コード例 #1
0
        /// <summary>
        /// Creates a new Open Connection Form
        /// </summary>
        /// <param name="g">Graph contaning Connection Definitions</param>
        public OpenConnectionForm(IGraph g)
        {
            InitializeComponent();

            //Find connections defined in the Configuration Graph
            this._g = g;
            INode genericManager = ConfigurationLoader.CreateConfigurationNode(g, ConfigurationLoader.ClassGenericManager);
            INode rdfsLabel = g.CreateUriNode(new Uri(NamespaceMapper.RDFS + "label"));

            SparqlParameterizedString getConnections = new SparqlParameterizedString();
            getConnections.QueryText = "SELECT ?obj ?label WHERE { ?obj a @type . OPTIONAL { ?obj @label ?label } } ORDER BY ?label";
            getConnections.SetParameter("type", genericManager);
            getConnections.SetParameter("label", rdfsLabel);

            Object results = this._g.ExecuteQuery(getConnections.ToString());
            if (results is SparqlResultSet)
            {
                SparqlResultSet rset = (SparqlResultSet)results;
                foreach (SparqlResult r in rset)
                {
                    this._connectionNodes.Add(r["obj"]);
                    if (r.HasValue("label"))
                    {
                        this.lstConnections.Items.Add(r["label"]);
                    }
                    else
                    {
                        this.lstConnections.Items.Add(r["obj"]);
                    }
                }
            }
        }
コード例 #2
0
        private IEnumerable<SparqlUpdateCommand> GetDeleteDataCommands(IEnumerable<RomanticWeb.Model.EntityQuad> quads)
        {
            foreach (var quad in quads)
            {
                SparqlParameterizedString insert = new SparqlParameterizedString(DeleteDataCommandText);
                insert.SetParameter("subject", quad.Subject.UnWrapNode(_nodeFactory));
                insert.SetParameter("predicate", quad.Predicate.UnWrapNode(_nodeFactory));
                insert.SetParameter("object", quad.Object.UnWrapNode(_nodeFactory));
                insert.SetUri("graph", quad.Graph.UnWrapGraphUri());

                foreach (var command in _parser.ParseFromString(insert).Commands)
                {
                    yield return command;
                }
            }
        }
コード例 #3
0
        public void SetParameterShouldIgnoreParameterPrefixChar()
        {
            var sut = new SparqlParameterizedString("SELECT * WHERE { ?s a @o }");

            sut.SetParameter("@o", new NodeFactory().CreateLiteralNode("test"));

            Assert.Equal("SELECT * WHERE { ?s a \"test\" }", sut.ToString());
        }
コード例 #4
0
        public void ShouldReplaceParameterStartingWithUnderscore()
        {
            var sut = new SparqlParameterizedString("SELECT * WHERE { ?s a @_o }");

            sut.SetParameter("_o", new NodeFactory().CreateLiteralNode("test"));

            Assert.Equal("SELECT * WHERE { ?s a \"test\" }", sut.ToString());
        }
コード例 #5
0
        public void Core445_ParsingTest()
        {
            Random randomizer = new Random();
            SparqlParameterizedString command = new SparqlParameterizedString("SELECT * FROM <urn:with@char> FROM <urn:with?or$char> WHERE { ?subject rdfs:subClassOf ? $c . $c rdfs:label \"string literal with lang tag @inLiteralParamPattern \"@en }");

            command.SetVariable("subject", g.CreateUriNode(UriFactory.Create("urn:some-uri")));
            command.SetVariable("c", g.CreateUriNode(UriFactory.Create("urn:some-uri")));
            command.SetVariable("or", g.CreateUriNode(UriFactory.Create("urn:some-uri")));
            command.SetVariable("char", g.CreateUriNode(UriFactory.Create("urn:some-uri")));
            command.SetParameter("char", g.CreateUriNode(UriFactory.Create("urn:some-uri")));
            command.SetParameter("en", g.CreateUriNode(UriFactory.Create("urn:some-uri")));
            command.SetParameter("inLiteralParamPattern", g.CreateUriNode(UriFactory.Create("urn:some-uri")));
            String output = command.ToString();

            Assert.True(output.Contains("<urn:with@char>"), "In IRI @ characters should not start a parameter capture");
            Assert.True(output.Contains("<urn:with?or$char>"), "In IRI ? and $ characters should not start a variable capture");
            Assert.True(output.Contains("rdfs:subClassOf ? "), "Property path ? quantifier should not start a variable capture");
            Assert.True(output.Contains("@en"), "Language tags should not start a parameter capture");
            Assert.True(output.Contains("@inLiteralParamPattern"), "In string literal @ characters should not start a parameter capture");
        }
コード例 #6
0
        public void SparqlParameterizedStringWithNulls()
        {
            SparqlParameterizedString query = new SparqlParameterizedString();
            query.CommandText = "SELECT * WHERE { @s ?p ?o }";

            //Set a URI to a valid value
            query.SetUri("s", new Uri("http://example.org"));
            Console.WriteLine(query.ToString());
            Console.WriteLine();

            //Set the parameter to a null
            query.SetParameter("s", null);
            Console.WriteLine(query.ToString());
        }
コード例 #7
0
        public void SparqlParameterizedStringWithNulls()
        {
            SparqlParameterizedString query = new SparqlParameterizedString();

            query.CommandText = "SELECT * WHERE { @s ?p ?o }";

            //Set a URI to a valid value
            query.SetUri("s", new Uri("http://example.org"));
            Console.WriteLine(query.ToString());
            Console.WriteLine();

            //Set the parameter to a null
            query.SetParameter("s", null);
            Console.WriteLine(query.ToString());
        }
コード例 #8
0
        /// <summary>
        /// Queries the Store using the Graph Pattern specified by the set of Statement Patterns
        /// </summary>
        /// <param name="graph">Graph Pattern</param>
        /// <param name="options">Query Options</param>
        /// <param name="sink">Results Sink</param>
        /// <remarks>
        /// <para>
        /// Implemented by converting the Statement Patterns into a SPARQL SELECT query and executing that against the underlying Store's SPARQL engine
        /// </para>
        /// <para>
        /// The only Query Option that is supported is the Limit option
        /// </para>
        /// </remarks>
        public void Query(Statement[] graph, SW.Query.QueryOptions options, SW.Query.QueryResultSink sink)
        {
            //Implement as a SPARQL SELECT
            SparqlParameterizedString queryString = new SparqlParameterizedString();
            queryString.QueryText = "SELECT * WHERE {";

            int p = 0;
            foreach (Statement stmt in graph)
            {
                //Add Subject
                queryString.QueryText += "\n";
                if (stmt.Subject is Variable)
                {
                    queryString.QueryText += stmt.Subject.ToString();
                }
                else
                {
                    queryString.QueryText += "@param" + p;
                    queryString.SetParameter("param" + p, SemWebConverter.FromSemWeb(stmt.Subject, this._mapping));
                    p++;
                }
                queryString.QueryText += " ";

