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Example 1 with Subject

use of org.hl7.fhir.dstu3.utils.formats.Turtle.Subject in project kindling by HL7.

the class FhirTurtleGenerator method genBaseMetadata.

/**
 * Emit all the basic atoms that are implicit in the actual model
 */
private void genBaseMetadata() {
    // Declare these for now - they will get filled in more completely later on
    FHIRResource Resource = fact.fhir_class("Resource");
    FHIRResource Element = fact.fhir_class("Element");
    FHIRResource Reference = fact.fhir_class("Reference");
    // Primitive isn't in the actual model - added here
    fact.fhir_class("Primitive").addTitle("Types with only a value").addDefinition("Types with only a value and no additional elements as children").restriction(fact.fhir_restriction(value, RDFS.Literal));
    // A resource can have an optional nodeRole
    FHIRResource treeRoot = fact.fhir_class("treeRoot").addTitle("Class of FHIR base documents");
    FHIRResource nodeRole = fact.fhir_objectProperty("nodeRole").addTitle("Identifies role of subject in context of a given document").domain(Resource).range(treeRoot.resource);
    Resource.restriction(fact.fhir_cardinality_restriction(nodeRole.resource, treeRoot.resource, 0, 1));
    // Any element can have an index to assign order in a list
    FHIRResource index = fact.fhir_dataProperty("index").addTitle("Ordering value for list").domain(Element).range(XSD.nonNegativeInteger);
    Element.restriction(fact.fhir_cardinality_restriction(index.resource, XSD.nonNegativeInteger, 0, 1));
    // References have an optional link
    FHIRResource link = fact.fhir_objectProperty("link").addTitle("URI of a reference");
    Reference.restriction(fact.fhir_cardinality_restriction(link.resource, Resource.resource, 0, 1));
    // XHTML is an XML Literal -- but it isn't recognized by OWL so we use string
    FHIRResource NarrativeDiv = fact.fhir_dataProperty("Narrative.div");
    fact.fhir_class("xhtml", "Primitive").restriction(fact.fhir_cardinality_restriction(value, fact.fhir_datatype(XSD.xstring).resource, 1, 1));
}
Also used : FHIRResource(org.hl7.fhir.rdf.FHIRResource)

Example 2 with Subject

use of org.hl7.fhir.dstu3.utils.formats.Turtle.Subject in project hl7v2-fhir-converter by LinuxForHealth.

the class HL7ConditionFHIRConversionTest method validateDiagnosis.

