#ifndef _StdSchema_PDataXtd_Constraint_HeaderFile #include #endif #ifndef _PDataXtd_Constraint_HeaderFile #include #endif #include #ifndef _Storage_Schema_HeaderFile #include #endif #ifndef _Storage_stCONSTclCOM_HeaderFile #include #endif IMPLEMENT_STANDARD_HANDLE(StdSchema_PDataXtd_Constraint,Storage_CallBack) IMPLEMENT_STANDARD_RTTIEXT(StdSchema_PDataXtd_Constraint,Storage_CallBack) Handle(Standard_Persistent) StdSchema_PDataXtd_Constraint::New() const { return new PDataXtd_Constraint(Storage_stCONSTclCOM()); } void StdSchema_PDataXtd_Constraint::SAdd(const Handle(PDataXtd_Constraint)& p, const Handle(Storage_Schema)& theSchema) { if (!p.IsNull()) { if (theSchema->AddPersistent(p,"PDataXtd_Constraint")) { theSchema->PersistentToAdd(p->_CSFDB_GetPDataXtd_ConstraintmyGeometries()); theSchema->PersistentToAdd(p->_CSFDB_GetPDataXtd_ConstraintmyValue()); theSchema->PersistentToAdd(p->_CSFDB_GetPDataXtd_ConstraintmyPlane()); } } } void StdSchema_PDataXtd_Constraint::Add(const Handle(Standard_Persistent)& p, const Handle(Storage_Schema)& theSchema) const { StdSchema_PDataXtd_Constraint::SAdd((Handle(PDataXtd_Constraint)&)p,theSchema); } void StdSchema_PDataXtd_Constraint::SWrite(const Handle(Standard_Persistent)& p, Storage_BaseDriver& f, const Handle(Storage_Schema)& theSchema) { if (!p.IsNull()) { Handle(PDataXtd_Constraint) &pp = (Handle(PDataXtd_Constraint)&)p; theSchema->WritePersistentObjectHeader(p,f); f.BeginWritePersistentObjectData(); f.PutInteger(pp->_CSFDB_GetPDataXtd_ConstraintmyType()); theSchema->WritePersistentReference(pp->_CSFDB_GetPDataXtd_ConstraintmyGeometries(),f); theSchema->WritePersistentReference(pp->_CSFDB_GetPDataXtd_ConstraintmyValue(),f); f.PutBoolean(pp->_CSFDB_GetPDataXtd_ConstraintmyIsReversed()); f.PutBoolean(pp->_CSFDB_GetPDataXtd_ConstraintmyIsInverted()); f.PutBoolean(pp->_CSFDB_GetPDataXtd_ConstraintmyIsVerified()); theSchema->WritePersistentReference(pp->_CSFDB_GetPDataXtd_ConstraintmyPlane(),f); f.EndWritePersistentObjectData(); } } void StdSchema_PDataXtd_Constraint::Write(const Handle(Standard_Persistent)& p, Storage_BaseDriver& f, const Handle(Storage_Schema)& theSchema) const { StdSchema_PDataXtd_Constraint::SWrite(p,f,theSchema); } void StdSchema_PDataXtd_Constraint::SRead(const Handle(Standard_Persistent)& p, Storage_BaseDriver& f, const Handle(Storage_Schema)& theSchema) { if (!p.IsNull()) { Handle(PDataXtd_Constraint) &pp = (Handle(PDataXtd_Constraint)&)p; theSchema->ReadPersistentObjectHeader(f); f.BeginReadPersistentObjectData(); Standard_Integer PDataXtd_ConstraintmyType; f.GetInteger(PDataXtd_ConstraintmyType); pp->_CSFDB_SetPDataXtd_ConstraintmyType(PDataXtd_ConstraintmyType); Handle(PDF_HAttributeArray1) PDataXtd_ConstraintmyGeometries; theSchema->ReadPersistentReference(PDataXtd_ConstraintmyGeometries,f); pp->_CSFDB_SetPDataXtd_ConstraintmyGeometries(PDataXtd_ConstraintmyGeometries); Handle(PDataStd_Real) PDataXtd_ConstraintmyValue; theSchema->ReadPersistentReference(PDataXtd_ConstraintmyValue,f); pp->_CSFDB_SetPDataXtd_ConstraintmyValue(PDataXtd_ConstraintmyValue); Standard_Boolean PDataXtd_ConstraintmyIsReversed; f.GetBoolean(PDataXtd_ConstraintmyIsReversed); pp->_CSFDB_SetPDataXtd_ConstraintmyIsReversed(PDataXtd_ConstraintmyIsReversed); Standard_Boolean PDataXtd_ConstraintmyIsInverted; f.GetBoolean(PDataXtd_ConstraintmyIsInverted); pp->_CSFDB_SetPDataXtd_ConstraintmyIsInverted(PDataXtd_ConstraintmyIsInverted); Standard_Boolean PDataXtd_ConstraintmyIsVerified; f.GetBoolean(PDataXtd_ConstraintmyIsVerified); pp->_CSFDB_SetPDataXtd_ConstraintmyIsVerified(PDataXtd_ConstraintmyIsVerified); Handle(PNaming_NamedShape) PDataXtd_ConstraintmyPlane; theSchema->ReadPersistentReference(PDataXtd_ConstraintmyPlane,f); pp->_CSFDB_SetPDataXtd_ConstraintmyPlane(PDataXtd_ConstraintmyPlane); f.EndReadPersistentObjectData(); } } void StdSchema_PDataXtd_Constraint::Read(const Handle(Standard_Persistent)& p, Storage_BaseDriver& f, const Handle(Storage_Schema)& theSchema) const { StdSchema_PDataXtd_Constraint::SRead(p,f,theSchema); }