/* * * Copyright (C) 2008-2012, OFFIS e.V. and ICSMED AG, Oldenburg, Germany * Copyright (C) 2013-2017, J. Riesmeier, Oldenburg, Germany * All rights reserved. See COPYRIGHT file for details. * * Source file for class DRTIonBeamSequence * * Generated automatically from DICOM PS 3.3-2017e * File created on 2017-12-05 09:30:54 * */ #include "dcmtk/config/osconfig.h" // make sure OS specific configuration is included first #include "dcmtk/dcmrt/seq/drtibs.h" // --- item class --- DRTIonBeamSequence::Item::Item(const OFBool emptyDefaultItem) : EmptyDefaultItem(emptyDefaultItem), ApplicatorSequence(emptyDefaultItem /*emptyDefaultSequence*/), BeamDescription(DCM_BeamDescription), BeamName(DCM_BeamName), BeamNumber(DCM_BeamNumber), BeamType(DCM_BeamType), DepthDoseParametersSequence(emptyDefaultItem /*emptyDefaultSequence*/), DeviceSerialNumber(DCM_DeviceSerialNumber), FinalCumulativeMetersetWeight(DCM_FinalCumulativeMetersetWeight), FixationEye(DCM_FixationEye), FixationLightAzimuthalAngle(DCM_FixationLightAzimuthalAngle), FixationLightPolarAngle(DCM_FixationLightPolarAngle), GeneralAccessorySequence(emptyDefaultItem /*emptyDefaultSequence*/), InstitutionAddress(DCM_InstitutionAddress), InstitutionName(DCM_InstitutionName), InstitutionalDepartmentName(DCM_InstitutionalDepartmentName), IonBeamLimitingDeviceSequence(emptyDefaultItem /*emptyDefaultSequence*/), IonBlockSequence(emptyDefaultItem /*emptyDefaultSequence*/), IonControlPointSequence(emptyDefaultItem /*emptyDefaultSequence*/), IonRangeCompensatorSequence(emptyDefaultItem /*emptyDefaultSequence*/), IonWedgeSequence(emptyDefaultItem /*emptyDefaultSequence*/), LateralSpreadingDeviceSequence(emptyDefaultItem /*emptyDefaultSequence*/), Manufacturer(DCM_Manufacturer), ManufacturerModelName(DCM_ManufacturerModelName), ModulatedScanModeType(DCM_ModulatedScanModeType), NumberOfBlocks(DCM_NumberOfBlocks), NumberOfBoli(DCM_NumberOfBoli), NumberOfCompensators(DCM_NumberOfCompensators), NumberOfControlPoints(DCM_NumberOfControlPoints), NumberOfLateralSpreadingDevices(DCM_NumberOfLateralSpreadingDevices), NumberOfRangeModulators(DCM_NumberOfRangeModulators), NumberOfRangeShifters(DCM_NumberOfRangeShifters), NumberOfWedges(DCM_NumberOfWedges), PatientSupportAccessoryCode(DCM_PatientSupportAccessoryCode), PatientSupportID(DCM_PatientSupportID), PatientSupportType(DCM_PatientSupportType), PrimaryDosimeterUnit(DCM_PrimaryDosimeterUnit), RadiationAtomicNumber(DCM_RadiationAtomicNumber), RadiationChargeState(DCM_RadiationChargeState), RadiationMassNumber(DCM_RadiationMassNumber), RadiationType(DCM_RadiationType), RangeModulatorSequence(emptyDefaultItem /*emptyDefaultSequence*/), RangeShifterSequence(emptyDefaultItem /*emptyDefaultSequence*/), ReferencedBolusSequence(emptyDefaultItem /*emptyDefaultSequence*/), ReferencedDoseSequence(emptyDefaultItem /*emptyDefaultSequence*/), ReferencedPatientSetupNumber(DCM_ReferencedPatientSetupNumber), ReferencedReferenceImageSequence(emptyDefaultItem /*emptyDefaultSequence*/), ReferencedToleranceTableNumber(DCM_ReferencedToleranceTableNumber), ScanMode(DCM_ScanMode), SnoutSequence(emptyDefaultItem /*emptyDefaultSequence*/), TotalBlockTrayWaterEquivalentThickness(DCM_TotalBlockTrayWaterEquivalentThickness), TotalCompensatorTrayWaterEquivalentThickness(DCM_TotalCompensatorTrayWaterEquivalentThickness), TotalWedgeTrayWaterEquivalentThickness(DCM_TotalWedgeTrayWaterEquivalentThickness), TreatmentDeliveryType(DCM_TreatmentDeliveryType), TreatmentMachineName(DCM_TreatmentMachineName), VirtualSourceAxisDistances(DCM_VirtualSourceAxisDistances) { } DRTIonBeamSequence::Item::Item(const Item ©) : EmptyDefaultItem(copy.EmptyDefaultItem), ApplicatorSequence(copy.ApplicatorSequence), BeamDescription(copy.BeamDescription), BeamName(copy.BeamName), BeamNumber(copy.BeamNumber), BeamType(copy.BeamType), DepthDoseParametersSequence(copy.DepthDoseParametersSequence), DeviceSerialNumber(copy.DeviceSerialNumber), FinalCumulativeMetersetWeight(copy.FinalCumulativeMetersetWeight), FixationEye(copy.FixationEye), FixationLightAzimuthalAngle(copy.FixationLightAzimuthalAngle), FixationLightPolarAngle(copy.FixationLightPolarAngle), GeneralAccessorySequence(copy.GeneralAccessorySequence), InstitutionAddress(copy.InstitutionAddress), InstitutionName(copy.InstitutionName), InstitutionalDepartmentName(copy.InstitutionalDepartmentName), IonBeamLimitingDeviceSequence(copy.IonBeamLimitingDeviceSequence), IonBlockSequence(copy.IonBlockSequence), IonControlPointSequence(copy.IonControlPointSequence), IonRangeCompensatorSequence(copy.IonRangeCompensatorSequence), IonWedgeSequence(copy.IonWedgeSequence), LateralSpreadingDeviceSequence(copy.LateralSpreadingDeviceSequence), Manufacturer(copy.Manufacturer), ManufacturerModelName(copy.ManufacturerModelName), ModulatedScanModeType(copy.ModulatedScanModeType), NumberOfBlocks(copy.NumberOfBlocks), NumberOfBoli(copy.NumberOfBoli), NumberOfCompensators(copy.NumberOfCompensators), NumberOfControlPoints(copy.NumberOfControlPoints), NumberOfLateralSpreadingDevices(copy.NumberOfLateralSpreadingDevices), NumberOfRangeModulators(copy.NumberOfRangeModulators), NumberOfRangeShifters(copy.NumberOfRangeShifters), NumberOfWedges(copy.NumberOfWedges), PatientSupportAccessoryCode(copy.PatientSupportAccessoryCode), PatientSupportID(copy.PatientSupportID), PatientSupportType(copy.PatientSupportType), PrimaryDosimeterUnit(copy.PrimaryDosimeterUnit), RadiationAtomicNumber(copy.RadiationAtomicNumber), RadiationChargeState(copy.RadiationChargeState), RadiationMassNumber(copy.RadiationMassNumber), RadiationType(copy.RadiationType), RangeModulatorSequence(copy.RangeModulatorSequence), RangeShifterSequence(copy.RangeShifterSequence), ReferencedBolusSequence(copy.ReferencedBolusSequence), ReferencedDoseSequence(copy.ReferencedDoseSequence), ReferencedPatientSetupNumber(copy.ReferencedPatientSetupNumber), ReferencedReferenceImageSequence(copy.ReferencedReferenceImageSequence), ReferencedToleranceTableNumber(copy.ReferencedToleranceTableNumber), ScanMode(copy.ScanMode), SnoutSequence(copy.SnoutSequence), TotalBlockTrayWaterEquivalentThickness(copy.TotalBlockTrayWaterEquivalentThickness), TotalCompensatorTrayWaterEquivalentThickness(copy.TotalCompensatorTrayWaterEquivalentThickness), TotalWedgeTrayWaterEquivalentThickness(copy.TotalWedgeTrayWaterEquivalentThickness), TreatmentDeliveryType(copy.TreatmentDeliveryType), TreatmentMachineName(copy.TreatmentMachineName), VirtualSourceAxisDistances(copy.VirtualSourceAxisDistances) { } DRTIonBeamSequence::Item::~Item() { } DRTIonBeamSequence::Item &DRTIonBeamSequence::Item::operator=(const Item ©) { if (this != ©) { EmptyDefaultItem = copy.EmptyDefaultItem; ApplicatorSequence = copy.ApplicatorSequence; BeamDescription = copy.BeamDescription; BeamName = copy.BeamName; BeamNumber = copy.BeamNumber; BeamType = copy.BeamType; DepthDoseParametersSequence = copy.DepthDoseParametersSequence; DeviceSerialNumber = copy.DeviceSerialNumber; FinalCumulativeMetersetWeight = copy.FinalCumulativeMetersetWeight; FixationEye = copy.FixationEye; FixationLightAzimuthalAngle = copy.FixationLightAzimuthalAngle; FixationLightPolarAngle = copy.FixationLightPolarAngle; GeneralAccessorySequence = copy.GeneralAccessorySequence; InstitutionAddress = copy.InstitutionAddress; InstitutionName = copy.InstitutionName; InstitutionalDepartmentName = copy.InstitutionalDepartmentName; IonBeamLimitingDeviceSequence = copy.IonBeamLimitingDeviceSequence; IonBlockSequence = copy.IonBlockSequence; IonControlPointSequence = copy.IonControlPointSequence; IonRangeCompensatorSequence = copy.IonRangeCompensatorSequence; IonWedgeSequence = copy.IonWedgeSequence; LateralSpreadingDeviceSequence = copy.LateralSpreadingDeviceSequence; Manufacturer = copy.Manufacturer; ManufacturerModelName = copy.ManufacturerModelName; ModulatedScanModeType = copy.ModulatedScanModeType; NumberOfBlocks = copy.NumberOfBlocks; NumberOfBoli = copy.NumberOfBoli; NumberOfCompensators = copy.NumberOfCompensators; NumberOfControlPoints = copy.NumberOfControlPoints; NumberOfLateralSpreadingDevices = copy.NumberOfLateralSpreadingDevices; NumberOfRangeModulators = copy.NumberOfRangeModulators; NumberOfRangeShifters = copy.NumberOfRangeShifters; NumberOfWedges = copy.NumberOfWedges; PatientSupportAccessoryCode = copy.PatientSupportAccessoryCode; PatientSupportID = copy.PatientSupportID; PatientSupportType = copy.PatientSupportType; PrimaryDosimeterUnit = copy.PrimaryDosimeterUnit; RadiationAtomicNumber = copy.RadiationAtomicNumber; RadiationChargeState = copy.RadiationChargeState; RadiationMassNumber = copy.RadiationMassNumber; RadiationType = copy.RadiationType; RangeModulatorSequence = copy.RangeModulatorSequence; RangeShifterSequence = copy.RangeShifterSequence; ReferencedBolusSequence = copy.ReferencedBolusSequence; ReferencedDoseSequence = copy.ReferencedDoseSequence; ReferencedPatientSetupNumber = copy.ReferencedPatientSetupNumber; ReferencedReferenceImageSequence = copy.ReferencedReferenceImageSequence; ReferencedToleranceTableNumber = copy.ReferencedToleranceTableNumber; ScanMode = copy.ScanMode; SnoutSequence = copy.SnoutSequence; TotalBlockTrayWaterEquivalentThickness = copy.TotalBlockTrayWaterEquivalentThickness; TotalCompensatorTrayWaterEquivalentThickness = copy.TotalCompensatorTrayWaterEquivalentThickness; TotalWedgeTrayWaterEquivalentThickness = copy.TotalWedgeTrayWaterEquivalentThickness; TreatmentDeliveryType = copy.TreatmentDeliveryType; TreatmentMachineName = copy.TreatmentMachineName; VirtualSourceAxisDistances = copy.VirtualSourceAxisDistances; } return *this; } void DRTIonBeamSequence::Item::clear() { if (!EmptyDefaultItem) { /* clear all DICOM attributes */ BeamNumber.clear(); BeamName.clear(); BeamDescription.clear(); BeamType.clear(); RadiationType.clear(); RadiationMassNumber.clear(); RadiationAtomicNumber.clear(); RadiationChargeState.clear(); ScanMode.clear(); ModulatedScanModeType.clear(); TreatmentMachineName.clear(); Manufacturer.clear(); InstitutionName.clear(); InstitutionAddress.clear(); InstitutionalDepartmentName.clear(); ManufacturerModelName.clear(); DeviceSerialNumber.clear(); PrimaryDosimeterUnit.clear(); ReferencedToleranceTableNumber.clear(); VirtualSourceAxisDistances.clear(); DepthDoseParametersSequence.clear(); IonBeamLimitingDeviceSequence.clear(); ReferencedPatientSetupNumber.clear(); ReferencedReferenceImageSequence.clear(); TreatmentDeliveryType.clear(); ReferencedDoseSequence.clear(); NumberOfWedges.clear(); TotalWedgeTrayWaterEquivalentThickness.clear(); IonWedgeSequence.clear(); NumberOfCompensators.clear(); TotalCompensatorTrayWaterEquivalentThickness.clear(); IonRangeCompensatorSequence.clear(); NumberOfBoli.clear(); ReferencedBolusSequence.clear(); NumberOfBlocks.clear(); TotalBlockTrayWaterEquivalentThickness.clear(); IonBlockSequence.clear(); SnoutSequence.clear(); ApplicatorSequence.clear(); GeneralAccessorySequence.clear(); NumberOfRangeShifters.clear(); RangeShifterSequence.clear(); NumberOfLateralSpreadingDevices.clear(); LateralSpreadingDeviceSequence.clear(); NumberOfRangeModulators.clear(); RangeModulatorSequence.clear(); PatientSupportType.clear(); PatientSupportID.clear(); PatientSupportAccessoryCode.clear(); FixationLightAzimuthalAngle.clear(); FixationLightPolarAngle.clear(); FixationEye.clear(); FinalCumulativeMetersetWeight.clear(); NumberOfControlPoints.clear(); IonControlPointSequence.clear(); } } OFBool DRTIonBeamSequence::Item::isEmpty() { return BeamNumber.isEmpty() && BeamName.isEmpty() && BeamDescription.isEmpty() && BeamType.isEmpty() && RadiationType.isEmpty() && RadiationMassNumber.isEmpty() && RadiationAtomicNumber.isEmpty() && RadiationChargeState.isEmpty() && ScanMode.isEmpty() && ModulatedScanModeType.isEmpty() && TreatmentMachineName.isEmpty() && Manufacturer.isEmpty() && InstitutionName.isEmpty() && InstitutionAddress.isEmpty() && InstitutionalDepartmentName.isEmpty() && ManufacturerModelName.isEmpty() && DeviceSerialNumber.isEmpty() && PrimaryDosimeterUnit.isEmpty() && ReferencedToleranceTableNumber.isEmpty() && VirtualSourceAxisDistances.isEmpty() && DepthDoseParametersSequence.isEmpty() && IonBeamLimitingDeviceSequence.isEmpty() && ReferencedPatientSetupNumber.isEmpty() && ReferencedReferenceImageSequence.isEmpty() && TreatmentDeliveryType.isEmpty() && ReferencedDoseSequence.isEmpty() && NumberOfWedges.isEmpty() && TotalWedgeTrayWaterEquivalentThickness.isEmpty() && IonWedgeSequence.isEmpty() && NumberOfCompensators.isEmpty() && TotalCompensatorTrayWaterEquivalentThickness.isEmpty() && IonRangeCompensatorSequence.isEmpty() && NumberOfBoli.isEmpty() && ReferencedBolusSequence.isEmpty() && NumberOfBlocks.isEmpty() && TotalBlockTrayWaterEquivalentThickness.isEmpty() && IonBlockSequence.isEmpty() && SnoutSequence.isEmpty() && ApplicatorSequence.isEmpty() && GeneralAccessorySequence.isEmpty() && NumberOfRangeShifters.isEmpty() && RangeShifterSequence.isEmpty() && NumberOfLateralSpreadingDevices.isEmpty() && LateralSpreadingDeviceSequence.isEmpty() && NumberOfRangeModulators.isEmpty() && RangeModulatorSequence.isEmpty() && PatientSupportType.isEmpty() && PatientSupportID.isEmpty() && PatientSupportAccessoryCode.isEmpty() && FixationLightAzimuthalAngle.isEmpty() && FixationLightPolarAngle.isEmpty() && FixationEye.isEmpty() && FinalCumulativeMetersetWeight.isEmpty() && NumberOfControlPoints.isEmpty() && IonControlPointSequence.isEmpty(); } OFBool