
- di << " Does not Caught... KO"<<"\n";
+ di << " Does not Caught... KO\n";
Succes = Standard_False;
}
-#ifdef WNT
+#ifdef _WIN32
catch(OSD_Exception_ACCESS_VIOLATION)
#else
catch(OSD_SIGSEGV)
#endif
{
- di << " Ok"<< "\n";
+ di << " Ok\n";
} catch(Standard_Failure) {
//cout << " Caught (" << Standard_Failure::Caught() << ")... KO" << endl;
di << " Caught (";
di << Standard_Failure::Caught()->GetMessageString();
- di << ")... KO" << "\n";
+ di << ")... KO\n";
Succes = Standard_False;
}
}
-#ifdef WNT
+#if defined(_WIN32) && !defined(_WIN64)
{//==== Test Stack Overflow ===============================================
try {
OCC_CATCH_SIGNALS
+ cout << "Stack Overflow..." << endl;
di << "Stack Overflow...";
//cout.flush();
di << "\n";
StackOverflow();
- di << " Does not Caught... KO"<<"\n";
+ di << " Does not Caught... KO\n";
Succes = Standard_False;
}
catch(OSD_Exception_STACK_OVERFLOW) {
- di << " Ok"<< "\n";
+ di << " Ok\n";
}
catch(Standard_Failure) {
//cout << " Caught (" << Standard_Failure::Caught() << ")... KO" << endl;
di << " Caught (";
di << Standard_Failure::Caught()->GetMessageString();
- di << ")... KO" << "\n";
+ di << ")... KO\n";
Succes = Standard_False;
}
}
#endif
if(Succes) {
- di << "TestExcept: Successfull completion" << "\n";
+ di << "TestExcept: Successfull completion\n";
} else {
- di << "TestExcept: failure" << "\n";
+ di << "TestExcept: failure\n";
}
return 0;
}
-#ifdef WNT
+#if defined(_MSC_VER)
#pragma optimize( "", on )
#endif
{
int nCount = 10;
- if (argc > 2)
+ if (argc > 3)
{
- di << "Usage : " << argv[0] << " [nCount]" << "\n";
+ di << "Usage : " << argv[0] << " [nCount] path\n";
return 1;
}
- if (argc > 1)
- nCount = atoi(argv[1]);
+ if (argc > 2)
+ nCount = Draw::Atoi(argv[1]);
+ TCollection_AsciiString aFilePath = argv[2];
STEPCAFControl_Writer writer;
- Handle_TDocStd_Document document;
+ Handle(TDocStd_Document) document;
document = new TDocStd_Document("Pace Test-StepExporter-");
- Handle_XCAFDoc_ShapeTool shapeTool;
+ Handle(XCAFDoc_ShapeTool) shapeTool;
shapeTool = XCAFDoc_DocumentTool::ShapeTool(document->Main());
shapeTool->AddShape(AddTestStructure(nCount), Standard_True);
STEPControl_StepModelType mode = STEPControl_AsIs;
if (!Interface_Static::SetIVal("write.step.assembly",1)) { //assembly mode
- di << "Failed to set assembly mode for step data\n" << "\n";
+ di << "Failed to set assembly mode for step data\n\n";
return 0;
}
try {
OCC_CATCH_SIGNALS
if( writer.Transfer(document, mode)) {
- IFSelect_ReturnStatus stat =
- writer.Write("TestExportStructure.step");
+ writer.Write(aFilePath.ToCString());
}
}
catch(OSD_Exception_STACK_OVERFLOW) {
- di << "Failed : STACK OVERFLOW\n" << "\n";
+ di << "Failed : STACK OVERFLOW\n\n";
}
catch (Standard_Failure) {
- di << "Failed :\n" << "\n";
+ di << "Failed :\n\n";
//cout << Standard_Failure::Caught() << endl;
di << Standard_Failure::Caught()->GetMessageString();
}
- di << argv[0] << " : Finish" << "\n";
+ di << argv[0] << " : Finish\n";
return 0;
}
{
if (argc != 4)
{
- di << "Usage : " << argv[0] << " edge1 edge2 plane" << "\n";
+ di << "Usage : " << argv[0] << " edge1 edge2 plane\n";
return 1;
}
TopoDS_Edge theEdge1 = TopoDS::Edge(DBRep::Get(argv[1],TopAbs_EDGE));
Standard_Integer i;
for (i=1; i<=NbPoints; i++) {
gp_Pnt2d aPi = anInter.Point(i);
- di << "Point.X(" << i << ") = " << aPi.X() << " " << "Point.Y(" << i << ") = " << aPi.Y() << "\n" ;
+ di << "Point.X(" << i << ") = " << aPi.X() << " Point.Y(" << i << ") = " << aPi.Y() << "\n" ;
}
}
Standard_Real aDist = aP1.Distance(aP2);
