int Part::ImportStepParts(App::Document *pcDoc, const char* Name)
{
STEPControl_Reader aReader;
TopoDS_Shape aShape;
Base::FileInfo fi(Name);
if (!fi.exists()) {
std::stringstream str;
str << "File '" << Name << "' does not exist!";
throw Base::Exception(str.str().c_str());
}
std::string encodednamestr = encodeFilename(std::string(Name));
const char * encodedname = encodednamestr.c_str();
if (aReader.ReadFile((Standard_CString)encodedname) !=
IFSelect_RetDone) {
throw Base::Exception("Cannot open STEP file");
}
Handle_Message_ProgressIndicator pi = new ProgressIndicator(100);
aReader.WS()->MapReader()->SetProgress(pi);
pi->NewScope(100, "Reading STEP file...");
pi->Show();
// Root transfers
Standard_Integer nbr = aReader.NbRootsForTransfer();
//aReader.PrintCheckTransfer (failsonly, IFSelect_ItemsByEntity);
for (Standard_Integer n = 1; n<= nbr; n++) {
Base::Console().Log("STEP: Transferring Root %d\n",n);
aReader.TransferRoot(n);
}
pi->EndScope();
// Collecting resulting entities
Standard_Integer nbs = aReader.NbShapes();
if (nbs == 0) {
throw Base::Exception("No shapes found in file ");
}
else {
//Handle(StepData_StepModel) Model = aReader.StepModel();
//Handle_XSControl_WorkSession ws = aReader.WS();
//Handle_XSControl_TransferReader tr = ws->TransferReader();
std::map<int, Quantity_Color> hash_col;
//ReadColors(aReader.WS(), hash_col);
//ReadNames(aReader.WS());
for (Standard_Integer i=1; i<=nbs; i++) {
Base::Console().Log("STEP: Transferring Shape %d\n",i);
aShape = aReader.Shape(i);
// load each solid as an own object
TopExp_Explorer ex;
for (ex.Init(aShape, TopAbs_SOLID); ex.More(); ex.Next())
{
// get the shape
const TopoDS_Solid& aSolid = TopoDS::Solid(ex.Current());
std::string name = fi.fileNamePure();
//Handle_Standard_Transient ent = tr->EntityFromShapeResult(aSolid, 3);
//if (!ent.IsNull()) {
// name += ws->Model()->StringLabel(ent)->ToCString();
//}
Part::Feature *pcFeature;
pcFeature = static_cast<Part::Feature*>(pcDoc->addObject("Part::Feature", name.c_str()));
pcFeature->Shape.setValue(aSolid);
// This is a trick to access the GUI via Python and set the color property
// of the associated view provider. If no GUI is up an exception is thrown
// and cleared immediately
std::map<int, Quantity_Color>::iterator it = hash_col.find(aSolid.HashCode(INT_MAX));
if (it != hash_col.end()) {
try {
Py::Object obj(pcFeature->getPyObject(), true);
Py::Object vp(obj.getAttr("ViewObject"));
Py::Tuple col(3);
col.setItem(0, Py::Float(it->second.Red()));
col.setItem(1, Py::Float(it->second.Green()));
col.setItem(2, Py::Float(it->second.Blue()));
vp.setAttr("ShapeColor", col);
//Base::Console().Message("Set color to shape\n");
}
catch (Py::Exception& e) {
e.clear();
}
}
}
// load all non-solids now
for (ex.Init(aShape, TopAbs_SHELL, TopAbs_SOLID); ex.More(); ex.Next())
{
// get the shape
const TopoDS_Shell& aShell = TopoDS::Shell(ex.Current());
std::string name = fi.fileNamePure();
//Handle_Standard_Transient ent = tr->EntityFromShapeResult(aShell, 3);
//if (!ent.IsNull()) {
// name += ws->Model()->StringLabel(ent)->ToCString();
//}
Part::Feature *pcFeature = static_cast<Part::Feature*>(pcDoc->addObject("Part::Feature", name.c_str()));