DRTIonBeamSequence::Item::isValid() const { return !EmptyDefaultItem; } OFCondition DRTIonBeamSequence::Item::read(DcmItem &item) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { /* re-initialize object */ clear(); getAndCheckElementFromDataset(item, BeamNumber, "1", "1", "IonBeamSequence"); getAndCheckElementFromDataset(item, BeamName, "1", "1", "IonBeamSequence"); getAndCheckElementFromDataset(item, BeamDescription, "1", "3", "IonBeamSequence"); getAndCheckElementFromDataset(item, BeamType, "1", "1", "IonBeamSequence"); getAndCheckElementFromDataset(item, RadiationType, "1", "1", "IonBeamSequence"); getAndCheckElementFromDataset(item, RadiationMassNumber, "1", "1C", "IonBeamSequence"); getAndCheckElementFromDataset(item, RadiationAtomicNumber, "1", "1C", "IonBeamSequence"); getAndCheckElementFromDataset(item, RadiationChargeState, "1", "1C", "IonBeamSequence"); getAndCheckElementFromDataset(item, ScanMode, "1", "1", "IonBeamSequence"); getAndCheckElementFromDataset(item, ModulatedScanModeType, "1", "1C", "IonBeamSequence"); getAndCheckElementFromDataset(item, TreatmentMachineName, "1", "2", "IonBeamSequence"); getAndCheckElementFromDataset(item, Manufacturer, "1", "3", "IonBeamSequence"); getAndCheckElementFromDataset(item, InstitutionName, "1", "3", "IonBeamSequence"); getAndCheckElementFromDataset(item, InstitutionAddress, "1", "3", "IonBeamSequence"); getAndCheckElementFromDataset(item, InstitutionalDepartmentName, "1", "3", "IonBeamSequence"); getAndCheckElementFromDataset(item, ManufacturerModelName, "1", "3", "IonBeamSequence"); getAndCheckElementFromDataset(item, DeviceSerialNumber, "1", "3", "IonBeamSequence"); getAndCheckElementFromDataset(item, PrimaryDosimeterUnit, "1", "1", "IonBeamSequence"); getAndCheckElementFromDataset(item, ReferencedToleranceTableNumber, "1", "3", "IonBeamSequence"); getAndCheckElementFromDataset(item, VirtualSourceAxisDistances, "2", "1", "IonBeamSequence"); DepthDoseParametersSequence.read(item, "1-n", "3", "IonBeamSequence"); IonBeamLimitingDeviceSequence.read(item, "1-n", "3", "IonBeamSequence"); getAndCheckElementFromDataset(item, ReferencedPatientSetupNumber, "1", "3", "IonBeamSequence"); ReferencedReferenceImageSequence.read(item, "1-n", "3", "IonBeamSequence"); getAndCheckElementFromDataset(item, TreatmentDeliveryType, "1", "1", "IonBeamSequence"); ReferencedDoseSequence.read(item, "1-n", "3", "IonBeamSequence"); getAndCheckElementFromDataset(item, NumberOfWedges, "1", "1", "IonBeamSequence"); getAndCheckElementFromDataset(item, TotalWedgeTrayWaterEquivalentThickness, "1", "3", "IonBeamSequence"); IonWedgeSequence.read(item, "1-n", "1C", "IonBeamSequence"); getAndCheckElementFromDataset(item, NumberOfCompensators, "1", "1", "IonBeamSequence"); getAndCheckElementFromDataset(item, TotalCompensatorTrayWaterEquivalentThickness, "1", "3", "IonBeamSequence"); IonRangeCompensatorSequence.read(item, "1-n", "1C", "IonBeamSequence"); getAndCheckElementFromDataset(item, NumberOfBoli, "1", "1", "IonBeamSequence"); ReferencedBolusSequence.read(item, "1-n", "1C", "IonBeamSequence"); getAndCheckElementFromDataset(item, NumberOfBlocks, "1", "1", "IonBeamSequence"); getAndCheckElementFromDataset(item, TotalBlockTrayWaterEquivalentThickness, "1", "3", "IonBeamSequence"); IonBlockSequence.read(item, "1-n", "1C", "IonBeamSequence"); SnoutSequence.read(item, "1-n", "3", "IonBeamSequence"); ApplicatorSequence.read(item, "1-n", "3", "IonBeamSequence"); GeneralAccessorySequence.read(item, "1-n", "3", "IonBeamSequence"); getAndCheckElementFromDataset(item, NumberOfRangeShifters, "1", "1", "IonBeamSequence"); RangeShifterSequence.read(item, "1-n", "1C", "IonBeamSequence"); getAndCheckElementFromDataset(item, NumberOfLateralSpreadingDevices, "1", "1", "IonBeamSequence"); LateralSpreadingDeviceSequence.read(item, "1-n", "1C", "IonBeamSequence"); getAndCheckElementFromDataset(item, NumberOfRangeModulators, "1", "1", "IonBeamSequence"); RangeModulatorSequence.read(item, "1-n", "1C", "IonBeamSequence"); getAndCheckElementFromDataset(item, PatientSupportType, "1", "1", "IonBeamSequence"); getAndCheckElementFromDataset(item, PatientSupportID, "1", "3", "IonBeamSequence"); getAndCheckElementFromDataset(item, PatientSupportAccessoryCode, "1", "3", "IonBeamSequence"); getAndCheckElementFromDataset(item, FixationLightAzimuthalAngle, "1", "3", "IonBeamSequence"); getAndCheckElementFromDataset(item, FixationLightPolarAngle, "1", "3", "IonBeamSequence"); getAndCheckElementFromDataset(item, FixationEye, "1", "3", "IonBeamSequence"); getAndCheckElementFromDataset(item, FinalCumulativeMetersetWeight, "1", "1C", "IonBeamSequence"); getAndCheckElementFromDataset(item, NumberOfControlPoints, "1", "1", "IonBeamSequence"); IonControlPointSequence.read(item, "1-n", "1", "IonBeamSequence"); result = EC_Normal; } return result; } OFCondition DRTIonBeamSequence::Item::write(DcmItem &item) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = EC_Normal; addElementToDataset(result, item, new DcmIntegerString(BeamNumber), "1", "1", "IonBeamSequence"); addElementToDataset(result, item, new DcmLongString(BeamName), "1", "1", "IonBeamSequence"); addElementToDataset(result, item, new DcmShortText(BeamDescription), "1", "3", "IonBeamSequence"); addElementToDataset(result, item, new DcmCodeString(BeamType), "1", "1", "IonBeamSequence"); addElementToDataset(result, item, new DcmCodeString(RadiationType), "1", "1", "IonBeamSequence"); addElementToDataset(result, item, new DcmIntegerString(RadiationMassNumber), "1", "1C", "IonBeamSequence"); addElementToDataset(result, item, new DcmIntegerString(RadiationAtomicNumber), "1", "1C", "IonBeamSequence"); addElementToDataset(result, item, new