// --------------------- DIAGNOSIS UNIT TESTS (DG1) ---------------------
// Tests the DG1 segment (diagnosis) with all supported message types.
// This tests all the fields in the happy path.
// Suppress warnings about too many assertions in a test.  Justification: creating a FHIR message is very costly; we need to check many asserts per creation for efficiency.
@java.lang.SuppressWarnings("squid:S5961")
@ParameterizedTest
@ValueSource(strings = { "MSH|^~\\&|||||||ADT^A01^ADT_A01|64322|P|2.6|123|456|ER|AL|USA|ASCII|en|2.6||||||\r", // "MSH|^~\\&|||||||ADT^A04|64322|P|2.6|123|456|ER|AL|USA|ASCII|en|2.6||||||\r",
"MSH|^~\\&|||||||ADT^A08|64322|P|2.6|123|456|ER|AL|USA|ASCII|en|2.6||||||\r" // "MSH|^~\\&|||||||ADT^A28^ADT^A28|64322|P|2.6|123|456|ER|AL|USA|ASCII|en|2.6||||||\r",
// "MSH|^~\\&|||||||ADT^A31|64322|P|2.6|123|456|ER|AL|USA|ASCII|en|2.6||||||\r",
// "MSH|^~\\&|||||||ORM^O01|64322|P|2.6|123|456|ER|AL|USA|ASCII|en|2.6||||||\r"
// PPR_PC1, PPR_PC2, and PPR_PC3 create Conditions but they don't have a DG1 segment so they are tested in a different testcase.
})
void validateDiagnosis(String msh) {
    String hl7message = msh + "PID||||||||||||||||||||||||||||||\r" + "PV1||I|||||||||||||||||1400|||||||||||||||||||||||||\r" + // DG1.20 to Identifier
    "DG1|1||C56.9^Ovarian Cancer^I10||20210322154449|A|||||||||1|123^DOE^JOHN^A^|||20210322154326|V45|||||\r";
    List<BundleEntryComponent> e = ResourceUtils.createFHIRBundleFromHL7MessageReturnEntryList(ftv, hl7message);
    // Verify no extraneous resources
    // Expect encounter, patient, practitioner, condition
    assertThat(e).hasSize(4);
    // --- CONDITION TESTS ---
    // Find the condition from the FHIR bundle.
    List<Resource> conditionResource = ResourceUtils.getResourceList(e, ResourceType.Condition);
    assertThat(conditionResource).hasSize(1);
    Condition condition = (Condition) conditionResource.get(0);
    // Verify we have 3 identifiers
    // NOTE: The other identifiers, not related to condition, are tested deeply in the
    // identifier suite of unit tests.
    assertThat(condition.getIdentifier()).hasSize(3);
    // First identifier is the Visit Number, and is a codeable concept
    DatatypeUtils.checkCommonCodeableConceptAssertions(condition.getIdentifier().get(0).getType(), "VN", "Visit number", "http://terminology.hl7.org/CodeSystem/v2-0203", null);
    // Second identifier
    assertThat(condition.getIdentifier().get(1).getSystem()).isEqualTo("urn:id:extID");
    assertThat(condition.getIdentifier().get(1).getValue()).isEqualTo("C56.9-I10");
    // The 3rd identifier value should be from DG1.20
    // DG1.20
    assertThat(condition.getIdentifier().get(2).getValue()).isEqualTo("V45");
    // Verify asserter reference to Practitioner exists
    assertThat(condition.getAsserter().getReference().substring(0, 13)).isEqualTo("Practitioner/");
    // Verify recorded date is set correctly.
    // DG1.19
    assertThat(condition.getRecordedDateElement().toString()).containsPattern("2021-03-22T15:43:26");
    // Verify onset date time is set correctly.
    // DG1.5
    assertThat(condition.getOnset().toString()).containsPattern("2021-03-22T15:44:49");
    // Verify code text and coding are set correctly.
    DatatypeUtils.checkCommonCodeableConceptAssertions(condition.getCode(), "C56.9", "Ovarian Cancer", "http://hl7.org/fhir/sid/icd-10-cm", // DG1.3
    "Ovarian Cancer");
    // Verify encounter reference exists
    assertThat(condition.getEncounter().getReference().substring(0, 10)).isEqualTo("Encounter/");
    // Verify subject reference to Patient exists
    assertThat(condition.getSubject().getReference().substring(0, 8)).isEqualTo("Patient/");
    // Verify category text and coding are set correctly.
    assertThat(condition.getCategory()).hasSize(1);
    DatatypeUtils.checkCommonCodeableConceptAssertions(condition.getCategoryFirstRep(), "encounter-diagnosis", "Encounter Diagnosis", "http://terminology.hl7.org/CodeSystem/condition-category", // DG1.3
    "Encounter Diagnosis");
    // --- ENCOUNTER TESTS ---
    List<Resource> encounterResource = ResourceUtils.getResourceList(e, ResourceType.Encounter);
    assertThat(encounterResource).hasSize(1);
    Encounter encounter = (Encounter) encounterResource.get(0);
    // Encounter should have a reference to the conditions (only 1 in this unit test)
    assertThat(encounter.getReasonReference()).hasSize(1);
    assertThat(encounter.getReasonReference().get(0).getReference().substring(0, 10)).isEqualTo("Condition/");
    // Verify encounter diagnosis condition, use, and rank are set correctly
    assertThat(encounter.getDiagnosis()).hasSize(1);
    assertThat(encounter.getDiagnosisFirstRep().getCondition().getReference().substring(0, 10)).isEqualTo("Condition/");
    DatatypeUtils.checkCommonCodeableConceptAssertions(encounter.getDiagnosisFirstRep().getUse(), "AD", "Admission diagnosis", "http://terminology.hl7.org/CodeSystem/diagnosis-role", // DG1.6
    null);
    // DG1.15
    assertThat(encounter.getDiagnosisFirstRep().getRank()).isEqualTo(1);
    // --- PRACTIONER TESTS ---
    // Find the asserter (practitioner)  resource from the FHIR bundle.
    List<Resource> practitionerResource = ResourceUtils.getResourceList(e, ResourceType.Practitioner);
    assertThat(practitionerResource).hasSize(1);
    Practitioner practitioner = (Practitioner) practitionerResource.get(0);
    // Verify name text, family, and given are set correctly.
    assertThat(practitioner.getName()).hasSize(1);
    // DG1.16
    assertThat(practitioner.getNameFirstRep().getText()).isEqualTo("JOHN A DOE");
    // DG1.16.2
    assertThat(practitioner.getNameFirstRep().getFamily()).isEqualTo("DOE");
    // DG1.16.3
    assertThat(practitioner.getNameFirstRep().getGivenAsSingleString()).isEqualTo("JOHN A");
    // Verify asserter (practitioner) identifier is set correctly.
    assertThat(practitioner.getIdentifier()).hasSize(1);
    // DG1.16.1
    assertThat(practitioner.getIdentifierFirstRep().getValue()).isEqualTo("123");
}
Also used : Condition(org.hl7.fhir.r4.model.Condition) Practitioner(org.hl7.fhir.r4.model.Practitioner) BundleEntryComponent(org.hl7.fhir.r4.model.Bundle.BundleEntryComponent) Resource(org.hl7.fhir.r4.model.Resource) Encounter(org.hl7.fhir.r4.model.Encounter) ValueSource(org.junit.jupiter.params.provider.ValueSource) ParameterizedTest(org.junit.jupiter.params.ParameterizedTest)

Example 3 with Subject

use of org.hl7.fhir.dstu3.utils.formats.Turtle.Subject in project hl7v2-fhir-converter by LinuxForHealth.

the class Hl7ORUMessageTest method test_oru_with_specimen.

