// Created on: 2000-03-16
// Created by: Peter KURNEV
// Copyright (c) 2000-2014 OPEN CASCADE SAS
//
// This file is part of Open CASCADE Technology software library.
//
// 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.
//
// Alternatively, this file may be used under the terms of Open CASCADE
// commercial license or contractual agreement.
#include <BOPAlgo_BOP.hxx>
#include <BOPAlgo_MakerVolume.hxx>
#include <BOPAlgo_Operation.hxx>
#include <BOPAlgo_PaveFiller.hxx>
#include <BOPAlgo_Section.hxx>
#include <BOPDS_DS.hxx>
#include <BOPTest.hxx>
#include <BOPTest_Objects.hxx>
#include <BRepAlgoAPI_Section.hxx>
#include <BRepTest_Objects.hxx>
#include <DBRep.hxx>
#include <Draw.hxx>
#include <DrawTrSurf.hxx>
#include <Geom2d_Curve.hxx>
#include <Geom_Curve.hxx>
#include <IntTools_Curve.hxx>
#include <IntTools_FaceFace.hxx>
#include <IntTools_PntOn2Faces.hxx>
#include <NCollection_BaseAllocator.hxx>
#include <TCollection_AsciiString.hxx>
#include <TopoDS_Iterator.hxx>
#include <TopoDS_Shape.hxx>
#include <TopTools_ListOfShape.hxx>
#include <Draw_ProgressIndicator.hxx>
#include <stdio.h>
//
//
static BOPAlgo_PaveFiller* pPF=NULL;
//
static
Standard_Integer bopsmt(Draw_Interpretor& di,
Standard_Integer n,
const char** a,
const BOPAlgo_Operation aOp);
//
static
Standard_Integer bsmt (Draw_Interpretor& di,
Standard_Integer n,
const char** a,
const BOPAlgo_Operation aOp);
//
static Standard_Integer bop (Draw_Interpretor&, Standard_Integer, const char**);
static Standard_Integer bopsection(Draw_Interpretor&, Standard_Integer, const char**);
static Standard_Integer boptuc (Draw_Interpretor&, Standard_Integer, const char**);
static Standard_Integer bopcut (Draw_Interpretor&, Standard_Integer, const char**);
static Standard_Integer bopfuse (Draw_Interpretor&, Standard_Integer, const char**);
static Standard_Integer bopcommon (Draw_Interpretor&, Standard_Integer, const char**);
//
static Standard_Integer bsection (Draw_Interpretor&, Standard_Integer, const char**);
static Standard_Integer btuc (Draw_Interpretor&, Standard_Integer, const char**);
static Standard_Integer bcut (Draw_Interpretor&, Standard_Integer, const char**);
static Standard_Integer bfuse (Draw_Interpretor&, Standard_Integer, const char**);
static Standard_Integer bcommon (Draw_Interpretor&, Standard_Integer, const char**);
//
static Standard_Integer bopcurves (Draw_Interpretor&, Standard_Integer, const char**);
static Standard_Integer mkvolume (Draw_Interpretor&, Standard_Integer, const char**);
//=======================================================================
//function : BOPCommands
//purpose :
//=======================================================================
void BOPTest::BOPCommands(Draw_Interpretor& theCommands)
{
static Standard_Boolean done = Standard_False;
if (done) return;
done = Standard_True;
// Chapter's name
const char* g = "BOPTest commands";
// Commands
theCommands.Add("bop" , "use bop s1 s2" , __FILE__, bop, g);
theCommands.Add("bopcommon" , "use bopcommon r" , __FILE__, bopcommon, g);
theCommands.Add("bopfuse" , "use bopfuse r" , __FILE__,bopfuse, g);
theCommands.Add("bopcut" , "use bopcut r" , __FILE__,bopcut, g);