pcFeature->Shape.setValue(aShell);
}
// put all other free-flying shapes into a single compound
Standard_Boolean emptyComp = Standard_True;
BRep_Builder builder;
TopoDS_Compound comp;
builder.MakeCompound(comp);
for (ex.Init(aShape, TopAbs_FACE, TopAbs_SHELL); ex.More(); ex.Next()) {
if (!ex.Current().IsNull()) {
builder.Add(comp, ex.Current());
emptyComp = Standard_False;
}
}
for (ex.Init(aShape, TopAbs_WIRE, TopAbs_FACE); ex.More(); ex.Next()) {
if (!ex.Current().IsNull()) {
builder.Add(comp, ex.Current());
emptyComp = Standard_False;
}
}
for (ex.Init(aShape, TopAbs_EDGE, TopAbs_WIRE); ex.More(); ex.Next()) {
if (!ex.Current().IsNull()) {
builder.Add(comp, ex.Current());
emptyComp = Standard_False;
}
}
for (ex.Init(aShape, TopAbs_VERTEX, TopAbs_EDGE); ex.More(); ex.Next()) {
if (!ex.Current().IsNull()) {
builder.Add(comp, ex.Current());
emptyComp = Standard_False;
}
}
if (!emptyComp) {
std::string name = fi.fileNamePure();
Part::Feature *pcFeature = static_cast<Part::Feature*>(pcDoc->addObject
("Part::Feature", name.c_str()));
pcFeature->Shape.setValue(comp);
}
}
}
return 0;
}
IFSelect_ReturnStatus GeomImportExport::ReadSTEP(const QString& aFileName,
TopoDS_Shape& aSequenceOfShape)
{
TopoDS_Shape aShape;
TopoDS_Compound comp;
BRep_Builder builder;
builder.MakeCompound( comp );
STEPControl_Reader aReader;
IFSelect_ReturnStatus status = aReader.ReadFile(aFileName.toAscii().data());
if (status == IFSelect_RetDone)
{
Standard_CString LogFileName = "ReadStepFile.log";
Interface_TraceFile::SetDefault(2,LogFileName,Standard_True);
Standard_Boolean failsonly = Standard_False;
aReader.PrintCheckLoad
(failsonly, IFSelect_ItemsByEntity);
// Root transfers
Standard_Integer nbr = aReader.NbRootsForTransfer();
aReader.PrintCheckTransfer (failsonly, IFSelect_ItemsByEntity);
for ( Standard_Integer n = 1; n<= nbr; n++)
{
Standard_Boolean ok = aReader.TransferRoot(n);
// Collecting resulting entities
Standard_Integer nbs = aReader.NbShapes();
if (nbs == 0)
{
aSequenceOfShape.Nullify();
return IFSelect_RetVoid;
} else
{
for (Standard_Integer i =1; i<=nbs; i++)
{
aShape=aReader.Shape(i);
builder.Add( comp, aShape );
}
}
}
}
else{
aSequenceOfShape.Nullify();
}
aSequenceOfShape = comp;
return status;
}
int OCCTools::readSTEP(const char *filename, std::vector<OCCBase *>& shapes)
{
try {
STEPControl_Reader aReader;
Interface_Static::SetCVal("xstep.cascade.unit","M");
Interface_Static::SetIVal("read.step.nonmanifold", 1);
if (aReader.ReadFile(filename) != IFSelect_RetDone) {
StdFail_NotDone::Raise("Failed to read STEP file");
}
// Root transfers
int nbr = aReader.NbRootsForTransfer();
for (int n = 1; n<= nbr; n++) {
aReader.TransferRoot(n);
}
// Collecting resulting entities
int nbs = aReader.NbShapes();
if (nbs == 0) return 1;
for (int i=1; i<=nbs; i++) {
const TopoDS_Shape& aShape = aReader.Shape(i);
extractShape(aShape, shapes);
}
} catch(Standard_Failure &err) {
Handle_Standard_Failure e = Standard_Failure::Caught();
const Standard_CString msg = e->GetMessageString();
//printf("ERROR: %s\n", e->GetMessageString());
if (msg != NULL && strlen(msg) > 1) {
