Interface Model

All Superinterfaces:
Lock, ModelCon, ModelGraphInterface, PrefixMapping, RDFReaderF, RDFWriterF
All Known Subinterfaces:
InfModel, OntModel
All Known Implementing Classes:
InfModelImpl, ModelCom, MonitorModel, OntModelImpl

An RDF Model.

An RDF model is a set of Statements. Methods are provided for creating resources, properties and literals and the Statements which link them, for adding statements to and removing them from a model, for querying a model and set operations for combining models.

Models may create Resources [URI nodes and bnodes]. Creating a Resource does not make the Resource visible to the model; Resources are only "in" Models if Statements about them are added to the Model. Similarly, the only way to "remove" a Resource from a Model is to remove all the Statements that mention it.

When a Resource or Literal is created by a Model, the Model is free to re-use an existing Resource or Literal object with the correct values, or it may create a fresh one. [All Jena RDFNodes and Statements are immutable, so this is generally safe.]

This interface defines a set of primitive methods. A set of convenience methods which extends this interface, e.g. performing automatic type conversions and support for enhanced resources, is defined in ModelCon.

The good practice is to close explicitly every Jena's ExtendedIterator produced by the Model right after query operation. Depending on the implementation, the iterator may throw a ConcurrentModificationException if continued with it after modification operation. This may happen even if the queried data does not relate directly to the modified data (i.e. when triple search pattern does not match added or deleted triple). A ExtendedIterator should be operated on (invoking materializing ExtendedIterator operation) only once; in general reusable are not allowed and may lead to an exception.

System Properties

Firewalls and Proxies

Some of the methods, e.g. the read methods, may have to traverse a firewall. This can be accomplished using the standard java method of setting system properties. To use a socks proxy, include on the java command line:

-DsocksProxyHost=[your-proxy-domain-name-or-ip-address]

To use an http proxy, include on the command line:

-DproxySet=true -DproxyHost=[your-proxy] -DproxyPort=[your-proxy-port-number]

Alternatively, these properties can be set programmatically, e.g.

   System.getProperties().put("proxySet","true");
   System.getProperties().put("proxyHost","proxy.hostname");
   System.getProperties().put("proxyPort",port_number);
 
  • Method Details

    • size

      long size()
      size will return the number of statements in a concrete model, for a virtualized model such as one created by an inference engine, it will return an estimated lower bound for the number of statements in the model but it is possible for a subsequent listStatements on such a model to discover more statements than size() indicated.
      Returns:
      the number of statements in a concrete model or an estimated lower bound on the number of statements in an virtualized model
    • isEmpty

      boolean isEmpty()
      Answer true iff the model contains no explicit statements (ie it's size is zero, listStatements() would deliver the empty iterator).
      Returns:
      true iff the model contains no explicit statements.
    • listSubjects

      ResIterator listSubjects()
      List all resources which are subjects of statements.

      Subsequent operations on those resource may modify this model.

      Returns:
      an iterator over a set of resources which are subjects of statements in the model. .remove() is not implemented on this iterator.
    • listNameSpaces

      NsIterator listNameSpaces()
      (You probably don't want this method; more likely you want the PrefixMapping methods that Model supports.) List the namespaces used by predicates and types in the model. This method is really intended for use by the RDF/XML writer, which needs to know these namespaces to generate correct and vaguely pretty XML.

      The namespaces returned are those of (a) every URI used as a property in the model and (b) those of every URI that appears as the object of an rdf:type statement.

      Note that the notion of "namespace" used here is not that of an XML prefix-namespace, but just of the minimal legal left part of a URI (see Util.splitNamespace for details). If you want the RDF/XML (or N3) namespaces, treat the Model as a PrefixMapping.

      Returns:
      an iterator over every predicate and type namespace
      See Also:
    • getResource

      Resource getResource(String uri)
      Return a Resource instance with the given URI in this model. This method behaves identically to createResource(String).

      Subsequent operations on the returned object may modify this model.

      Parameters:
      uri - the URI of the resource
      Returns:
      a resource instance
    • getResource

      Resource getResource(AnonId id)
      Return a Resource instance with the given URI in this model. This method behaves identically to createResource(AnonId).