theCommands.Add("boptuc" , "use boptuc r" , __FILE__,boptuc, g);
theCommands.Add("bopsection", "use bopsection r" , __FILE__,bopsection, g);
//
theCommands.Add("bcommon" , "use bcommon r s1 s2" , __FILE__,bcommon, g);
theCommands.Add("bfuse" , "use bfuse r s1 s2" , __FILE__,bfuse, g);
theCommands.Add("bcut" , "use bcut r s1 s2" , __FILE__,bcut, g);
theCommands.Add("btuc" , "use btuc r s1 s2" , __FILE__,btuc, g);
theCommands.Add("bsection", "use bsection r s1 s2 [-n2d/-n2d1/-n2d2] [-na]"
"Builds section between shapes. Options:\n"
"-n2d/-n2d1/-n2d2 - disable the PCurve construction;\n"
"-na - disables the approximation of the section curves.\n",
__FILE__, bsection, g);
//
theCommands.Add("bopcurves", "use bopcurves F1 F2 [-2d/-2d1/-2d2] "
"[-p u1 v1 u2 v2 (to add start points] [-v (for extended output)]",
__FILE__, bopcurves, g);
theCommands.Add("mkvolume", "make solids from set of shapes.\nmkvolume r b1 b2 ... [-c] [-ni] [-ai]",
__FILE__, mkvolume , g);
}
//=======================================================================
//function : bop
//purpose :
//=======================================================================
Standard_Integer bop(Draw_Interpretor& di,
Standard_Integer n,
const char** a)
{
Standard_Boolean bRunParallel, bNonDestructive;
Standard_Real aTol;
TopoDS_Shape aS1, aS2;
TopTools_ListOfShape aLC;
//
if (n != 3) {
di << " use bop s1 s2 \n";
return 0;
}
//
aS1=DBRep::Get(a[1]);
aS2=DBRep::Get(a[2]);
//
if (aS1.IsNull() || aS2.IsNull()) {
di << " null shapes are not allowed \n";
return 0;
}
//
aTol=BOPTest_Objects::FuzzyValue();
bRunParallel=BOPTest_Objects::RunParallel();
bNonDestructive = BOPTest_Objects::NonDestructive();
BOPAlgo_GlueEnum aGlue = BOPTest_Objects::Glue();
Handle(Draw_ProgressIndicator) aProgress = new Draw_ProgressIndicator(di, 1);
//
aLC.Append(aS1);
aLC.Append(aS2);
//
if (pPF!=NULL) {
delete pPF;
pPF=NULL;
}
Handle(NCollection_BaseAllocator)aAL=
NCollection_BaseAllocator::CommonBaseAllocator();
pPF=new BOPAlgo_PaveFiller(aAL);
//
pPF->SetArguments(aLC);
pPF->SetFuzzyValue(aTol);
pPF->SetRunParallel(bRunParallel);
pPF->SetNonDestructive(bNonDestructive);
pPF->SetGlue(aGlue);
pPF->SetUseOBB(BOPTest_Objects::UseOBB());
//
pPF->Perform(aProgress->Start());
BOPTest::ReportAlerts(pPF->GetReport());
//
return 0;
}
//=======================================================================
//function : bopcommon
//purpose :
//=======================================================================
Standard_Integer bopcommon (Draw_Interpretor& di,
Standard_Integer n,
const char** a)
{
return bopsmt(di, n, a, BOPAlgo_COMMON);
}
//=======================================================================
//function : bopfuse
//purpose :
//=======================================================================
Standard_Integer bopfuse(Draw_Interpretor& di,
Standard_Integer n,
const char** a)
{
return bopsmt(di, n, a, BOPAlgo_FUSE);
}
//=======================================================================
//function : bopcut
//purpose :
//=======================================================================
Standard_Integer bopcut(Draw_Interpretor& di,
Standard_Integer n,