- di << "aP1.X() = " << aP1.X() << " " << "aP1.Y() = " << aP1.Y() << "\n" ;
- di << "aP2.X() = " << aP2.X() << " " << "aP2.Y() = " << aP2.Y() << "\n" ;
+ di << "aP1.X() = " << aP1.X() << " aP1.Y() = " << aP1.Y() << "\n" ;
+ di << "aP2.X() = " << aP2.X() << " aP2.Y() = " << aP2.Y() << "\n" ;
di << "Distance = " << aDist << "\n" ;
di << "Confusion = " << aConfusion << "\n" ;
if (aDist > aConfusion) {
- di << "\n" << argv[0] << " Faulty" << "\n" ;
+ di << "\n" << argv[0] << " Faulty\n" ;
} else {
- di << "\n" << argv[0] << " OK" << "\n" ;
+ di << "\n" << argv[0] << " OK\n" ;
}
} else {
- di << "\n" << argv[0] << " OK" << "\n" ;
+ di << "\n" << argv[0] << " OK\n" ;
}
return 0;
{
if (argc != 3)
{
- di << "Usage : " << argv[0] << " lower upper" << "\n";
+ di << "Usage : " << argv[0] << " lower upper\n";
return 1;
}
- Standard_Integer LOWER = atoi(argv[1]);
- Standard_Integer UPPER = atoi(argv[2]);
+ Standard_Integer LOWER = Draw::Atoi(argv[1]);
+ Standard_Integer UPPER = Draw::Atoi(argv[2]);
//! 0. Create an empty document with several test labels
Handle(TDocStd_Document) doc = new TDocStd_Document("XmlOcaf");
if (argc < 3 || IsEvenArgc)
{
- di << "Usage : " << argv[0] << " index1 value1 ... [indexN valueN]" << "\n";
+ di << "Usage : " << argv[0] << " index1 value1 ... [indexN valueN]\n";
return 1;
}
NCollection_Vector<int> vec;
for (i = 0; i < argc - 1; i++) {
i++;
- aValue = atoi(argv[i]);
- aPosition = atoi(argv[i+1]);
+ aValue = Draw::Atoi(argv[i]);
+ aPosition = Draw::Atoi(argv[i+1]);
vec.SetValue(aValue, aPosition);
}
NCollection_Vector<int>::Iterator it(vec);
}
}
- // ObjectsInCollector
- AIS_ListOfInteractive ListOfIO_2;
- AISContext->ObjectsInCollector(ListOfIO_2);
- di<< "ObjectsInCollector = " << ListOfIO_2.Extent() <<"\n";
- if (!ListOfIO_2.IsEmpty() ) {
- AIS_ListIteratorOfListOfInteractive iter;
- for (iter.Initialize(ListOfIO_2); iter.More() ; iter.Next() ) {
- Handle(AIS_InteractiveObject) aIO=iter.Value();
- di<< GetMapOfAIS().Find1(aIO).ToCString() <<"\n";
- }
- }
-
return 0;
}
BRepBuilderAPI_MakePolygon W;
j = 3;
for (i = 1; i <= np; i ++) {
- W.Add(gp_Pnt(atof(argv[j]),atof(argv[j+1]),atof(argv[j+2])));
+ W.Add(gp_Pnt(Draw::Atof(argv[j]),Draw::Atof(argv[j+1]),Draw::Atof(argv[j+2])));
j += 3;
}
W.Close();
gp_Ax2 aPln (gp_Pnt(0.,0.,0.),
gp_Dir(1., -1., 0.));
gp_GTrsf aTrf;
- aTrf.SetAffinity (aPln, atof(argv[4]));
- gp_XYZ aOrigin (atof(argv[1]),atof(argv[2]),atof(argv[3]));
+ aTrf.SetAffinity (aPln, Draw::Atof(argv[4]));
+ gp_XYZ aOrigin (Draw::Atof(argv[1]),Draw::Atof(argv[2]),Draw::Atof(argv[3]));
gp_XYZ aResult (aOrigin);
aTrf.Transforms(aResult);
char sbf[512];
- sprintf(sbf, "( %8.3f %8.3f %8.3f ) => ( %8.3f %8.3f %8.3f )\n",
+ Sprintf(sbf, "( %8.3f %8.3f %8.3f ) => ( %8.3f %8.3f %8.3f )\n",
aOrigin.X(), aOrigin.Y(), aOrigin.Z(),
aResult.X(), aResult.Y(), aResult.Z());
di<<sbf;
Standard_Real aDeflection = 0.45110277533;
if (argc > 2) {
- aDeflection = atof(argv[2]);
+ aDeflection = Draw::Atof(argv[2]);
}
di<<"deflection="<< aDeflection << "\n";
- BRepMesh_IncrementalMesh aIMesh(aShape, aDeflection, Standard_False, M_PI/9.);
+ BRepMesh_IncrementalMesh aIMesh(aShape, aDeflection, Standard_False, M_PI / 9.);
TopLoc_Location aLocation;
Handle(Poly_Triangulation) aTriang = BRep_Tool::Triangulation(TopoDS::Face(aShape), aLocation);
}
try
{
- gp_Lin2d aLin2d (atof(argv[1]),atof(argv[2]),atof(argv[3]));
+ gp_Lin2d aLin2d (Draw::Atof(argv[1]),Draw::Atof(argv[2]),Draw::Atof(argv[3]));
gp_Pnt2d anOrigin = aLin2d.Location();
di << "X_0 = " << anOrigin.X() << " Y_0 = " << anOrigin.Y() << "\n" ;
}
{
// Std
Handle(TDocStd_Document) doc_std, doc_std_open;