                //Add Predicate
                if (stmt.Predicate is Variable)
                {
                    queryString.QueryText += stmt.Predicate.ToString();
                }
                else
                {
                    queryString.QueryText += "@param" + p;
                    queryString.SetParameter("param" + p, SemWebConverter.FromSemWeb(stmt.Predicate, this._mapping));
                    p++;
                }
                queryString.QueryText += " ";

                //Add Object
                if (stmt.Object is Variable)
                {
                    queryString.QueryText += stmt.Object.ToString();
                }
                else
                {
                    queryString.QueryText += "@param" + p;
                    queryString.SetParameter("param" + p, SemWebConverter.FromSemWeb(stmt.Object, this._mapping));
                    p++;
                }
                queryString.QueryText += " .";
            }

            queryString.QueryText += "}";

            //Execute the Query and convert the Results
            Object results = this._store.ExecuteQuery(queryString.ToString());

            if (results is SparqlResultSet)
            {
                SparqlResultSet rset = (SparqlResultSet)results;
                sink.Init(rset.Variables.Select(v => new Variable(v)).ToArray());
                if (rset.Count > 0)
                {
                    int c = 0;
                    foreach (SparqlResult r in rset)
                    {
                        //Apply Limit if applicable
                        if (options.Limit > 0 && c >= options.Limit)
                        {
                            sink.Finished();
                            return;
                        }

                        //Convert the Set to VariableBindings for SemWeb
                        Variable[] vars = r.Variables.Select(v => new Variable(v)).ToArray();
                        Resource[] resources = r.Variables.Select(v => SemWebConverter.ToSemWeb(r[v], this._mapping)).ToArray();
                        SW.Query.VariableBindings bindings = new SW.Query.VariableBindings(vars, resources);

                        //Keep adding results until the sink tells us to stop
                        if (!sink.Add(bindings))
                        {
                            sink.Finished();
                            return;
                        }
                        c++;
                    }
                    sink.Finished();
                }
                else
                {
                    sink.Finished();
                }
            }
            else
            {
                throw new RdfQueryException("Query returned an unexpected result where a SPARQL Result Set was expected");
            }
        }
コード例 #9
0
ファイル: HtmlSchemaWriter.cs プロジェクト: jbunzel/MvcRQ_git
        /// <summary>
        /// Internal method which generates the HTML Output for the Graph
        /// </summary>
        /// <param name="context">Writer Context</param>
        private void GenerateOutput(HtmlWriterContext context)
        {
            Object results;

            //Add the Namespaces we want to use later on
            context.QNameMapper.AddNamespace("owl", new Uri(NamespaceMapper.OWL));
            context.QNameMapper.AddNamespace("rdf", new Uri(NamespaceMapper.RDF));
            context.QNameMapper.AddNamespace("rdfs", new Uri(NamespaceMapper.RDFS));
            context.QNameMapper.AddNamespace("dc", new Uri("http://purl.org/dc/elements/1.1/"));
            context.QNameMapper.AddNamespace("dct", new Uri("http://purl.org/dc/terms/"));
            context.QNameMapper.AddNamespace("vann", new Uri("http://purl.org/vocab/vann/"));
            context.QNameMapper.AddNamespace("vs", new Uri("http://www.w3.org/2003/06/sw-vocab-status/ns#"));

            //Find the Node that represents the Schema Ontology
            //Assumes there is exactly one thing given rdf:type owl:Ontology
            IUriNode ontology = context.Graph.CreateUriNode(new Uri(NamespaceMapper.OWL + "Ontology"));
            IUriNode rdfType = context.Graph.CreateUriNode(new Uri(RdfSpecsHelper.RdfType));
            IUriNode rdfsLabel = context.Graph.CreateUriNode(new Uri(NamespaceMapper.RDFS + "label"));
            INode ontoNode = context.Graph.GetTriplesWithPredicateObject(rdfType, ontology).Select(t => t.Subject).FirstOrDefault();
            INode ontoLabel = (ontoNode != null) ? context.Graph.GetTriplesWithSubjectPredicate(ontoNode, rdfsLabel).Select(t => t.Object).FirstOrDefault() : null;

            //Stuff for formatting
            //We'll use the Turtle Formatter to get nice QNames wherever possible
            context.NodeFormatter = new TurtleFormatter(context.QNameMapper);
            context.UriFormatter = (IUriFormatter)context.NodeFormatter;

            //Page Header
            context.HtmlWriter.Write("<!DOCTYPE html PUBLIC \"-//W3C//DTD XHTML+RDFa 1.0//EN\" \"http://www.w3.org/MarkUp/DTD/xhtml-rdfa-1.dtd\">");
            context.HtmlWriter.WriteLine();
            context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.Html);
            context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.Head);
            context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.Title);
            context.HtmlWriter.WriteEncodedText("Schema");
            if (ontoNode != null && ontoLabel != null)
            {
                context.HtmlWriter.WriteEncodedText(" - " + ontoLabel.ToSafeString());
            }
            else if (context.Graph.BaseUri != null)
            {
                context.HtmlWriter.WriteEncodedText(" - " + context.Graph.BaseUri.ToString());
            }
            context.HtmlWriter.RenderEndTag();
            if (!this.Stylesheet.Equals(String.Empty))
            {
                context.HtmlWriter.AddAttribute(HtmlTextWriterAttribute.Href, this.Stylesheet);
                context.HtmlWriter.AddAttribute(HtmlTextWriterAttribute.Type, "text/css");
                context.HtmlWriter.AddAttribute(HtmlTextWriterAttribute.Rel, "stylesheet");
                context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.Link);
                context.HtmlWriter.RenderEndTag();
            }
            context.HtmlWriter.RenderEndTag();
#if !NO_WEB
            context.HtmlWriter.WriteLine();
#endif

            //Start Body
            context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.Body);

            //Title
            context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.H2);
            context.HtmlWriter.WriteEncodedText("Schema");
            if (ontoNode != null && ontoLabel != null)
            {
                context.HtmlWriter.WriteEncodedText(" - " + ontoLabel.ToSafeString());
            }
            else if (context.Graph.BaseUri != null)
            {
                context.HtmlWriter.WriteEncodedText(" - " + context.Graph.BaseUri.ToString());
            }
            context.HtmlWriter.RenderEndTag();
#if !NO_WEB
            context.HtmlWriter.WriteLine();
#endif

            //Show the Description of the Schema (if any)
            if (ontoNode != null)
            {
                SparqlParameterizedString getOntoDescrip = new SparqlParameterizedString();
                getOntoDescrip.Namespaces = context.QNameMapper;
                getOntoDescrip.CommandText = "SELECT * WHERE { @onto a owl:Ontology . OPTIONAL { @onto rdfs:comment ?description } . OPTIONAL { @onto vann:preferredNamespacePrefix ?nsPrefix ; vann:preferredNamespaceUri ?nsUri } . OPTIONAL { @onto dc:creator ?creator . ?creator (foaf:name | rdfs:label) ?creatorName } }";
                getOntoDescrip.SetParameter("onto", ontoNode);

                try 
                {
                    results = context.Graph.ExecuteQuery(getOntoDescrip);
                    if (results is SparqlResultSet)
                    {
                        if (!((SparqlResultSet)results).IsEmpty)
                        {
                            SparqlResult ontoInfo = ((SparqlResultSet)results)[0];