const char** a)
{
return bopsmt(di, n, a, BOPAlgo_CUT);
}
//=======================================================================
//function : boptuc
//purpose :
//=======================================================================
Standard_Integer boptuc(Draw_Interpretor& di,
Standard_Integer n,
const char** a)
{
return bopsmt(di, n, a, BOPAlgo_CUT21);
}
//=======================================================================
//function : bopsmt
//purpose :
//=======================================================================
Standard_Integer bopsmt(Draw_Interpretor& di,
Standard_Integer n,
const char** a,
const BOPAlgo_Operation aOp)
{
if (n<2) {
di << " use bopsmt r\n";
return 0;
}
//
if (!pPF) {
di << " prepare PaveFiller first\n";
return 0;
}
//
if (pPF->HasErrors()) {
di << " PaveFiller has not been done\n";
return 0;
}
//
char buf[64];
Standard_Boolean bRunParallel;
Standard_Integer aNb;
BOPAlgo_BOP aBOP;
//
const TopTools_ListOfShape& aLC=pPF->Arguments();
aNb=aLC.Extent();
if (aNb!=2) {
Sprintf (buf, " wrong number of arguments %s\n", aNb);
di << buf;
return 0;
}
//
bRunParallel=BOPTest_Objects::RunParallel();
Handle(Draw_ProgressIndicator) aProgress = new Draw_ProgressIndicator(di, 1);
//
const TopoDS_Shape& aS1=aLC.First();
const TopoDS_Shape& aS2=aLC.Last();
//
aBOP.AddArgument(aS1);
aBOP.AddTool(aS2);
aBOP.SetOperation(aOp);
aBOP.SetRunParallel (bRunParallel);
aBOP.SetCheckInverted(BOPTest_Objects::CheckInverted());
aBOP.SetToFillHistory(BRepTest_Objects::IsHistoryNeeded());
//
aBOP.PerformWithFiller(*pPF, aProgress->Start());
BOPTest::ReportAlerts(aBOP.GetReport());
// Store the history of Boolean operation into the session
if (BRepTest_Objects::IsHistoryNeeded())
BRepTest_Objects::SetHistory(aBOP.History());
if (aBOP.HasErrors()) {
return 0;
}
//
const TopoDS_Shape& aR=aBOP.Shape();
if (aR.IsNull()) {
di << " null shape\n";
return 0;
}
//
DBRep::Set(a[1], aR);
return 0;
}
//=======================================================================
//function : bopsection
//purpose :
//=======================================================================
Standard_Integer bopsection(Draw_Interpretor& di,
Standard_Integer n,
const char** a)
{
if (n<2) {
di << " use bopsection r\n";
return 0;
}
//
if (!pPF) {
di << " prepare PaveFiller first\n";
return 0;
}
//
if (pPF->HasErrors()) {
di << " PaveFiller has not been done\n";
return 0;
}
//
char buf[64];
Standard_Boolean bRunParallel;
Standard_Integer aNb;
BOPAlgo_Section aBOP;
//
const TopTools_ListOfShape& aLC=pPF->Arguments();
aNb=aLC.Extent();
if (aNb!=2) {
Sprintf (buf, " wrong number of arguments %s\n", aNb);
di << buf;
return 0;
}
//
bRunParallel=BOPTest_Objects::RunParallel();
//
const TopoDS_Shape& aS1=aLC.First();
const TopoDS_Shape& aS2=aLC.Last();
//
aBOP.AddArgument(aS1);
aBOP.AddArgument(aS2);
aBOP.SetRunParallel (bRunParallel);
aBOP.SetCheckInverted(BOPTest_Objects::CheckInverted());
aBOP.SetToFillHistory(BRepTest_Objects::IsHistoryNeeded());
//
Handle(Draw_ProgressIndicator) aProgress = new Draw_ProgressIndicator(di, 1);
aBOP.PerformWithFiller(*pPF, aProgress->Start());
BOPTest::ReportAlerts(aBOP.GetReport());