- app->NewDocument("MDTV-Standard", doc_std);
+ app->NewDocument("BinOcaf", doc_std);
// TDataStd_Tick:
TDataStd_Tick::Set(doc_std->Main());
// TDataStd_IntegerList:
int good = 0;
Handle(TDocStd_Document) doc;
- app->NewDocument("MDTV-Standard", doc);
+ app->NewDocument("BinOcaf", doc);
doc->SetUndoLimit(10);
di <<"\nTestSetGet start\n";
{
Handle(AIS_InteractiveContext) aContext = ViewerTest::GetAISContext();
if(aContext.IsNull()) {
- di << argv[0] << " ERROR : use 'vinit' command before " << "\n";
+ di << argv[0] << " ERROR : use 'vinit' command before \n";
return -1;
}
Standard_Integer mode = 0;
if (argc == 2)
{
- mode = atoi(argv[1]);
+ mode = Draw::Atoi(argv[1]);
}
if (mode > 2 || mode < 0)
{
return 1;
}
Handle(V3d_View) V = ViewerTest::CurrentView();
+ static Handle(AIS_ColorScale) aCS;
+ if (aCS.IsNull())
+ {
+ aCS = new AIS_ColorScale();
+ }
+ if (aCS->ZLayer() != Graphic3d_ZLayerId_TopOSD)
+ {
+ aCS->SetZLayer (Graphic3d_ZLayerId_TopOSD);
+ }
+ if (aCS->GetTransformPersistenceMode() != Graphic3d_TMF_2d)
+ {
+ aCS->SetTransformPersistence (Graphic3d_TMF_2d, gp_Pnt (-1,-1,0));
+ }
+ Standard_Integer aWinWidth, aWinHeight;
+ V->Window()->Size (aWinWidth, aWinHeight);
+ aCS->SetSize (aWinWidth, aWinHeight);
if ( !V.IsNull() ) {
if (mode == 0) {
- V->ColorScaleDisplay();
+ aContext->Display (aCS);
}
if (mode == 1) {
- V->ColorScaleErase();
+ aContext->Erase (aCS);
V->UpdateLights();
V->Update();
}
if (mode == 2) {
- Standard_Boolean IsDisplayed = V->ColorScaleIsDisplayed();
+ Standard_Boolean IsDisplayed = aContext->IsDisplayed (aCS);
if (IsDisplayed)
- di <<"ColorScaleIsDisplayed = " << "1" << "\n";
+ di <<"ColorScaleIsDisplayed = 1\n";
else
- di <<"ColorScaleIsDisplayed = " << "0" << "\n";
+ di <<"ColorScaleIsDisplayed = 0\n";
}
}
return 0;
progress->Show();
if (readstat != IFSelect_RetDone) {
- if (modfic) di<<"Could not read file "<<fnom.ToCString()<<" , abandon"<<"\n";
- else di<<"No model loaded"<<"\n";
+ if (modfic) di<<"Could not read file "<<fnom.ToCString()<<" , abandon\n";
+ else di<<"No model loaded\n";
return 1;
}
// Choice of treatment
// amv 26.09.2003 : this is used to avoid error of enter's simbol
char str[80];
cin>>str;
- modepri = atoi(str);
+ modepri = Draw::Atoi(str);
}
if (modepri == 0) { //fin
- di << "Bye and good luck! " << "\n";
+ di << "Bye and good luck! \n";
break;
}
else if (modepri <= 2) { // 1 : Visible Roots, 2 : All Roots
- di << "All Geometry Transfer"<<"\n";
- di<<"spline_continuity (read) : "<<Interface_Static::IVal("read.iges.bspline.continuity")<<" (0 : no modif, 1 : C1, 2 : C2)"<<"\n";
- di<<" To modify : command param read.iges.bspline.continuity"<<"\n";
+ di << "All Geometry Transfer\n";
+ di<<"spline_continuity (read) : "<<Interface_Static::IVal("read.iges.bspline.continuity")<<" (0 : no modif, 1 : C1, 2 : C2)\n";
+ di<<" To modify : command param read.iges.bspline.continuity\n";
Handle(XSControl_WorkSession) thesession = Reader.WS();
thesession->ClearContext();
- XSDRAW::SetTransferProcess (thesession->MapReader());
+ XSDRAW::SetTransferProcess (thesession->TransferReader()->TransientProcess());
progress->NewScope ( 80, "Translation" );
progress->Show();
- thesession->MapReader()->SetProgress ( progress );
+ thesession->TransferReader()->TransientProcess()->SetProgress ( progress );
if (modepri == 1) Reader.SetReadVisible (Standard_True);
Reader.TransferRoots();
- thesession->MapReader()->SetProgress ( 0 );
+ thesession->TransferReader()->TransientProcess()->SetProgress ( 0 );
progress->EndScope();
progress->Show();