setErrorMessage(msg);
} else {
setErrorMessage("Failed to read STEP file");
}
return 0;
}
return 1;
}
bool Translator::importSTEP(const QString& file)
{
STEPControl_Reader reader;
IFSelect_ReturnStatus status = reader.ReadFile(file.toUtf8().data());
if(status == IFSelect_RetDone) {
reader.PrintCheckLoad(false, IFSelect_ItemsByEntity);
int nbr = reader.NbRootsForTransfer();
reader.PrintCheckTransfer(false, IFSelect_ItemsByEntity);
for (Standard_Integer n = 1; n <= nbr; n++) {
bool ok = reader.TransferRoot(n);
int nbs = reader.NbShapes();
if (!ok || nbs == 0)
continue;
else if (nbr == 1 && nbs == 1) {
TopoDS_Shape shape = reader.OneShape();
if (shape.ShapeType() == TopAbs_COMPOUND) {
for (TopoDS_Iterator It(shape); It.More(); It.Next())
m_doc->insert(It.Value(), QFileInfo(file).baseName());
break;
}
}
for (Standard_Integer i = 1; i <= nbs; i++) {
TopoDS_Shape shape = reader.Shape(i);
if (!shape.IsNull())
m_doc->insert(shape, QFileInfo(file).baseName());
}
}
return true;
}
return false;
}
STEPIMPORT_EXPORT
TopoDS_Shape ImportSTEP (const TCollection_AsciiString& theFileName,
const TCollection_AsciiString& /*theFormatName*/,
TCollection_AsciiString& theError,
const TDF_Label& theShapeLabel)
{
MESSAGE("Import STEP model from file " << theFileName.ToCString());
// Set "C" numeric locale to save numbers correctly
//Kernel_Utils::Localizer loc;
TopoDS_Shape aResShape;
//VRV: OCC 4.0 migration
STEPControl_Reader aReader;
//VSR: 16/09/09: Convert to METERS
Interface_Static::SetCVal("xstep.cascade.unit","M");
Interface_Static::SetIVal("read.step.ideas", 1);
Interface_Static::SetIVal("read.step.nonmanifold", 1);
//VRV: OCC 4.0 migration
TopoDS_Compound compound;
BRep_Builder B;
B.MakeCompound(compound);
try {
#if OCC_VERSION_LARGE > 0x06010000
OCC_CATCH_SIGNALS;
#endif
IFSelect_ReturnStatus status = aReader.ReadFile(theFileName.ToCString());
if (status == IFSelect_RetDone) {
Standard_Boolean failsonly = Standard_False;
aReader.PrintCheckLoad(failsonly, IFSelect_ItemsByEntity);
/* Root transfers */
Standard_Integer nbr = aReader.NbRootsForTransfer();
aReader.PrintCheckTransfer(failsonly, IFSelect_ItemsByEntity);
for (Standard_Integer n = 1; n <= nbr; n++) {
Standard_Boolean ok = aReader.TransferRoot(n);
/* Collecting resulting entities */
Standard_Integer nbs = aReader.NbShapes();
if (!ok || nbs == 0)
{
// THROW_SALOME_CORBA_EXCEPTION("Exception catched in GEOM_Gen_i::ImportStep", SALOME::BAD_PARAM);
continue; // skip empty root
}
/* For a single entity */
else if (nbr == 1 && nbs == 1) {
aResShape = aReader.Shape(1);
// ATTENTION: this is a workaround for mantis issue 0020442 remark 0010776
// It should be removed after patching OCCT for bug OCC22436
// (fix for OCCT is expected in service pack next to OCCT6.3sp12)
if (aResShape.ShapeType() == TopAbs_COMPOUND) {
int nbSub1 = 0;
TopoDS_Shape currShape;
TopoDS_Iterator It (aResShape, Standard_True, Standard_True);
for (; It.More(); It.Next()) {
nbSub1++;
currShape = It.Value();
}
if (nbSub1 == 1)
aResShape = currShape;
}
// END workaround
break;
}
for (Standard_Integer i = 1; i <= nbs; i++) {
TopoDS_Shape aShape = aReader.Shape(i);
if (aShape.IsNull()) {