// Store the history of Section operation into the session
if (BRepTest_Objects::IsHistoryNeeded())
BRepTest_Objects::SetHistory(aBOP.History());
if (aBOP.HasErrors()) {
return 0;
}
//
const TopoDS_Shape& aR=aBOP.Shape();
if (aR.IsNull()) {
di << " null shape\n";
return 0;
}
//
DBRep::Set(a[1], aR);
return 0;
}
//=======================================================================
//function : bcommon
//purpose :
//=======================================================================
Standard_Integer bcommon (Draw_Interpretor& di,
Standard_Integer n,
const char** a)
{
return bsmt(di, n, a, BOPAlgo_COMMON);
}
//=======================================================================
//function : bfuse
//purpose :
//=======================================================================
Standard_Integer bfuse (Draw_Interpretor& di,
Standard_Integer n,
const char** a)
{
return bsmt(di, n, a, BOPAlgo_FUSE);
}
//=======================================================================
//function : bcut
//purpose :
//=======================================================================
Standard_Integer bcut (Draw_Interpretor& di,
Standard_Integer n,
const char** a)
{
return bsmt(di, n, a, BOPAlgo_CUT);
}
//=======================================================================
//function : btuc
//purpose :
//=======================================================================
Standard_Integer btuc (Draw_Interpretor& di,
Standard_Integer n,
const char** a)
{
return bsmt(di, n, a, BOPAlgo_CUT21);
}
//=======================================================================
//function : bsection
//purpose :
//=======================================================================
Standard_Integer bsection(Draw_Interpretor& di,
Standard_Integer n,
const char** a)
{
if (n < 4) {
di << "use bsection r s1 s2 [-n2d/-n2d1/-n2d2] [-na] [tol]\n";
return 0;
}
//
TopoDS_Shape aS1, aS2;
//
aS1=DBRep::Get(a[2]);
aS2=DBRep::Get(a[3]);
if (aS1.IsNull() || aS2.IsNull()) {
di << " Null shapes are not allowed \n";
return 0;
}
//
Standard_Boolean bRunParallel, bNonDestructive, bApp, bPC1, bPC2;
Standard_Real aTol;
//
bApp = Standard_True;
bPC1 = Standard_True;
bPC2 = Standard_True;
aTol = BOPTest_Objects::FuzzyValue();
bRunParallel = BOPTest_Objects::RunParallel();
bNonDestructive = BOPTest_Objects::NonDestructive();
BOPAlgo_GlueEnum aGlue = BOPTest_Objects::Glue();
//
for (Standard_Integer i = 4; i < n; ++i) {
if (!strcmp(a[i], "-n2d")) {
bPC1 = Standard_False;
bPC2 = Standard_False;
}
else if (!strcmp(a[i], "-n2d1")) {
bPC1 = Standard_False;
}
else if (!strcmp(a[i], "-n2d2")) {
bPC2 = Standard_False;
}
else if (!strcmp(a[i], "-na")) {
bApp = Standard_False;
}
}
//
BRepAlgoAPI_Section aSec(aS1, aS2, Standard_False);
//
Handle(Draw_ProgressIndicator) aProgress = new Draw_ProgressIndicator(di, 1);
aSec.Approximation(bApp);
aSec.ComputePCurveOn1(bPC1);
aSec.ComputePCurveOn2(bPC2);
//
aSec.SetFuzzyValue(aTol);
aSec.SetRunParallel(bRunParallel);
aSec.SetNonDestructive(bNonDestructive);
aSec.SetGlue(aGlue);
aSec.SetUseOBB(BOPTest_Objects::UseOBB());
//
aSec.Build(aProgress->Start());
// Store the history of Section operation into the session