                            //Show rdfs:comment on the Ontology
                            if (ontoInfo.HasValue("description"))
                            {
                                INode descrip = ontoInfo["description"];
                                if (descrip.NodeType == NodeType.Literal)
                                {
                                    context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.P);
                                    context.HtmlWriter.Write(((ILiteralNode)descrip).Value);
                                    context.HtmlWriter.RenderEndTag();
#if !NO_WEB
                                    context.HtmlWriter.WriteLine();
#endif
                                }
                            }

                            //Show Author Information
                            if (ontoInfo.HasValue("creator"))
                            {
                                INode author = ontoInfo["creator"];
                                INode authorName = ontoInfo["creatorName"];
                                context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.P);
                                context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.Em);
                                context.HtmlWriter.WriteEncodedText("Schema created by ");
                                if (author.NodeType == NodeType.Uri)
                                {
                                    context.HtmlWriter.AddAttribute("href", ((IUriNode)author).Uri.ToString());
                                    context.HtmlWriter.AddAttribute(HtmlTextWriterAttribute.Class, this.CssClassUri);
                                    context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.A);
                                }
                                switch (authorName.NodeType)
                                {
                                    case NodeType.Uri:
                                        context.HtmlWriter.WriteEncodedText(((IUriNode)authorName).Uri.ToString());
                                        break;
                                    case NodeType.Literal:
                                        context.HtmlWriter.WriteEncodedText(((ILiteralNode)authorName).Value);
                                        break;
                                    default:
                                        context.HtmlWriter.WriteEncodedText(authorName.ToString());
                                        break;
                                }
                                if (author.NodeType == NodeType.Uri) context.HtmlWriter.RenderEndTag();
                                context.HtmlWriter.RenderEndTag();
                                context.HtmlWriter.RenderEndTag();
#if !NO_WEB
                                context.HtmlWriter.WriteLine();
#endif
                            }

                            //Show the Namespace information for the Schema
                            if (ontoInfo.HasValue("nsPrefix"))
                            {
                                if (ontoInfo["nsPrefix"].NodeType == NodeType.Literal && ontoInfo["nsUri"].NodeType == NodeType.Uri)
                                {
                                    //Add this QName to the QName Mapper so we can get nice QNames later on
                                    String prefix = ((ILiteralNode)ontoInfo["nsPrefix"]).Value;
                                    context.QNameMapper.AddNamespace(prefix, ((IUriNode)ontoInfo["nsUri"]).Uri);

                                    context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.H4);
                                    context.HtmlWriter.WriteEncodedText("Preferred Namespace Definition");
                                    context.HtmlWriter.RenderEndTag();

#if !NO_WEB
                                    context.HtmlWriter.WriteLine();
#endif

                                    //Show human readable description of preferred Namespace Settings
                                    context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.P);
                                    context.HtmlWriter.WriteEncodedText("Preferred Namespace Prefix is ");
                                    context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.Strong);
                                    context.HtmlWriter.WriteEncodedText(prefix);
                                    context.HtmlWriter.RenderEndTag();
                                    context.HtmlWriter.WriteEncodedText(" and preferred Namespace URI is ");
                                    context.HtmlWriter.AddAttribute(HtmlTextWriterAttribute.Href, context.QNameMapper.GetNamespaceUri(prefix).ToString());
                                    context.HtmlWriter.AddAttribute(HtmlTextWriterAttribute.Class, this.CssClassUri);
                                    context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.A);
                                    context.HtmlWriter.WriteEncodedText(context.QNameMapper.GetNamespaceUri(prefix).ToString());
                                    context.HtmlWriter.RenderEndTag();
                                    context.HtmlWriter.RenderEndTag();

                                    //RDF/XML Syntax
                                    context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.H5);
                                    context.HtmlWriter.WriteEncodedText("RDF/XML Syntax");
                                    context.HtmlWriter.RenderEndTag();
#if !NO_WEB
                                    context.HtmlWriter.WriteLine();
#endif
                                    context.HtmlWriter.AddStyleAttribute(HtmlTextWriterStyle.Width, "90%");
                                    context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.Pre);
                                    context.HtmlWriter.WriteEncodedText("<?xml version=\"1.0\" charset=\"utf-8\"?>");
                                    context.HtmlWriter.WriteLine();
                                    context.HtmlWriter.WriteEncodedText("<rdf:RDF xmlns:rdf=\"" + NamespaceMapper.RDF + "\" xmlns:" + prefix + "=\"" + context.UriFormatter.FormatUri(context.QNameMapper.GetNamespaceUri(prefix)) + "\">");
                                    context.HtmlWriter.WriteLine();
                                    context.HtmlWriter.WriteEncodedText("   <!-- Your RDF here... -->");
                                    context.HtmlWriter.WriteLine();
                                    context.HtmlWriter.WriteEncodedText("</rdf:RDF>");
                                    context.HtmlWriter.RenderEndTag();
#if !NO_WEB
                                    context.HtmlWriter.WriteLine();
#endif

                                    //Turtle/N3 Syntax
                                    context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.H5);
                                    context.HtmlWriter.WriteEncodedText("Turtle/N3 Syntax");
                                    context.HtmlWriter.RenderEndTag();
#if !NO_WEB
                                    context.HtmlWriter.WriteLine();
#endif
                                    context.HtmlWriter.AddStyleAttribute(HtmlTextWriterStyle.Width, "90%");
                                    context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.Pre);
                                    context.HtmlWriter.WriteEncodedText("@prefix " + prefix + ": <" + context.UriFormatter.FormatUri(context.QNameMapper.GetNamespaceUri(prefix)) + "> .");
                                    context.HtmlWriter.RenderEndTag();
#if !NO_WEB
                                    context.HtmlWriter.WriteLine();
#endif

                                    //SPARQL Syntax
                                    context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.H5);
                                    context.HtmlWriter.WriteEncodedText("SPARQL Syntax");
                                    context.HtmlWriter.RenderEndTag();
#if !NO_WEB
                                    context.HtmlWriter.WriteLine();
#endif
                                    context.HtmlWriter.AddStyleAttribute(HtmlTextWriterStyle.Width, "90%");
                                    context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.Pre);
                                    context.HtmlWriter.WriteEncodedText("PREFIX " + prefix + ": <" + context.UriFormatter.FormatUri(context.QNameMapper.GetNamespaceUri(prefix)) + ">");
                                    context.HtmlWriter.RenderEndTag();
#if !NO_WEB
                                    context.HtmlWriter.WriteLine();
#endif
                                }
                            }
                        }
                    }
                    else
                    {
                        throw new RdfOutputException("Tried to make a SPARQL Query to determine Schema Information but an unexpected Query Result was returned");
                    }
                }
                catch (RdfQueryException queryEx)
                {
                    throw new RdfOutputException("Tried to make a SPARQL Query to determine Schema Information but a Query Error occurred", queryEx);
                }
            }

