protected override void Context() { _observedDataCollection = new ObservedDataCollection(); _displayPathMapper = A.Fake <IQuantityPathToQuantityDisplayPathMapper>(); _dimensionRepository = A.Fake <IDimensionRepository>(); sut = new DataRepositoryToObservedCurveDataMapper(_displayPathMapper, _dimensionRepository); _observedData = new DataRepository(); _baseGrid = new BaseGrid("Time", DomainHelperForSpecs.TimeDimensionForSpecs()); _baseGrid.Values = new[] { 1.0f, 2.0f, 3.0f }; _data = new DataColumn("Col", DomainHelperForSpecs.ConcentrationDimensionForSpecs(), _baseGrid); _data.Values = new[] { 10f, 20f, 30f }; _data.DataInfo.Origin = ColumnOrigins.Observation; _observedData.Add(_data); _errorArithmetic = new DataColumn("ErrorArithmetic", _data.Dimension, _baseGrid); _errorArithmetic.Values = new[] { 1.0f, 2.2f, 3.3f }; _errorArithmetic.DataInfo.AuxiliaryType = AuxiliaryType.ArithmeticStdDev; _errorGeometric = new DataColumn("ErrorGeometric", DomainHelperForSpecs.NoDimension(), _baseGrid); _errorGeometric.Values = new[] { 1.0f, 1.2f, 1.3f }; _errorGeometric.DataInfo.AuxiliaryType = AuxiliaryType.GeometricStdDev; _observedDataCollection.AddObservedData(_observedData); _curveOptions = _observedDataCollection.ObservedDataCurveOptionsFor(_data).CurveOptions; _curveOptions.Color = Color.Aqua; _curveOptions.LineStyle = LineStyles.Dot; _curveOptions.Symbol = Symbols.Diamond; }
protected override void Context() { base.Context(); _pkValues = new PKValues(); _pkValues.AddValue("P1", 10f); _pkValues.AddValue("P2", 10f); _mode = PKParameterMode.Single; _drugName = "TOTO"; _pk1 = new PKParameter { Mode = _mode, Name = "P1", Dimension = DomainHelperForSpecs.ConcentrationDimensionForSpecs() }; _pk2 = new PKParameter { Mode = _mode, Name = "P2", Dimension = DomainHelperForSpecs.ConcentrationDimensionForSpecs() }; _pk3 = new PKParameter { Mode = PKParameterMode.Multi, Name = "P3" }; var baseGrid = new BaseGrid("Time", DomainHelperForSpecs.TimeDimensionForSpecs()); _col = new DataColumn("COL", DomainHelperForSpecs.ConcentrationDimensionForSpecs(), baseGrid) { DataInfo = { MolWeight = 150 } }; A.CallTo(() => _pkParameterRepository.All()).Returns(new [] { _pk1, _pk2, _pk3 }); A.CallTo(() => _parameterFactory.CreateFor(A <string> ._, A <double> ._, A <string> ._, PKSimBuildingBlockType.Simulation)) .ReturnsLazily(x => DomainHelperForSpecs.ConstantParameterWithValue(x.GetArgument <double>(1)).WithName(x.GetArgument <string>(0))); }
protected override void Context() { base.Context(); var timeDimension = DomainHelperForSpecs.TimeDimensionForSpecs(); var concDimension = DomainHelperForSpecs.ConcentrationDimensionForSpecs(); _xAxis = new AxisData(timeDimension, timeDimension.DefaultUnit, Scalings.Linear) { Caption = "X" }; _yAxis = new AxisData(concDimension, concDimension.DefaultUnit, Scalings.Linear) { Caption = "Y" }; _chartData = new ChartData <TimeProfileXValue, TimeProfileYValue>(_xAxis, null, null, null); var pane1 = new PaneData <TimeProfileXValue, TimeProfileYValue>(_yAxis) { Caption = "Male" }; var pane2 = new PaneData <TimeProfileXValue, TimeProfileYValue>(_yAxis) { Caption = "Female" }; _chartData.AddPane(pane1); _chartData.AddPane(pane2); var curve1 = new CurveData <TimeProfileXValue, TimeProfileYValue> { Caption = "Liver" }; curve1.Add(new TimeProfileXValue(1), new TimeProfileYValue { Y = 10 }); curve1.Add(new TimeProfileXValue(2), new TimeProfileYValue { LowerValue = 20, UpperValue = 30 }); pane1.AddCurve(curve1); var curve2 = new CurveData <TimeProfileXValue, TimeProfileYValue> { Caption = "Kidney" }; curve2.Add(new TimeProfileXValue(3), new TimeProfileYValue { Y = 40 }); pane2.AddCurve(curve2); _observedData = DomainHelperForSpecs.ObservedData(); var displayPathMapper = A.Fake <IQuantityPathToQuantityDisplayPathMapper>(); var dimensionRepository = A.Fake <IDimensionRepository>(); var observedDataMapper = new DataRepositoryToObservedCurveDataMapper(displayPathMapper, dimensionRepository); var obserevdDataCurves = observedDataMapper.MapFrom(_observedData, new ObservedDataCollection(), concDimension); obserevdDataCurves.Each(pane1.AddObservedCurve); observedDataMapper.MapFrom(_observedData, new ObservedDataCollection(), concDimension).Each(curve => { curve.Visible = false; pane1.AddObservedCurve(curve); }); }
protected override void Context() { base.Context(); var timeDimension = DomainHelperForSpecs.TimeDimensionForSpecs(); var concDimension = DomainHelperForSpecs.ConcentrationDimensionForSpecs(); _xAxis = new AxisData(timeDimension, timeDimension.DefaultUnit, Scalings.Linear) { Caption = "X" }; _yAxis = new AxisData(concDimension, concDimension.DefaultUnit, Scalings.Linear) { Caption = "Y" }; _chartData = new ChartData <RangeXValue, RangeYValue>(_xAxis, null); var pane1 = new PaneData <RangeXValue, RangeYValue>(_yAxis) { Caption = "Male" }; var pane2 = new PaneData <RangeXValue, RangeYValue>(_yAxis) { Caption = "Female" }; _chartData.AddPane(pane1); _chartData.AddPane(pane2); var curve1 = new CurveData <RangeXValue, RangeYValue> { Caption = "Liver" }; curve1.Add(new RangeXValue(1) { Minimum = 0, Maximum = 1.5f, NumberOfItems = 5 }, new RangeYValue { LowerPercentile = 10, Median = 20, UpperPercentile = 30 }); curve1.Add(new RangeXValue(2) { Minimum = 1.8f, Maximum = 2.5f, NumberOfItems = 10 }, new RangeYValue { LowerPercentile = 20, Median = 30, UpperPercentile = 40 }); pane1.AddCurve(curve1); var curve2 = new CurveData <RangeXValue, RangeYValue> { Caption = "Kidney" }; curve2.Add(new RangeXValue(3) { Minimum = 2f, Maximum = 4f, NumberOfItems = 15 }, new RangeYValue { LowerPercentile = 30, Median = 40, UpperPercentile = 50 }); pane2.AddCurve(curve2); }
protected override void Context() { base.Context(); _simulation = new IndividualSimulation { DataRepository = new DataRepository() }; _baseGrid = new BaseGrid("Time", DomainHelperForSpecs.TimeDimensionForSpecs()) { Values = new[] { 10f, 20f, 30f } }; _dataColumn1 = new DataColumn("C1", DomainHelperForSpecs.ConcentrationDimensionForSpecs(), _baseGrid) { DataInfo = { Origin = ColumnOrigins.Calculation }, QuantityInfo = { Path = new[] { "C1", "Concentration" } }, Values = new[] { 11f, 21f, 31f } }; _dataColumn2 = new DataColumn("C2", DomainHelperForSpecs.ConcentrationDimensionForSpecs(), _baseGrid) { DataInfo = { Origin = ColumnOrigins.Calculation }, QuantityInfo = { Path = new[] { "C2", "Concentration" } }, Values = new[] { 12f, 22f, 32f } }; _simulation.DataRepository.Add(_dataColumn1); _simulation.DataRepository.Add(_dataColumn2); //Setup global PK analysis _globalPKAnalysis = new GlobalPKAnalysis(); var c1Container = new Container().WithName("C1"); c1Container.Add(DomainHelperForSpecs.ConstantParameterWithValue(0.5).WithName(CoreConstants.PKAnalysis.FractionAbsorbed)); var c2Container = new Container().WithName("C2"); c2Container.Add(DomainHelperForSpecs.ConstantParameterWithValue(1).WithName(CoreConstants.PKAnalysis.FractionAbsorbed)); _globalPKAnalysis.Add(c1Container); _globalPKAnalysis.Add(c2Container); _pkC1 = new PKAnalysis { DomainHelperForSpecs.ConstantParameterWithValue(1).WithName(Constants.PKParameters.MRT), DomainHelperForSpecs.ConstantParameterWithValue(2).WithName(Constants.PKParameters.Tmax) }; _pkC2 = new PKAnalysis { DomainHelperForSpecs.ConstantParameterWithValue(3).WithName(Constants.PKParameters.MRT), DomainHelperForSpecs.ConstantParameterWithValue(4).WithName(Constants.PKParameters.Tmax) }; A.CallTo(() => _pkMapper.MapFrom(_dataColumn1, A <PKValues> ._, A <PKParameterMode> ._, "C1")).Returns(_pkC1); A.CallTo(() => _pkMapper.MapFrom(_dataColumn2, A <PKValues> ._, A <PKParameterMode> ._, "C2")).Returns(_pkC2); _defaultNumberOfRules = DomainHelperForSpecs.ConstantParameterWithValue(3).Rules.Count; }
protected override async Task Context() { await base.Context(); _snapshot = await sut.MapToSnapshot(_dataRepository); _baseGrid = new BaseGrid("baseGrid", DomainHelperForSpecs.TimeDimensionForSpecs()); _mappedDataColumn = new DataColumn("DataColumn", DomainHelperForSpecs.ConcentrationDimensionForSpecs(), _baseGrid); _mappedRelatedColumn = new DataColumn("RelatedColumn", DomainHelperForSpecs.ConcentrationDimensionForSpecs(), _baseGrid); _mappedDataColumn.AddRelatedColumn(_mappedRelatedColumn); A.CallTo(() => _dataColumnMapper.MapToModel(_snapshot.BaseGrid, A <SnapshotContextWithDataRepository> ._)).Returns(_baseGrid); A.CallTo(() => _dataColumnMapper.MapToModel(_snapshot.Columns.First(), A <SnapshotContextWithDataRepository> ._)).Returns(_mappedDataColumn); }
protected override void Context() { base.Context(); var timeDimension = DomainHelperForSpecs.TimeDimensionForSpecs(); var concDimension = DomainHelperForSpecs.ConcentrationDimensionForSpecs(); _xAxis = new AxisData(timeDimension, timeDimension.DefaultUnit, Scalings.Linear) { Caption = "X" }; _yAxis = new AxisData(concDimension, concDimension.DefaultUnit, Scalings.Linear) { Caption = "Y" }; _chartData = new ChartData <TimeProfileXValue, TimeProfileYValue>(_xAxis, null, null, null); var pane1 = new PaneData <TimeProfileXValue, TimeProfileYValue>(_yAxis) { Caption = "Male" }; var pane2 = new PaneData <TimeProfileXValue, TimeProfileYValue>(_yAxis) { Caption = "Female" }; _chartData.AddPane(pane1); _chartData.AddPane(pane2); var curve1 = new CurveData <TimeProfileXValue, TimeProfileYValue> { Caption = "Liver" }; curve1.Add(new TimeProfileXValue(1), new TimeProfileYValue { Y = 10 }); curve1.Add(new TimeProfileXValue(2), new TimeProfileYValue { LowerValue = 20, UpperValue = 30 }); pane1.AddCurve(curve1); var curve2 = new CurveData <TimeProfileXValue, TimeProfileYValue> { Caption = "Kidney" }; curve2.Add(new TimeProfileXValue(3), new TimeProfileYValue { Y = 40 }); pane2.AddCurve(curve2); }
protected override void Context() { _objectPathFactory = new ObjectPathFactoryForSpecs(); _dataColumnToPathElementsMapper = A.Fake <IDataColumnToPathElementsMapper>(); _pathToPathElementsMapper = A.Fake <IPathToPathElementsMapper>(); sut = new PKSimQuantityPathToQuantityDisplayPathMapper(_objectPathFactory, _pathToPathElementsMapper, _dataColumnToPathElementsMapper); _root = new Container().WithName("ROOT"); var baseGrid = new BaseGrid("Time", DomainHelperForSpecs.TimeDimensionForSpecs()); _column = new DataColumn("Conc", DomainHelperForSpecs.ConcentrationDimensionForSpecs(), baseGrid); _individualSimulation = new IndividualSimulation { Model = new OSPSuite.Core.Domain.Model { Root = _root } }; }