DcmSignedShort(RadiationChargeState), "1", "1C", "IonBeamSequence"); addElementToDataset(result, item, new DcmCodeString(ScanMode), "1", "1", "IonBeamSequence"); addElementToDataset(result, item, new DcmCodeString(ModulatedScanModeType), "1", "1C", "IonBeamSequence"); addElementToDataset(result, item, new DcmShortString(TreatmentMachineName), "1", "2", "IonBeamSequence"); addElementToDataset(result, item, new DcmLongString(Manufacturer), "1", "3", "IonBeamSequence"); addElementToDataset(result, item, new DcmLongString(InstitutionName), "1", "3", "IonBeamSequence"); addElementToDataset(result, item, new DcmShortText(InstitutionAddress), "1", "3", "IonBeamSequence"); addElementToDataset(result, item, new DcmLongString(InstitutionalDepartmentName), "1", "3", "IonBeamSequence"); addElementToDataset(result, item, new DcmLongString(ManufacturerModelName), "1", "3", "IonBeamSequence"); addElementToDataset(result, item, new DcmLongString(DeviceSerialNumber), "1", "3", "IonBeamSequence"); addElementToDataset(result, item, new DcmCodeString(PrimaryDosimeterUnit), "1", "1", "IonBeamSequence"); addElementToDataset(result, item, new DcmIntegerString(ReferencedToleranceTableNumber), "1", "3", "IonBeamSequence"); addElementToDataset(result, item, new DcmFloatingPointSingle(VirtualSourceAxisDistances), "2", "1", "IonBeamSequence"); if (result.good()) result = DepthDoseParametersSequence.write(item, "1-n", "3", "IonBeamSequence"); if (result.good()) result = IonBeamLimitingDeviceSequence.write(item, "1-n", "3", "IonBeamSequence"); addElementToDataset(result, item, new DcmIntegerString(ReferencedPatientSetupNumber), "1", "3", "IonBeamSequence"); if (result.good()) result = ReferencedReferenceImageSequence.write(item, "1-n", "3", "IonBeamSequence"); addElementToDataset(result, item, new DcmCodeString(TreatmentDeliveryType), "1", "1", "IonBeamSequence"); if (result.good()) result = ReferencedDoseSequence.write(item, "1-n", "3", "IonBeamSequence"); addElementToDataset(result, item, new DcmIntegerString(NumberOfWedges), "1", "1", "IonBeamSequence"); addElementToDataset(result, item, new DcmFloatingPointSingle(TotalWedgeTrayWaterEquivalentThickness), "1", "3", "IonBeamSequence"); if (result.good()) result = IonWedgeSequence.write(item, "1-n", "1C", "IonBeamSequence"); addElementToDataset(result, item, new DcmIntegerString(NumberOfCompensators), "1", "1", "IonBeamSequence"); addElementToDataset(result, item, new DcmFloatingPointSingle(TotalCompensatorTrayWaterEquivalentThickness), "1", "3", "IonBeamSequence"); if (result.good()) result = IonRangeCompensatorSequence.write(item, "1-n", "1C", "IonBeamSequence"); addElementToDataset(result, item, new DcmIntegerString(NumberOfBoli), "1", "1", "IonBeamSequence"); if (result.good()) result = ReferencedBolusSequence.write(item, "1-n", "1C", "IonBeamSequence"); addElementToDataset(result, item, new DcmIntegerString(NumberOfBlocks), "1", "1", "IonBeamSequence"); addElementToDataset(result, item, new DcmFloatingPointSingle(TotalBlockTrayWaterEquivalentThickness), "1", "3", "IonBeamSequence"); if (result.good()) result = IonBlockSequence.write(item, "1-n", "1C", "IonBeamSequence"); if (result.good()) result = SnoutSequence.write(item, "1-n", "3", "IonBeamSequence"); if (result.good()) result = ApplicatorSequence.write(item, "1-n", "3", "IonBeamSequence"); if (result.good()) result = GeneralAccessorySequence.write(item, "1-n", "3", "IonBeamSequence"); addElementToDataset(result, item, new DcmIntegerString(NumberOfRangeShifters), "1", "1", "IonBeamSequence"); if (result.good()) result = RangeShifterSequence.write(item, "1-n", "1C", "IonBeamSequence"); addElementToDataset(result, item, new DcmIntegerString(NumberOfLateralSpreadingDevices), "1", "1", "IonBeamSequence"); if (result.good()) result = LateralSpreadingDeviceSequence.write(item, "1-n", "1C", "IonBeamSequence"); addElementToDataset(result, item, new DcmIntegerString(NumberOfRangeModulators), "1", "1", "IonBeamSequence"); if (result.good()) result = RangeModulatorSequence.write(item, "1-n", "1C", "IonBeamSequence"); addElementToDataset(result, item, new DcmCodeString(PatientSupportType), "1", "1", "IonBeamSequence"); addElementToDataset(result, item, new DcmShortString(PatientSupportID), "1", "3", "IonBeamSequence"); addElementToDataset(result, item, new DcmLongString(PatientSupportAccessoryCode), "1", "3", "IonBeamSequence"); addElementToDataset(result, item, new DcmFloatingPointSingle(FixationLightAzimuthalAngle), "1", "3", "IonBeamSequence"); addElementToDataset(result, item, new DcmFloatingPointSingle(FixationLightPolarAngle), "1", "3", "IonBeamSequence"); addElementToDataset(result, item, new DcmCodeString(FixationEye), "1", "3", "IonBeamSequence"); addElementToDataset(result, item, new DcmDecimalString(FinalCumulativeMetersetWeight), "1", "1C", "IonBeamSequence"); addElementToDataset(result, item, new DcmIntegerString(NumberOfControlPoints), "1", "1", "IonBeamSequence"); if (result.good()) result = IonControlPointSequence.write(item, "1-n", "1", "IonBeamSequence"); } return result; } OFCondition DRTIonBeamSequence::Item::getBeamDescription(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(BeamDescription, value, pos); } OFCondition DRTIonBeamSequence::Item::getBeamName(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(BeamName, value, pos); } OFCondition DRTIonBeamSequence::Item::getBeamNumber(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(BeamNumber, value, pos); } OFCondition DRTIonBeamSequence::Item::getBeamNumber(Sint32 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmIntegerString &, BeamNumber).getSint32(value, pos); } OFCondition DRTIonBeamSequence::Item::getBeamType(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(BeamType, value, pos); } OFCondition DRTIonBeamSequence::Item::getDeviceSerialNumber(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(DeviceSerialNumber, value, pos); } OFCondition DRTIonBeamSequence::Item::getFinalCumulativeMetersetWeight(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(FinalCumulativeMetersetWeight, value, pos); } OFCondition DRTIonBeamSequence::Item::getFinalCumulativeMetersetWeight(Float64 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmDecimalString &, FinalCumulativeMetersetWeight).getFloat64(value, pos); } OFCondition DRTIonBeamSequence::Item::getFixationEye(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(FixationEye, value, pos); } OFCondition