// Suppress warnings about too many assertions in a test.  Justification: creating a FHIR message is very costly; we need to check many asserts per creation for efficiency.
@java.lang.SuppressWarnings("squid:S5961")
@Test
void test_oru_with_specimen() throws IOException {
    String hl7message = "MSH|^~\\\\&|SendTest1|Sendfac1|Receiveapp1|Receivefac1|200603081747|security|ORU^R01|MSGID000005|T|2.6\r" + "PID||45483|45483||SMITH^SUZIE^||20160813|M|||123 MAIN STREET^^SCHENECTADY^NY^12345||(123)456-7890|||||^^^T||||||||||||\r" + "OBR|1||986^IA PHIMS Stage^2.16.840.1.114222.4.3.3.5.1.2^ISO|1051-2^New Born Screening^LN|||20151009173644|||||||||||||002|||||F|||2740^Tsadok^Janetary~2913^Merrit^Darren^F~3065^Mahoney^Paul^J~4723^Loh^Robert^L~9052^Winter^Oscar^||||3065^Mahoney^Paul^J|\r" + "OBX|1|ST|TS-F-01-002^Endocrine Disorders^L||obs report||||||F\r" + "SPM|1|SpecimenID||BLD|||||||P||||||201410060535|201410060821||Y||||||1\r";
    List<BundleEntryComponent> e = ResourceUtils.createFHIRBundleFromHL7MessageReturnEntryList(ftv, hl7message);
    // Verify that the right resources are created
    List<Resource> patientResource = ResourceUtils.getResourceList(e, ResourceType.Patient);
    assertThat(patientResource).hasSize(1);
    List<Resource> diagnosticReport = ResourceUtils.getResourceList(e, ResourceType.DiagnosticReport);
    assertThat(diagnosticReport).hasSize(1);
    List<Resource> servReqResource = ResourceUtils.getResourceList(e, ResourceType.ServiceRequest);
    assertThat(servReqResource).hasSize(1);
    List<Resource> obsResource = ResourceUtils.getResourceList(e, ResourceType.Observation);
    assertThat(obsResource).hasSize(1);
    List<Resource> practitionerResource = ResourceUtils.getResourceList(e, ResourceType.Practitioner);
    assertThat(practitionerResource).hasSize(1);
    List<Resource> specimenResource = ResourceUtils.getResourceList(e, ResourceType.Specimen);
    assertThat(specimenResource).hasSize(1);
    // Expecting only the above resources, no extras!
    assertThat(e).hasSize(6);
    // /////////////////////////////////////////
    // Now confirm content of the diagnosticReport because we don't have separate tests for DiagnosticReport
    // /////////////////////////////////////////
    DiagnosticReport diag = ResourceUtils.getResourceDiagnosticReport(diagnosticReport.get(0), context);
    // Verify status from OBR.25
    assertThat(diag.getStatus().toCode()).isEqualTo("final");
    // Verify category from OBR.24
    assertThat(diag.getCategory()).isEmpty();
    // Verify code from OBR.4
    assertThat(diag.hasCode()).isTrue();
    List<Coding> codings = diag.getCode().getCoding();
    assertThat(codings).hasSize(1);
    Coding coding = codings.get(0);
    assertThat(coding.hasDisplay()).isTrue();
    assertThat(coding.getDisplay()).hasToString("New Born Screening");
    assertThat(coding.hasCode()).isTrue();
    assertThat(coding.getCode()).hasToString("1051-2");
    assertThat(coding.hasSystem()).isTrue();
    assertThat(coding.getSystem()).hasToString("http://loinc.org");
    // Verify encounter reference
    assertThat(diag.getEncounter().isEmpty()).isTrue();
    // Verify subject reference
    assertThat(diag.getSubject().isEmpty()).isFalse();
    // Verify effectiveDateTime from OBR.7 and OBR.8
    // This also verifies the type, confirming effectiveDateTime was set rather than effectivePeriod
    assertThat(diag.getEffectiveDateTimeType().asStringValue()).isEqualTo("2015-10-09T17:36:44+08:00");
    // Verify issued from OBR.22
    assertThat(diag.getIssued()).isNull();
    // Verify resultsInterpreter from OBR.32
    assertThat(diag.getResultsInterpreter()).hasSize(1);
    // Verify basedOn is ref to the ServiceRequest created for ORC or OBR
    assertThat(diag.getBasedOn()).hasSize(1);
    assertThat(diag.getBasedOn().get(0).getReference().substring(0, 15)).isEqualTo("ServiceRequest/");
    // Verify specimen reference
    List<Reference> spmRef = diag.getSpecimen();
    assertThat(spmRef).hasSize(1);
    assertThat(spmRef.get(0).isEmpty()).isFalse();
    // Verify result reference
    List<Reference> obsRef = diag.getResult();
    assertThat(obsRef).hasSize(1);
    assertThat(obsRef.get(0).isEmpty()).isFalse();
    // Verify presentedForm from OBX of type ST - No attachments expected because OBX of type not TX creates an Observation.
    List<Attachment> attachments = diag.getPresentedForm();
    Assertions.assertEquals(0, attachments.size(), "Unexpected number of attachments");
    // //////////////////////////////////
    for (Resource res : obsResource) {
        // Verify encounter reference
        Observation obs = (Observation) res;
        assertThat(obs.getEncounter().isEmpty()).isTrue();
        // Verify subject reference to Patient exists
        assertThat(obs.getSubject().isEmpty()).isFalse();
        assertThat(obs.getSubject().getReference().substring(0, 8)).isEqualTo("Patient/");
    }
}
Also used : Reference(org.hl7.fhir.r4.model.Reference) IBaseResource(org.hl7.fhir.instance.model.api.IBaseResource) Resource(org.hl7.fhir.r4.model.Resource) DiagnosticReport(org.hl7.fhir.r4.model.DiagnosticReport) Attachment(org.hl7.fhir.r4.model.Attachment) BundleEntryComponent(org.hl7.fhir.r4.model.Bundle.BundleEntryComponent) Coding(org.hl7.fhir.r4.model.Coding) Observation(org.hl7.fhir.r4.model.Observation) Test(org.junit.jupiter.api.Test)