protected override void Context() { _entityPathResolver = new EntityPathResolverForSpecs(); _representationInfoRepository = new RepresentationInfoRepositoryForSpecs(); sut = new PKSimPathToPathElementsMapper(_representationInfoRepository, _entityPathResolver); _organism = new Organism(); _venousBlood = new Organ().WithName(CoreConstants.Organ.VenousBlood).WithParentContainer(_organism); _liver = new Organ().WithName(CoreConstants.Organ.Liver).WithParentContainer(_organism); _kidney = new Organ().WithName(CoreConstants.Organ.Kidney).WithParentContainer(_organism); _liverInt = new Compartment().WithName(CoreConstants.Compartment.Interstitial).WithParentContainer(_liver); _liverCell = new Compartment().WithName(CoreConstants.Compartment.Intracellular).WithParentContainer(_liver); _kidneyUrine = new Compartment().WithName(CoreConstants.Compartment.URINE).WithParentContainer(_kidney); _gallBladder = new Organ().WithName(CoreConstants.Organ.Gallbladder).WithParentContainer(_organism); _lumen = new Organ().WithName(CoreConstants.Organ.Lumen).WithParentContainer(_organism); _peripheralVenousBlood = new Container().WithName(CoreConstants.Organ.PeripheralVenousBlood).WithParentContainer(_organism); _smallIntestine = new Organ().WithName(CoreConstants.Organ.SmallIntestine).WithParentContainer(_organism); _mucosa = new Compartment().WithName(CoreConstants.Compartment.Mucosa).WithParentContainer(_smallIntestine); _mucosa_duo = new Compartment().WithName(CoreConstants.Compartment.Duodenum).WithParentContainer(_mucosa); _mucosa_duo_interstitial = new Compartment().WithName(CoreConstants.Compartment.Interstitial).WithParentContainer(_mucosa_duo); _events = new Container().WithName(Constants.EVENTS); _eventGroup = new EventGroup().WithName("E1").WithParentContainer(_events); _plasma = new Compartment().WithName(CoreConstants.Compartment.Plasma).WithParentContainer(_venousBlood); _drugContainerVenousBlood = new Container().WithName(_drugName).WithContainerType(ContainerType.Molecule).WithParentContainer(_venousBlood); _drugContainerPeripheralVenousBlood = new Container().WithName(_drugName).WithContainerType(ContainerType.Molecule).WithParentContainer(_peripheralVenousBlood); _drugContainerGallBladder = new Container().WithName(_drugName).WithContainerType(ContainerType.Molecule).WithParentContainer(_gallBladder); _drugContainerInLumen = new Container().WithName(_drugName).WithContainerType(ContainerType.Molecule).WithParentContainer(_lumen); _drugContainerInLiverCell = new Container().WithName(_drugName).WithContainerType(ContainerType.Molecule).WithParentContainer(_liverCell); _drug = new MoleculeAmount().WithName(_drugName).WithParentContainer(_plasma); _drugUrineKidney = new MoleculeAmount().WithName(_drugName).WithParentContainer(_kidneyUrine); _applications = new Container().WithName(Constants.APPLICATIONS); _application1 = new EventGroup().WithName("App").WithParentContainer(_applications).WithContainerType(ContainerType.EventGroup); _formulation = new Container().WithName("F1").WithParentContainer(_application1); _neighborhoods = new Container().WithName(Constants.NEIGHBORHOODS); _liverCellToLiverIntNeighborhood = new Neighborhood { FirstNeighbor = _liverInt, SecondNeighbor = _liverCell }.WithParentContainer(_neighborhoods); _concentrationDimension = DomainHelperForSpecs.ConcentrationDimensionForSpecs(); _fractionDimension = DomainHelperForSpecs.FractionDimensionForSpecs(); }
