// Created on: 2002-12-12 // Created by: data exchange team // Copyright (c) 2002-2014 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. // Generator: ExpToCas (EXPRESS -> CASCADE/XSTEP Translator) V1.2 #include #include #include "RWStepElement_RWVolume3dElementDescriptor.pxx" #include #include #include #include //================================================================================================= RWStepElement_RWVolume3dElementDescriptor::RWStepElement_RWVolume3dElementDescriptor() {} //================================================================================================= void RWStepElement_RWVolume3dElementDescriptor::ReadStep( const Handle(StepData_StepReaderData)& data, const Standard_Integer num, Handle(Interface_Check)& ach, const Handle(StepElement_Volume3dElementDescriptor)& ent) const { // Check number of parameters if (!data->CheckNbParams(num, 4, ach, "volume3d_element_descriptor")) return; // Inherited fields of ElementDescriptor StepElement_ElementOrder aElementDescriptor_TopologyOrder = StepElement_Linear; if (data->ParamType(num, 1) == Interface_ParamEnum) { Standard_CString text = data->ParamCValue(num, 1); if (!strcmp(text, ".LINEAR.")) aElementDescriptor_TopologyOrder = StepElement_Linear; else if (!strcmp(text, ".QUADRATIC.")) aElementDescriptor_TopologyOrder = StepElement_Quadratic; else if (!strcmp(text, ".CUBIC.")) aElementDescriptor_TopologyOrder = StepElement_Cubic; else ach->AddFail("Parameter #1 (element_descriptor.topology_order) has not allowed value"); } else ach->AddFail("Parameter #1 (element_descriptor.topology_order) is not enumeration"); Handle(TCollection_HAsciiString) aElementDescriptor_Description; data->ReadString(num, 2, "element_descriptor.description", ach, aElementDescriptor_Description); // Own fields of Volume3dElementDescriptor Handle(StepElement_HArray1OfVolumeElementPurposeMember) aPurpose; Standard_Integer sub3 = 0; if (data->ReadSubList(num, 3, "purpose", ach, sub3)) { Standard_Integer nb0 = data->NbParams(sub3); aPurpose = new StepElement_HArray1OfVolumeElementPurposeMember(1, nb0); Standard_Integer num2 = sub3; for (Standard_Integer i0 = 1; i0 <= nb0; i0++) { // StepElement_VolumeElementPurpose anIt0; Handle(StepElement_VolumeElementPurposeMember) aMember = new StepElement_VolumeElementPurposeMember; // data->ReadEntity (num2, i0, "volume_element_purpose", ach, anIt0); data->ReadMember(num2, i0, "volume_element_purpose", ach, aMember); aPurpose->SetValue(i0, aMember); } } StepElement_Volume3dElementShape aShape = StepElement_Hexahedron; if (data->ParamType(num, 4) == Interface_ParamEnum) { Standard_CString text = data->ParamCValue(num, 4); if (!strcmp(text, ".HEXAHEDRON.")) aShape = StepElement_Hexahedron; else if (!strcmp(text, ".WEDGE.")) aShape = StepElement_Wedge; else if (!strcmp(text, ".TETRAHEDRON.")) aShape = StepElement_Tetrahedron; else if (!strcmp(text, ".PYRAMID.")) aShape = StepElement_Pyramid; else ach->AddFail("Parameter #4 (shape) has not allowed value"); } else ach->AddFail("Parameter #4 (shape) is not enumeration"); // Initialize entity ent->Init(aElementDescriptor_TopologyOrder, aElementDescriptor_Description, aPurpose, aShape); } //================================================================================================= void RWStepElement_RWVolume3dElementDescriptor::WriteStep( StepData_StepWriter& SW, const Handle(StepElement_Volume3dElementDescriptor)& ent) const { // Inherited fields of ElementDescriptor switch (ent->StepElement_ElementDescriptor::TopologyOrder()) { case StepElement_Linear: SW.SendEnum(".LINEAR."); break; case StepElement_Quadratic: SW.SendEnum(".QUADRATIC."); break; case StepElement_Cubic: SW.SendEnum(".CUBIC."); break; } SW.Send(ent->StepElement_ElementDescriptor::Description()); // Own fields of Volume3dElementDescriptor SW.OpenSub(); for (Standard_Integer i2 = 1; i2 <= ent->Purpose()->Length(); i2++) { Handle(StepElement_VolumeElementPurposeMember) Var0 = ent->Purpose()->Value(i2); SW.Send(Var0); } SW.CloseSub(); switch (ent->Shape()) { case StepElement_Hexahedron: SW.SendEnum(".HEXAHEDRON."); break; case StepElement_Wedge: SW.SendEnum(".WEDGE."); break; case StepElement_Tetrahedron: SW.SendEnum(".TETRAHEDRON."); break; case StepElement_Pyramid: SW.SendEnum(".PYRAMID."); break; } } //================================================================================================= void RWStepElement_RWVolume3dElementDescriptor::Share( const Handle(StepElement_Volume3dElementDescriptor)&, Interface_EntityIterator&) const { // Inherited fields of ElementDescriptor // Own fields of Volume3dElementDescriptor /* CKY 17JUN04 : content is made of STRINGS and ENUMS. No entity ! for (Standard_Integer i1=1; i1 <= ent->Purpose()->Length(); i1++ ) { Handle(StepElement_VolumeElementPurposeMember) Var0 = ent->Purpose()->Value(i1); iter.AddItem (Var0); } */ }