// result in only one shape for all the roots
//amv 26.09.2003
char str_a[80];
cin >> str_a;
- answer = atoi(str_a);
+ answer = Draw::Atoi(str_a);
}
if ( answer == 0) continue;
if ( answer == 1 || answer == 3) {
TopoDS_Shape shape = Reader.OneShape();
// save the shape
- if (shape.IsNull()) { di<<"No Shape produced"<<"\n"; continue; }
+ if (shape.IsNull()) { di<<"No Shape produced\n"; continue; }
char fname[110];
- sprintf(fname, "%s", rnom.ToCString());
+ Sprintf(fname, "%s", rnom.ToCString());
di << "Saving shape in variable Draw : " << fname << "\n";
if (answer == 3) IGESToBRep::WriteShape (shape,1);
try {
catch(Standard_Failure) {
di << "** Exception : ";
di << Standard_Failure::Caught()->GetMessageString();
- di<<" ** Skip"<<"\n";
+ di<<" ** Skip\n";
di << "Saving shape in variable Draw : " << fname << "\n";
IGESToBRep::WriteShape (shape,1);
}
for (Standard_Integer inum = 1; inum <= numshape; inum++) {
// save all the shapes
TopoDS_Shape shape = Reader.Shape(inum);
- if (shape.IsNull()) { di<<"No Shape produced"<<"\n"; continue; }
+ if (shape.IsNull()) { di<<"No Shape produced\n"; continue; }
char fname[110];
- sprintf(fname, "%s_%d", rnom.ToCString(),inum);
+ Sprintf(fname, "%s_%d", rnom.ToCString(),inum);
di << "Saving shape in variable Draw : " << fname << "\n";
if (answer == 4) IGESToBRep::WriteShape (shape,inum);
try {
catch(Standard_Failure) {
di << "** Exception : ";
di << Standard_Failure::Caught()->GetMessageString();
- di<<" ** Skip"<<"\n";
+ di<<" ** Skip\n";
}
}
}
cout << " give the number of the Entity : " << flush;
nent = XSDRAW::GetEntityNumber();
- if (!Reader.TransferOne (nent)) di<<"Transfer entity n0 "<<nent<<" : no result"<<"\n";
+ if (!Reader.TransferOne (nent)) di<<"Transfer entity n0 "<<nent<<" : no result\n";
else {
nbs = Reader.NbShapes();
- char shname[30]; sprintf (shname,"%s_%d",rnom.ToCString(),nent);
+ char shname[30]; Sprintf (shname,"%s_%d",rnom.ToCString(),nent);
di<<"Transfer entity n0 "<<nent<<" OK -> DRAW Shape: "<<shname<<"\n";
- di<<"Now, "<<nbs<<" Shapes produced"<<"\n";
+ di<<"Now, "<<nbs<<" Shapes produced\n";
TopoDS_Shape sh = Reader.Shape(nbs);
DBRep::Set (shname,sh);
}
// *r donne xst-model-roots (TOUTES racines)
if( fromtcl && argv[3][0]=='*' && argv[3][1]=='\0' ) {
- di << "All Geometry Transfer"<<"\n";
- di<<"spline_continuity (read) : "<<Interface_Static::IVal("read.iges.bspline.continuity")<<" (0 : no modif, 1 : C1, 2 : C2)"<<"\n";
- di<<" To modify : command param read.iges.bspline.continuity"<<"\n";
+ di << "All Geometry Transfer\n";
+ di<<"spline_continuity (read) : "<<Interface_Static::IVal("read.iges.bspline.continuity")<<" (0 : no modif, 1 : C1, 2 : C2)\n";
+ di<<" To modify : command param read.iges.bspline.continuity\n";
Handle(XSControl_WorkSession) thesession = Reader.WS();
thesession->ClearContext();
- XSDRAW::SetTransferProcess (thesession->MapReader());
+ XSDRAW::SetTransferProcess (thesession->TransferReader()->TransientProcess());
progress->NewScope ( 80, "Translation" );
progress->Show();
- thesession->MapReader()->SetProgress ( progress );
+ thesession->TransferReader()->TransientProcess()->SetProgress ( progress );
Reader.SetReadVisible (Standard_True);
Reader.TransferRoots();
- thesession->MapReader()->SetProgress ( 0 );
+ thesession->TransferReader()->TransientProcess()->SetProgress ( 0 );
progress->EndScope();
progress->Show();
TopoDS_Shape shape = Reader.OneShape();
// save the shape
char fname[110];
- sprintf(fname, "%s", rnom.ToCString());
+ Sprintf(fname, "%s", rnom.ToCString());
di << "Saving shape in variable Draw : " << fname << "\n";
try {