DRTIonBeamSequence::Item::getFixationLightAzimuthalAngle(Float32 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmFloatingPointSingle &, FixationLightAzimuthalAngle).getFloat32(value, pos); } OFCondition DRTIonBeamSequence::Item::getFixationLightPolarAngle(Float32 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmFloatingPointSingle &, FixationLightPolarAngle).getFloat32(value, pos); } OFCondition DRTIonBeamSequence::Item::getInstitutionAddress(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(InstitutionAddress, value, pos); } OFCondition DRTIonBeamSequence::Item::getInstitutionName(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(InstitutionName, value, pos); } OFCondition DRTIonBeamSequence::Item::getInstitutionalDepartmentName(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(InstitutionalDepartmentName, value, pos); } OFCondition DRTIonBeamSequence::Item::getManufacturer(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(Manufacturer, value, pos); } OFCondition DRTIonBeamSequence::Item::getManufacturerModelName(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(ManufacturerModelName, value, pos); } OFCondition DRTIonBeamSequence::Item::getModulatedScanModeType(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(ModulatedScanModeType, value, pos); } OFCondition DRTIonBeamSequence::Item::getNumberOfBlocks(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(NumberOfBlocks, value, pos); } OFCondition DRTIonBeamSequence::Item::getNumberOfBlocks(Sint32 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmIntegerString &, NumberOfBlocks).getSint32(value, pos); } OFCondition DRTIonBeamSequence::Item::getNumberOfBoli(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(NumberOfBoli, value, pos); } OFCondition DRTIonBeamSequence::Item::getNumberOfBoli(Sint32 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmIntegerString &, NumberOfBoli).getSint32(value, pos); } OFCondition DRTIonBeamSequence::Item::getNumberOfCompensators(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(NumberOfCompensators, value, pos); } OFCondition DRTIonBeamSequence::Item::getNumberOfCompensators(Sint32 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmIntegerString &, NumberOfCompensators).getSint32(value, pos); } OFCondition DRTIonBeamSequence::Item::getNumberOfControlPoints(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(NumberOfControlPoints, value, pos); } OFCondition DRTIonBeamSequence::Item::getNumberOfControlPoints(Sint32 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmIntegerString &, NumberOfControlPoints).getSint32(value, pos); } OFCondition DRTIonBeamSequence::Item::getNumberOfLateralSpreadingDevices(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(NumberOfLateralSpreadingDevices, value, pos); } OFCondition DRTIonBeamSequence::Item::getNumberOfLateralSpreadingDevices(Sint32 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmIntegerString &, NumberOfLateralSpreadingDevices).getSint32(value, pos); } OFCondition DRTIonBeamSequence::Item::getNumberOfRangeModulators(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(NumberOfRangeModulators, value, pos); } OFCondition DRTIonBeamSequence::Item::getNumberOfRangeModulators(Sint32 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmIntegerString &, NumberOfRangeModulators).getSint32(value, pos); } OFCondition DRTIonBeamSequence::Item::getNumberOfRangeShifters(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(NumberOfRangeShifters, value, pos); } OFCondition DRTIonBeamSequence::Item::getNumberOfRangeShifters(Sint32 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmIntegerString &, NumberOfRangeShifters).getSint32(value, pos); } OFCondition DRTIonBeamSequence::Item::getNumberOfWedges(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(NumberOfWedges, value, pos); } OFCondition DRTIonBeamSequence::Item::getNumberOfWedges(Sint32 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmIntegerString &, NumberOfWedges).getSint32(value, pos); } OFCondition DRTIonBeamSequence::Item::getPatientSupportAccessoryCode(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(PatientSupportAccessoryCode, value, pos); } OFCondition DRTIonBeamSequence::Item::getPatientSupportID(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(PatientSupportID, value, pos); } OFCondition DRTIonBeamSequence::Item::getPatientSupportType(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(PatientSupportType, value, pos); } OFCondition DRTIonBeamSequence::Item::getPrimaryDosimeterUnit(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(PrimaryDosimeterUnit, value, pos); } OFCondition DRTIonBeamSequence::Item::getRadiationAtomicNumber(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(RadiationAtomicNumber, value, pos); } OFCondition DRTIonBeamSequence::Item::getRadiationAtomicNumber(Sint32 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmIntegerString &, RadiationAtomicNumber).getSint32(value, pos); } OFCondition DRTIonBeamSequence::Item::getRadiationChargeState(Sint16 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmSignedShort &, RadiationChargeState).getSint16(value, pos); } OFCondition DRTIonBeamSequence::Item::getRadiationMassNumber(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(RadiationMassNumber, value, pos); } OFCondition DRTIonBeamSequence::Item::getRadiationMassNumber(Sint32 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmIntegerString &, RadiationMassNumber).getSint32(value, pos); } OFCondition DRTIonBeamSequence::Item::getRadiationType(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(RadiationType, value, pos); } OFCondition DRTIonBeamSequence::Item::getReferencedPatientSetupNumber(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(ReferencedPatientSetupNumber, value, pos); } OFCondition DRTIonBeamSequence::Item::getReferencedPatientSetupNumber(Sint32 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmIntegerString &, ReferencedPatientSetupNumber).getSint32(value, pos); } OFCondition DRTIonBeamSequence::Item::getReferencedToleranceTableNumber(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(ReferencedToleranceTableNumber, value, pos); } OFCondition DRTIonBeamSequence::Item::getReferencedToleranceTableNumber(Sint32 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmIntegerString &, ReferencedToleranceTableNumber).getSint32(value, pos); } OFCondition