protected override void Context() { base.Context(); var dim = DomainHelperForSpecs.ConcentrationDimensionForSpecs(); _populationDataCollector = A.Fake <IPopulationDataCollector>(); _chartData = new ChartData <TimeProfileXValue, TimeProfileYValue>(new AxisData(dim, dim.DefaultUnit, Scalings.Linear), null); var pane = new PaneData <TimeProfileXValue, TimeProfileYValue>(new AxisData(dim, dim.DefaultUnit, Scalings.Linear)); _chartData.AddPane(pane); var curve = new CurveData <TimeProfileXValue, TimeProfileYValue>() { Pane = pane, QuantityPath = "PATH", }; curve.Add(new TimeProfileXValue(1), new TimeProfileYValue { Y = 10 }); curve.Add(new TimeProfileXValue(2), new TimeProfileYValue { Y = 20 }); pane.AddCurve(curve); var rangeCurve = new CurveData <TimeProfileXValue, TimeProfileYValue>() { Pane = pane, QuantityPath = "RANGE_PATH", }; rangeCurve.Add(new TimeProfileXValue(1), new TimeProfileYValue { Y = 10, LowerValue = 1, UpperValue = 2 }); pane.AddCurve(rangeCurve); A.CallTo(() => _populationDataCollector.MolWeightFor("PATH")).Returns(100); A.CallTo(() => _pkMapper.MapFrom(A <DataColumn> ._, A <PKValues> ._, A <PKParameterMode> ._, A <string> ._)) .Invokes(x => _dataColumn = x.GetArgument <DataColumn>(0)); }
protected override void Context() { _dimensionRepository = A.Fake <IDimensionRepository>(); _representationInfoRepository = A.Fake <IRepresentationInfoRepository>(); _lazyLoadTask = A.Fake <ILazyLoadTask>(); _observedCurveDataMapper = A.Fake <IDataRepositoryToObservedCurveDataMapper>(); _statisticalAnalysis = new PopulationStatisticalAnalysis(); _genderField = ChartDataHelperForSpecs.CreateGenderField(); _statisticalAnalysis.Add(_genderField); _statisticalAnalysis.Add(_outputFieldVenousBloodPlasma); _statisticalAnalysis.Add(_outputFieldLiverCell); _predefinedStatisticalAggregation = new PredefinedStatisticalAggregation { Selected = true }; _percentileStatisticalAggregation = new PercentileStatisticalAggregation { Selected = false, Percentile = 50 }; _statisticalAnalysis.AddStatistic(_predefinedStatisticalAggregation); _statisticalAnalysis.AddStatistic(_percentileStatisticalAggregation); A.CallTo(() => _representationInfoRepository.DisplayNameFor(_predefinedStatisticalAggregation)).Returns(_singleCurveId); A.CallTo(() => _representationInfoRepository.DisplayNameFor(_percentileStatisticalAggregation)).Returns(_percentileId); _statisticalDataCalculator = new StatisticalDataCalculator(); _pivotResultCreator = A.Fake <IPivotResultCreator>(); _mergedDimensionVenousBloodPlasma = DomainHelperForSpecs.ConcentrationDimensionForSpecs(); _mergedDimensionLiverCell = DomainHelperForSpecs.FractionDimensionForSpecs(); A.CallTo(() => _dimensionRepository.MergedDimensionFor(A <IWithDimension> ._)) .WhenArgumentsMatch((IWithDimension context) => Equals((context as NumericFieldContext)?.NumericValueField, _outputFieldVenousBloodPlasma)) .Returns(_mergedDimensionVenousBloodPlasma); A.CallTo(() => _dimensionRepository.MergedDimensionFor(A <IWithDimension> ._)) .WhenArgumentsMatch((IWithDimension context) => Equals((context as NumericFieldContext)?.NumericValueField, _outputFieldLiverCell)) .Returns(_mergedDimensionLiverCell); sut = new TimeProfileChartDataCreator(_dimensionRepository, _pivotResultCreator, _representationInfoRepository, _statisticalDataCalculator, _lazyLoadTask, _observedCurveDataMapper); }