OCC_CATCH_SIGNALS
catch(Standard_Failure) {
di << "** Exception : ";
di << Standard_Failure::Caught()->GetMessageString();
- di<<" ** Skip"<<"\n";
+ di<<" ** Skip\n";
di << "Saving shape in variable Draw : " << fname << "\n";
IGESToBRep::WriteShape (shape,1);
}
list = XSDRAW::GetList (compart.ToCString());
}
if (list.IsNull()) {
- di<<"No list defined. Give a selection name or * for all visible transferrable roots"<<"\n";
+ di<<"No list defined. Give a selection name or * for all visible transferrable roots\n";
continue;
}
}
// anv 26.09.2003
char str_answer[80];
cin>>str_answer;
- answer = atoi(str_answer);
+ answer = Draw::Atoi(str_answer);
}
if (answer <= 0 || answer > 3) continue;
if (answer == 3) {
Standard_Integer nbt = 0;
Handle(XSControl_WorkSession) thesession = Reader.WS();
- XSDRAW::SetTransferProcess (thesession->MapReader());
+ XSDRAW::SetTransferProcess (thesession->TransferReader()->TransientProcess());
progress->NewScope ( 80, "Translation" );
progress->Show();
- thesession->MapReader()->SetProgress ( progress );
+ thesession->TransferReader()->TransientProcess()->SetProgress ( progress );
Message_ProgressSentry PSentry ( progress, "Root", 0, nbl, 1 );
for (Standard_Integer ill = 1; ill <= nbl && PSentry.More(); ill ++, PSentry.Next()) {
nent = Reader.Model()->Number(list->Value(ill));
if (nent == 0) continue;
- if (!Reader.TransferOne(nent)) di<<"Transfer entity n0 "<<nent<<" : no result"<<"\n";
+ if (!Reader.TransferOne(nent)) di<<"Transfer entity n0 "<<nent<<" : no result\n";
else {
nbs = Reader.NbShapes();
- char shname[30]; sprintf (shname,"%s_%d",rnom.ToCString(),nbs);
+ char shname[30]; Sprintf (shname,"%s_%d",rnom.ToCString(),nbs);
di<<"Transfer entity n0 "<<nent<<" OK -> DRAW Shape: "<<shname<<"\n";
- di<<"Now, "<<nbs<<" Shapes produced"<<"\n";
+ di<<"Now, "<<nbs<<" Shapes produced\n";
TopoDS_Shape sh = Reader.Shape(nbs);
DBRep::Set (shname,sh);
nbt++;
}
}
- thesession->MapReader()->SetProgress ( 0 );
+ thesession->TransferReader()->TransientProcess()->SetProgress ( 0 );
progress->EndScope();
progress->Show();
di<<"Nb Shapes successfully produced : "<<nbt<<"\n";
// *New*
//In order to clear memory after IGES reading you could add the following code
- Handle(XSControl_TransferReader) TR = Reader.WS()->TransferReader();
- Handle(Transfer_TransientProcess) TP = TR->TransientProcess();
+ const Handle(XSControl_TransferReader) &TR = Reader.WS()->TransferReader();
+ const Handle(Transfer_TransientProcess) &TP = TR->TransientProcess();
TP->Clear();
TR->Clear(2);
Reader.WS()->Model()->Clear();
return 1;
}
- Standard_Real A = atof(argv[2]);
- Standard_Real B = atof(argv[3]);
- Standard_Real C = atof(argv[4]);
- Standard_Real D = atof(argv[5]);
+ Standard_Real A = Draw::Atof(argv[2]);
+ Standard_Real B = Draw::Atof(argv[3]);
+ Standard_Real C = Draw::Atof(argv[4]);
+ Standard_Real D = Draw::Atof(argv[5]);
Handle(Geom_Geometry) result;
{
if(argc!=2)
{
- di << "Usage : " << argv[0] << " MaxNbr" << "\n";
+ di << "Usage : " << argv[0] << " MaxNbr\n";
return -1;
}
- Standard_Integer aMaxNbr = atoi(argv[1]);
+ Standard_Integer aMaxNbr = Draw::Atoi(argv[1]);
for (Standard_Integer i=0;i<aMaxNbr;i++)
{
{
if (argc!=7)
{
- di << "Wrong number of arguments" << "\n";
+ di << "Wrong number of arguments\n";
return -1;
}
- Standard_Real X1_Pnt = atof(argv[1]);
- Standard_Real Y1_Pnt = atof(argv[2]);
- Standard_Real Z1_Pnt = atof(argv[3]);
- Standard_Real X2_Pnt = atof(argv[4]);
- Standard_Real Y2_Pnt = atof(argv[5]);
- Standard_Real Z2_Pnt = atof(argv[6]);
+ Standard_Real X1_Pnt = Draw::Atof(argv[1]);