            //Show lists of all Classes and Properties in the Schema
            context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.H4);
            context.HtmlWriter.WriteEncodedText("Class and Property Summary");
            context.HtmlWriter.RenderEndTag();
#if !NO_WEB
            context.HtmlWriter.WriteLine();
#endif

            context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.P);
            context.HtmlWriter.WriteEncodedText("This Schema defines the following classes:");
            context.HtmlWriter.RenderEndTag();
#if !NO_WEB
            context.HtmlWriter.WriteLine();
#endif
            context.HtmlWriter.AddStyleAttribute("width", "90%");
            context.HtmlWriter.AddAttribute(HtmlTextWriterAttribute.Class, this.CssClassBox);
            context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.P);

            //Get the Classes and Display
            SparqlParameterizedString getClasses = new SparqlParameterizedString();
            getClasses.Namespaces = context.QNameMapper;
            getClasses.CommandText = "SELECT DISTINCT ?class WHERE { { ?class a rdfs:Class } UNION { ?class a owl:Class } FILTER(ISURI(?class)) } ORDER BY ?class";
            try
            {
                results = context.Graph.ExecuteQuery(getClasses);
                if (results is SparqlResultSet)
                {
                    SparqlResultSet rs = (SparqlResultSet)results;
                    for (int i = 0; i < rs.Count; i++)
                    {
                        SparqlResult r = rs[i];

                        //Get the QName and output a Link to an anchor that we'll generate later to let
                        //users jump to a Class/Property definition
                        String qname = context.NodeFormatter.Format(r["class"]);
                        context.HtmlWriter.AddAttribute("href", "#" + qname);
                        context.HtmlWriter.AddAttribute(HtmlTextWriterAttribute.Class, this.CssClassUri);
                        context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.A);
                        context.HtmlWriter.WriteEncodedText(qname);
                        context.HtmlWriter.RenderEndTag();

                        if (i < rs.Count - 1)
                        {
                            context.HtmlWriter.WriteEncodedText(" , ");
                        }
                    }
                }
                else
                {
                    throw new RdfOutputException("Tried to make a SPARQL Query to find Classes in the Schema but an unexpected Query Result was returned");
                }
            }
            catch (RdfQueryException queryEx)
            {
                throw new RdfOutputException("Tried to make a SPARQL Query to find Classes in the Schema but a Query Error occurred", queryEx);
            }

            context.HtmlWriter.RenderEndTag();
#if !NO_WEB
            context.HtmlWriter.WriteLine();
#endif

            context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.P);
            context.HtmlWriter.WriteEncodedText("This Schema defines the following properties:");
            context.HtmlWriter.RenderEndTag();
#if !NO_WEB
            context.HtmlWriter.WriteLine();
#endif
            context.HtmlWriter.AddStyleAttribute("width", "90%");
            context.HtmlWriter.AddAttribute(HtmlTextWriterAttribute.Class, this.CssClassBox);
            context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.P);

            //Get the Properties and Display
            SparqlParameterizedString getProperties = new SparqlParameterizedString();
            getProperties.Namespaces = context.QNameMapper;
            getProperties.CommandText = "SELECT DISTINCT ?property WHERE { { ?property a rdf:Property } UNION { ?property a owl:DatatypeProperty } UNION { ?property a owl:ObjectProperty } FILTER(ISURI(?property)) } ORDER BY ?property";
            try
            {
                results = context.Graph.ExecuteQuery(getProperties);
                if (results is SparqlResultSet)
                {
                    SparqlResultSet rs = (SparqlResultSet)results;
                    for (int i = 0; i < rs.Count; i++)
                    {
                        SparqlResult r = rs[i];

                        //Get the QName and output a Link to an anchor that we'll generate later to let
                        //users jump to a Class/Property definition
                        String qname = context.NodeFormatter.Format(r["property"]);
                        context.HtmlWriter.AddAttribute("href", "#" + qname);
                        context.HtmlWriter.AddAttribute(HtmlTextWriterAttribute.Class, this.CssClassUri);
                        context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.A);
                        context.HtmlWriter.WriteEncodedText(qname);
                        context.HtmlWriter.RenderEndTag();

                        if (i < rs.Count - 1)
                        {
                            context.HtmlWriter.WriteEncodedText(" , ");
                        }
                    }
                }
                else
                {
                    throw new RdfOutputException("Tried to make a SPARQL Query to find Properties in the Schema but an unexpected Query Result was returned");
                }
            }
            catch (RdfQueryException queryEx)
            {
                throw new RdfOutputException("Tried to make a SPARQL Query to find Properties in the Schema but a Query Error occurred", queryEx);
            }

            context.HtmlWriter.RenderEndTag();
#if !NO_WEB
            context.HtmlWriter.WriteLine();
#endif

            //Show details for each class
            context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.H3);
            context.HtmlWriter.WriteEncodedText("Classes");
            context.HtmlWriter.RenderEndTag();
#if !NO_WEB
            context.HtmlWriter.WriteLine();
#endif

            //Now create the URI Nodes we need for the next stage of Output
            IUriNode rdfsDomain = context.Graph.CreateUriNode(new Uri(NamespaceMapper.RDFS + "domain"));
            IUriNode rdfsRange = context.Graph.CreateUriNode(new Uri(NamespaceMapper.RDFS + "range"));
            IUriNode rdfsSubClassOf = context.Graph.CreateUriNode(new Uri(NamespaceMapper.RDFS + "subClassOf"));
            IUriNode rdfsSubPropertyOf = context.Graph.CreateUriNode(new Uri(NamespaceMapper.RDFS + "subPropertyOf"));
            IUriNode owlDisjointClass = context.Graph.CreateUriNode(new Uri(NamespaceMapper.OWL + "disjointWith"));
            IUriNode owlEquivalentClass = context.Graph.CreateUriNode(new Uri(NamespaceMapper.OWL + "equivalentClass"));
            IUriNode owlEquivalentProperty = context.Graph.CreateUriNode(new Uri(NamespaceMapper.OWL + "equivalentProperty"));
            IUriNode owlInverseProperty = context.Graph.CreateUriNode(new Uri(NamespaceMapper.OWL + "inverseOf"));

            //Alter our previous getClasses query to get additional details
            getClasses.CommandText = "SELECT ?class (SAMPLE(?label) AS ?classLabel) (SAMPLE(?description) AS ?classDescription) WHERE { { ?class a rdfs:Class } UNION { ?class a owl:Class } FILTER(ISURI(?class)) OPTIONAL { ?class rdfs:label ?label } OPTIONAL { ?class rdfs:comment ?description } } GROUP BY ?class ORDER BY ?class";
            try
            {
                results = context.Graph.ExecuteQuery(getClasses);
                if (results is SparqlResultSet)
                {
                    foreach (SparqlResult r in (SparqlResultSet)results)
                    {
                        String qname = context.NodeFormatter.Format(r["class"]);