      Subsequent operations on the returned object may modify this model.

      Parameters:
      id - An anonymous bode Id.
      Returns:
      a resource instance
    • getProperty

      Property getProperty(String nameSpace, String localName)
      Return a Property instance with the given URI in this model. This method behaves identically to createProperty(String,String) and exists as legacy: createProperty is now capable of, and allowed to, reuse existing objects.

      Subsequent operations on the returned property may modify this model.

      Parameters:
      nameSpace - the RDF namespace of the property
      localName - the localName of the property in its namespace
      Returns:
      a property linked to this model
    • createResource

      Resource createResource()
      Create a new anonymous resource whose model is this model. This bnode will have a new AnonId distinct from any allocated by any other call of this method.

      Subsequent operations on the returned resource may modify this model.

      Returns:
      a new anonymous resource linked to this model.
    • createResource

      Resource createResource(AnonId id)
      Create a blank node resource with a specified identifier. The resulting bnode will be equal to any other bnode with the same AnonId (even if they are in separate models - be warned). The intended use for this method is to allow bnode round-tripping between Jena models and other representations.

      This method may return an existing bnode with the correct AnonId and model, or it may construct a fresh one, as it sees fit.

      Operations on the result may modify this model

      Parameters:
      id - the identifier to use for this blank node
      Returns:
      a blank node with that identifier
    • createResource

      Resource createResource(String uri)
      Create a new resource associated with this model. If the uri string is null, this creates a bnode, as per createResource(). Otherwise it creates a URI node. A URI resource is .equals() to any other URI Resource with the same URI (even in a different model - be warned).

      This method may return an existing Resource with the correct URI and model, or it may construct a fresh one, as it sees fit.

      Operations on the result Resource may change this model.

      Parameters:
      uri - the URI of the resource to be created
      Returns:
      a new resource linked to this model.
    • createResource

      Resource createResource(Statement statement)
      Create a resource that represents a statement. This is in support of RDF-star.
      Parameters:
      statement -
      Returns:
      a new resource linked to this model.
    • createProperty

      Property createProperty(String nameSpace, String localName)
      Create a property with a given URI composed from a namespace part and a localname part by concatenating the strings.

      This method may return an existing property with the correct URI and model, or it may construct a fresh one, as it sees fit.

      Subsequent operations on the returned property may modify this model.

      Parameters:
      nameSpace - the nameSpace of the property
      localName - the name of the property within its namespace
      Returns:
      a property instance
    • createLiteral

      Literal createLiteral(String v, String language)
      Create an untyped literal from a String value with a specified language.
      Parameters:
      v - the lexical form of the literal
      language - the language associated with the literal
      Returns:
      a new literal representing the value v with the given language
    • createTypedLiteral

      Literal createTypedLiteral(String lex, RDFDatatype dtype)
      Build a typed literal from its lexical form. The lexical form will be parsed now and the value stored. If the form is not legal this will throw an exception.

      Note that in preview releases of Jena2 it was also possible to specify a language type. Changes to the RDF specification mean that this is no longer legal except for plain literals. To create a plain literal with a language tag use createLiteral.

      Parameters:
      lex - the lexical form of the literal
      dtype - the type of the literal, null for old style "plain" literals
      Throws:
      DatatypeFormatException - if lex is not a legal form of dtype
    • createTypedLiteral

      Literal createTypedLiteral(Object value, RDFDatatype dtype)
      Build a typed literal from its value form.

      Note that in preview releases of Jena2 it was also possible to specify a language type. Changes to the RDF specification mean that this is no longer legal except for plain literals. To create a plain literal with a language tag use createLiteral.

      Parameters:
      value - the value of the literal
      dtype - the type of the literal, null for old style "plain" literals
    • createTypedLiteral

      Literal createTypedLiteral(Object value)
      Build a typed literal label from its value form using whatever datatype is currently registered as the the default representation for this java class. No language tag is supplied.
      Specified by:
      createTypedLiteral in interface ModelCon
      Parameters:
      value - the literal value to encapsulate
      Returns:
      a new literal representing the value v
    • createStatement

      Statement createStatement(Resource s, Property p, RDFNode o)
      Create a Statement instance. (Creating a statement does not add it to the set of statements in the model; see Model::add). This method may return an existing Statement with the correct components and model, or it may construct a fresh one, as it sees fit.