+ Standard_Real Y1_Pnt = Draw::Atof(argv[2]);
+ Standard_Real Z1_Pnt = Draw::Atof(argv[3]);
+ Standard_Real X2_Pnt = Draw::Atof(argv[4]);
+ Standard_Real Y2_Pnt = Draw::Atof(argv[5]);
+ Standard_Real Z2_Pnt = Draw::Atof(argv[6]);
Graphic3d_Vector AV1(X1_Pnt, Y1_Pnt, Z1_Pnt);
Graphic3d_Vector AV2(X2_Pnt, Y2_Pnt, Z2_Pnt);
{
if(argc!=9)
{
- di << "Usage : " << argv[0] << " shape X_Pnt Y_Pnt Z_Pnt X_Dir Y_Dir Z_Dir PInf" << "\n";
+ di << "Usage : " << argv[0] << " shape X_Pnt Y_Pnt Z_Pnt X_Dir Y_Dir Z_Dir PInf\n";
return -1;
}
return 1;
}
- Standard_Real X_Pnt = atof(argv[2]);
- Standard_Real Y_Pnt = atof(argv[3]);
- Standard_Real Z_Pnt = atof(argv[4]);
+ Standard_Real X_Pnt = Draw::Atof(argv[2]);
+ Standard_Real Y_Pnt = Draw::Atof(argv[3]);
+ Standard_Real Z_Pnt = Draw::Atof(argv[4]);
- Standard_Real X_Dir = atof(argv[5]);
- Standard_Real Y_Dir = atof(argv[6]);
- Standard_Real Z_Dir = atof(argv[7]);
+ Standard_Real X_Dir = Draw::Atof(argv[5]);
+ Standard_Real Y_Dir = Draw::Atof(argv[6]);
+ Standard_Real Z_Dir = Draw::Atof(argv[7]);
- Standard_Real PInf = atof(argv[8]);
+ Standard_Real PInf = Draw::Atof(argv[8]);
IntCurvesFace_ShapeIntersector intersector;
intersector.Load(shape, Precision::Intersection());
for (Standard_Integer i = 0; i < 2; i++)
aPartMask.Add(i);
- di << "aFullMask = 1111" << "\n";
- di << "aPartMask = 1100" << "\n";
+ di << "aFullMask = 1111\n";
+ di << "aPartMask = 1100\n";
Standard_Boolean isAffected;
TCollection_ExtendedString anExtString;
- Standard_ExtCharacter aNonAsciiChar = 0xff00;
+ Standard_ExtCharacter aNonAsciiChar = 0x0f00;
anExtString.Insert(1, aNonAsciiChar);
- di << "Is ASCII: " << ( anExtString.IsAscii() ? "true" : "false" ) << "\n";
+ di << "Is ASCII: " << ( anExtString.IsAscii() ? "true : Error" : "false : OK" ) << "\n";
NCollection_DataMap<TCollection_ExtendedString, Standard_Integer> aMap;
aMap.Bind(anExtString, 0);
return 1;
}
- Standard_Real X_vec = atof(argv[1]);
- Standard_Real Y_vec = atof(argv[2]);
- Standard_Real Z_vec = atof(argv[3]);
+ Standard_Real X_vec = Draw::Atof(argv[1]);
+ Standard_Real Y_vec = Draw::Atof(argv[2]);
+ Standard_Real Z_vec = Draw::Atof(argv[3]);
- Standard_Real X_dir = atof(argv[4]);
- Standard_Real Y_dir = atof(argv[5]);
- Standard_Real Z_dir = atof(argv[6]);
+ Standard_Real X_dir = Draw::Atof(argv[4]);
+ Standard_Real Y_dir = Draw::Atof(argv[5]);
+ Standard_Real Z_dir = Draw::Atof(argv[6]);
- Standard_Real X_pnt = atof(argv[7]);
- Standard_Real Y_pnt = atof(argv[8]);
- Standard_Real Z_pnt = atof(argv[9]);
+ Standard_Real X_pnt = Draw::Atof(argv[7]);
+ Standard_Real Y_pnt = Draw::Atof(argv[8]);
+ Standard_Real Z_pnt = Draw::Atof(argv[9]);
gp_Dir toSym(X_vec, Y_vec, Z_vec);
gp_Dir dir(X_dir, Y_dir, Z_dir);
return 1;
}
- Standard_Real X_mirrorFirstPoint = atof(argv[1]);
- Standard_Real Y_mirrorFirstPoint = atof(argv[2]);
- Standard_Real X_mirrorSecondPoint = atof(argv[3]);
- Standard_Real Y_mirrorSecondPoint = atof(argv[4]);
- Standard_Real X_p1 = atof(argv[5]);
- Standard_Real Y_p1 = atof(argv[6]);
- Standard_Real X_p2 = atof(argv[7]);
- Standard_Real Y_p2 = atof(argv[8]);
+ Standard_Real X_mirrorFirstPoint = Draw::Atof(argv[1]);
+ Standard_Real Y_mirrorFirstPoint = Draw::Atof(argv[2]);
+ Standard_Real X_mirrorSecondPoint = Draw::Atof(argv[3]);
+ Standard_Real Y_mirrorSecondPoint = Draw::Atof(argv[4]);
+ Standard_Real X_p1 = Draw::Atof(argv[5]);
+ Standard_Real Y_p1 = Draw::Atof(argv[6]);
+ Standard_Real X_p2 = Draw::Atof(argv[7]);
+ Standard_Real Y_p2 = Draw::Atof(argv[8]);
gp_Trsf2d identityTransformation;
return 0;
}
