public void TestSelectNumericAggregators()
{
// Arrange
graph = new RDFGraph();
RDFSelectQuery query;
BuildGraphWithValues(graph);
// Act
query = new RDFSelectQuery();
var x = new RDFVariable("x");
var type = new RDFVariable("type");
var value = new RDFVariable("value");
var patternGroup1 = new RDFPatternGroup("PatternGroup1").AddPattern(new RDFPattern(x, RDF.TYPE, type));
var patternGroup2 = new RDFPatternGroup("PatternGroup2").AddPattern(new RDFPattern(x, RDF.VALUE, value));
query.AddPatternGroup(patternGroup1)
.AddPatternGroup(patternGroup2)
.AddProjectionVariable(type);
var gm = new RDFGroupByModifier(new List <RDFVariable>()
{
type
});
gm.AddAggregator(new RDFAvgAggregator(value, new RDFVariable("avg")));
gm.AddAggregator(new RDFSumAggregator(value, new RDFVariable("sum")));
gm.AddAggregator(new RDFCountAggregator(value, new RDFVariable("count")));
gm.AddAggregator(new RDFMinAggregator(value, new RDFVariable("min"), RDFQueryEnums.RDFMinMaxAggregatorFlavors.Numeric));
gm.AddAggregator(new RDFMaxAggregator(value, new RDFVariable("max"), RDFQueryEnums.RDFMinMaxAggregatorFlavors.Numeric));
query.AddModifier(gm);
var result = query.ApplyToGraph(graph);
// Assert
var row = result.SelectResults.AsEnumerable().ElementAt(0);
// average
string resultStr = (string)row.ItemArray.ElementAt(1);
int resultNum = int.Parse(resultStr.Split('^')[0]);
Assert.AreEqual(30, resultNum);
// sum
resultStr = (string)row.ItemArray.ElementAt(2);
resultNum = int.Parse(resultStr.Split('^')[0]);
Assert.AreEqual(150, resultNum);
// count
resultStr = (string)row.ItemArray.ElementAt(3);
resultNum = int.Parse(resultStr.Split('^')[0]);
Assert.AreEqual(5, resultNum);
// min
resultStr = (string)row.ItemArray.ElementAt(4);
resultNum = int.Parse(resultStr.Split('^')[0]);
Assert.AreEqual(10, resultNum);
// max
resultStr = (string)row.ItemArray.ElementAt(5);
resultNum = int.Parse(resultStr.Split('^')[0]);
Assert.AreEqual(50, resultNum);
}
/// <summary>
/// WORKING WITH SPARQL QUERIES
/// </summary>
private void WorkingWithQueries(RDFGraph graph, RDFResource donaldduck)
{
RDFSelectQuery selectQuery = new RDFSelectQuery();
// CREATE VARIABLE
var x = new RDFVariable("x"); // ?X
var y = new RDFVariable("y"); // ?Y
var n = new RDFVariable("n"); // ?N
var c = new RDFVariable("c"); // ?C
// CREATE PATTERNS
var dogOf = new RDFResource(RDFVocabulary.DC.BASE_URI + "dogOf");
var y_dogOf_x = new RDFPattern(y, dogOf, x); // TRIPLE PATTERN
var c_y_dogOf_x = new RDFPattern(c, y, dogOf, x); // QUADRUPLE PATTERN
// CREATE EMPTY PATTERN GROUP
var pg1 = new RDFPatternGroup("PG1");
// CREATE PATTERN GROUP FROM A LIST OF PATTERNS
var patterns = new List <RDFPattern>()
{
y_dogOf_x
};
var pg2 = new RDFPatternGroup("PG2", patterns);
// ADD PATTERNS TO PATTERN GROUP
pg1.AddPattern(y_dogOf_x);
pg1.AddPattern(c_y_dogOf_x);
// ADD PATTERN GROUPS TO QUERY
selectQuery.AddPatternGroup(pg1);
selectQuery.AddPatternGroup(pg2);
// ADD FILTERS TO PATTERN GROUP
pg1.AddFilter(new RDFSameTermFilter(new RDFVariable("character"), donaldduck));
pg1.AddFilter(new RDFLangMatchesFilter(n, "it-IT"));
// ADD MODIFIERS TO QUERY
selectQuery.AddModifier(new RDFOrderByModifier(n, RDFQueryEnums.RDFOrderByFlavors.ASC));
selectQuery.AddModifier(new RDFDistinctModifier());
selectQuery.AddModifier(new RDFGroupByModifier(new List <RDFVariable> {
x
}));
selectQuery.AddModifier(new RDFLimitModifier(100));
