Ejemplo n.º 1
0
 @Override
 public Parameter[] getOutputParameter() {
   Parameter[] temp = new SingleParameter[AddVectorIntClosure.getOutputSinglePortNames().length];
   for (int i = 0; i < AddVectorIntClosure.getOutputSinglePortNames().length; i++) {
     SingleParameter p = this.OutputPorts[i].getSignal();
     if (p != null) {
       temp[i] = p;
     } else {
       System.out.println(
           "Closure not correctly initialized: the parameter on port "
               + this.getOutputSinglePortNames()[i]
               + " = null!");
     }
   }
   return temp;
 }
Ejemplo n.º 2
0
 public String printClosure() {
   String temp = "";
   temp = temp + "Closure:\n";
   temp = temp + "URI: " + this.getURI();
   temp = temp + "Name: " + this.getName();
   temp = temp + "input ports:\n";
   for (int i = 0; i < AddVectorIntClosure.getInputVectorPortNames().length; i++) {
     temp =
         temp
             + ("port index = "
                 + i
                 + " + name = "
                 + InputPortsVec[i]
                 + "URI= "
                 + this.InputPortsVec[i].getURI()
                 + "\n");
     temp =
         temp
             + ("parameter URI: "
                 + this.InputPortsVec[i].getSignal().getURI()
                 + " ParameterValid: "
                 + this.InputPortsVec[i].getSignal().getValid()
                 + "\n");
   }
   temp = temp + "output ports:\n";
   for (int i = 0; i < AddVectorIntClosure.getOutputSinglePortNames().length; i++) {
     temp =
         temp
             + ("port index = "
                 + i
                 + " + name = "
                 + this.OutputPorts[i]
                 + "URI= "
                 + this.OutputPorts[i].getURI()
                 + "\n");
     temp =
         temp
             + ("parameter URI: "
                 + this.OutputPorts[i].getSignal().getURI()
                 + " ParameterValue: "
                 + this.OutputPorts[i].getSignal().getValueForTriple()
                 + "ParameterValid "
                 + this.OutputPorts[i].getSignal().getValid()
                 + "\n");
   }
   return temp;
 }
Ejemplo n.º 3
0
  public void InitializeAddVectorIntClosure(
      Vector<String[]> VectorValues,
      VectorParameter[] inputVectorParameter,
      VectorParameter[] outputVectorParameter,
      String[] Singlevalues,
      SingleParameter[] inputSingleParameter,
      SingleParameter[] outputSingleParameter) {
    // two input parameters can be removed,  are here to be copied in some reference complete file
    // about a general closure

    //		//Single input :
    //		SingleParameter p, pout;
    //		for(int i = 0; i < AddVectorIntClosure.InputSinglePortNames.length;i++)
    //		{
    //			p = new SingleParameter();
    //			if(inputSingleParameter[i]==null)//If I have  not a parameter in this constructor I create
    // one random
    //			{
    //
    //
    //				p.setURI(UUID.randomUUID().toString());
    //				p.setType(InputSinglePortTypes[i]);//TypeCheck needed?
    //				if (!Singlevalues[i].equals(null)) //If I know the value of the parameter I  set the value
    // and I put Valid == true
    //				{
    //					p.setValue(Singlevalues[i]);
    //					p.setValid(true);
    //				}
    //				else  //The parameter has not a constant value to be assigned
    //				{
    //					p.setValid(false);
    //				}
    //
    //			}
    //			else//I have a parameter in the constructor and I use it
    //			{
    //				/*
    //				 * Here I consider that who calls this initialization gives me the values of the inputs
    // and the references in the
    //				 * the parameters, the initialization assigns the value to the parameters
    //				 * */
    //				p = inputSingleParameter[i];
    //				if (!(Singlevalues[i] == null)) //If I know the value of the parameter I  set the value
    // and I put Valid == true
    //				{
    //					p.setValue(Singlevalues[i]);
    //					p.setValid(true);
    //				}
    //				else  //The parameter has not a constant value to be assigned
    //				{
    //					p.setValid(false);
    //				}
    //			}
    //
    //
    //
    //
    //			/*
    //			 * Now p1 can be:
    //			 * 1) random with assigned value and valid
    //			 * 2) random without value and invalid
    //			 * 3) not random with assigned value and true
    //			 * 4) not random witout value and invalid
    //			 * At moment these are all the situations managed
    //			 */
    //			InputPorts[i].setSignal(p);
    //			p.addInputToAtomicClosure(this);
    //		}
    //
    // Single out
    SingleParameter pout;
    for (int i = 0; i < AddVectorIntClosure.getOutputSinglePortNames().length; i++) {
      if (outputSingleParameter.equals(
          null)) // If I have not an output parameter from the constructor (so no reference) I
                 // create one Randomly
      {
        pout = new SingleParameter();
        pout.setURI(UUID.randomUUID().toString());
        pout.setType(OutputSinglePortTypes[i]);
      } else {
        pout = outputSingleParameter[i];
        pout.setType(
            OutputSinglePortTypes[i]); // Unuseful if  we suppose to pass the right reference
      }
      this.OutputPorts[i].setSignal(pout);
      pout.setWritingAtomicClosure(this);
    }