DRTIonBeamSequence::Item::getScanMode(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(ScanMode, value, pos); } OFCondition DRTIonBeamSequence::Item::getTotalBlockTrayWaterEquivalentThickness(Float32 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmFloatingPointSingle &, TotalBlockTrayWaterEquivalentThickness).getFloat32(value, pos); } OFCondition DRTIonBeamSequence::Item::getTotalCompensatorTrayWaterEquivalentThickness(Float32 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmFloatingPointSingle &, TotalCompensatorTrayWaterEquivalentThickness).getFloat32(value, pos); } OFCondition DRTIonBeamSequence::Item::getTotalWedgeTrayWaterEquivalentThickness(Float32 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmFloatingPointSingle &, TotalWedgeTrayWaterEquivalentThickness).getFloat32(value, pos); } OFCondition DRTIonBeamSequence::Item::getTreatmentDeliveryType(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(TreatmentDeliveryType, value, pos); } OFCondition DRTIonBeamSequence::Item::getTreatmentMachineName(OFString &value, const signed long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return getStringValueFromElement(TreatmentMachineName, value, pos); } OFCondition DRTIonBeamSequence::Item::getVirtualSourceAxisDistances(Float32 &value, const unsigned long pos) const { if (EmptyDefaultItem) return EC_IllegalCall; else return OFconst_cast(DcmFloatingPointSingle &, VirtualSourceAxisDistances).getFloat32(value, pos); } OFCondition DRTIonBeamSequence::Item::setBeamDescription(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmShortText::checkStringValue(value) : EC_Normal; if (result.good()) result = BeamDescription.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setBeamName(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmLongString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = BeamName.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setBeamNumber(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmIntegerString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = BeamNumber.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setBeamType(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmCodeString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = BeamType.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setDeviceSerialNumber(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmLongString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = DeviceSerialNumber.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setFinalCumulativeMetersetWeight(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmDecimalString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = FinalCumulativeMetersetWeight.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setFixationEye(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmCodeString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = FixationEye.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setFixationLightAzimuthalAngle(const Float32 value, const unsigned long pos) { if (EmptyDefaultItem) return EC_IllegalCall; else return FixationLightAzimuthalAngle.putFloat32(value, pos); } OFCondition DRTIonBeamSequence::Item::setFixationLightPolarAngle(const Float32 value, const unsigned long pos) { if (EmptyDefaultItem) return EC_IllegalCall; else return FixationLightPolarAngle.putFloat32(value, pos); } OFCondition DRTIonBeamSequence::Item::setInstitutionAddress(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmShortText::checkStringValue(value) : EC_Normal; if (result.good()) result = InstitutionAddress.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setInstitutionName(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmLongString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = InstitutionName.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setInstitutionalDepartmentName(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmLongString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = InstitutionalDepartmentName.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setManufacturer(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmLongString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = Manufacturer.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setManufacturerModelName(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmLongString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = ManufacturerModelName.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setModulatedScanModeType(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmCodeString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = ModulatedScanModeType.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setNumberOfBlocks(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmIntegerString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = NumberOfBlocks.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setNumberOfBoli(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmIntegerString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = NumberOfBoli.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setNumberOfCompensators(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmIntegerString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = NumberOfCompensators.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setNumberOfControlPoints(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmIntegerString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = NumberOfControlPoints.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setNumberOfLateralSpreadingDevices(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmIntegerString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = NumberOfLateralSpreadingDevices.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setNumberOfRangeModulators(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmIntegerString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = NumberOfRangeModulators.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setNumberOfRangeShifters(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmIntegerString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = NumberOfRangeShifters.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setNumberOfWedges(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmIntegerString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = NumberOfWedges.