void IfcEntityList::push(const IfcEntityList::ptr& l) { if (l) { for( it i = l->begin(); i != l->end(); ++i ) { if ( *i ) ls.push_back(*i); } } }
IfcSchema::IfcProject* IfcHierarchyHelper::addProject(IfcSchema::IfcOwnerHistory* owner_hist) { IfcSchema::IfcRepresentationContext::list::ptr rep_contexts (new IfcSchema::IfcRepresentationContext::list); IfcEntityList::ptr units (new IfcEntityList); IfcSchema::IfcDimensionalExponents* dimexp = new IfcSchema::IfcDimensionalExponents(0, 0, 0, 0, 0, 0, 0); IfcSchema::IfcSIUnit* unit1 = new IfcSchema::IfcSIUnit(IfcSchema::IfcUnitEnum::IfcUnit_LENGTHUNIT, IfcSchema::IfcSIPrefix::IfcSIPrefix_MILLI, IfcSchema::IfcSIUnitName::IfcSIUnitName_METRE); IfcSchema::IfcSIUnit* unit2a = new IfcSchema::IfcSIUnit(IfcSchema::IfcUnitEnum::IfcUnit_PLANEANGLEUNIT, boost::none, IfcSchema::IfcSIUnitName::IfcSIUnitName_RADIAN); IfcSchema::IfcMeasureWithUnit* unit2b = new IfcSchema::IfcMeasureWithUnit( new IfcSchema::IfcPlaneAngleMeasure(0.017453293), unit2a); IfcSchema::IfcConversionBasedUnit* unit2 = new IfcSchema::IfcConversionBasedUnit(dimexp, IfcSchema::IfcUnitEnum::IfcUnit_PLANEANGLEUNIT, "Degrees", unit2b); units->push(unit1); units->push(unit2); IfcSchema::IfcUnitAssignment* unit_assignment = new IfcSchema::IfcUnitAssignment(units); IfcSchema::IfcProject* project = new IfcSchema::IfcProject(IfcParse::IfcGlobalId(), owner_hist, boost::none, boost::none, boost::none, boost::none, boost::none, rep_contexts, unit_assignment); addEntity(dimexp); addEntity(unit1); addEntity(unit2a); addEntity(unit2b); addEntity(unit2); addEntity(unit_assignment); addEntity(project); return project; }
void operator()(const IfcEntityList::ptr& i) { data << "("; for (IfcEntityList::it it = i->begin(); it != i->end(); ++it) { if (it != i->begin()) data << ","; (*this)(*it); } data << ")"; }
bool IfcGeom::Kernel::convert(const IfcSchema::IfcShellBasedSurfaceModel* l, IfcRepresentationShapeItems& shapes) { IfcEntityList::ptr shells = l->SbsmBoundary(); const SurfaceStyle* collective_style = get_style(l); for( IfcEntityList::it it = shells->begin(); it != shells->end(); ++ it ) { TopoDS_Shape s; const SurfaceStyle* shell_style = 0; if ((*it)->is(IfcSchema::Type::IfcRepresentationItem)) { shell_style = get_style((IfcSchema::IfcRepresentationItem*)*it); } if (convert_shape(*it,s)) { shapes.push_back(IfcRepresentationShapeItem(s, shell_style ? shell_style : collective_style)); } } return true; }
void IfcWritableEntity::setArgument(int i,IfcEntityList::ptr v){ if ( v.get() ) { _setArgument(i, v); } else { _setArgument(i, boost::none); } }
bool IfcGeom::Kernel::convert(const IfcSchema::IfcGeometricSet* l, IfcRepresentationShapeItems& shapes) { IfcEntityList::ptr elements = l->Elements(); if ( !elements->size() ) return false; bool part_succes = false; const IfcGeom::SurfaceStyle* parent_style = get_style(l); for ( IfcEntityList::it it = elements->begin(); it != elements->end(); ++ it ) { IfcSchema::IfcGeometricSetSelect* element = *it; TopoDS_Shape s; if (convert_shape(element, s)) { part_succes = true; const IfcGeom::SurfaceStyle* style = 0; if (element->is(IfcSchema::Type::IfcPoint)) { style = get_style((IfcSchema::IfcPoint*) element); } else if (element->is(IfcSchema::Type::IfcCurve)) { style = get_style((IfcSchema::IfcCurve*) element); } else if (element->is(IfcSchema::Type::IfcSurface)) { style = get_style((IfcSchema::IfcSurface*) element); } shapes.push_back(IfcRepresentationShapeItem(s, style ? style : parent_style)); } } return part_succes; }
int operator()(const IfcEntityList::ptr& i) const { return i->size(); }
void IfcWritableEntity::setArgument(int i, Argument* a) { IfcWrite::IfcWriteArgument* wa = new IfcWrite::IfcWriteArgument(this); IfcUtil::ArgumentType attr_type = a->type(); switch(attr_type) { case IfcUtil::Argument_NULL: this->setArgument(i); break; case IfcUtil::Argument_DERIVED: this->setArgumentDerived(i); break; case IfcUtil::Argument_INT: this->setArgument(i, static_cast<int>(*a)); break; case IfcUtil::Argument_BOOL: this->setArgument(i, static_cast<bool>(*a)); break; case IfcUtil::Argument_DOUBLE: this->setArgument(i, static_cast<double>(*a)); break; case IfcUtil::Argument_STRING: this->setArgument(i, static_cast<std::string>(*a)); break; case IfcUtil::Argument_VECTOR_INT: { std::vector<int> attr_value = *a; this->setArgument(i, attr_value); } break; case IfcUtil::Argument_VECTOR_DOUBLE: { std::vector<double> attr_value = *a; this->setArgument(i, attr_value); } break; case IfcUtil::Argument_VECTOR_STRING: { std::vector<std::string> attr_value = *a; this->setArgument(i, attr_value); } break; case IfcUtil::Argument_ENUMERATION: { IfcSchema::Type::Enum ty = IfcSchema::Type::GetAttributeEntity(_type, i); std::string enum_literal = a->toString(); // Remove leading and trailing '.' enum_literal = enum_literal.substr(1, enum_literal.size() - 2); std::pair<const char*, int> enum_ref = IfcSchema::Type::GetEnumerationIndex(ty, enum_literal); this->setArgument(i, enum_ref.second, enum_ref.first); } break; case IfcUtil::Argument_ENTITY: { this->setArgument(i, static_cast<IfcUtil::IfcBaseClass*>(*a)); } break; case IfcUtil::Argument_ENTITY_LIST: { IfcEntityList::ptr instances = *a; IfcEntityList::ptr mapped_instances(new IfcEntityList); for (IfcEntityList::it it = instances->begin(); it != instances->end(); ++it) { mapped_instances->push(*it); } this->setArgument(i, mapped_instances); } break; case IfcUtil::Argument_ENTITY_LIST_LIST: { IfcEntityListList::ptr instances = *a; IfcEntityListList::ptr mapped_instances(new IfcEntityListList); for (IfcEntityListList::outer_it it = instances->begin(); it != instances->end(); ++it) { std::vector<IfcUtil::IfcBaseClass*> inner; for (IfcEntityListList::inner_it jt = it->begin(); jt != it->end(); ++jt) { inner.push_back(*jt); } mapped_instances->push(inner); } this->setArgument(i, mapped_instances); } break; case IfcUtil::Argument_UNKNOWN: throw IfcParse::IfcException("Unknown argument encountered"); break; } }