    // Vector input

    VectorParameter p_v;
    for (int i = 0; i < AddVectorIntClosure.getInputVectorPortNames().length; i++) {
      p_v = new VectorParameter();
      if ((inputVectorParameter == null)
          || (inputVectorParameter[i]
              == null)) // If I have  not a parameter in this constructor I create one random
      {

        p_v.setRandomURI();
        p_v.setType(InputVectorPortTypes[i]); // TypeCheck needed?
        if (!(VectorValues.elementAt(i)
            == null)) // If I know the value of the parameter I  set the value and I put Valid ==
                      // true
        {
          p_v.setContent(VectorValues.elementAt(i), AddVectorIntClosure.InputVectorPortTypes[i]);
          p_v.setValid(true);
        } else // The parameter has not a constant value to be assigned pr it is just ready
        {
          p_v.setValid(false);
        }

      } else // I have a parameter in the constructor and I use it
      {
        /*
         * Here I consider that who calls this initialization gives me the values of the inputs and the references in the
         * the parameters, the initialization assigns the value to the parameters
         * */
        p_v = (inputVectorParameter[i]);
        Logger.printFile(
            "I have given the the following URI to the input: " + p_v.getURI() + "\n",
            DebugFileName);
        if ((VectorValues != null)
            && (VectorValues.elementAt(i)
                != null)) // If I know the value of the parameter I  set the value and I put Valid
                          // == true
        {
          p_v.setContent(VectorValues.elementAt(i), AddVectorIntClosure.InputVectorPortTypes[i]);
          p_v.setValid(true);
        } else // The parameter has not a constant value to be assigned ot it is ready
        {
          if (!p_v.getValid()) {
            p_v.setValid(false);
          }
        }
      }

      /*
       * Now p1 can be:
       * 1) random with assigned value and valid
       * 2) random without value and invalid
       * 3) not random with assigned value and true
       * 4) not random witout value and invalid
       * At moment these are all the situations managed
       */
      InputPortsVec[i].setSignal(p_v);
      Logger.printFile(
          "Final URI of the input of the closure before serialization: "
              + InputPortsVec[0].getSignal().getURI()
              + "\n",
          DebugFileName);

      p_v.addInputToAtomicClosure(this);
    }

    //			//output Vector
    //			VectorParameter pout_v;
    //			for(int i = 0; i < AddVectorIntClosure.OutputPortNamesVec;i++)
    //		{
    //			if (outputVectorParameter.equals(null))//If I have not an output parameter from the
    // constructor (so no reference) I create one Randomly
    //			{
    //				pout_v = new VectorParameter();
    //				pout_v.setRandomURI();
    //				pout.setType(OutputPortTypesVec[i]);
    //			}
    //			else
    //			{
    //				pout = outputVectorParameter[i];
    //			}
    //			this.OutputPorts[i].setSignal(pout);
    //			pout.setWritingAtomicClosure(this);
    //		}
    //

