// Created on: 2015-07-07 // Created by: Irina KRYLOVA // Copyright (c) 2015 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 #include #include #include #include #include #include #include #include #include #include //======================================================================= //function : RWStepDimTol_RWGeometricTolerance //purpose : //======================================================================= RWStepDimTol_RWGeometricToleranceWithMaximumTolerance::RWStepDimTol_RWGeometricToleranceWithMaximumTolerance () { } //======================================================================= //function : ReadStep //purpose : //======================================================================= void RWStepDimTol_RWGeometricToleranceWithMaximumTolerance:: ReadStep (const Handle(StepData_StepReaderData)& data, const Standard_Integer num, Handle(Interface_Check)& ach, const Handle(StepDimTol_GeometricToleranceWithMaximumTolerance) &ent) const { // Check number of parameters if ( ! data->CheckNbParams(num, 6, ach, "geometric_tolerance_with_modifiers") ) return; // inherited fields from GeometricTolerance Handle(TCollection_HAsciiString) aName; data->ReadString (num, 1, "geometric_tolerance.name", ach, aName); Handle(TCollection_HAsciiString) aDescription; data->ReadString (num, 2, "geometric_tolerance.description", ach, aDescription); Handle(StepBasic_MeasureWithUnit) aMagnitude; data->ReadEntity (num, 3, "geometric_tolerance.magnitude", ach, STANDARD_TYPE(StepBasic_MeasureWithUnit), aMagnitude); StepDimTol_GeometricToleranceTarget aTolerancedShapeAspect; data->ReadEntity (num, 4, "geometric_tolerance.toleranced_shape_aspect", ach, aTolerancedShapeAspect); // inherited fields from GeometricToleranceWithModifiers Handle(StepDimTol_HArray1OfGeometricToleranceModifier) aModifiers; Standard_Integer sub5 = 0; if ( data->ReadSubList (num, 5, "geometric_tolerance_with_modifiers.modifiers", ach, sub5) ) { Standard_Integer nb0 = data->NbParams(sub5); aModifiers = new StepDimTol_HArray1OfGeometricToleranceModifier (1, nb0); Standard_Integer num2 = sub5; for ( Standard_Integer i0=1; i0 <= nb0; i0++ ) { StepDimTol_GeometricToleranceModifier anIt0 = StepDimTol_GTMMaximumMaterialRequirement; if (data->ParamType (num2, i0) == Interface_ParamEnum) { Standard_CString text = data->ParamCValue(num2, i0); if (strcmp(text, ".ANY_CROSS_SECTION.")==0) anIt0 = StepDimTol_GTMAnyCrossSection; else if (strcmp(text, ".COMMON_ZONE.")==0) anIt0 = StepDimTol_GTMCommonZone; else if (strcmp(text, ".EACH_RADIAL_ELEMENT.")==0) anIt0 = StepDimTol_GTMEachRadialElement; else if (strcmp(text, ".FREE_STATE.")==0) anIt0 = StepDimTol_GTMFreeState; else if (strcmp(text, ".LEAST_MATERIAL_REQUIREMENT.")==0) anIt0 = StepDimTol_GTMLeastMaterialRequirement; else if (strcmp(text, ".LINE_ELEMENT.")==0) anIt0 = StepDimTol_GTMLineElement; else if (strcmp(text, ".MAJOR_DIAMETER.")==0) anIt0 = StepDimTol_GTMMajorDiameter; else if (strcmp(text, ".MAXIMUM_MATERIAL_REQUIREMENT.")==0) anIt0 = StepDimTol_GTMMaximumMaterialRequirement; else if (strcmp(text, ".MINOR_DIAMETER.")==0) anIt0 = StepDimTol_GTMMinorDiameter; else if (strcmp(text, ".NOT_CONVEX.")==0) anIt0 = StepDimTol_GTMNotConvex; else if (strcmp(text, ".PITCH_DIAMETER.")==0) anIt0 = StepDimTol_GTMPitchDiameter; else if (strcmp(text, ".RECIPROCITY_REQUIREMENT.")