// THROW_SALOME_CORBA_EXCEPTION("Null shape in GEOM_Gen_i::ImportStep", SALOME::BAD_PARAM) ;
//return aResShape;
continue;
}
else {
B.Add(compound, aShape);
}
}
}
if (aResShape.IsNull())
aResShape = compound;
// BEGIN: Store names of sub-shapes from file
TopTools_IndexedMapOfShape anIndices;
TopExp::MapShapes(aResShape, anIndices);
Handle(Interface_InterfaceModel) Model = aReader.WS()->Model();
Handle(XSControl_TransferReader) TR = aReader.WS()->TransferReader();
if (!TR.IsNull()) {
Handle(Transfer_TransientProcess) TP = TR->TransientProcess();
Handle(Standard_Type) tPD = STANDARD_TYPE(StepBasic_ProductDefinition);
Handle(Standard_Type) tShape = STANDARD_TYPE(StepShape_TopologicalRepresentationItem);
Handle(Standard_Type) tGeom = STANDARD_TYPE(StepGeom_GeometricRepresentationItem);
Standard_Integer nb = Model->NbEntities();
for (Standard_Integer ie = 1; ie <= nb; ie++) {
Handle(Standard_Transient) enti = Model->Value(ie);
Handle(TCollection_HAsciiString) aName;
if ( enti->IsKind( tShape ) || enti->IsKind(tGeom))
{
aName = Handle(StepRepr_RepresentationItem)::DownCast(enti)->Name();
}
else if (enti->DynamicType() == tPD)
{
Handle(StepBasic_ProductDefinition) PD =
Handle(StepBasic_ProductDefinition)::DownCast(enti);
if (PD.IsNull()) continue;
Handle(StepBasic_Product) Prod = PD->Formation()->OfProduct();
aName = Prod->Name();
}
else
{
continue;
}
if ( aName->UsefullLength() < 1 )
continue;
// skip 'N0NE' name
if ( aName->UsefullLength() == 4 &&
toupper (aName->Value(1)) == 'N' &&
toupper (aName->Value(2)) == 'O' &&
toupper (aName->Value(3)) == 'N' &&
toupper (aName->Value(4)) == 'E')
continue;
// special check to pass names like "Open CASCADE STEP translator 6.3 1"
TCollection_AsciiString aSkipName ("Open CASCADE STEP translator");
if (aName->Length() >= aSkipName.Length()) {
if (aName->String().SubString(1, aSkipName.Length()).IsEqual(aSkipName))
continue;
}
TCollection_ExtendedString aNameExt (aName->ToCString());
// find target shape
Handle(Transfer_Binder) binder = TP->Find(enti);
if (binder.IsNull()) continue;
TopoDS_Shape S = TransferBRep::ShapeResult(binder);
if (S.IsNull()) continue;
// as PRODUCT can be included in the main shape
// several times, we look here for all iclusions.
Standard_Integer isub, nbSubs = anIndices.Extent();
for (isub = 1; isub <= nbSubs; isub++)
{
TopoDS_Shape aSub = anIndices.FindKey(isub);
if (aSub.IsPartner(S)) {
TDF_Label L;
if (enti->IsKind(tGeom)) {
// check all named shapes using iterator
TDF_ChildIDIterator anIt (theShapeLabel, TDataStd_Name::GetID(), Standard_True);
for (; anIt.More(); anIt.Next()) {
Handle(TDataStd_Name) nameAttr =
Handle(TDataStd_Name)::DownCast(anIt.Value());
if (nameAttr.IsNull()) continue;
TDF_Label Lab = nameAttr->Label();
Handle(TNaming_NamedShape) shAttr;
if (Lab.FindAttribute(TNaming_NamedShape::GetID(), shAttr) && shAttr->Get().IsEqual(aSub))
L = Lab;
}
}
// create label and set shape
if (L.IsNull())
{
TDF_TagSource aTag;
L = aTag.NewChild(theShapeLabel);
TNaming_Builder tnBuild (L);
//tnBuild.Generated(S);
tnBuild.Generated(aSub);
}
// set a name
TDataStd_Name::Set(L, aNameExt);
}
}
}
}
// END: Store names
}
else {