if (BRepTest_Objects::IsHistoryNeeded())
BRepTest_Objects::SetHistory(aSec.History());
//
if (aSec.HasWarnings()) {
Standard_SStream aSStream;
aSec.DumpWarnings(aSStream);
di << aSStream;
}
//
if (!aSec.IsDone()) {
Standard_SStream aSStream;
aSec.DumpErrors(aSStream);
di << aSStream;
return 0;
}
//
const TopoDS_Shape& aR=aSec.Shape();
if (aR.IsNull()) {
di << " null shape\n";
return 0;
}
DBRep::Set(a[1], aR);
return 0;
}
//=======================================================================
//function : bsmt
//purpose :
//=======================================================================
Standard_Integer bsmt (Draw_Interpretor& di,
Standard_Integer n,
const char** a,
const BOPAlgo_Operation aOp)
{
TopoDS_Shape aS1, aS2;
TopTools_ListOfShape aLC;
//
if (n != 4) {
di << " use bx r s1 s2\n";
return 0;
}
//
aS1=DBRep::Get(a[2]);
aS2=DBRep::Get(a[3]);
//
if (aS1.IsNull() || aS2.IsNull()) {
di << " null shapes are not allowed \n";
return 0;
}
aLC.Append(aS1);
aLC.Append(aS2);
//
Handle(NCollection_BaseAllocator)aAL=
NCollection_BaseAllocator::CommonBaseAllocator();
//
BOPAlgo_BOP aBOP(aAL);
aBOP.AddArgument(aS1);
aBOP.AddTool(aS2);
aBOP.SetOperation(aOp);
// set options
aBOP.SetGlue(BOPTest_Objects::Glue());
aBOP.SetFuzzyValue(BOPTest_Objects::FuzzyValue());
aBOP.SetNonDestructive(BOPTest_Objects::NonDestructive());
aBOP.SetRunParallel(BOPTest_Objects::RunParallel());
aBOP.SetUseOBB(BOPTest_Objects::UseOBB());
aBOP.SetCheckInverted(BOPTest_Objects::CheckInverted());
aBOP.SetToFillHistory(BRepTest_Objects::IsHistoryNeeded());
//
Handle(Draw_ProgressIndicator) aProgress = new Draw_ProgressIndicator(di, 1);
aBOP.Perform(aProgress->Start());
BOPTest::ReportAlerts(aBOP.GetReport());
// Store the history of Boolean operation into the session
if (BRepTest_Objects::IsHistoryNeeded())
BRepTest_Objects::SetHistory(aBOP.PDS()->Arguments(), aBOP);
if (aBOP.HasErrors()) {
return 0;
}
const TopoDS_Shape& aR=aBOP.Shape();
if (aR.IsNull()) {
di << " null shape\n";
return 0;
}
//
DBRep::Set(a[1], aR);
return 0;
}
//=======================================================================
//function : bopcurves
//purpose :
//=======================================================================
Standard_Integer bopcurves (Draw_Interpretor& di,
Standard_Integer n,
const char** a)
{
if (n<3) {
di << "Usage: bopcurves F1 F2 [-2d/-2d1/-2d2] "
"[-p u1 v1 u2 v2 (to add start points] [-v (for extended output)]\n";
return 1;
}
//
TopoDS_Shape S1 = DBRep::Get(a[1]);
TopoDS_Shape S2 = DBRep::Get(a[2]);
TopAbs_ShapeEnum aType;
//
if (S1.IsNull() || S2.IsNull()) {
di << " Null shapes are not allowed \n";
return 1;
}
//
aType=S1.ShapeType();
if (aType != TopAbs_FACE) {
di << " Type mismatch F1\n";
return 1;
}
aType=S2.ShapeType();
if (aType != TopAbs_FACE) {
di << " Type mismatch F2\n";
return 1;
}
//
const TopoDS_Face& aF1=*(TopoDS_Face*)(&S1);
const TopoDS_Face& aF2=*(TopoDS_Face*)(&S2);
//
Standard_Boolean aToApproxC3d, aToApproxC2dOnS1, aToApproxC2dOnS2, anIsDone;
Standard_Integer aNbCurves, aNbPoints;
Standard_Real anAppTol;
IntSurf_ListOfPntOn2S aListOfPnts;
TCollection_AsciiString aNm("c_"), aNp("p_");
//
anAppTol = 0.0000001;
