Package ca.uhn.hl7v2.model.v22.datatype

Examples of ca.uhn.hl7v2.model.v22.datatype.ST

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        String encodedMessage = new PipeParser().encode(theIn);
        System.out.println("Received message:\n" + encodedMessage + "\n\n");

        // Now we need to generate a message to return. This will generally be an ACK message.
        MSH msh = (MSH)theIn.get("MSH");
        ACK retVal;
        try {
            // This method takes in the MSH segment of an incoming message, and generates an
            // appropriate ACK
            retVal = (ACK)DefaultApplication.makeACK(msh);
        } catch (IOException e) {
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         * accessors for ADT^A01's segments.
         *
         * HAPI provides several versions of the ADT_A01 class, each in a different package (note
         * the import statement above) corresponding to the HL7 version for the message.
         */
        ADT_A01 adtMsg = (ADT_A01)hapiMsg;

        MSH msh = adtMsg.getMSH();

        // Retrieve some data from the MSH segment
        String msgType = msh.getMessageType().getMessageType().getValue();
        String msgTrigger = msh.getMessageType().getTriggerEvent().getValue();

        // Prints "ADT A01"
        System.out.println(msgType + " " + msgTrigger);

        /*
         * Now let's retrieve the patient's name from the parsed message.
         *
         * PN is an HL7 data type consisting of several components, such as
         * family name, given name, etc.
         */
        PN patientName = adtMsg.getPID().getPatientName();

        // Prints "SMITH"
        String familyName = patientName.getFamilyName().getValue();
        System.out.println(familyName);

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         * accessors for ADT^A01's segments.
         *
         * HAPI provides several versions of the ADT_A01 class, each in a different package (note
         * the import statement above) corresponding to the HL7 version for the message.
         */
        ADT_A01 adtMsg = (ADT_A01)hapiMsg;

        MSH msh = adtMsg.getMSH();

        // Retrieve some data from the MSH segment
        String msgType = msh.getMessageType().getMessageType().getValue();
        String msgTrigger = msh.getMessageType().getTriggerEvent().getValue();

        // Prints "ADT A01"
        System.out.println(msgType + " " + msgTrigger);

        /*
         * Now let's retrieve the patient's name from the parsed message.
         *
         * PN is an HL7 data type consisting of several components, such as
         * family name, given name, etc.
         */
        PN patientName = adtMsg.getPID().getPatientName();

        // Prints "SMITH"
        String familyName = patientName.getFamilyName().getValue();
        System.out.println(familyName);

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         * HAPI provides several versions of the ADT_A01 class, each in a different package (note
         * the import statement above) corresponding to the HL7 version for the message.
         */
        ADT_A01 adtMsg = (ADT_A01)hapiMsg;

        MSH msh = adtMsg.getMSH();

        // Retrieve some data from the MSH segment
        String msgType = msh.getMessageType().getMessageType().getValue();
        String msgTrigger = msh.getMessageType().getTriggerEvent().getValue();

        // Prints "ADT A01"
        System.out.println(msgType + " " + msgTrigger);

        /*
 
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        String encodedMessage = new PipeParser().encode(theIn);
        System.out.println("Received message:\n" + encodedMessage + "\n\n");

        // Now we need to generate a message to return. This will generally be an ACK message.
        MSH msh = (MSH)theIn.get("MSH");
        ACK retVal;
        try {
            // This method takes in the MSH segment of an incoming message, and generates an
            // appropriate ACK
            retVal = (ACK)DefaultApplication.makeACK(msh);
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         * HAPI provides several versions of the ADT_A01 class, each in a different package (note
         * the import statement above) corresponding to the HL7 version for the message.
         */
        ADT_A01 adtMsg = (ADT_A01)hapiMsg;

        MSH msh = adtMsg.getMSH();

        // Retrieve some data from the MSH segment
        String msgType = msh.getMessageType().getMessageType().getValue();
        String msgTrigger = msh.getMessageType().getTriggerEvent().getValue();

        // Prints "ADT A01"
        System.out.println(msgType + " " + msgTrigger);

        /*
 
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        try {
            //parse the message string into a Message object
            Message message = pipeParser.parse(result);
            if (message instanceof QRY_A19) {
                QRD qrd = (QRD) message.get("QRD");
                ST st = qrd.getQueryID();
                Assert.assertTrue(st.getValue().equals("GetPatient"));
            } else {
                Assert.fail("Message not instance of QRY_A19");
            }
           
        } catch (Exception e) {
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        // The second OBX in the sample message has an extra subcomponent at
        // OBX-3-1. This component is actually an ST, but the HL7 specification allows
        // extra subcomponents to be tacked on to the end of a component. This is
        // uncommon, but HAPI nontheless allows it.
        ST observationIdentifier = obx.getObservationIdentifier().getIdentifier();
        observationIdentifier.setValue("88304");
        ST extraSubcomponent = new ST(message);
        extraSubcomponent.setValue("MDT");
        observationIdentifier.getExtraComponents().getComponent(0).setData(extraSubcomponent );

        // The first OBX has a value type of TX. So first, we populate OBX-2 with "TX"...
        obx.getValueType().setValue("TX");
       
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        // The second OBX in the sample message has an extra subcomponent at
        // OBX-3-1. This component is actually an ST, but the HL7 specification allows
        // extra subcomponents to be tacked on to the end of a component. This is
        // uncommon, but HAPI nontheless allows it.
        ST observationIdentifier = obx.getObservationIdentifier().getIdentifier();
        observationIdentifier.setValue("88304");
        ST extraSubcomponent = new ST(message);
        extraSubcomponent.setValue("MDT");
        observationIdentifier.getExtraComponents().getComponent(0).setData(extraSubcomponent );

        // The first OBX has a value type of TX. So first, we populate OBX-2 with "TX"...
        obx.getValueType().setValue("TX");
       
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    /**
     * Creates a new ADT_AXX message with DefaultModelClassFactory.
     */
    public ADT_AXX() {
       this(new DefaultModelClassFactory());
    }
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Related Classes of ca.uhn.hl7v2.model.v22.datatype.ST

  • ca.uhn.hl7v2.examples.ExampleParseMessages
  • ca.uhn.hl7v2.examples.ExampleReceiverApplication
  • ca.uhn.hl7v2.examples.PopulateOBXSegment
  • ca.uhn.hl7v2.model.Type
  • ca.uhn.hl7v2.model.v22.segment.ERR
  • ca.uhn.hl7v2.model.v22.segment.GT1
  • ca.uhn.hl7v2.model.v22.segment.MFI
  • ca.uhn.hl7v2.model.v22.segment.NPU
  • ca.uhn.hl7v2.model.v22.segment.NST
  • ca.uhn.hl7v2.model.v22.segment.OBX
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