selectQuery.AddModifier(new RDFOffsetModifier(25));
// INITIALIZE PROPERTY PATH (VARIABLE TERMS)
var variablePropPath = new RDFPropertyPath(new RDFVariable("START"), new RDFVariable("END"));
// INITIALIZE PROPERTY PATH (MIXED TERMS)
var mixedPropPath = new RDFPropertyPath(new RDFResource("http://res.org/"), new RDFVariable("END"));
//ADD SEQUENCE STEPS TO PROPERTY PATH
variablePropPath.AddSequenceStep(new
RDFPropertyPathStep(new RDFResource("rdf:P1")));
variablePropPath.AddSequenceStep(new
RDFPropertyPathStep(new RDFResource("rdf:P2")));
//ADD ALTERNATIVE STEPS TO PROPERTY PATH
var altSteps = new List <RDFPropertyPathStep>();
altSteps.Add(new RDFPropertyPathStep(new
RDFResource("rdf:P3")));
altSteps.Add(new RDFPropertyPathStep(new
RDFResource("rdf:P7")));
variablePropPath.AddAlternativeSteps(altSteps);
// ADD INVERSE SEQUENCE STEP TO PROPERTY PATH: ?START ^rdf:INVP ?END
variablePropPath.AddSequenceStep(new RDFPropertyPathStep(new RDFResource("rdf:INVP")).Inverse());
//ADD ALTERNATIVE STEPS (ONE INVERSE) TO PROPERTY PATH: ?START (rdf:P3|^rdf:INVP3) ?END
var altSteps2 = new List <RDFPropertyPathStep>();
altSteps2.Add(new RDFPropertyPathStep(new RDFResource("rdf:P3")));
altSteps2.Add(new RDFPropertyPathStep(new RDFResource("rdf:INVP3")).Inverse());
variablePropPath.AddAlternativeSteps(altSteps2);
// ADD SUBQUERY TO QUERY
RDFSelectQuery mySubQuery = new RDFSelectQuery();
selectQuery.AddSubQuery(mySubQuery);
// ADD AGGREGATORS TO GROUPBY MODIFIER
RDFGroupByModifier gm = new RDFGroupByModifier(new List <RDFVariable> {
x
});
gm.AddAggregator(new RDFAvgAggregator(new RDFVariable("age"), new RDFVariable("avg_age")));
gm.AddAggregator(new RDFCountAggregator(new RDFVariable("dept"), new RDFVariable("count_dept")));
gm.AddAggregator(new RDFGroupConcatAggregator(new RDFVariable("name"), new RDFVariable("gc_name"), "-"));
gm.AddAggregator(new RDFSampleAggregator(new RDFVariable("name"), new RDFVariable("sample_name")));
gm.AddAggregator(new RDFSumAggregator(new RDFVariable("salary"), new RDFVariable("sum_salary")));
gm.AddAggregator(new RDFMinAggregator(new RDFVariable("age"), new RDFVariable("min_age"),
RDFQueryEnums.RDFMinMaxAggregatorFlavors.Numeric)); //?age is expected to have numeric typedliterals
gm.AddAggregator(new RDFMinAggregator(new RDFVariable("city"), new RDFVariable("min_city"),
RDFQueryEnums.RDFMinMaxAggregatorFlavors.String));
gm.AddAggregator(new RDFMaxAggregator(new RDFVariable("salary"), new RDFVariable("max_salary"),
RDFQueryEnums.RDFMinMaxAggregatorFlavors.Numeric)); //?salary is expected to have numeric typedliterals
gm.AddAggregator(new RDFMaxAggregator(new RDFVariable("city"), new RDFVariable("min_city"),
RDFQueryEnums.RDFMinMaxAggregatorFlavors.String));
// It is possible to filter a group - by partitioned set of SPARQL results by applying the SetHavingClause operator on desired aggregators:
// ADD AGGREGATORS TO GROUPBY MODIFIER
RDFModelEnums.RDFDatatypes xsdDbl = RDFModelEnums.RDFDatatypes.XSD_DOUBLE;
RDFModelEnums.RDFDatatypes xsdInt = RDFModelEnums.RDFDatatypes.XSD_INT;
gm.AddAggregator(new RDFAvgAggregator(new RDFVariable("age"), new RDFVariable("avg_age"))
.SetHavingClause(RDFQueryEnums.RDFComparisonFlavors.GreaterThan, new RDFTypedLiteral("25.5", xsdDbl))
);
gm.AddAggregator(new RDFCountAggregator(new RDFVariable("dept"), new RDFVariable("count_dept"))