      Subsequent operations on the statement or any of its parts may modify this model.

      Parameters:
      s - the subject of the statement
      p - the predicate of the statement
      o - the object of the statement
      Returns:
      the new statement
    • createList

      RDFList createList()
      Answer a new empty list. This is equivalent to a list consisting only of rdf:nil.
      Returns:
      An RDF-encoded list of no elements
    • createList

      RDFList createList(Iterator<? extends RDFNode> members)

      Answer a new list containing the resources from the given iterator, in order.

      Parameters:
      members - An iterator, each value of which is expected to be an RDFNode
      Returns:
      An RDF-encoded list of the elements of the iterator
    • createList

      RDFList createList(RDFNode... members)

      Answer a new list containing the nodes from the given eleemnts, in order. If the list of elements is empty, until the list is made the object or subject in the model, or has an element added, it will not appear in the model (e.g. when written out).

      Parameters:
      members - An array of RDF nodes that will be the members of the list
      Returns:
      An RDF-encoded list
    • add

      Model add(Statement s)
      Add a statement to this model.
      Parameters:
      s - The statement to be added.
      Returns:
      This model.
    • add

      Model add(Statement[] statements)
      Add all the statements to the Model, using through the bulk update interface.
      Parameters:
      statements - the array of statements to add
      Returns:
      this model, to allow cascading
    • remove

      Model remove(Statement[] statements)
      Remove all the statements from the Model, using the bulk update interface.
      Parameters:
      statements - the array of statements to be added
      Returns:
      this model, to allow cascading
    • add

      Model add(List<Statement> statements)
      add all the statements in the List to this Model, going through the bulk update interface (which means turning them into triples in one form or another).
      Parameters:
      statements - a List of Statements
      Returns:
      this model, to allow cascading
    • remove

      Model remove(List<Statement> statements)
      Remove all the statements in the list from this model, using the bulk update interface.
      Parameters:
      statements - a List of Statements to remove
      Returns:
      this model, to allow cascading
    • add

      Model add(StmtIterator iter)
      Add all the statements returned by an iterator to this model.
      Parameters:
      iter - An iterator which returns the statements to be added.
      Returns:
      this model
    • add

      Model add(Model m)
      Add all the statements in another model to this model.
      Parameters:
      m - The model whose statements are to be added.
      Returns:
      this model
    • read

      Model read(String url)
      Add the RDF statements from a document. Uses content negotiation to request appropriate mime types. If the content type is not found, it may guess from the URL.

      See Model for a description of how to traverse a firewall.

      See "Reading and Writing RDF in Apache Jena" for more information about determining the syntax.

      Parameters:
      url - of the document containing the RDF statements.
      Returns:
      this model
    • read

      Model read(InputStream in, String base)
      Add statements from a document. This method assumes the concrete syntax is RDF/XML. See read(InputStream, String, String) for explicitly setting the language.

      See "Reading and Writing RDF in Apache Jena" for more information about concrete syntaxes.

      Parameters:
      in - the input stream
      base - the base uri to be used when converting relative URI's to absolute URI's. (Resolving relative URIs and fragment IDs is done by prepending the base URI to the relative URI/fragment.) If there are no relative URIs in the source, this argument may safely be null. If the base is the empty string, then relative URIs will be retained in the model. This is typically unwise and will usually generate errors when writing the model back out.
      Returns:
      the current model
    • read

      Model read(InputStream in, String base, String lang)
      Add RDF statements represented in language lang to the model.
      Predefined values for lang are "RDF/XML", "N-TRIPLE", "TURTLE" (or "TTL"). null represents the default language, "RDF/XML". "RDF/XML-ABBREV" is a synonym for "RDF/XML".
      Parameters:
      base - the base uri to be used when converting relative URI's to absolute URI's. (Resolving relative URIs and fragment IDs is done by prepending the base URI to the relative URI/fragment.) If there are no relative URIs in the source, this argument may safely be null. If the base is the empty string, then relative URIs will be retained in the model. This is typically unwise and will usually generate errors when writing the model back out.