protected override void Context() { base.Context(); var alternative = new ParameterAlternative(); A.CallTo(() => _objectBaseFactory.Create <ParameterAlternative>()).Returns(alternative); A.CallTo(() => _objectBaseFactory.Create <ConstantFormula>()).Returns(new ConstantFormula()); _compoundParameterGroup.Name = CoreConstants.Groups.COMPOUND_SOLUBILITY; _templateSolubilityTable = DomainHelperForSpecs.ConstantParameterWithValue().WithName(CoreConstants.Parameters.SOLUBILITY_TABLE); _templateSolubilityTable.GroupName = CoreConstants.Groups.COMPOUND_SOLUBILITY; _solubilityTable = DomainHelperForSpecs.ConstantParameterWithValue().WithName(CoreConstants.Parameters.SOLUBILITY_TABLE); _solubilityTable.Dimension = DomainHelperForSpecs.ConcentrationDimensionForSpecs(); A.CallTo(() => _cloner.Clone(_templateSolubilityTable)).Returns(_solubilityTable); var compound = new Compound { _templateSolubilityTable }; _compoundParameterGroup.ParentContainer = compound; _tableFormula = new TableFormula(); A.CallTo(() => _formulaFactory.CreateTableFormula(false)).Returns(_tableFormula); }
protected override Task Context() { _dimensionRepository = A.Fake <IDimensionRepository>(); _objectBaseFactory = A.Fake <IObjectBaseFactory>(); _formulaUsablePathMapper = new FormulaUsablePathMapper(_dimensionRepository); sut = new ExplicitFormulaMapper(_objectBaseFactory, _formulaUsablePathMapper, _dimensionRepository); _dimension1 = DomainHelperForSpecs.ConcentrationDimensionForSpecs(); _dimension2 = DomainHelperForSpecs.TimeDimensionForSpecs(); _formula = new ExplicitFormula("P1+P2+P3+P4") { Dimension = _dimension1 }; _formula.AddObjectPath(new FormulaUsablePath("A", "B", "C") { Alias = "P1", Dimension = _dimension1 }); _formula.AddObjectPath(new FormulaUsablePath("A", "B") { Alias = "P2", Dimension = _dimension2 }); _formula.AddObjectPath(new FormulaUsablePath("A") { Alias = "P3", Dimension = Constants.Dimension.NO_DIMENSION }); _formula.AddObjectPath(new FormulaUsablePath("A") { Alias = "P4" }); A.CallTo(() => _dimensionRepository.DimensionByName(_dimension1.Name)).Returns(_dimension1); A.CallTo(() => _objectBaseFactory.Create <ExplicitFormula>()).Returns(new ExplicitFormula()); return(_completed); }
protected override Task Context() { _groupingDefinitionMapper = A.Fake <GroupingDefinitionMapper>(); _dimension = DomainHelperForSpecs.ConcentrationDimensionForSpecs(); _mergedDimension = DomainHelperForSpecs.TimeDimensionForSpecs(); _unit = _mergedDimension.Unit("h"); // this unit is defined in the merged dimension but not in the field dimension _dimensionRepository = A.Fake <IDimensionRepository>(); sut = new PopulationAnalysisFieldMapper(_groupingDefinitionMapper, _dimensionRepository); _groupingItem1 = new GroupingItem(); _parameterField = new PopulationAnalysisParameterField { Name = "P", ParameterPath = "A|B", Scaling = Scalings.Linear, Dimension = _dimension, DisplayUnit = _unit }; _pkParameterField = new PopulationAnalysisPKParameterField { Name = "PK", Dimension = _dimension, DisplayUnit = _unit, PKParameter = "AUC", QuantityPath = "A|B|C", QuantityType = QuantityType.Observer | QuantityType.Drug }; _outputField = new PopulationAnalysisOutputField { Name = "Output", Dimension = _dimension, DisplayUnit = _unit, QuantityType = QuantityType.BaseGrid, QuantityPath = "A|B|C", Color = Color.AntiqueWhite }; _groupingDefinition = new FixedLimitsGroupingDefinition("AA"); _groupingField = new PopulationAnalysisGroupingField(_groupingDefinition) { Name = "Grouping", }; _covariateField = new PopulationAnalysisCovariateField { Name = "Gender", Covariate = "Gender", }; _covariateField.AddGroupingItem(_groupingItem1); _snapshotGroupingDefinition = new Snapshots.GroupingDefinition(); A.CallTo(() => _groupingDefinitionMapper.MapToSnapshot(_groupingDefinition)).Returns(_snapshotGroupingDefinition); A.CallTo(() => _dimensionRepository.DimensionByName(_dimension.Name)).Returns(_dimension); A.CallTo(() => _dimensionRepository.MergedDimensionFor(A <INumericValueField> ._)).Returns(_mergedDimension); return(_completed); }