aToApproxC3d = Standard_True;
aToApproxC2dOnS1 = Standard_False;
aToApproxC2dOnS2 = Standard_False;
//
Standard_Boolean bExtOut = Standard_False;
for(Standard_Integer i = 3; i < n; i++)
{
if (!strcasecmp(a[i],"-2d")) {
aToApproxC2dOnS1 = Standard_True;
aToApproxC2dOnS2 = Standard_True;
}
else if (!strcasecmp(a[i],"-2d1")) {
aToApproxC2dOnS1 = Standard_True;
}
else if (!strcasecmp(a[i],"-2d2")) {
aToApproxC2dOnS2 = Standard_True;
}
else if (!strcasecmp(a[i],"-p")) {
IntSurf_PntOn2S aPt;
const Standard_Real aU1 = Draw::Atof(a[++i]);
const Standard_Real aV1 = Draw::Atof(a[++i]);
const Standard_Real aU2 = Draw::Atof(a[++i]);
const Standard_Real aV2 = Draw::Atof(a[++i]);
aPt.SetValue(aU1, aV1, aU2, aV2);
aListOfPnts.Append(aPt);
}
else if (!strcasecmp(a[i],"-v")) {
bExtOut = Standard_True;
}
else {
di << "Wrong key.\n";
di << "To build 2d curves use one of the following keys: -2d/-2d1/-2d2\n";
di << "To add start points use the following key: -p u1 v1 u2 v2\n";
di << "For extended output use the following key: -v\n";
return 1;
}
}
//
IntTools_FaceFace aFF;
//
aFF.SetParameters (aToApproxC3d,
aToApproxC2dOnS1,
aToApproxC2dOnS2,
anAppTol);
aFF.SetList(aListOfPnts);
aFF.SetFuzzyValue (BOPTest_Objects::FuzzyValue());
//
aFF.Perform (aF1, aF2, BOPTest_Objects::RunParallel());
//
anIsDone=aFF.IsDone();
if (!anIsDone) {
di << "Error: Intersection failed\n";
return 0;
}
//
aFF.PrepareLines3D(Standard_False);
const IntTools_SequenceOfCurves& aSCs=aFF.Lines();
const IntTools_SequenceOfPntOn2Faces& aSPs = aFF.Points();
//
aNbCurves = aSCs.Length();
aNbPoints = aSPs.Length();
if (!aNbCurves && !aNbPoints) {
di << " has no 3d curves\n";
di << " has no 3d points\n";
return 0;
}
//
// curves
if (aNbCurves) {
Standard_Real aTolR = 0.;
if (!bExtOut) {
// find maximal tolerance
for (Standard_Integer i = 1; i <= aNbCurves; i++) {
const IntTools_Curve& anIC = aSCs(i);
if (aTolR < anIC.Tolerance()) {
aTolR = anIC.Tolerance();
}
}
di << "Tolerance Reached=" << aTolR << "\n";
}
//
di << aNbCurves << " curve(s) found.\n";
//
for (Standard_Integer i=1; i<=aNbCurves; i++) {
const IntTools_Curve& anIC=aSCs(i);
Handle (Geom_Curve) aC3D = anIC.Curve();
if (aC3D.IsNull()) {
di << " has Null 3d curve# " << i << "\n";
continue;
}
TCollection_AsciiString anIndx(i), aNmx;
aNmx = aNm + anIndx;
Standard_CString nameC = aNmx.ToCString();
DrawTrSurf::Set(nameC, aC3D);
di << nameC << " ";
//
Handle(Geom2d_Curve) aPC1 = anIC.FirstCurve2d();
Handle(Geom2d_Curve) aPC2 = anIC.SecondCurve2d();
//
if (!aPC1.IsNull() || !aPC2.IsNull()) {
di << "(";
//
if (!aPC1.IsNull()) {
TCollection_AsciiString pc1N("c2d1_"), pc1Nx;
pc1Nx = pc1N + anIndx;
Standard_CString nameC2d1 = pc1Nx.ToCString();
//
DrawTrSurf::Set(nameC2d1, aPC1);
di << nameC2d1;
}
//
if (!aPC2.IsNull()) {
TCollection_AsciiString pc2N("c2d2_"), pc2Nx;
pc2Nx = pc2N + anIndx;
Standard_CString nameC2d2 = pc2Nx.ToCString();
//
DrawTrSurf::Set(nameC2d2, aPC2);
//
if (!aPC1.IsNull()) {
di << ", ";
}
di << nameC2d2;
}
di << ") ";
}
//
if (bExtOut) {
di << "\nTolerance: " << anIC.Tolerance() << "\n";
di << "Tangential tolerance: " << anIC.TangentialTolerance() << "\n";
di << "\n";
}
}
if (!bExtOut) {
di << "\n";
}
}
