/// <summary> /// Evaluates this constraint against the given data graph /// </summary> internal override RDFValidationReport ValidateConstraint(RDFShapesGraph shapesGraph, RDFGraph dataGraph, RDFShape shape, RDFPatternMember focusNode, List <RDFPatternMember> valueNodes) { RDFValidationReport report = new RDFValidationReport(); //Search for given node shape RDFNodeShape nodeShape = shapesGraph.SelectShape(this.NodeShapeUri.ToString()) as RDFNodeShape; if (nodeShape == null) { return(report); } #region Evaluation foreach (RDFPatternMember valueNode in valueNodes) { RDFValidationReport nodeShapeReport = RDFValidationEngine.ValidateShape(shapesGraph, dataGraph, nodeShape, new List <RDFPatternMember>() { valueNode }); if (!nodeShapeReport.Conforms) { report.AddResult(new RDFValidationResult(shape, RDFVocabulary.SHACL.NODE_CONSTRAINT_COMPONENT, focusNode, shape is RDFPropertyShape ? ((RDFPropertyShape)shape).Path : null, valueNode, shape.Messages, shape.Severity)); } } #endregion return(report); }
/// <summary> /// Evaluates this constraint against the given data graph /// </summary> internal override RDFValidationReport ValidateConstraint(RDFShapesGraph shapesGraph, RDFGraph dataGraph, RDFShape shape, RDFPatternMember focusNode, List <RDFPatternMember> valueNodes) { RDFValidationReport report = new RDFValidationReport(); //Search for given qualified value shape RDFShape qualifiedValueShape = shapesGraph.SelectShape(this.QualifiedValueShapeUri.ToString()); if (qualifiedValueShape == null) { return(report); } #region Evaluation if (this.QualifiedValueMinCount.HasValue || this.QualifiedValueMaxCount.HasValue) { int conformingValues = 0; foreach (RDFPatternMember valueNode in valueNodes) { RDFValidationReport qualifiedValueShapeReport = RDFValidationEngine.ValidateShape(shapesGraph, dataGraph, qualifiedValueShape, new List <RDFPatternMember>() { valueNode }); if (qualifiedValueShapeReport.Conforms) { conformingValues++; } } if (this.QualifiedValueMinCount.HasValue && conformingValues < this.QualifiedValueMinCount) { report.AddResult(new RDFValidationResult(shape, RDFVocabulary.SHACL.QUALIFIED_MIN_COUNT_CONSTRAINT_COMPONENT, focusNode, shape is RDFPropertyShape ? ((RDFPropertyShape)shape).Path : null, null, shape.Messages, shape.Severity)); } if (this.QualifiedValueMaxCount.HasValue && conformingValues > this.QualifiedValueMaxCount) { report.AddResult(new RDFValidationResult(shape, RDFVocabulary.SHACL.QUALIFIED_MAX_COUNT_CONSTRAINT_COMPONENT, focusNode, shape is RDFPropertyShape ? ((RDFPropertyShape)shape).Path : null, null, shape.Messages, shape.Severity)); } } #endregion return(report); }
/// <summary> /// Evaluates this constraint against the given data graph /// </summary> internal override RDFValidationReport ValidateConstraint(RDFShapesGraph shapesGraph, RDFGraph dataGraph, RDFShape shape, RDFPatternMember focusNode, List <RDFPatternMember> valueNodes) { RDFValidationReport report = new RDFValidationReport(); //Search for given and shapes List <RDFShape> andShapes = new List <RDFShape>(); foreach (RDFResource andShapeUri in this.AndShapes.Values) { RDFShape andShape = shapesGraph.SelectShape(andShapeUri.ToString()); if (andShape != null) { andShapes.Add(andShape); } } #region Evaluation foreach (RDFPatternMember valueNode in valueNodes) { bool valueNodeConforms = true; foreach (RDFShape andShape in andShapes) { RDFValidationReport andShapeReport = RDFValidationEngine.ValidateShape(shapesGraph, dataGraph, andShape, new List <RDFPatternMember>() { valueNode }); if (!andShapeReport.Conforms) { valueNodeConforms = false; break; } } if (!valueNodeConforms) { report.AddResult(new RDFValidationResult(shape, RDFVocabulary.SHACL.AND_CONSTRAINT_COMPONENT, focusNode, shape is RDFPropertyShape ? ((RDFPropertyShape)shape).Path : null, valueNode, shape.Messages, shape.Severity)); } } #endregion return(report); }
/// <summary> /// Evaluates this constraint against the given data graph /// </summary> internal override RDFValidationReport ValidateConstraint(RDFShapesGraph shapesGraph, RDFGraph dataGraph, RDFShape shape, RDFPatternMember focusNode, List <RDFPatternMember> valueNodes) { RDFValidationReport report = new RDFValidationReport(); //Search for given xone shapes List <RDFShape> xoneShapes = new List <RDFShape>(); foreach (RDFResource xoneShapeUri in this.XoneShapes.Values) { RDFShape xoneShape = shapesGraph.SelectShape(xoneShapeUri.ToString()); if (xoneShape != null) { xoneShapes.Add(xoneShape); } } #region Evaluation foreach (RDFPatternMember valueNode in valueNodes) { int valueNodeConformsCounter = 0; foreach (RDFShape xoneShape in xoneShapes) { RDFValidationReport xoneShapeReport = RDFValidationEngine.ValidateShape(shapesGraph, dataGraph, xoneShape, new List <RDFPatternMember>() { valueNode }); if (xoneShapeReport.Conforms) { valueNodeConformsCounter++; } } if (valueNodeConformsCounter != 1) { report.AddResult(new RDFValidationResult(shape, RDFVocabulary.SHACL.XONE_CONSTRAINT_COMPONENT, focusNode, shape is RDFPropertyShape ? ((RDFPropertyShape)shape).Path : null, valueNode, shape.Messages, shape.Severity)); } } #endregion return(report); }
/// <summary> /// Evaluates this constraint against the given data graph /// </summary> internal override RDFValidationReport ValidateConstraint(RDFShapesGraph shapesGraph, RDFGraph dataGraph, RDFShape shape, RDFPatternMember focusNode, List <RDFPatternMember> valueNodes) { RDFValidationReport report = new RDFValidationReport(); //Search for given property shape RDFPropertyShape propertyShape = shapesGraph.SelectShape(this.PropertyShapeUri.ToString()) as RDFPropertyShape; if (propertyShape == null) { return(report); } #region Evaluation RDFValidationReport propertyShapeReport = RDFValidationEngine.ValidateShape(shapesGraph, dataGraph, propertyShape, valueNodes); if (!propertyShapeReport.Conforms) { report.MergeResults(propertyShapeReport); } #endregion return(report); }