.SetHavingClause(RDFQueryEnums.RDFComparisonFlavors.EqualTo, new RDFTypedLiteral("4", xsdInt))
);
//Declare the following SPARQL values:
/*
* VALUES (?a ?b ?c) {
* ("1" "2" "3")
* ("2" "4" "6")
* ("3" "6" UNDEF)
* }
*/
RDFValues myValues = new RDFValues()
.AddColumn(new RDFVariable("a"),
new List <RDFPatternMember>()
{
new RDFPlainLiteral("1"),
new RDFPlainLiteral("2"),
new RDFPlainLiteral("3")
})
.AddColumn(new RDFVariable("b"),
new List <RDFPatternMember>()
{
new RDFPlainLiteral("2"),
new RDFPlainLiteral("4"),
new RDFPlainLiteral("6")
})
.AddColumn(new RDFVariable("c"),
new List <RDFPatternMember>()
{
new RDFPlainLiteral("3"),
new RDFPlainLiteral("6"),
null //UNDEF
});
// ADD PROPERTY PATH TO PATTERN GROUP
pg1.AddValues(myValues);
// CREATING AND EXECUTING SELECT QUERIES
// APPLY SELECT QUERY TO GRAPH
RDFSelectQueryResult selectQueryResult = selectQuery.ApplyToGraph(graph);
// APPLY SELECT QUERY TO STORE
//RDFSelectQueryResult selectQueryResult = selectQuery.ApplyToStore(store);
// APPLY SELECT QUERY TO FEDERATION
//RDFSelectQueryResult selectQueryResult = selectQuery.ApplyToFederation(federation);
// EXPORT SELECT QUERY RESULTS TO SPARQL XML FORMAT (FILE)
selectQueryResult.ToSparqlXmlResult(@"C:\TMP\select_results.srq");
// EXPORT SELECT QUERY RESULTS TO SPARQL XML FORMAT (STREAM)
//selectQueryResult.ToSparqlXmlResult(myStream);
// IMPORT SELECT QUERY RESULTS FROM SPARQL XML FORMAT (FILE)
selectQueryResult = RDFSelectQueryResult.FromSparqlXmlResult(@"C:\TMP\select_results.srq");
// IMPORT SELECT QUERY RESULTS FROM SPARQL XML FORMAT (STREAM)
//selectQueryResult = RDFSelectQueryResult.FromSparqlXmlResult(myStream);
}
public void Test2()
{
string filePath = GetPath(@"Files\Test1.ttl");
RDFGraph graph = RDFGraph.FromFile(RDFModelEnums.RDFFormats.Turtle, filePath);
RDFSelectQuery selectQuery = new RDFSelectQuery();
selectQuery.AddPrefix(RDFNamespaceRegister.GetByPrefix("foaf"));
var name = new RDFVariable("name");
var friend = new RDFVariable("friend");
var count = new RDFVariable("count");
var person = new RDFVariable("person");
// ?person foaf:name ?name .
var person_foaf_name_name = new RDFPattern(person, RDFVocabulary.FOAF.NAME, name);
// ?person foaf:knows ?friend .
var person_foaf_knows_friend = new RDFPattern(person, RDFVocabulary.FOAF.KNOWS, friend);
var pg1 = new RDFPatternGroup("PG1");
pg1.AddPattern(person_foaf_name_name);
pg1.AddPattern(person_foaf_knows_friend);
selectQuery.AddPatternGroup(pg1);
selectQuery.AddProjectionVariable(name);
//selectQuery.AddProjectionVariable(count);
// GROUP BY ?PERSON ?NAME
// var gm = new RDFGroupByModifier(new List<RDFVariable>() { person, name });
// GROUP BY ?NAME
var gm = new RDFGroupByModifier(new List <RDFVariable>()
{
name
});
// (COUNT(?friend) AS ?count)
gm.AddAggregator(new RDFCountAggregator(friend, count));
selectQuery.AddModifier(gm);
var sparqlCommand = selectQuery.ToString();
#region Target query in the SPARQL 1.1 documentation
/*
* Target query in the document
*
* PREFIX foaf: <http://xmlns.com/foaf/0.1/>
* SELECT ?name (COUNT(?friend) AS ?count)
* WHERE {
* ?person foaf:name ?name .
* ?person foaf:knows ?friend .
* } GROUP BY ?person ?name
*/
#endregion
#region Managed to build this command
/*
* PREFIX foaf: <http://xmlns.com/foaf/0.1/>
*
* SELECT ?NAME (COUNT(?FRIEND) AS ?COUNT)
* WHERE {
* {
* ?PERSON foaf:name ?NAME .