                        //Use a <div> for each Class
                        context.HtmlWriter.AddAttribute(HtmlTextWriterAttribute.Class, this.CssClassBox);
                        context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.Div);

                        //Add the Anchor to which earlier Class summary links to
                        context.HtmlWriter.AddAttribute(HtmlTextWriterAttribute.Name, qname);
                        context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.A);
                        context.HtmlWriter.RenderEndTag();

                        //Show Basic Class Information
                        context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.H4);
                        context.HtmlWriter.WriteEncodedText("Class: " + qname);
                        context.HtmlWriter.RenderEndTag();

                        //Show "Local Name - Label"
                        context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.Em);
                        if (TurtleSpecsHelper.IsValidQName(qname))
                        {
                            context.HtmlWriter.WriteEncodedText(qname);
                        }
                        else
                        {
                            Uri temp = new Uri(qname, UriKind.RelativeOrAbsolute);
                            if (!temp.Fragment.Equals(String.Empty))
                            {
                                context.HtmlWriter.WriteEncodedText(temp.Fragment);
                            } 
                            else 
                            {
#if !SILVERLIGHT
                                context.HtmlWriter.WriteEncodedText(temp.Segments.Last());
#else
                                context.HtmlWriter.WriteEncodedText(temp.Segments().Last());
#endif
                            }
                        }
                        context.HtmlWriter.RenderEndTag();
                        if (r.HasValue("classLabel"))
                        {
                            if (r["classLabel"] != null && r["classLabel"].NodeType == NodeType.Literal)
                            {
                                context.HtmlWriter.WriteEncodedText(" - ");
                                context.HtmlWriter.WriteEncodedText(((ILiteralNode)r["classLabel"]).Value);
                            }
                        }
                        context.HtmlWriter.WriteLine();
                        context.HtmlWriter.WriteBreak();
#if !NO_WEB
                        context.HtmlWriter.WriteLine();
#endif
                        //Output further information about the class
                        IEnumerable<Triple> ts;

                        //Output any Subclasses
                        ts = context.Graph.GetTriplesWithSubjectPredicate(rdfsSubClassOf, r["class"]);
                        this.GenerateCaptionedInformation(context, "Has Sub Classes", ts, t => t.Object);

                        //Output Properties which have this as domain/range
                        ts = context.Graph.GetTriplesWithPredicateObject(rdfsDomain, r["class"]);
                        this.GenerateCaptionedInformation(context, "Properties Include", ts, t => t.Subject);
                        ts = context.Graph.GetTriplesWithPredicateObject(rdfsRange, r["class"]);
                        this.GenerateCaptionedInformation(context, "Used With", ts, t => t.Subject);

                        //Output any Equivalent Classes
                        ts = context.Graph.GetTriplesWithSubjectPredicate(r["class"], owlEquivalentClass).Concat(context.Graph.GetTriplesWithPredicateObject(owlEquivalentClass, r["class"]));
                        this.GenerateCaptionedInformation(context, "Equivalent Classes", ts, t => t.Subject.Equals(r["class"]) ? t.Object : t.Subject);
                        //Output any Disjoint Classes
                        ts = context.Graph.GetTriplesWithSubjectPredicate(r["class"], owlDisjointClass).Concat(context.Graph.GetTriplesWithPredicateObject(owlDisjointClass, r["class"]));
                        this.GenerateCaptionedInformation(context, "Disjoint Classes", ts, t => t.Subject.Equals(r["class"]) ? t.Object : t.Subject);

                        //Show the Class Description
                        if (r.HasValue("classDescription"))
                        {
                            if (r["classDescription"] != null && r["classDescription"].NodeType == NodeType.Literal)
                            {
                                context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.P);
                                context.HtmlWriter.Write(((ILiteralNode)r["classDescription"]).Value);
                                context.HtmlWriter.RenderEndTag();
                            }
                        }

                        //End the </div> for the Class
                        context.HtmlWriter.RenderEndTag();
#if !NO_WEB
                        context.HtmlWriter.WriteLine();
#endif
                    }
                }
                else
                {
                    throw new RdfOutputException("Tried to make a SPARQL Query to get Class Information from the Schema but an unexpected Query Result was returned");
                }
            }
            catch (RdfQueryException queryEx)
            {
                throw new RdfOutputException("Tried to make a SPARQL Query to get Class Information from the Schema but a Query Error occurred", queryEx);
            }

            //Show details for each property
            context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.H3);
            context.HtmlWriter.WriteEncodedText("Properties");
            context.HtmlWriter.RenderEndTag();
#if !NO_WEB
            context.HtmlWriter.WriteLine();
#endif

            //Alter our previous getClasses query to get additional details
            getProperties.CommandText = "SELECT ?property (SAMPLE(?label) AS ?propertyLabel) (SAMPLE(?description) AS ?propertyDescription) WHERE { { ?property a rdf:Property } UNION { ?property a owl:ObjectProperty } UNION { ?property a owl:DatatypeProperty } FILTER(ISURI(?property)) OPTIONAL { ?property rdfs:label ?label } OPTIONAL { ?property rdfs:comment ?description } } GROUP BY ?property ORDER BY ?property";
            try
            {
                results = context.Graph.ExecuteQuery(getProperties);
                if (results is SparqlResultSet)
                {
                    foreach (SparqlResult r in (SparqlResultSet)results)
                    {
                        String qname = context.NodeFormatter.Format(r["property"]);

                        //Use a <div> for each Property
                        context.HtmlWriter.AddAttribute(HtmlTextWriterAttribute.Class, this.CssClassBox);
                        context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.Div);

                        //Add the Anchor to which earlier Property summary links to
                        context.HtmlWriter.AddAttribute(HtmlTextWriterAttribute.Name, qname);
                        context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.A);
                        context.HtmlWriter.RenderEndTag();

                        //Show Basic Property Information
                        context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.H4);
                        context.HtmlWriter.WriteEncodedText("Property: " + qname);
                        context.HtmlWriter.RenderEndTag();