// switch (status) {
// case IFSelect_RetVoid:
// theError = "Nothing created or No data to process";
// break;
// case IFSelect_RetError:
// theError = "Error in command or input data";
// break;
// case IFSelect_RetFail:
// theError = "Execution was run, but has failed";
// break;
// case IFSelect_RetStop:
// theError = "Execution has been stopped. Quite possible, an exception was raised";
// break;
// default:
// break;
// }
theError = "Wrong format of the imported file. Can't import file.";
aResShape.Nullify();
}
}
catch (Standard_Failure) {
Handle(Standard_Failure) aFail = Standard_Failure::Caught();
theError = aFail->GetMessageString();
aResShape.Nullify();
}
// Return previous locale
return aResShape;
}
int
EG_loadModel(egObject *context, int bflg, const char *name,
egObject **model)
{
int i, j, stat, outLevel, len, nattr, egads = 0;
egObject *omodel, *aobj;
TopoDS_Shape source;
egadsModel *mshape = NULL;
FILE *fp;
*model = NULL;
if (context == NULL) return EGADS_NULLOBJ;
if (context->magicnumber != MAGIC) return EGADS_NOTOBJ;
if (context->oclass != CONTXT) return EGADS_NOTCNTX;
outLevel = EG_outLevel(context);
if (name == NULL) {
if (outLevel > 0)
printf(" EGADS Warning: NULL Filename (EG_loadModel)!\n");
return EGADS_NONAME;
}
/* does file exist? */
fp = fopen(name, "r");
if (fp == NULL) {
if (outLevel > 0)
printf(" EGADS Warning: File %s Not Found (EG_loadModel)!\n", name);
return EGADS_NOTFOUND;
}
fclose(fp);
/* find extension */
len = strlen(name);
for (i = len-1; i > 0; i--)
if (name[i] == '.') break;
if (i == 0) {
if (outLevel > 0)
printf(" EGADS Warning: No Extension in %s (EG_loadModel)!\n", name);
return EGADS_NODATA;
}
if ((strcasecmp(&name[i],".step") == 0) ||
(strcasecmp(&name[i],".stp") == 0)) {
/* STEP files */
STEPControl_Reader aReader;
IFSelect_ReturnStatus status = aReader.ReadFile(name);
if (status != IFSelect_RetDone) {
if (outLevel > 0)
printf(" EGADS Error: STEP Read of %s = %d (EG_loadModel)!\n",
name, status);
return EGADS_NOLOAD;
}
// inspect the root transfers
if (outLevel > 2)
aReader.PrintCheckLoad(Standard_False, IFSelect_ItemsByEntity);
int nroot = aReader.NbRootsForTransfer();
if (outLevel > 1)
printf(" EGADS Info: %s Entries = %d\n", name, nroot);
for (i = 1; i <= nroot; i++) {
Standard_Boolean ok = aReader.TransferRoot(i);
if ((!ok) && (outLevel > 0))
printf(" EGADS Warning: Transfer %d/%d is not OK!\n", i, nroot);
}
int nbs = aReader.NbShapes();
if (nbs <= 0) {
if (outLevel > 0)
printf(" EGADS Error: %s has No Shapes (EG_loadModel)!\n",
name);
return EGADS_NOLOAD;
}
if (outLevel > 1)
printf(" EGADS Info: %s has %d Shape(s)\n", name, nbs);
TopoDS_Compound compound;
BRep_Builder builder3D;
builder3D.MakeCompound(compound);
for (i = 1; i <= nbs; i++) {
TopoDS_Shape aShape = aReader.Shape(i);
builder3D.Add(compound, aShape);
}
source = compound;
} else if ((strcasecmp(&name[i],".iges") == 0) ||
(strcasecmp(&name[i],".igs") == 0)) {
/* IGES files */
IGESControl_Reader iReader;
Standard_Integer stats = iReader.ReadFile(name);
if (stats != IFSelect_RetDone) {
if (outLevel > 0)
printf(" EGADS Error: IGES Read of %s = %d (EG_loadModel)!\n",
name, stats);