* ?PERSON foaf:knows ?FRIEND .
* }
* }
* GROUP BY ?NAME
*/
#endregion
#region Managed to build this command
/*
* Managed to build this command
*
* PREFIX foaf: <http://xmlns.com/foaf/0.1/>
*
* SELECT ?PERSON ?NAME (COUNT(?FRIEND) AS ?COUNT)
* WHERE {
* {
* ?PERSON foaf:name ?NAME .
* ?PERSON foaf:knows ?FRIEND .
* }
* }
* GROUP BY ?PERSON ?NAME
*/
#endregion
// APPLY SELECT QUERY TO GRAPH
RDFSelectQueryResult selectQueryResult = selectQuery.ApplyToGraph(graph);
// EXPORT SELECT QUERY RESULTS TO SPARQL XML FORMAT (FILE)
//selectQueryResult.ToSparqlXmlResult(@"C:\TEMP\Test2.srq");
#region Got result
/*
* Got result
*
* <?xml version="1.0" encoding="utf-8"?>
* <sparql xmlns="http://www.w3.org/2005/sparql-results#">
* <head>
* <variable name="?NAME" />
* <variable name="?COUNT" />
* </head>
* <results>
* <result>
* <binding name="?NAME">
* <literal>Alice</literal>
* </binding>
* <binding name="?COUNT">
* <literal datatype="http://www.w3.org/2001/XMLSchema#decimal">3</literal>
* </binding>
* </result>
* <result>
* <binding name="?NAME">
* <literal>Bob</literal>
* </binding>
* <binding name="?COUNT">
* <literal datatype="http://www.w3.org/2001/XMLSchema#decimal">1</literal>
* </binding>
* </result>
* <result>
* <binding name="?NAME">
* <literal>Charlie</literal>
* </binding>
* <binding name="?COUNT">
* <literal datatype="http://www.w3.org/2001/XMLSchema#decimal">1</literal>
* </binding>
* </result>
* </results>
* </sparql>
*
*/
#endregion
#region Got result
/*
*
*
* <?xml version="1.0" encoding="utf-8"?>
* <sparql xmlns="http://www.w3.org/2005/sparql-results#">
* <head>
* <variable name="?PERSON" />
* <variable name="?NAME" />
* <variable name="?COUNT" />
* </head>
* <results>
* <result>
* <binding name="?PERSON">
* <uri>http://example.org/alice#me</uri>
* </binding>
* <binding name="?NAME">
* <literal>Alice</literal>
* </binding>
* <binding name="?COUNT">
* <literal datatype="http://www.w3.org/2001/XMLSchema#decimal">3</literal>
* </binding>
* </result>
* <result>
* <binding name="?PERSON">
* <uri>http://example.org/bob#me</uri>
* </binding>
* <binding name="?NAME">
* <literal>Bob</literal>
* </binding>
* <binding name="?COUNT">
* <literal datatype="http://www.w3.org/2001/XMLSchema#decimal">1</literal>
* </binding>
* </result>
* <result>
* <binding name="?PERSON">
* <uri>http://example.org/charlie#me</uri>
* </binding>
* <binding name="?NAME">
* <literal>Charlie</literal>
* </binding>
* <binding name="?COUNT">
* <literal datatype="http://www.w3.org/2001/XMLSchema#decimal">1</literal>
* </binding>
* </result>
* </results>
* </sparql>
*
*/
#endregion
#region Target result from SPARQL 1.1 documentation
/*
* Target result
* 3 Different query results formats supported by SPARQL 1.1 (XML, JSON, CSV, TSV)
*
* <?xml version="1.0"?>
* <sparql xmlns="http://www.w3.org/2005/sparql-results#">
* <head>
* <variable name="name"/>
* <variable name="count"/>
* </head>
* <results>
* <result>
* <binding name="name">
* <literal>Alice</literal>
* </binding>
* <binding name="count">
* <literal datatype="http://www.w3.org/2001/XMLSchema#integer">3</literal>
* </binding>
* </result>
* <result>
* <binding name="name">
* <literal>Bob</literal>
* </binding>
* <binding name="count">
* <literal datatype="http://www.w3.org/2001/XMLSchema#integer">1</literal>
* </binding>
* </result>
* <result>
* <binding name="name">
* <literal>Charlie</literal>
* </binding>
* <binding name="count">
* <literal datatype="http://www.w3.org/2001/XMLSchema#integer">1</literal>
* </binding>
* </result>
* </results>
* </sparql>
*/
#endregion
Assert.Equal(3, selectQueryResult.SelectResultsCount);
}