                        //Show "Local Name - Label"
                        context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.Em);
                        if (TurtleSpecsHelper.IsValidQName(qname))
                        {
                            context.HtmlWriter.WriteEncodedText(qname);
                        }
                        else
                        {
                            Uri temp = new Uri(qname, UriKind.RelativeOrAbsolute);
                            if (!temp.Fragment.Equals(String.Empty))
                            {
                                context.HtmlWriter.WriteEncodedText(temp.Fragment);
                            }
                            else
                            {
#if !SILVERLIGHT
                                context.HtmlWriter.WriteEncodedText(temp.Segments.Last());
#else
                                context.HtmlWriter.WriteEncodedText(temp.Segments().Last());
#endif                        
                            }
                        }
                        context.HtmlWriter.RenderEndTag();
                        if (r.HasValue("propertyLabel"))
                        {
                            if (r["propertyLabel"] != null && r["propertyLabel"].NodeType == NodeType.Literal)
                            {
                                context.HtmlWriter.WriteEncodedText(" - ");
                                context.HtmlWriter.WriteEncodedText(((ILiteralNode)r["propertyLabel"]).Value);
                            }
                        }
                        context.HtmlWriter.WriteLine();
                        context.HtmlWriter.WriteBreak();
#if !NO_WEB
                        context.HtmlWriter.WriteLine();
#endif
                        //Output further information about the property
                        IEnumerable<Triple> ts;

                        //Output any Subproperties
                        ts = context.Graph.GetTriplesWithSubjectPredicate(rdfsSubPropertyOf, r["property"]);
                        this.GenerateCaptionedInformation(context, "Has Sub Properties", ts, t => t.Object);

                        //Output Domain and Range
                        ts = context.Graph.GetTriplesWithSubjectPredicate(r["property"], rdfsDomain);
                        this.GenerateCaptionedInformation(context, "Has Domain", ts, t => t.Object);
                        ts = context.Graph.GetTriplesWithSubjectPredicate(r["property"], rdfsRange);
                        this.GenerateCaptionedInformation(context, "Has Range", ts, t => t.Object);

                        //Output any Equivalent Properties
                        ts = context.Graph.GetTriplesWithSubjectPredicate(r["property"], owlEquivalentProperty).Concat(context.Graph.GetTriplesWithPredicateObject(owlEquivalentProperty, r["property"]));
                        this.GenerateCaptionedInformation(context, "Equivalent Properties", ts, t => t.Subject.Equals(r["property"]) ? t.Object : t.Subject);
                        //Output any Disjoint Classes
                        ts = context.Graph.GetTriplesWithSubjectPredicate(r["property"], owlInverseProperty).Concat(context.Graph.GetTriplesWithPredicateObject(owlInverseProperty, r["property"]));
                        this.GenerateCaptionedInformation(context, "Inverse Property", ts, t => t.Subject.Equals(r["property"]) ? t.Object : t.Subject);

                        //Show the Property Description
                        if (r.HasValue("propertyDescription"))
                        {
                            if (r["propertyDescription"] != null && r["propertyDescription"].NodeType == NodeType.Literal)
                            {
                                context.HtmlWriter.RenderBeginTag(HtmlTextWriterTag.P);
                                context.HtmlWriter.Write(((ILiteralNode)r["propertyDescription"]).Value);
                                context.HtmlWriter.RenderEndTag();
                            }
                        }

                        //End the </div> for the Property
                        context.HtmlWriter.RenderEndTag();
#if !NO_WEB
                        context.HtmlWriter.WriteLine();
#endif
                    }
                }
                else
                {
                    throw new RdfOutputException("Tried to make a SPARQL Query to get Property Information from the Schema but an unexpected Query Result was returned");
                }
            }
            catch (RdfQueryException queryEx)
            {
                throw new RdfOutputException("Tried to make a SPARQL Query to get Property Information from the Schema but a Query Error occurred", queryEx);
            }


            //End of Page
            context.HtmlWriter.RenderEndTag(); //End Body
            context.HtmlWriter.RenderEndTag(); //End Html
        }
コード例 #10
0
        protected override bool HasTripleInternal(Triple t)
        {
            if (this._manager is IQueryableGenericIOManager)
            {
                SparqlParameterizedString queryString = new SparqlParameterizedString("ASK WHERE { @subject @predicate @object}");
                queryString.SetParameter("subject", t.Subject);
                queryString.SetParameter("predicate", t.Predicate);
                queryString.SetParameter("object", t.Object);

                Object results = ((IQueryableGenericIOManager)this._manager).Query(queryString.ToString());
                if (results is SparqlResultSet)
                {
                    SparqlResultSet rset = (SparqlResultSet)results;
                    return rset.ResultsType == SparqlResultsType.Boolean && rset.Result;
                } 
                else 
                {
                    return false;
                }
            }
            else
            {
                throw new dotSesameRepo.RepositoryException("This dotNetRDF Generic Repository does not support detecting whether a given Statement exists in the Store");
            }
        }
コード例 #11
0
        private IEnumerable<SparqlUpdateCommand> GetInsertCommands(Uri entityGraphUri, EntityId entityId, string entityPatterns, IDictionary<string, INode> variables, bool withDelete = true)
        {
            SparqlParameterizedString modify = new SparqlParameterizedString(
                (withDelete ? DeleteEntityGraphCommandText : System.String.Empty) +
                (entityId is BlankId ? InsertBlankNodeCommandText : InsertEntityCommandText).Replace("@subject @predicate @object . ", entityPatterns));
            modify.SetUri("metaGraph", _metaGraphUri);
            modify.SetUri("graph", entityGraphUri);
            if (!(entityId is BlankId))
            {
                modify.SetUri("entityId", entityId.Uri);
            }

            foreach (var variable in variables)
            {
                modify.SetParameter(variable.Key, variable.Value);
            }

            foreach (var command in _parser.ParseFromString(modify).Commands)
            {
                yield return command;
            }
        }
コード例 #12
0
ファイル: Test.cs プロジェクト: almostEric/DotNetRDF-4.0
        public void RunTest(String[] args)
        {
            if (args.Length < 2)
            {
                Console.Error.WriteLine("rdfWebDeploy: Error: 2 Arguments are required in order to use the -test mode");
                return;
            }

            if (!File.Exists(args[1]))
            {
                Console.Error.WriteLine("rdfWebDeploy: Error: Cannot test " + args[1] + " since the file does not exist");
                return;
            }

            Graph g = new Graph();
            try
            {
                FileLoader.Load(g, args[1]);
            }
            catch (Exception ex)
            {
                Console.Error.WriteLine("rdfWebDeploy: Error: Cannot parse the configuration file");
                Console.Error.WriteLine("rdfWebDeploy: Error: " + ex.Message);
                return;
            }
            Console.WriteLine("rdfWebDeploy: Opened the configuration file successfully");

            Graph vocab = new Graph();
            try
            {
                TurtleParser ttlparser = new TurtleParser();
                ttlparser.Load(vocab, new StreamReader(Assembly.GetAssembly(typeof(IGraph)).GetManifestResourceStream("VDS.RDF.Configuration.configuration.ttl")));
            }
            catch (Exception ex)
            {
                Console.Error.WriteLine("rdfWebDeploy: Error: Cannot parse the configuration vocabulary");
                Console.Error.WriteLine("rdfWebDeploy: Error: " + ex.Message);
                return;
            }
            Console.WriteLine("rdfWebDeploy: Loaded the configuration vocabulary successfully");
            Console.WriteLine();
            Console.WriteLine("rdfWebDeploy: Tests Started...");
            Console.WriteLine();