return EGADS_NOLOAD;
}
iReader.TransferRoots();
int nbs = iReader.NbShapes();
if (nbs <= 0) {
if (outLevel > 0)
printf(" EGADS Error: %s has No Shapes (EG_loadModel)!\n",
name);
return EGADS_NOLOAD;
}
if (outLevel > 1)
printf(" EGADS Info: %s has %d Shape(s)\n", name, nbs);
TopoDS_Compound compound;
BRep_Builder builder3D;
builder3D.MakeCompound(compound);
for (i = 1; i <= nbs; i++) {
TopoDS_Shape aShape = iReader.Shape(i);
builder3D.Add(compound, aShape);
}
source = compound;
} else if ((strcasecmp(&name[i],".brep") == 0) ||
(strcasecmp(&name[i],".egads") == 0)) {
/* Native OCC file */
if (strcasecmp(&name[i],".egads") == 0) egads = 1;
BRep_Builder builder;
if (!BRepTools::Read(source, name, builder)) {
if (outLevel > 0)
printf(" EGADS Warning: Read Error on %s (EG_loadModel)!\n", name);
return EGADS_NOLOAD;
}
} else {
if (outLevel > 0)
printf(" EGADS Warning: Extension in %s Not Supported (EG_loadModel)!\n",
name);
return EGADS_NODATA;
}
int nWire = 0;
int nFace = 0;
int nSheet = 0;
int nSolid = 0;
TopExp_Explorer Exp;
for (Exp.Init(source, TopAbs_WIRE, TopAbs_FACE);
Exp.More(); Exp.Next()) nWire++;
for (Exp.Init(source, TopAbs_FACE, TopAbs_SHELL);
Exp.More(); Exp.Next()) nFace++;
for (Exp.Init(source, TopAbs_SHELL, TopAbs_SOLID);
Exp.More(); Exp.Next()) nSheet++;
for (Exp.Init(source, TopAbs_SOLID); Exp.More(); Exp.Next()) nSolid++;
if (outLevel > 1)
printf("\n EGADS Info: %s has %d Solids, %d Sheets, %d Faces and %d Wires\n",
name, nSolid, nSheet, nFace, nWire);
int nBody = nWire+nFace+nSheet+nSolid;
if (nBody == 0) {
source.Nullify();
if (outLevel > 0)
printf(" EGADS Warning: Nothing found in %s (EG_loadModel)!\n", name);
return EGADS_NODATA;
}
mshape = new egadsModel;
mshape->shape = source;
mshape->nbody = nBody;
mshape->bodies = new egObject*[nBody];
for (i = 0; i < nBody; i++) {
stat = EG_makeObject(context, &mshape->bodies[i]);
if (stat != EGADS_SUCCESS) {
for (int j = 0; j < i; j++) {
egObject *obj = mshape->bodies[j];
egadsBody *pbody = (egadsBody *) obj->blind;
delete pbody;
EG_deleteObject(mshape->bodies[j]);
}
delete [] mshape->bodies;
delete mshape;
return stat;
}
egObject *pobj = mshape->bodies[i];
egadsBody *pbody = new egadsBody;
pbody->nodes.objs = NULL;
pbody->edges.objs = NULL;
pbody->loops.objs = NULL;
pbody->faces.objs = NULL;
pbody->shells.objs = NULL;
pbody->senses = NULL;
pobj->blind = pbody;
}
i = 0;
for (Exp.Init(mshape->shape, TopAbs_WIRE, TopAbs_FACE);
Exp.More(); Exp.Next()) {
egObject *obj = mshape->bodies[i++];
egadsBody *pbody = (egadsBody *) obj->blind;
pbody->shape = Exp.Current();
}
for (Exp.Init(mshape->shape, TopAbs_FACE, TopAbs_SHELL);
Exp.More(); Exp.Next()) {
egObject *obj = mshape->bodies[i++];
egadsBody *pbody = (egadsBody *) obj->blind;
pbody->shape = Exp.Current();
}
for (Exp.Init(mshape->shape, TopAbs_SHELL, TopAbs_SOLID);
Exp.More(); Exp.Next()) {
egObject *obj = mshape->bodies[i++];
egadsBody *pbody = (egadsBody *) obj->blind;
pbody->shape = Exp.Current();
}
for (Exp.Init(mshape->shape, TopAbs_SOLID); Exp.More(); Exp.Next()) {
egObject *obj = mshape->bodies[i++];
egadsBody *pbody = (egadsBody *) obj->blind;
pbody->shape = Exp.Current();
}