  }
Ejemplo n.º 4
0
  // Some  rdf:type declarations are not so useful, but I leave them at moment
  // Some of the triples seems to be redundant, but this is not an optimized version.
  public Vector<Vector<String>> SerializeTriples() {
    Logger.printFile(this.printClosure(), DebugFileName);

    //		String[] InPortParURI = new String[AddVectorIntClosure.InputPortNames.length];
    //		for(int i = 0; i < AddIntClosure.InputPortNames.length; i++)
    //		{
    //			InPortParURI[i] = this.InputPorts[i].getSignal().getURI();;
    //		}
    //	String[] InPortVectorParURI = new
    // String[AddVectorIntClosure.getInputVectorPortNames().length];
    //	for(int i = 0; i < AddVectorIntClosure.getInputVectorPortNames().length; i++)
    //	{
    //		InPortVectorParURI[i] = this.InputPortsVec[i].getSignal().getURI();;
    //	}

    // Triples
    SSAP_XMLTools xmlTools = new SSAP_XMLTools(null, null, null);
    Vector<Vector<String>> triples = new Vector<Vector<String>>();
    triples.add(
        xmlTools.newTriple(
            this.URI, OntologyVocabulary.type, OntologyVocabulary.AtomicClosure, "URI", "URI"));
    triples.add(
        xmlTools.newTriple(
            this.URI,
            OntologyVocabulary.ClosureHasName,
            OntologyVocabulary.AddVectorIntClosure,
            "URI",
            "URI"));
    triples.add(
        xmlTools.newTriple(
            this.URI,
            OntologyVocabulary.ComputationHasFunctionalBehaviour,
            OntologyVocabulary.AddVectorIntClosure,
            "URI",
            "URI"));

    for (int i = 0; i < AddVectorIntClosure.getInputVectorPortNames().length; i++) {
      triples.add(
          xmlTools.newTriple(
              this.URI,
              OntologyVocabulary.ClosureHasInputPort,
              this.InputPortsVec[i].getURI(),
              "URI",
              "URI"));
      triples = TriplesUtilities.concatTriples(triples, this.InputPortsVec[i].getTriples());
    }
    for (int i = 0; i < AddVectorIntClosure.getOutputSinglePortNames().length; i++) {
      triples.add(
          xmlTools.newTriple(
              this.URI,
              OntologyVocabulary.ClosureHasOutputPort,
              this.OutputPorts[i].getURI(),
              "URI",
              "URI"));
      triples = TriplesUtilities.concatTriples(triples, this.OutputPorts[i].getTriples());
    }