==0) anIt0 = StepDimTol_GTMReciprocityRequirement; else if (strcmp(text, ".SEPARATE_REQUIREMENT.")==0) anIt0 = StepDimTol_GTMSeparateRequirement; else if (strcmp(text, ".STATISTICAL_TOLERANCE.")==0) anIt0 = StepDimTol_GTMStatisticalTolerance; else if (strcmp(text, ".TANGENT_PLANE.")==0) anIt0 = StepDimTol_GTMTangentPlane; else ach->AddFail("Parameter #5 (modifiers) has not allowed value"); } else ach->AddFail("Parameter #5 (modifier) is not set of enumerations"); aModifiers->SetValue(i0, anIt0); } } // own fields of GeometricToleranceWithMaximumTolerance Handle(StepBasic_LengthMeasureWithUnit) aMaximumUpperTolerance; data->ReadEntity (num, 6, "maximum_upper_tolerance", ach, STANDARD_TYPE(StepBasic_LengthMeasureWithUnit), aMaximumUpperTolerance); // Initialize entity ent->Init(aName, aDescription, aMagnitude, aTolerancedShapeAspect, aModifiers, aMaximumUpperTolerance); } //======================================================================= //function : WriteStep //purpose : //======================================================================= void RWStepDimTol_RWGeometricToleranceWithMaximumTolerance:: WriteStep (StepData_StepWriter& SW, const Handle(StepDimTol_GeometricToleranceWithMaximumTolerance) &ent) const { // inherited fields from GeometricTolerance SW.Send (ent->Name()); SW.Send (ent->Description()); SW.Send (ent->Magnitude()); SW.Send (ent->TolerancedShapeAspect().Value()); // inherited fields from GeometricToleranceWithModifiers SW.OpenSub(); for (Standard_Integer i = 1; i <= ent->NbModifiers(); i++) { switch (ent->ModifierValue(i)) { case StepDimTol_GTMAnyCrossSection: SW.SendEnum (".ANY_CROSS_SECTION."); break; case StepDimTol_GTMCommonZone: SW.SendEnum (".COMMON_ZONE."); break; case StepDimTol_GTMEachRadialElement: SW.SendEnum (".EACH_RADIAL_ELEMENT."); break; case StepDimTol_GTMFreeState: SW.SendEnum (".FREE_STATE."); break; case StepDimTol_GTMLeastMaterialRequirement: SW.SendEnum (".LEAST_MATERIAL_REQUIREMENT."); break; case StepDimTol_GTMLineElement: SW.SendEnum (".LINE_ELEMENT."); break; case StepDimTol_GTMMajorDiameter: SW.SendEnum (".MAJOR_DIAMETER."); break; case StepDimTol_GTMMaximumMaterialRequirement: SW.SendEnum (".MAXIMUM_MATERIAL_REQUIREMENT."); break; case StepDimTol_GTMMinorDiameter: SW.SendEnum (".MINOR_DIAMETER."); break; case StepDimTol_GTMNotConvex: SW.SendEnum (".NOT_CONVEX."); break; case StepDimTol_GTMPitchDiameter: SW.SendEnum (".PITCH_DIAMETER."); break; case StepDimTol_GTMReciprocityRequirement: SW.SendEnum (".RECIPROCITY_REQUIREMENT."); break; case StepDimTol_GTMSeparateRequirement: SW.SendEnum (".SEPARATE_REQUIREMENT."); break; case StepDimTol_GTMStatisticalTolerance: SW.SendEnum (".STATISTICAL_TOLERANCE."); break; case StepDimTol_GTMTangentPlane: SW.SendEnum (".TANGENT_PLANE."); break; } } SW.CloseSub(); // own fields of GeometricToleranceWithMaximumTolerance SW.Send (ent->MaximumUpperTolerance()); } //======================================================================= //function : Share //purpose : //======================================================================= void RWStepDimTol_RWGeometricToleranceWithMaximumTolerance:: Share (const Handle(StepDimTol_GeometricToleranceWithMaximumTolerance) &ent, Interface_EntityIterator& iter) const { // inherited fields from GeometricTolerance iter.AddItem (ent->Magnitude()); iter.AddItem (ent->TolerancedShapeAspect().Value()); }