stat = EG_makeObject(context, &omodel);
if (stat != EGADS_SUCCESS) {
source.Nullify();
for (i = 0; i < nBody; i++) {
egObject *obj = mshape->bodies[i];
egadsBody *pbody = (egadsBody *) obj->blind;
delete pbody;
EG_deleteObject(mshape->bodies[i]);
}
delete [] mshape->bodies;
delete mshape;
return stat;
}
omodel->oclass = MODEL;
omodel->blind = mshape;
EG_referenceObject(omodel, context);
for (i = 0; i < nBody; i++) {
egObject *pobj = mshape->bodies[i];
egadsBody *pbody = (egadsBody *) pobj->blind;
pobj->topObj = omodel;
if (((bflg&1) == 0) && (egads == 0)) EG_splitPeriodics(pbody);
stat = EG_traverseBody(context, i, pobj, omodel, pbody);
if (stat != EGADS_SUCCESS) {
mshape->nbody = i;
EG_destroyTopology(omodel);
delete [] mshape->bodies;
delete mshape;
return stat;
}
}
*model = omodel;
if (egads == 0) return EGADS_SUCCESS;
/* get the attributes from the EGADS files */
fp = fopen(name, "r");
if (fp == NULL) {
printf(" EGADS Info: Cannot reOpen %s (EG_loadModel)!\n", name);
return EGADS_SUCCESS;
}
char line[81];
for (;;) {
line[0] = line[1] = ' ';
if (fgets(line, 81, fp) == NULL) break;
if ((line[0] == '#') && (line[1] == '#')) break;
}
// got the header
if ((line[0] == '#') && (line[1] == '#')) {
if (outLevel > 1) printf(" Header = %s\n", line);
// get number of model attributes
fscanf(fp, "%d", &nattr);
if (nattr != 0) EG_readAttrs(omodel, nattr, fp);
for (i = 0; i < nBody; i++) {
int otype, oindex;
int rsolid, rshell, rface, rloop, redge, rnode;
int nsolid, nshell, nface, nloop, nedge, nnode;
fscanf(fp, " %d %d %d %d %d %d %d", &rsolid, &rshell,
&rface, &rloop, &redge, &rnode, &nattr);
if (outLevel > 2)
printf(" read = %d %d %d %d %d %d %d\n", rsolid, rshell,
rface, rloop, redge, rnode, nattr);
egObject *pobj = mshape->bodies[i];
egadsBody *pbody = (egadsBody *) pobj->blind;
nnode = pbody->nodes.map.Extent();
nedge = pbody->edges.map.Extent();
nloop = pbody->loops.map.Extent();
nface = pbody->faces.map.Extent();
nshell = pbody->shells.map.Extent();
nsolid = 0;
if (pobj->mtype == SOLIDBODY) nsolid = 1;
if ((nnode != rnode) || (nedge != redge) || (nloop != rloop) ||
(nface != rface) || (nshell != rshell) || (nsolid != rsolid)) {
printf(" EGADS Info: %d %d, %d %d, %d %d, %d %d, %d %d, %d %d",
nnode, rnode, nedge, redge, nloop, rloop,
nface, rface, nshell, rshell, nsolid, rsolid);
printf(" MisMatch on Attributes (EG_loadModel)!\n");
fclose(fp);
return EGADS_SUCCESS;
}
// got the correct body -- transfer the attributes
if (nattr != 0) EG_readAttrs(pobj, nattr, fp);
for (;;) {
j = fscanf(fp, "%d %d %d\n", &otype, &oindex, &nattr);
if (outLevel > 2)
printf(" %d: attr header = %d %d %d\n",
j, otype, oindex, nattr);
if (j != 3) break;
if (otype == 0) break;
if (otype == 1) {
aobj = pbody->shells.objs[oindex];
} else if (otype == 2) {
aobj = pbody->faces.objs[oindex];
} else if (otype == 3) {
aobj = pbody->loops.objs[oindex];
} else if (otype == 4) {
aobj = pbody->edges.objs[oindex];
} else {
aobj = pbody->nodes.objs[oindex];
}
EG_readAttrs(aobj, nattr, fp);
}
}
} else {
printf(" EGADS Info: EGADS Header not found in %s (EG_loadModel)!\n",
name);
return EGADS_SUCCESS;
}
fclose(fp);
return EGADS_SUCCESS;
}