            //Now make some tests against it
            int warnings = 0, errors = 0;
            IInMemoryQueryableStore store = new TripleStore();
            store.Add(vocab);
            if (g.BaseUri == null) g.BaseUri = new Uri("dotnetrdf:config");
            store.Add(g);
            Object results;
            SparqlResultSet rset;

            //Unknown vocabulary term test
            Console.WriteLine("rdfWebDeploy: Testing for URIs in the vocabulary namespace which are unknown");
            results = store.ExecuteQuery(RdfWebDeployHelper.NamespacePrefixes + UnknownVocabularyTermsTest);
            if (results is SparqlResultSet)
            {
                rset = (SparqlResultSet)results;
                foreach (SparqlResult r in rset)
                {
                    Console.Error.WriteLine("rdfWebDeploy: Error: The configuration file uses the URI '" + r["term"] + "' for a property/type and this does not appear to be a valid term in the Configuration vocabulary");
                    errors++;
                }
            }
            Console.WriteLine();

            #region General dnr:type Tests

            //Missing dnr:type test
            Console.WriteLine("rdfWebDeploy: Testing for missing dnr:type properties");
            results = g.ExecuteQuery(RdfWebDeployHelper.NamespacePrefixes + MissingConfigurationTypeTest);
            if (results is SparqlResultSet)
            {
                rset = (SparqlResultSet)results;
                foreach (SparqlResult r in rset)
                {
                    Console.Error.WriteLine("rdfWebDeploy: Warning: The Node '" + r["s"].ToString() + "' has an rdf:type but no dnr:type which may be needed by the Configuration Loader");
                    warnings++;
                }
            }
            Console.WriteLine();

            //Invalid dnr:type test
            Console.WriteLine("rdfWebDeploy: Testing that values given for dnr:type property are literals");
            results = g.ExecuteQuery(RdfWebDeployHelper.NamespacePrefixes + InvalidTypePropertyTest);
            if (results is SparqlResultSet)
            {
                rset = (SparqlResultSet)results;
                foreach (SparqlResult r in rset)
                {
                    Console.Error.WriteLine("rdfWebDeploy: Error: The node '" + r["s"].ToString() + "' has a dnr:type of '" + r["type"].ToString() + "' which is not given as a string literal");
                    errors++;
                }
            }
            Console.WriteLine();

            //Multiple dnr:type test
            Console.WriteLine("rdfWebDeploy: Testing that no object has multiple dnr:type values");
            results = g.ExecuteQuery(RdfWebDeployHelper.NamespacePrefixes + MultipleTypeTest);
            if (results is SparqlResultSet)
            {
                rset = (SparqlResultSet)results;
                foreach (SparqlResult r in rset)
                {
                    Console.Error.WriteLine("rdfWebDeploy: Error: The node '" + r["s"].ToString() + "' has multiple dnr:type values which is not valid");
                    errors++;
                }
            }
            Console.WriteLine();

            //Unknown Library Types test
            Console.WriteLine("rdfWebDeploy: Testing that values given for dnr:type property in the VDS.RDF namespace are valid");
            results = g.ExecuteQuery(RdfWebDeployHelper.NamespacePrefixes + LibraryTypesTest);
            if (results is SparqlResultSet)
            {
                rset = (SparqlResultSet)results;
                Assembly dotnetrdf = Assembly.GetAssembly(typeof(IGraph));
                foreach (SparqlResult r in rset)
                {
                    Type t = dotnetrdf.GetType(((ILiteralNode)r["type"]).Value);
                    if (t == null)
                    {
                        Console.Error.WriteLine("rdfWebDeploy: Error: The node '" + r["s"].ToString() + "' has a dnr:type of '" + r["type"].ToString() + "' which does not appear to be a valid type in dotNetRDF");
                        errors++;
                    }
                }
            }
            Console.WriteLine();

            #endregion

            #region dnr:HttpHandler Tests including specific dnr:type Tests

            //Bad Handler URI test
            Console.WriteLine("rdfWebDeploy: Testing for bad URIs given the rdf:type of dnr:HttpHandler");
            results = g.ExecuteQuery(RdfWebDeployHelper.NamespacePrefixes + BadHandlerUriTest);
            if (results is SparqlResultSet)
            {
                rset = (SparqlResultSet)results;
                foreach (SparqlResult r in rset)
                {
                    Console.Error.WriteLine("rdfWebDeploy: Error: The Handler node '" + r["s"].ToString() + "' is not a URI of the form <dotnetrdf:/path> which is required for correct detection of handler configuration");
                    errors++;
                }
            }
            Console.WriteLine();

            //Missing Handler type test
            Console.WriteLine("rdfWebDeploy: Testing for missing dnr:type for dnr:HttpHandler objects");
            results = g.ExecuteQuery(RdfWebDeployHelper.NamespacePrefixes + MissingHandlerTypeTest);
            if (results is SparqlResultSet)
            {
                rset = (SparqlResultSet)results;
                foreach (SparqlResult r in rset)
                {
                    Console.Error.WriteLine("rdfWebDeploy: Error: The Handler node '" + r["s"].ToString() + "' has an rdf:type but no dnr:type which is requiring for automated deployment via this tool");
                    errors++;
                }
            }
            Console.WriteLine();

            //Invalid Handler Type test
            Console.WriteLine("rdfWebDeploy: Testing that values given for dnr:type for dnr:HttpHandler objects in the VDS.RDF namespace are valid IHttpHandlers");
            results = g.ExecuteQuery(RdfWebDeployHelper.NamespacePrefixes + InvalidHandlerTypeTest);
            if (results is SparqlResultSet)
            {
                rset = (SparqlResultSet)results;
                Assembly dotnetrdf = Assembly.GetAssembly(typeof(IGraph));
                foreach (SparqlResult r in rset)
                {
                    Type t = dotnetrdf.GetType(((ILiteralNode)r["type"]).Value);
                    if (t != null)
                    {
                        if (!t.GetInterfaces().Any(i => i.Equals(typeof(System.Web.IHttpHandler))))
                        {
                            Console.Error.WriteLine("rdfWebDeploy: Error: The node '" + r["s"].ToString() + "' has a dnr:type of '" + r["type"].ToString() + "' which does not appear to be a valid IHttpHandler implementation in dotNetRDF");
                            errors++;
                        }
                    }
                }
            }
            Console.WriteLine();

            #endregion

            #region Property Tests

            //Range test
            Console.WriteLine("rdfWebDeploy: Testing for bad ranges for properties");
            results = store.ExecuteQuery(RdfWebDeployHelper.NamespacePrefixes + InvalidRangeTest);
            if (results is SparqlResultSet)
            {
                rset = (SparqlResultSet)results;
                foreach (SparqlResult r in rset)
                {
                    SparqlParameterizedString hasValidRange = new SparqlParameterizedString();
                    hasValidRange.QueryText = RdfWebDeployHelper.NamespacePrefixes + ValidRangeTest;
                    hasValidRange.SetParameter("property", r["property"]);
                    hasValidRange.SetParameter("s", r["s"]);
                    Object temp = store.ExecuteQuery(hasValidRange.ToString());
                    if (temp is SparqlResultSet)
                    {
                        if (!((SparqlResultSet)temp).Result)
                        {
                            Console.Error.WriteLine("rdfWebDeploy: Error: The Node '" + r["s"].ToString() + "' has a value for the property '" + r["property"].ToString() + "' which is '" + r["obj"].ToString() + "' which does not appear to be valid for the range of this property which is '" + r["range"].ToString() + "'");
                            errors++;
                        }
                    }
                }
            }
            Console.WriteLine();