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setPatientSupportAccessoryCode(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmLongString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = PatientSupportAccessoryCode.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setPatientSupportID(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmShortString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = PatientSupportID.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setPatientSupportType(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmCodeString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = PatientSupportType.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setPrimaryDosimeterUnit(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmCodeString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = PrimaryDosimeterUnit.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setRadiationAtomicNumber(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmIntegerString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = RadiationAtomicNumber.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setRadiationChargeState(const Sint16 value, const unsigned long pos) { if (EmptyDefaultItem) return EC_IllegalCall; else return RadiationChargeState.putSint16(value, pos); } OFCondition DRTIonBeamSequence::Item::setRadiationMassNumber(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmIntegerString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = RadiationMassNumber.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setRadiationType(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmCodeString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = RadiationType.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setReferencedPatientSetupNumber(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmIntegerString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = ReferencedPatientSetupNumber.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setReferencedToleranceTableNumber(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmIntegerString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = ReferencedToleranceTableNumber.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setScanMode(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmCodeString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = ScanMode.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setTotalBlockTrayWaterEquivalentThickness(const Float32 value, const unsigned long pos) { if (EmptyDefaultItem) return EC_IllegalCall; else return TotalBlockTrayWaterEquivalentThickness.putFloat32(value, pos); } OFCondition DRTIonBeamSequence::Item::setTotalCompensatorTrayWaterEquivalentThickness(const Float32 value, const unsigned long pos) { if (EmptyDefaultItem) return EC_IllegalCall; else return TotalCompensatorTrayWaterEquivalentThickness.putFloat32(value, pos); } OFCondition DRTIonBeamSequence::Item::setTotalWedgeTrayWaterEquivalentThickness(const Float32 value, const unsigned long pos) { if (EmptyDefaultItem) return EC_IllegalCall; else return TotalWedgeTrayWaterEquivalentThickness.putFloat32(value, pos); } OFCondition DRTIonBeamSequence::Item::setTreatmentDeliveryType(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmCodeString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = TreatmentDeliveryType.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setTreatmentMachineName(const OFString &value, const OFBool check) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultItem) { result = (check) ? DcmShortString::checkStringValue(value, "1") : EC_Normal; if (result.good()) result = TreatmentMachineName.putOFStringArray(value); } return result; } OFCondition DRTIonBeamSequence::Item::setVirtualSourceAxisDistances(const Float32 value, const unsigned long pos) { if (EmptyDefaultItem) return EC_IllegalCall; else return VirtualSourceAxisDistances.putFloat32(value, pos); } // --- sequence class --- DRTIonBeamSequence::DRTIonBeamSequence(const OFBool emptyDefaultSequence) : EmptyDefaultSequence(emptyDefaultSequence), SequenceOfItems(), CurrentItem(), EmptyItem(OFTrue /*emptyDefaultItem*/) { CurrentItem = SequenceOfItems.end(); } DRTIonBeamSequence::DRTIonBeamSequence(const DRTIonBeamSequence ©) : EmptyDefaultSequence(copy.EmptyDefaultSequence), SequenceOfItems(), CurrentItem(), EmptyItem(OFTrue /*emptyDefaultItem*/) { /* create a copy of the internal sequence of items */ Item *item = NULL; OFListConstIterator(Item *) current = copy.SequenceOfItems.begin(); const OFListConstIterator(Item *) last = copy.SequenceOfItems.end(); while (current != last) { item = new Item(**current); if (item != NULL) { SequenceOfItems.push_back(item); } else { /* memory exhausted, there is nothing we can do about it */ break; } ++current; } CurrentItem = SequenceOfItems.begin(); } DRTIonBeamSequence &DRTIonBeamSequence::operator=(const DRTIonBeamSequence ©) { if (this != ©) { clear(); EmptyDefaultSequence = copy.EmptyDefaultSequence; /* create a copy of the internal sequence of items */ Item *item = NULL; OFListConstIterator(Item *) current = copy.SequenceOfItems.begin(); const OFListConstIterator(Item *) last = copy.SequenceOfItems.end(); while (current != last) { item = new Item(**current); if (item != NULL) { SequenceOfItems.push_back(item); } else { /* memory exhausted, there is nothing we can do about it */ break; } ++current; } CurrentItem = SequenceOfItems.begin(); } return *this; } DRTIonBeamSequence::~DRTIonBeamSequence() { clear(); } void DRTIonBeamSequence::clear() { if (!EmptyDefaultSequence) { CurrentItem = SequenceOfItems.begin(); const OFListConstIterator(Item *) last = SequenceOfItems.end(); /* delete all items and free memory */ while (CurrentItem != last) { delete (*CurrentItem); CurrentItem = SequenceOfItems.erase(CurrentItem); } /* make sure that the list is empty */ SequenceOfItems.clear(); CurrentItem = SequenceOfItems.end(); } } OFBool DRTIonBeamSequence::isEmpty() { return SequenceOfItems.empty(); } OFBool DRTIonBeamSequence::isValid() const { return !EmptyDefaultSequence; } size_t DRTIonBeamSequence::getNumberOfItems() const { return SequenceOfItems.size(); } OFCondition DRTIonBeamSequence::gotoFirstItem() { OFCondition result = EC_IllegalCall; if (!SequenceOfItems.empty()) { CurrentItem = SequenceOfItems.begin(); result = EC_Normal; } return result; } OFCondition DRTIonBeamSequence::gotoNextItem() { OFCondition result = EC_IllegalCall; if (CurrentItem != SequenceOfItems.end()) { ++CurrentItem; result = EC_Normal; } return result; } OFCondition DRTIonBeamSequence::gotoItem(const size_t num, OFListIterator(Item *) &iterator) { OFCondition result = EC_IllegalCall; if (!SequenceOfItems.empty()) { size_t idx = num + 1; iterator = SequenceOfItems.begin(); const OFListConstIterator(Item *) last = SequenceOfItems.end(); while ((--idx > 0) && (iterator != last)) ++iterator; /* specified list item found? */ if ((idx == 0) && (iterator != last)) result = EC_Normal; else result = EC_IllegalParameter; } return result; } OFCondition DRTIonBeamSequence::gotoItem(const size_t num, OFListConstIterator(Item *) &iterator) const { OFCondition result = EC_IllegalCall; if (!SequenceOfItems.empty()) { size_t idx = num + 1; iterator = SequenceOfItems.begin(); const OFListConstIterator(Item *) last = SequenceOfItems.end(); while ((--idx > 0) && (iterator != last)) ++iterator; /* specified list item found? */ if ((idx == 0) && (iterator != last)) result = EC_Normal; else result = EC_IllegalParameter; } return result; } OFCondition DRTIonBeamSequence::gotoItem(const size_t num) { return gotoItem(num, CurrentItem); } OFCondition DRTIonBeamSequence::getCurrentItem(Item *&item) const { OFCondition result = EC_IllegalCall; if (CurrentItem != SequenceOfItems.end()) { item = *CurrentItem; result = EC_Normal; } return result; } DRTIonBeamSequence::Item &DRTIonBeamSequence::getCurrentItem() { if (CurrentItem != SequenceOfItems.end()) return **CurrentItem; else return EmptyItem; } const DRTIonBeamSequence::Item &DRTIonBeamSequence::getCurrentItem() const { if (CurrentItem != SequenceOfItems.end()) return **CurrentItem; else return EmptyItem; } OFCondition DRTIonBeamSequence::getItem(const size_t num, Item *&item) { OFListIterator(Item *) iterator; OFCondition result = gotoItem(num, iterator); if (result.good()) item = *iterator; return result; } DRTIonBeamSequence::Item &DRTIonBeamSequence::getItem(const size_t num) { OFListIterator(Item *) iterator; if (gotoItem(num, iterator).good()) return **iterator; else return EmptyItem; } const DRTIonBeamSequence::Item &DRTIonBeamSequence::getItem(const size_t num) const { OFListConstIterator(Item *) iterator; if (gotoItem(num, iterator).good()) return **iterator; else return EmptyItem; } DRTIonBeamSequence::Item &DRTIonBeamSequence::operator[](const size_t num) { return getItem(num); } const DRTIonBeamSequence::Item &DRTIonBeamSequence::operator[](const size_t num) const { return getItem(num); } OFCondition DRTIonBeamSequence::addItem(Item *&item) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultSequence) { item = new Item(); if (item != NULL) { SequenceOfItems.push_back(item); result = EC_Normal; } else result = EC_MemoryExhausted; } return result; } OFCondition DRTIonBeamSequence::insertItem(const size_t pos, Item *&item) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultSequence) { OFListIterator(Item *) iterator; result = gotoItem(pos, iterator); if (result.good()) { item = new Item(); if (item != NULL) { SequenceOfItems.insert(iterator, 1, item); result = EC_Normal; } else result = EC_MemoryExhausted; } else result = addItem(item); } return result; } OFCondition DRTIonBeamSequence::removeItem(const size_t pos) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultSequence) { OFListIterator(Item *) iterator; if (gotoItem(pos, iterator).good()) { delete *iterator; iterator = SequenceOfItems.erase(iterator); result = EC_Normal; } else result = EC_IllegalParameter; } return result; } OFCondition DRTIonBeamSequence::read(DcmItem &dataset, const OFString &card, const OFString &type, const char *moduleName) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultSequence) { /* re-initialize object */ clear(); /* retrieve sequence element from dataset */ DcmSequenceOfItems *sequence; result = dataset.findAndGetSequence(DCM_IonBeamSequence, sequence); if (sequence != NULL) { if (checkElementValue(*sequence, card, type, result, moduleName)) { DcmStack stack; OFBool first = OFTrue; /* iterate over all sequence items */ while (result.good() && sequence->nextObject(stack, first /*intoSub*/).good()) { DcmItem *ditem = OFstatic_cast(DcmItem *, stack.top()); if (ditem != NULL) { Item *item = new Item(); if (item != NULL) { result = item->read(*ditem); if (result.good()) { /* append new item to the end of the list */ SequenceOfItems.push_back(item); first = OFFalse; } } else result = EC_MemoryExhausted; } else result = EC_CorruptedData; } } } else { DcmSequenceOfItems element(DCM_IonBeamSequence); checkElementValue(element, card, type, result, moduleName); } } return result; } OFCondition DRTIonBeamSequence::write(DcmItem &dataset, const OFString &card, const OFString &type, const char *moduleName) { OFCondition result = EC_IllegalCall; if (!EmptyDefaultSequence) { result = EC_MemoryExhausted; DcmSequenceOfItems *sequence = new DcmSequenceOfItems(DCM_IonBeamSequence); if (sequence != NULL) { result = EC_Normal; /* an empty optional sequence is not written */ if ((type == "2") || !SequenceOfItems.empty()) { OFListIterator(Item *) iterator = SequenceOfItems.begin(); const OFListConstIterator(Item *) last = SequenceOfItems.end(); /* iterate over all sequence items */ while (result.good() && (iterator != last)) { DcmItem *item = new DcmItem(); if (item != NULL) { /* append new item to the end of the sequence */ result = sequence->append(item); if (result.good()) { result = (*iterator)->write(*item); ++iterator; } else delete item; } else result = EC_MemoryExhausted; } if (result.good()) { /* insert sequence element into the dataset */ result = dataset.insert(sequence, OFTrue /*replaceOld*/); } if (DCM_dcmrtLogger.isEnabledFor(OFLogger::WARN_LOG_LEVEL)) checkElementValue(*sequence, card, type, result, moduleName); if (result.good()) { /* forget reference to sequence object (avoid deletion below) */ sequence = NULL; } } else if (type == "1") { /* empty type 1 sequence not allowed */ result = RT_EC_InvalidValue; if (DCM_dcmrtLogger.isEnabledFor(OFLogger::WARN_LOG_LEVEL)) checkElementValue(*sequence, card, type, result, moduleName); } /* delete sequence (if not inserted into the dataset) */ delete sequence; } } return result; } // end of source file