-#include <BOPTColStd_CArray1OfInteger.hxx>
-//=======================================================================
-//function : DumpArray
-//purpose :
-//=======================================================================
-void DumpArray(const BOPTColStd_CArray1OfInteger& aC,
- Draw_Interpretor& aDI)
-{
- Standard_Integer iLength, iFactLength, iBlockLength;
- //
- iLength=aC.Length();
- iFactLength=aC.FactLength();
- iBlockLength=aC.BlockLength();
- //
- aDI<< "Length: " <<iLength << "\n";
- aDI<< "FactLength: " <<iFactLength << "\n";
- aDI<< "BlockLength: " <<iBlockLength << "\n";
-}
-//=======================================================================
-//function : bcarray
-//purpose :
-//=======================================================================
-Standard_Integer bcarray (Draw_Interpretor& di, Standard_Integer argc, const char ** argv)
+Standard_Integer OCC23429(Draw_Interpretor& /*di*/,
+ Standard_Integer narg, const char** a)
{
-
- if (argc != 1) {
- di << "Usage : " << argv[0] << "\n";
- return 1;
- }
+ if (narg < 4) return 1;
+
+ TopoDS_Shape aShape = DBRep::Get(a[2]);
+ if (aShape.IsNull()) return 1;
+
+ BRepFeat_SplitShape Spls(aShape);
+ Spls.SetCheckInterior(Standard_False);
- Standard_Integer i, aBL;
- BOPTColStd_CArray1OfInteger aC;
- //
- aBL=100000;
- aC.SetBlockLength(aBL);
- //
- for (i=1; i<=10; ++i) {
- aC.Append(-i*10);
+ TopoDS_Shape aTool = DBRep::Get(a[3]);
+
+ BRepAlgoAPI_Section Builder(aShape, aTool, Standard_False);
+ Builder.ComputePCurveOn1(Standard_True);
+ if (narg == 5)
+ Builder.Approximation(Standard_True);
+ Builder.Build();
+ TopoDS_Shape aSection = Builder.Shape();
+
+ TopExp_Explorer ExpSec(aSection, TopAbs_EDGE);
+ for (; ExpSec.More(); ExpSec.Next())
+ {
+ TopoDS_Edge anEdge = TopoDS::Edge(ExpSec.Current());
+ Handle(Geom2d_Curve) thePCurve;
+ Handle(Geom_Surface) theSurface;
+ TopLoc_Location theLoc;
+ Standard_Real fpar, lpar;
+ BRep_Tool::CurveOnSurface(anEdge, thePCurve, theSurface, theLoc, fpar, lpar);
+ TopoDS_Face aFace;
+ TopExp_Explorer ExpShape(aShape, TopAbs_FACE);
+ for (; ExpShape.More(); ExpShape.Next())
+ {
+ aFace = TopoDS::Face(ExpShape.Current());
+ TopLoc_Location aLoc;
+ Handle(Geom_Surface) aSurface = BRep_Tool::Surface(aFace, aLoc);
+ if (aSurface == theSurface && aLoc == theLoc)
+ break;
+ }
+ Spls.Add(anEdge, aFace);
}
- di<< "\nstate before release the unused memory\n";
- DumpArray(aC, di);
- //
- aC.Purge();
- //
- di<< "\nstate after release the unused memory\n";
- DumpArray(aC, di);
- //
+
+ TopoDS_Shape Result = Spls.Shape();
+ DBRep::Set(a[1], Result);
+
return 0;
}
return 0;
}
+#include <Quantity_NameOfColor.hxx>
+#include <TopAbs_ShapeEnum.hxx>
+#include <Geom_Curve.hxx>
+#include <AIS_InteractiveObject.hxx>
+Standard_Integer CR23234 (Draw_Interpretor& di, Standard_Integer argc, const char ** argv)
+{
+ // Check the command arguments
+ if (argc != 2)
+ {
+ di <<"Error: "<<argv[0]<<" - invalid number of arguments\n";
+ di << "Usage : " << argv[0] << " mode(0/1)\n";
+ return 1; //TCL_ERROR
+ }
+
+ const Standard_Integer aMode = Draw::Atoi(argv[1]);
+
+ //===================================================================
+
+ Handle(AIS_InteractiveContext) aisContext = ViewerTest::GetAISContext();
+ if (aisContext.IsNull())
+ {
+ di <<"Error: call 'vinit' first\n";
+ return 1; //TCL_ERROR
+ }
+
+ if (aisContext->HasOpenedContext())
+ {
+ aisContext->CloseAllContexts();
+ aisContext->RemoveAll(false);
+ aisContext->EraseSelected(false);
+ }
+ aisContext->EraseAll(false);
+ Handle(Geom_Axis2Placement) trihedronAxis = new Geom_Axis2Placement(gp::XOY());