    //		for(int i = 0; i < AddIntClosure.InputPortNames.length; i++)
    //		{
    //			triples.add(xmlTools.newTriple(inputPortsURI[i],
    // OntologyVocabulary.type,OntologyVocabulary.InputPort, "URI", "URI"));
    //			triples.add(xmlTools.newTriple(this.URI,   OntologyVocabulary.ClosureHasInputPort,
    // inputPortsURI[i], "URI", "URI"));
    //			triples.add(xmlTools.newTriple(inputPortsURI[i],
    // OntologyVocabulary.PortHasDatatype,AddIntClosure.InputPortTypes[i], "URI", "literal"));
    //			triples.add(xmlTools.newTriple(inputPortsURI[i],
    // OntologyVocabulary.PortHasName,AddIntClosure.InputPortNames[i], "URI", "literal"));
    //			triples.add(xmlTools.newTriple(InPortParURI[i], OntologyVocabulary.type,
    // OntologyVocabulary.Parameter, "URI", "URI"));
    //			triples.add(xmlTools.newTriple(inputPortsURI[i],
    // OntologyVocabulary.PortAttachedToPar,InPortParURI[i] , "URI", "URI"));
    //			triples.add(xmlTools.newTriple(InPortParURI[i], OntologyVocabulary.ParHasDatatype,
    // AddIntClosure.InputPortTypes[i], "URI", "literal"));
    //			if(this.InputPorts[i].getSignal().getValid())
    //			{
    //				triples.add(xmlTools.newTriple(InPortParURI[i], OntologyVocabulary.ParHasValue,
    // this.InputPorts[i].getSignal().getValueForTriple(), "URI", "literal"));
    //				triples.add(xmlTools.newTriple(InPortParURI[i], OntologyVocabulary.ParIsValid,
    // OntologyVocabulary.ValidParameter, "URI", "literal"));
    //			}
    //			else
    //			{
    //				triples.add(xmlTools.newTriple(InPortParURI[i], OntologyVocabulary.ParIsValid,
    // OntologyVocabulary.InvalidParameter, "URI", "literal"));
    //			}
    //		}
    //		//		triples.add(xmlTools.newTriple(InPort2Uri,
    // OntoloogyVocabulary.type,OntoloogyVocabulary.InputPort, "URI", "URI"));
    //		//		triples.add(xmlTools.newTriple(this.URI,   OntoloogyVocabulary.ClosureHasInputPort,
    // InPort2Uri, "URI", "URI"));
    //		//		triples.add(xmlTools.newTriple(InPort2Uri,
    // OntoloogyVocabulary.PortHasType,AddIntClosure.InputPort2Type, "URI", "literal"));
    //		//		triples.add(xmlTools.newTriple(InPort2Uri,
    // OntoloogyVocabulary.PortHasName,AddIntClosure.InputPort2Name, "URI", "literal"));
    //		for(int i = 0; i < AddIntClosure.OutputPortNames.length; i++)
    //		{
    //			triples.add(xmlTools.newTriple(outputPortsURI[i],
    // OntologyVocabulary.type,OntologyVocabulary.OutputPort, "URI", "URI"));
    //			triples.add(xmlTools.newTriple(this.URI,          OntologyVocabulary.ClosureHasOutputPort,
    // outputPortsURI[i], "URI", "URI"));
    //			triples.add(xmlTools.newTriple(outputPortsURI[i],
    // OntologyVocabulary.PortHasDatatype,AddIntClosure.OutputPortTypes[i], "URI", "literal"));
    //			triples.add(xmlTools.newTriple(outputPortsURI[i],
    // OntologyVocabulary.PortHasName,AddIntClosure.OutputPortNames[i], "URI", "literal"));
    //
    //			triples.add(xmlTools.newTriple(OutPortParURI[i], OntologyVocabulary.type,
    // OntologyVocabulary.Parameter, "URI", "URI"));
    //			triples.add(xmlTools.newTriple(outputPortsURI[i], OntologyVocabulary.PortAttachedToPar,
    // OutPortParURI[i], "URI", "URI"));
    //			triples.add(xmlTools.newTriple(OutPortParURI[i], OntologyVocabulary.ParHasDatatype,
    // AddIntClosure.OutputPortTypes[i], "URI", "literal"));
    //			if(this.OutputPorts[0].getSignal().getValid())
    //			{
    //				triples.add(xmlTools.newTriple(OutPortParURI[i], OntologyVocabulary.ParHasValue,
    // this.OutputPorts[i].getSignal().getValueForTriple(), "URI", "literal"));
    //				triples.add(xmlTools.newTriple(OutPortParURI[i], OntologyVocabulary.ParIsValid,
    // OntologyVocabulary.ValidParameter, "URI", "literal"));
    //			}
    //			else
    //			{
    //				triples.add(xmlTools.newTriple(OutPortParURI[i], OntologyVocabulary.ParIsValid,
    // OntologyVocabulary.InvalidParameter, "URI", "literal"));
    //			}
    //		}

    // This prints the triples in the debug file
    Logger.printFile(
        "Writing Closure triples\n" + "Closure: " + this.getURI() + "\n" + "Triples:\n",
        DebugFileName);
    for (int i = 0; i < triples.size(); i++) {