      See "Reading and Writing RDF in Apache Jena" for more information about concrete syntaxes.

      lang - the language of the serialization null selects the default
      in - the source of the input serialization
      Returns:
      this model
    • read

      Model read(Reader reader, String base)
      Using this method is often a mistake. Add statements from an RDF/XML serialization. It is generally better to use an InputStream if possible, otherwise there is a danger of a mismatch between the character encoding of say the FileReader and the character encoding of the data in the file. It is better to explicitly set the serialization format. See read(InputStream, String, String) for explicitily setting the serialization language.

      See "Reading and Writing RDF in Apache Jena" for more information about concrete syntaxes.

      Parameters:
      reader -
      base - the base uri to be used when converting relative URI's to absolute URI's and to guess the RDF serialization syntax.
      Returns:
      the current model
    • read

      Model read(String url, String lang)
      Add statements from a serializion in language lang to the model.
      Predefined values for lang are "RDF/XML", "N-TRIPLE", "TURTLE" (or "TTL") and "N3". null represents the default language, "RDF/XML". "RDF/XML-ABBREV" is a synonym for "RDF/XML".

      See Model for a description of how to traverse a firewall.

      See "Reading and Writing RDF in Apache Jena" for more information about concrete syntaxes.

      Parameters:
      url - a string representation of the url to read from
      lang - the language of the serialization
      Returns:
      this model
    • read

      Model read(Reader reader, String base, String lang)
      Using this method is often a mistake. Add RDF statements represented in language lang to the model.
      Predefined values for lang are "RDF/XML", "N-TRIPLE", "TURTLE" (or "TTL") and "N3". null represents the default language, "RDF/XML". "RDF/XML-ABBREV" is a synonym for "RDF/XML".
      It is generally better to use an InputStream if possible. read(InputStream,String), otherwise there is a danger of a mismatch between the character encoding of say the FileReader and the character encoding of the data in the file.
      Parameters:
      base - the base uri to be used when converting relative URI's to absolute URI's. (Resolving relative URIs and fragment IDs is done by prepending the base URI to the relative URI/fragment.) If there are no relative URIs in the source, this argument may safely be null. If the base is the empty string, then relative URIs will be retained in the model. This is typically unwise and will usually generate errors when writing the model back out.
      lang - the language of the serialization null selects the default
      reader - the source of the input serialization
      Returns:
      this model
    • read

      Model read(String url, String base, String lang)
      Read into this model the RDF at url, using baseURI as the base URI if it is non-null. The RDF is assumed to be RDF/XML unless lang is non-null, in which case it names the language to be used. Answer this model.
    • write

      @Deprecated Model write(Writer writer)
      Deprecated.
      Prefer write(OutputStream, String) and specify the language.

      Write the model as an XML document. It is often better to use an OutputStream rather than a Writer, since this will avoid character encoding errors.

      Parameters:
      writer - A writer to which the XML will be written
      Returns:
      this model
    • write

      Model write(Writer writer, String lang)

      Write a serialized representation of a model in a specified language. It is often better to use an OutputStream rather than a Writer, since this will avoid character encoding errors.

      The language in which to write the model is specified by the lang argument. Predefined values are "RDF/XML", "RDF/XML-ABBREV", "N-TRIPLE", "TURTLE", (and "TTL") and "N3". The default value, represented by null is "RDF/XML".

      Parameters:
      writer - The output writer
      lang - The output language
      Returns:
      this model
    • write

      Model write(Writer writer, String lang, String base)

      Write a serialized representation of a model in a specified language. It is often better to use an OutputStream rather than a Writer, since this will avoid character encoding errors.

      The language in which to write the model is specified by the lang argument. Predefined values are "RDF/XML", "RDF/XML-ABBREV", "N-TRIPLE", "TURTLE", (and "TTL") and "N3". The default value, represented by null, is "RDF/XML".

      Parameters:
      writer - The output writer
      base - The base uri for relative URI calculations. null means use only absolute URI's.
      lang - The language in which the RDF should be written
      Returns:
      this model
    • write

      Model write(OutputStream out)

      Write a serialization of this model as an XML document.