+ Handle(AIS_Trihedron) trihedron = new AIS_Trihedron(trihedronAxis);
+ if (aMode)
+ aisContext->SetAutoActivateSelection (Standard_False); // if selection must not be activated
+ trihedron->SetSize(20);
+ trihedron->SetColor(Quantity_NOC_GRAY30);
+ trihedron->SetArrowColor(Quantity_NOC_GRAY30);
+ trihedron->SetTextColor(Quantity_NOC_DARKSLATEBLUE);
+
+ //trihedron->SetColor(Quantity_NameOfColor::Quantity_NOC_GRAY30);
+ //trihedron->SetArrowColor(Quantity_NameOfColor::Quantity_NOC_GRAY30);
+ //trihedron->SetTextColor(Quantity_NameOfColor::Quantity_NOC_DARKSLATEBLUE);
+
+
+ aisContext->Display(trihedron, true);
+ aisContext->OpenLocalContext();
+ //aisContext->ActivateStandardMode(TopAbs_ShapeEnum::TopAbs_EDGE);
+ aisContext->ActivateStandardMode(TopAbs_EDGE);
+ aisContext->SetPixelTolerance(8);
+
+ return 0; //TCL_OK
+}
+
void QABugs::Commands_11(Draw_Interpretor& theCommands) {
const char *group = "QABugs";
theCommands.Add("OCC136", "OCC136", __FILE__, OCC136, group);
theCommands.Add("BUC60610","BUC60610 iges_input [name]",__FILE__,BUC60610,group);
- theCommands.Add("BUC60661","BUC60661 file.igs",__FILE__,BUC60661, group);
//====================================================
//
theCommands.Add("OCC369", "OCC369 Shape", __FILE__, OCC369, group);
theCommands.Add("OCC524", "OCC524 LowerVector UpperVector InitialValueVector LowerRowMatrix UpperRowMatrix LowerColMatrix UpperColMatrix InitialValueMatrix", __FILE__, OCC524, group);
theCommands.Add("OCC525", "OCC525", __FILE__, OCC525, group);
- theCommands.Add("OCC543", "OCC543 name", __FILE__, OCC543, group);
//theCommands.Add("OCC578", "OCC578 shape1 shape2 shape3", __FILE__, OCC578, group);
theCommands.Add("OCC578", "OCC578 shape1 shape2 shape3 [BRepAlgoAPI/BRepAlgo = 1/0]", __FILE__, OCC578, group);
- theCommands.Add("OCC627", "OCC627", __FILE__, OCC627, group);
theCommands.Add("OCC669", "OCC669 GUID", __FILE__, OCC669, group);
theCommands.Add("OCC738_ShapeRef", "OCC738_ShapeRef", __FILE__, OCC738_ShapeRef, group);
theCommands.Add("OCC738_Assembly", "OCC738_Assembly", __FILE__, OCC738_Assembly, group);
theCommands.Add("OCC6046", "OCC6046 nb_of_vectors size", __FILE__, OCC6046, group);
theCommands.Add("OCC5698", "OCC5698 wire", __FILE__, OCC5698, group);
theCommands.Add("OCC6143", "OCC6143", __FILE__, OCC6143, group);
- theCommands.Add("OCC7141", "OCC7141 [nCount]", __FILE__, OCC7141, group);
+ theCommands.Add("OCC7141", "OCC7141 [nCount] aPath", __FILE__, OCC7141, group);
theCommands.Add("OCC7372", "OCC7372", __FILE__, OCC7372, group);
theCommands.Add("OCC8169", "OCC8169 edge1 edge2 plane", __FILE__, OCC8169, group);
theCommands.Add("OCC10138", "OCC10138 lower upper", __FILE__, OCC10138, group);
theCommands.Add("OCC22586", "OCC22586 shape resshape", __FILE__, OCC22586, group);
theCommands.Add("OCC22736", "OCC22736 X_mirrorFirstPoint Y_mirrorFirstPoint X_mirrorSecondPoint Y_mirrorSecondPoint X_p1 Y_p1 X_p2 Y_p2", __FILE__, OCC22736, group);
theCommands.Add("OCC22744", "OCC22744", __FILE__, OCC22744, group);
- theCommands.Add("bcarray", "bcarray", __FILE__, bcarray, group);
theCommands.Add("OCC22762", "OCC22762 x1 y1 z1 x2 y2 z3", __FILE__, OCC22762, group);
theCommands.Add("OCC22558", "OCC22558 x_vec y_vec z_vec x_dir y_dir z_dit x_pnt y_pnt z_pnt", __FILE__, OCC22558, group);
theCommands.Add("CR23403", "CR23403 string", __FILE__, CR23403, group);
+ theCommands.Add("OCC23429", "OCC23429 res shape tool [appr]", __FILE__, OCC23429, group);
+ theCommands.Add("CR23234", "CR23234 mode(0/1)", __FILE__, CR23234, group);
return;
}