//
// points
if (aNbPoints) {
di << aNbPoints << " point(s) found.\n";
//
for (Standard_Integer i = 1; i <= aNbPoints; i++) {
const IntTools_PntOn2Faces& aPi = aSPs(i);
const gp_Pnt& aP = aPi.P1().Pnt();
//
TCollection_AsciiString anIndx(i), aNmx;
aNmx = aNp + anIndx;
Standard_CString nameP = aNmx.ToCString();
//
DrawTrSurf::Set(nameP, aP);
di << nameP << " ";
}
di << "\n";
}
//
return 0;
}
//=======================================================================
//function : mkvolume
//purpose :
//=======================================================================
Standard_Integer mkvolume(Draw_Interpretor& di, Standard_Integer n, const char** a)
{
if (n < 3) {
di << "Usage: mkvolume r b1 b2 ... [-c] [-ni] [-ai]\n";
di << "Options:\n";
di << " -c - use this option if the arguments are compounds\n";
di << " containing shapes that should be interfered;\n";
di << " -ni - use this option if the arguments should not be interfered;\n";
di << " -ai - use this option to avoid internal for solids shapes in the result.\n";
return 1;
}
//
const char* usage = "Type mkvolume without arguments for the usage of the command.\n";
//
Standard_Boolean bToIntersect, bRunParallel, bNonDestructive;
Standard_Boolean bCompounds, bAvoidInternal;
Standard_Integer i;
Standard_Real aTol;
TopoDS_Shape aS;
TopTools_ListOfShape aLS;
//
aTol = BOPTest_Objects::FuzzyValue();
bRunParallel = BOPTest_Objects::RunParallel();
bNonDestructive = BOPTest_Objects::NonDestructive();
BOPAlgo_GlueEnum aGlue = BOPTest_Objects::Glue();
//
bToIntersect = Standard_True;
bCompounds = Standard_False;
bAvoidInternal = Standard_False;
//
for (i = 2; i < n; ++i) {
aS = DBRep::Get(a[i]);
if (!aS.IsNull()) {
aLS.Append(aS);
}
else {
if (!strcmp(a[i], "-c")) {
bCompounds = Standard_True;
}
else if (!strcmp(a[i], "-ni")) {
bToIntersect = Standard_False;
}
else if (!strcmp(a[i], "-ai")) {
bAvoidInternal = Standard_True;
}
}
}
//
if (aLS.IsEmpty()) {
di << "No shapes to process.\n";
di << usage;
return 1;
}
//
// treat list of arguments for the case of compounds
if (bToIntersect && bCompounds) {
TopTools_ListOfShape aLSx;
TopTools_ListIteratorOfListOfShape aItLS;
//
aItLS.Initialize(aLS);
for (; aItLS.More(); aItLS.Next()) {
const TopoDS_Shape& aSx = aItLS.Value();
TopoDS_Iterator aItS(aSx);
for (; aItS.More(); aItS.Next()) {
const TopoDS_Shape& aSxS = aItS.Value();
aLSx.Append(aSxS);
}
}
//
aLS.Clear();
aLS.Assign(aLSx);
}
//
BOPAlgo_MakerVolume aMV;
aMV.SetArguments(aLS);
aMV.SetIntersect(bToIntersect);
aMV.SetRunParallel(bRunParallel);
aMV.SetFuzzyValue(aTol);
aMV.SetNonDestructive(bNonDestructive);
aMV.SetAvoidInternalShapes(bAvoidInternal);
aMV.SetGlue(aGlue);
aMV.SetUseOBB(BOPTest_Objects::UseOBB());
aMV.SetToFillHistory(BRepTest_Objects::IsHistoryNeeded());
//
Handle(Draw_ProgressIndicator) aProgress = new Draw_ProgressIndicator(di, 1);
aMV.Perform(aProgress->Start());
BOPTest::ReportAlerts(aMV.GetReport());
// Store the history of Volume Maker into the session
if (BRepTest_Objects::IsHistoryNeeded())
BRepTest_Objects::SetHistory(aLS, aMV);
if (aMV.HasErrors()) {
return 0;
}
//
const TopoDS_Shape& aR = aMV.Shape();
//
DBRep::Set(a[1], aR);
//
return 0;
}