      The language in which to write the model is specified by the lang argument. Predefined values are "RDF/XML", "RDF/XML-ABBREV", "N-TRIPLE" and "N3". The default value is represented by null is "RDF/XML".

      Parameters:
      out - The output stream to which the XML will be written
      Returns:
      This model
    • write

      Model write(OutputStream out, String lang)

      Write a serialized representation of this model in a specified language.

      The language in which to write the model is specified by the lang argument. Predefined values are "RDF/XML", "RDF/XML-ABBREV", "N-TRIPLE", "TURTLE", (and "TTL") and "N3". The default value, represented by null, is "RDF/XML".

      Parameters:
      out - The output stream to which the RDF is written
      lang - The output language
      Returns:
      This model
    • write

      Model write(OutputStream out, String lang, String base)

      Write a serialized representation of a model in a specified language.

      The language in which to write the model is specified by the lang argument. Predefined values are "RDF/XML", "RDF/XML-ABBREV", "N-TRIPLE", "TURTLE", (and "TTL") and "N3". The default value, represented by null, is "RDF/XML".

      Parameters:
      out - The output stream to which the RDF is written
      base - The base uri to use when writing relative URI's. null means use only absolute URI's. This is used for relative URIs that would be resolved against the document retrieval URL. For some values of lang, this value may be included in the output.
      lang - The language in which the RDF should be written
      Returns:
      This model
    • getReader

      @Deprecated RDFReaderI getReader(String lang)
      Deprecated.
      Use RIOT via org.apache.jena.riotRDFDataMgr or call read(java.lang.String).
      Description copied from interface: RDFReaderF
      return an RDFReader instance for the specified serialization language.
      Specified by:
      getReader in interface RDFReaderF
      Parameters:
      lang - the serialization language - null selects the default (RDF/XML).
      Returns:
      the RDFWriter instance
    • getWriter

      @Deprecated RDFWriterI getWriter(String lang)
      Deprecated.
      Use RIOT via org.apache.jena.riotRDFDataMgr or call write(java.io.Writer).
      Description copied from interface: RDFWriterF
      an RDFWriter instance for the specified serialization language.
      Specified by:
      getWriter in interface RDFWriterF
      Parameters:
      lang - the serialization language - null selects the default (RDF/XML)
      Returns:
      the RDFWriter instance
    • remove

      Model remove(Statement s)
      Removes a statement.

      The statement with the same subject, predicate and object as that supplied will be removed from the model.

      Parameters:
      s - The statement to be removed.
      Returns:
      this model
    • getRequiredProperty

      Statement getRequiredProperty(Resource s, Property p)
      Return a statement with given subject and property.

      If more than one statement witht the given subject and property exists in the model, it is undefined which will be returned. If none exist, an exception is thrown.

      Parameters:
      s - The subject of the statement to be returned.
      p - The property of the statement to be returned.
      Returns:
      A statement from the model with the given subject and property.
      Throws:
      PropertyNotFoundException
    • getRequiredProperty

      Statement getRequiredProperty(Resource s, Property p, String lang)
      Return a statement with given subject and property.

      If more than one statement witht the given subject and property exists in the model, it is undefined which will be returned. If none exist, an exception is thrown.

      Parameters:
      s - The subject of the statement to be returned.
      p - The property of the statement to be returned.
      lang - The language
      Returns:
      A statement from the model with the given subject and property.
      Throws:
      PropertyNotFoundException
    • getProperty

      Statement getProperty(Resource s, Property p)
      Answer a statement (s, p, ?O) from this model. If none exist, return null; if several exist, pick one arbitrarily.
      Parameters:
      s - the subject of the statement to return
      p - the predicate of the statement to return
      Returns:
      some statement (s, p, ?O) or null if none can be found
    • getProperty

      Statement getProperty(Resource s, Property p, String lang)
      Answer a statement (s, p, ?O) from this model. If none exist, return null; if several exist, pick one arbitrarily.
      Parameters:
      s - the subject of the statement to return
      p - the predicate of the statement to return
      lang - language of the object
      Returns:
      some statement (s, p, ?O@lang) or null if none can be found
    • listSubjectsWithProperty