      Vector<String> Triple = triples.elementAt(i);
      {
        Logger.printFile(
            "sub = "
                + Triple.elementAt(0)
                + "; pred = "
                + Triple.elementAt(1)
                + "; obj = "
                + Triple.elementAt(2)
                + ";\n",
            DebugFileName);
      }
    }
    return triples;
    //		triples.add(xmlTools.newTriple(InPort1ParURI, OntoloogyVocabulary.type,
    // OntoloogyVocabulary.Parameter, "URI", "URI"));
    //		triples.add(xmlTools.newTriple(InPort1ParURI, OntoloogyVocabulary.ParAttachedToPort,
    // InPort1Uri, "URI", "URI"));
    //		triples.add(xmlTools.newTriple(InPort1ParURI, OntoloogyVocabulary.ParHasType,
    // AddIntClosure.InputPort1Type, "URI", "literal"));
    //		if(this.InputPorts[0].getSignal().getValid())
    //		{
    //			triples.add(xmlTools.newTriple(InPort1ParURI, OntoloogyVocabulary.ParHasValue,
    // this.InputPorts[0].getSignal().getValueForTriple(), "URI", "literal"));
    //			triples.add(xmlTools.newTriple(InPort1ParURI, OntoloogyVocabulary.ParIsValid, "true",
    // "URI", "Literal"));
    //		}
    //		else
    //		{
    //			triples.add(xmlTools.newTriple(InPort1ParURI, OntoloogyVocabulary.ParIsValid, "false",
    // "URI", "Literal"));
    //		}
    //
    //		triples.add(xmlTools.newTriple(InPort2ParURI, OntoloogyVocabulary.type,
    // OntoloogyVocabulary.Parameter, "URI", "URI"));
    //		triples.add(xmlTools.newTriple(InPort2ParURI, OntoloogyVocabulary.ParAttachedToPort,
    // InPort2Uri, "URI", "URI"));
    //		triples.add(xmlTools.newTriple(InPort2ParURI, OntoloogyVocabulary.ParHasType,
    // AddIntClosure.InputPort2Type, "URI", "literal"));
    //		if(this.InputPorts[1].getSignal().getValid())
    //		{
    //			triples.add(xmlTools.newTriple(InPort2ParURI, OntoloogyVocabulary.ParHasValue,
    // this.InputPorts[1].getSignal().getValueForTriple(), "URI", "literal"));
    //			triples.add(xmlTools.newTriple(InPort2ParURI, OntoloogyVocabulary.ParIsValid, "true",
    // "URI", "Literal"));
    //		}
    //		else
    //		{
    //			triples.add(xmlTools.newTriple(InPort2ParURI, OntoloogyVocabulary.ParIsValid, "false",
    // "URI", "Literal"));
    //		}

    //		triples.add(xmlTools.newTriple(OutPortParURI, OntoloogyVocabulary.type,
    // OntoloogyVocabulary.Parameter, "URI", "URI"));
    //		triples.add(xmlTools.newTriple(OutPortParURI, OntoloogyVocabulary.ParAttachedToPort,
    // OutPortUri, "URI", "URI"));
    //		triples.add(xmlTools.newTriple(OutPortParURI, OntoloogyVocabulary.ParHasType,
    // AddIntClosure.OutputPortType, "URI", "literal"));
    //		if(this.OutputPorts[0].getSignal().getValid())
    //		{
    //			triples.add(xmlTools.newTriple(OutPortParURI, OntoloogyVocabulary.ParHasValue,
    // this.OutputPorts[0].getSignal().getValueForTriple(), "URI", "literal"));
    //			triples.add(xmlTools.newTriple(OutPortParURI, OntoloogyVocabulary.ParIsValid, "true",
    // "URI", "Literal"));
    //		}
    //		else
    //		{
    //			triples.add(xmlTools.newTriple(OutPortParURI, OntoloogyVocabulary.ParIsValid, "false",
    // "URI", "Literal"));
    //		}

  }