            //Domain test
            Console.WriteLine("rdfWebDeploy: Testing for bad domains for properties");
            results = store.ExecuteQuery(RdfWebDeployHelper.NamespacePrefixes + InvalidDomainTest);
            if (results is SparqlResultSet)
            {
                rset = (SparqlResultSet)results;
                foreach (SparqlResult r in rset)
                {
                    SparqlParameterizedString hasValidDomain = new SparqlParameterizedString();
                    hasValidDomain.QueryText = RdfWebDeployHelper.NamespacePrefixes + ValidDomainTest;
                    hasValidDomain.SetParameter("property", r["property"]);
                    hasValidDomain.SetParameter("s", r["s"]);
                    Object temp = store.ExecuteQuery(hasValidDomain.ToString());
                    if (temp is SparqlResultSet)
                    {
                        if (!((SparqlResultSet)temp).Result)
                        {
                            Console.Error.WriteLine("rdfWebDeploy: Error: The Node '" + r["s"].ToString() + "' has a value for the property '" + r["property"].ToString() + "' and the type given is '" + r["type"].ToString() + "' which does not match the domain of this property which is '" + r["domain"].ToString() + "'");
                            errors++;
                        }
                    }
                }
            }
            Console.WriteLine();

            #endregion

            #region Clear Text Password Tests

            Console.WriteLine("rdfWebDeploy: Testing for clear text passwords used with dnr:password property");
            results = store.ExecuteQuery(RdfWebDeployHelper.NamespacePrefixes + ClearTextPasswordTest);
            if (results is SparqlResultSet)
            {
                foreach (SparqlResult r in (SparqlResultSet)results)
                {
                    Console.Error.WriteLine("rdfWebDeploy: Warning: The Node '" + r["s"].ToString() + "' has a value for the dnr:password property specified as a Literal in clear text.  It is recommended that you specify any passwords as AppSetting URIs e.g. <appsetting:MyPassword> and then create an AppSetting in the <appSettings> section of your Web.config file to store your password.  The Web.config file can then have the <appSettings> section encrypted to help protect your password");
                    warnings++;
                }
            }
            Console.WriteLine();

            #endregion

            //Show Test Results
            Console.WriteLine("rdfWedDeploy: Tests Completed - " + warnings + " Warning(s) - " + errors + " Error(s)");
        }
コード例 #13
0
        public static IEnumerable<NamespaceTerm> LoadNamespaceTerms(String namespaceUri)
        {
            //Don't load if already loaded
            if (_loadedNamespaces.Contains(namespaceUri)) return GetNamespaceTerms(namespaceUri);

            try
            {
                Graph g = new Graph();
                try
                {
                    UriLoader.Load(g, new Uri(namespaceUri));
                }
                catch
                {
                    //Try and load from our local copy if there is one
                    String prefix = GetDefaultPrefix(namespaceUri);
                    if (!prefix.Equals(String.Empty))
                    {
                        Stream localCopy = Assembly.GetExecutingAssembly().GetManifestResourceStream("rdfEditor.AutoComplete.Vocabularies." + prefix + ".ttl");
                        if (localCopy != null)
                        {
                            TurtleParser ttlparser = new TurtleParser();
                            ttlparser.Load(g, new StreamReader(localCopy));
                        }
                    }
                }
                List<NamespaceTerm> terms = new List<NamespaceTerm>();
                String termUri;

                //UriNode rdfType = g.CreateUriNode(new Uri(RdfSpecsHelper.RdfType));
                IUriNode rdfsClass = g.CreateUriNode(new Uri(NamespaceMapper.RDFS + "Class"));
                IUriNode rdfsLabel = g.CreateUriNode(new Uri(NamespaceMapper.RDFS + "label"));
                IUriNode rdfsComment = g.CreateUriNode(new Uri(NamespaceMapper.RDFS + "comment"));
                IUriNode rdfProperty = g.CreateUriNode(new Uri(NamespaceMapper.RDF + "Property"));
                IUriNode rdfsDatatype = g.CreateUriNode(new Uri(NamespaceMapper.RDFS + "Datatype"));

                SparqlParameterizedString queryString = new SparqlParameterizedString();
                queryString.CommandText = "SELECT ?term STR(?label) AS ?RawLabel STR(?comment) AS ?RawComment WHERE { {{?term a @class} UNION {?term a @property} UNION {?term a @datatype}} OPTIONAL {?term @label ?label} OPTIONAL {?term @comment ?comment} }";
                queryString.SetParameter("class", rdfsClass);
                queryString.SetParameter("property", rdfProperty);
                queryString.SetParameter("datatype", rdfsDatatype);
                queryString.SetParameter("label", rdfsLabel);
                queryString.SetParameter("comment", rdfsComment);

                Object results = g.ExecuteQuery(queryString.ToString());
                if (results is SparqlResultSet)
                {
                    foreach (SparqlResult r in ((SparqlResultSet)results))
                    {
                        termUri = r["term"].ToString();
                        if (termUri.StartsWith(namespaceUri))
                        {
                            //Use the Comment as the label if available
                            if (r.HasValue("RawComment"))
                            {
                                if (r["RawComment"] != null)
                                {
                                    terms.Add(new NamespaceTerm(namespaceUri, termUri.Substring(namespaceUri.Length), r["RawComment"].ToString()));
                                    continue;
                                }
                            }

                            //Use the Label as the label if available
                            if (r.HasValue("RawLabel"))
                            {
                                if (r["RawLabel"] != null)
                                {
                                    terms.Add(new NamespaceTerm(namespaceUri, termUri.Substring(namespaceUri.Length), r["RawLabel"].ToString()));
                                    continue;
                                }
                            }

                            //Otherwise no label
                            terms.Add(new NamespaceTerm(namespaceUri, termUri.Substring(namespaceUri.Length)));
                        }
                    }
                }

                lock (_terms)
                {
                    terms.RemoveAll(t => _terms.Contains(t));
                    _terms.AddRange(terms.Distinct());
                }
            }
            catch
            {
                //Ignore Exceptions - just means we won't have those namespace terms available
            }
            try
            {
                _loadedNamespaces.Add(namespaceUri);
            }
            catch (NullReferenceException)
            {
                //For some reason .Net sometimes throws a NullReferenceException here which we shall ignore
            }
            return GetNamespaceTerms(namespaceUri);
        }