      ResIterator listSubjectsWithProperty(Property p)
      An alias for listResourcesWithProperty(Property), retained for backward compatibility. It may be deprecated in later releases.
    • listResourcesWithProperty

      ResIterator listResourcesWithProperty(Property p)
      Answer an iterator [with no duplicates] over all the resources in this model that have property p. remove() is not implemented on this iterator.
    • listSubjectsWithProperty

      ResIterator listSubjectsWithProperty(Property p, RDFNode o)
      An alias for listResourcesWithProperty, retained for backward compatibility. It may be deprecated in later releases.
    • listResourcesWithProperty

      ResIterator listResourcesWithProperty(Property p, RDFNode o)
      Answer an iterator [with no duplicates] over all the resources in this model that have property p with value o. remove() is not implemented on this iterator.
    • listObjects

      NodeIterator listObjects()
      List all objects in a model.
      Returns:
      an iterator over the objects. .remove() is not implemented on this iterator.
    • listObjectsOfProperty

      NodeIterator listObjectsOfProperty(Property p)
      List all objects of a given property. .remove() is not implemented on this iterator.
      Parameters:
      p - The predicate sought
      Returns:
      an iterator over the objects
    • listObjectsOfProperty

      NodeIterator listObjectsOfProperty(Resource s, Property p)
      List the values of a property of a resource.
      Parameters:
      p - The predicate sought
      Returns:
      an iterator over the objects. .remove() is not implemented on this iterator.
    • contains

      boolean contains(Resource s, Property p)
      Determine whether this model contains any statements with a given subject and property.
      Parameters:
      s - The subject sought (null for any).
      p - The predicate sought (null for any).
      Returns:
      true if there exists within this model a statement with subject s and property p, false otherwise
    • containsResource

      boolean containsResource(RDFNode r)
      determine if the RDFNode r appears in any statement of this model. (containsRDFNode is a horrible name, and in any case, even literals will be resources one day)
      Parameters:
      r - the RDFNode to be searched for
      Returns:
      true iff r appears as some subject, predicate, or object
    • contains

      boolean contains(Resource s, Property p, RDFNode o)
      Determine if an (S, P, O) pattern is present in this model, with null allowed to represent a wildcard match.
      Parameters:
      s - The subject of the statement tested (null as wildcard).
      p - The predicate of the statement tested (null as wildcard).
      o - The object of the statement tested (null as wildcard).
      Returns:
      true if the statement with subject s, property p and object o is in the model, false otherwise
    • contains

      boolean contains(Statement s)
      Determine if a statement is present in this model.
      Parameters:
      s - The statement tested.
      Returns:
      true if the statement s is in this model, false otherwise
    • containsAny

      boolean containsAny(StmtIterator iter)
      Determine if any of the statements returned by an iterator are contained in this model.
      Parameters:
      iter - an iterator of the statements to be tested
      Returns:
      true if any of the statements returns by iter are contained in this model and false otherwise.
    • containsAll

      boolean containsAll(StmtIterator iter)
      Determine if all of the statements returned by an iterator are contained in this model.
      Parameters:
      iter - an iterator of the statements to be tested
      Returns:
      true if any of the statements returns by iter are contained in this model and false otherwise.
    • containsAny

      boolean containsAny(Model model)
      Determine if any of the statements in a model are also contained in this model.
      Parameters:
      model - the model containing the statements to be tested
      Returns:
      true if any of the statements in model are also contained in this model and false otherwise.
    • containsAll

      boolean containsAll(Model model)
      Determine if all of the statements in a model are also contained in this model.
      Parameters:
      model - the model containing the statements to be tested
      Returns:
      true if all of the statements in model are also contained in this model and false otherwise.
    • listStatements

      StmtIterator listStatements()
      List all statements.

      Subsequent operations on those statements may modify this model.

      Returns:
      an iterator over all statements in the model.
    • listStatements

      StmtIterator listStatements(Resource s, Property p, RDFNode o)
      Find all the statements matching a pattern.

      Return an iterator over all the statements in a model that match a pattern. The statements selected are those whose subject matches the subject argument, whose predicate matches the predicate argument and whose object matches the object argument. If an argument is null it matches anything.

      Parameters:
      s - The subject sought
      p - The predicate sought
      o - The value sought
      Returns:
      an iterator over the subjects
    • union

      Model union(Model model)
      Create a new, independent, model containing all the statements in this model together with all of those in another given model. By independent we mean that changes to the result model do not affect the operand models, and vice versa.

      The new model need not be of the same type as either this model or the argument model: typically it will be a memory-based model, even if this model is a database model.

      Parameters:
      model - The other model whose statements are to be included.
      Returns:
      A new model containing all the statements that are in either model
    • intersection

      Model intersection(Model model)
      Create a new, independent, model containing all the statements which are in both this model and another. As models are sets of statements, a statement contained in both models will only appear once in the resulting model. The new model need not be of the same type as either this model or the argument model: typically it will be a memory-based model.
      Parameters:
      model - The other model.
      Returns:
      A new model containing all the statements that are in both models.
    • difference

      Model difference(Model model)
      Create a new, independent, model containing all the statements in this model which are not in another. The new model need not be of the same type as either this model or the argument model: typically it will be a memory-based model.
      Parameters:
      model - the other model whose statements are to be excluded.
      Returns:
      a new model containing all the statements in this model that are not in the given model.
    • equals

      boolean equals(Object m)
      Test whether the given object m is a model that is equal to this model, which is true iff the underlying graphs are identical Java objects. This is not the same test as comparing whether two models have the same structure (i.e. contain the same set of statements). To test for strucutural equivalence, see isIsomorphicWith(org.apache.jena.rdf.model.Model).
      Overrides:
      equals in class Object
      Parameters:
      m - the model to be compared
      Returns:
      true if m shares a graph object with this model
      See Also:
    • begin

      Model begin()
      Begin a new transaction.

      All changes made to a model within a transaction, will either be made, or none of them will be made.

      Returns:
      this model to enable cascading.
    • abort

      Model abort()
      Abort the current transaction and abandon any changes in progress.
      Returns:
      this model to enable cascading.
    • commit

      Model commit()
      Commit the current transaction.
      Returns:
      this model to enable cascading.
    • executeInTxn

      void executeInTxn(Runnable action)
      Execute the runnable action within a transaction. If it completes normally, commit the transaction, otherwise abort the transaction.
    • calculateInTxn

      <T> T calculateInTxn(Supplier<T> action)
      Execute the supplier action within a transaction. If it completes normally, commit the transaction and return the result, otherwise abort the transaction.
    • independent

      boolean independent()
      Determine whether this model is independent.

      For efficiency reasons, some implementations may create models which which are dependent on others, i.e. a change in one model may cause a change in another. If this is the case this method will return false, otherwise it will return true.

      Returns:
      true if this model is indepdent of others
    • supportsTransactions

      boolean supportsTransactions()
      Determine whether this model supports transactions.
      Returns:
      true if this model supports transactions.
    • supportsSetOperations

      boolean supportsSetOperations()
      Determine whether this model supports set operations.
      Returns:
      true if this model supports set operations.
    • isIsomorphicWith

      boolean isIsomorphicWith(Model g)
      Compare this Model with another for equality ignoring the labels on bNodes. See RDF Concepts.

      Two models are isomorphic when each statement in one can be matched with a statement in the other. Statements which are identical match.

      Special treatment is given to anonymous nodes. A binding is a one to one mapping which maps each anonymous node in this model to an anonymous node in model. Two statements s1 and s2 match under a binding if s1.subject is anonymous and s2.subject is anonymous and the binding maps s1.subject to s2.subject.

      Two models are isomorphic if there is a binding that allows all the statements in one model to match a a statement in the other.

      Parameters:
      g - Compare against this.
      Returns:
      boolean True if the two RDF graphs are isomorphic.
    • close

      void close()
      Close the Model and free up resources held.

      Not all implementations of Model require this method to be called. But some do, so in general its best to call it when done with the object, rather than leave it to the finalizer.

    • getLock

      Lock getLock()
      Get the model lock for this model.

      See also the operations Lock.enterCriticalSection(boolean) and Lock.leaveCriticalSection().

      It is better to use transactions.

    • register

      Model register(ModelChangedListener listener)
      Register a listener for model-changed events on this model. The methods on the listener will be called when API add/remove calls on the model succeed [in whole or in part].

      The same listener may be registered many times; if so, it's methods will be called as many times as it's registered for each event.

      Returns:
      this model, for cascading
      See Also:
    • unregister

      Model unregister(ModelChangedListener listener)
      Unregister a listener from model-changed events on this model. The listener is dtached from the model. The model is returned to permit cascading. If the listener is not attached to the model, then nothing happens.
      Returns:
      this model, for cascading
      See Also:
    • notifyEvent

      Model notifyEvent(Object e)
      Notify any listeners that the event e has occurred.
      Parameters:
      e - the event that has occurred
    • removeAll

      Model removeAll()
      Remove all the statements from this model.
    • removeAll

      Model removeAll(Resource s, Property p, RDFNode r)
      Remove all the statements matching (s, p, o) from this model.
    • isClosed

      boolean isClosed()
      Answer true iff .close() has been called on this Model.
    • setNsPrefix

      Model setNsPrefix(String prefix, String uri)
      Description copied from interface: PrefixMapping
      Specify the prefix name for a URI prefix string. Any existing use of that prefix name is overwritten. The result is this same prefixMapping. (The earlier restriction that adding second prefix for the same URI caused the earlier binding to be deleted has been withdrawn.)

      A prefix name must be a valid NCName, or the empty string. The empty string is reserved to mean "the default namespace".

      Need not check the RFC2396 validity of the URI. Bad URIs are either silently ignored or behave as if they were good. The earlier restriction that the URI should end with a non-NCName character has been removed.

      Note, in particular, that the prefix mapping can only be used if it includes the URI up to any '#' character because '#' is not legal in the local part of an NCName.

      Specified by:
      setNsPrefix in interface PrefixMapping
      Parameters:
      prefix - the string to be used for the prefix.
      uri - the URI prefix to be named
      Returns:
      this PrefixMapping
    • removeNsPrefix

      Model removeNsPrefix(String prefix)
      Description copied from interface: PrefixMapping
      Remove any existing maplet with the given prefix name and answer this mapping. If the prefix is the empty string, then this removes the default namespace. If the prefix is not a legal prefix string, or is not present in the mapping, nothing happens.

      The reverse URI-to-prefix mapping is updated, but if there are multiple prefixes for the removed URI it is unspecified which of them will be chosen.

      Specified by:
      removeNsPrefix in interface PrefixMapping
      Parameters:
      prefix - the prefix string to remove
      Returns:
      this PrefixMapping
    • clearNsPrefixMap

      Model clearNsPrefixMap()
      Description copied from interface: PrefixMapping
      Clear this prefix mapping of all mappings
      Specified by:
      clearNsPrefixMap in interface PrefixMapping
    • setNsPrefixes

      Model setNsPrefixes(PrefixMapping other)
      Description copied from interface: PrefixMapping
      Copies the prefixes from other into this. Any existing binding of the same prefix is lost. The result is this same prefixMapping.
      Specified by:
      setNsPrefixes in interface PrefixMapping
      Parameters:
      other - the PrefixMapping to add
      Returns:
      this PrefixMapping
    • setNsPrefixes

      Model setNsPrefixes(Map<String,String> map)
      Description copied from interface: PrefixMapping
      Copies the prefix mapping from other into this. Illegal prefix mappings are detected. Existing binds of the same prefix are lost. The result is this same prefixMapping.
      Specified by:
      setNsPrefixes in interface PrefixMapping
      Parameters:
      map - the Map whose maplets are to be added
      Returns:
      this PrefixMapping
    • withDefaultMappings

      Model withDefaultMappings(PrefixMapping map)
      Description copied from interface: PrefixMapping
      Update this PrefixMapping with the bindings in map, only adding those (p, u) pairs for which neither p nor u appears in this mapping. Answer this PrefixMapping.
      Specified by:
      withDefaultMappings in interface PrefixMapping