Example 4 with Subject

use of org.hl7.fhir.dstu3.utils.formats.Turtle.Subject in project hl7v2-fhir-converter by LinuxForHealth.

the class Hl7ORUMessageTest method test_oru_with_multiple_reports.

// Suppress warnings about too many assertions in a test.  Justification: creating a FHIR message is very costly; we need to check many asserts per creation for efficiency.
@java.lang.SuppressWarnings("squid:S5961")
@Test
void test_oru_with_multiple_reports() throws IOException {
    String hl7message = "MSH|^~\\\\&|SendTest1|Sendfac1|Receiveapp1|Receivefac1|200603081747|security|ORU^R01|MSGID000005|T|2.6\r" + "PID||45483|45483||SMITH^SUZIE^||20160813|M|||123 MAIN STREET^^SCHENECTADY^NY^12345||(123)456-7890|||||^^^T||||||||||||\r" + "OBR|1||986^IA PHIMS Stage^2.16.840.1.114222.4.3.3.5.1.2^ISO|112^Final Echocardiogram Report|||20151009173644|||||||||||||002|||||F|||2740^Tsadok^Janetary~2913^Merrit^Darren^F~3065^Mahoney^Paul^J~4723^Loh^Robert^L~9052^Winter^Oscar^||||3068^JOHN^Paul^J|\r" + "OBX|1|ST|TS-F-01-007^Endocrine Disorders 7^L||obs report||||||F\r" + "OBX|2|ST|TS-F-01-008^Endocrine Disorders 8^L||ECHOCARDIOGRAPHIC REPORT||||||F\r" + "OBR|1||98^IA PHIMS Stage^2.16.840.1.114222.4.3.3.5.1.2^ISO|113^Echocardiogram Report|||20151009173644|||||||||||||002|||||F|||2740^Tsadok^Janetary~2913^Merrit^Darren^F~3065^Mahoney^Paul^J~4723^Loh^Robert^L~9052^Winter^Oscar^||||3065^Mahoney^Paul^J|\r" + "OBX|1|CWE|625-4^Bacteria identified in Stool by Culture^LN^^^^2.33^^result1|1|27268008^Salmonella^SCT^^^^20090731^^Salmonella species|||A^A^HL70078^^^^2.5|||P|||20120301|||^^^^^^^^Bacterial Culture||201203140957||||||\r" + "OBX|2|ST|TS-F-01-002^Endocrine Disorders^L||ECHOCARDIOGRAPHIC REPORT Group 2||||||F\r";
    List<BundleEntryComponent> e = ResourceUtils.createFHIRBundleFromHL7MessageReturnEntryList(ftv, hl7message);
    // Verify that the right resources are being created
    List<Resource> patientResource = ResourceUtils.getResourceList(e, ResourceType.Patient);
    assertThat(patientResource).hasSize(1);
    List<Resource> obsResource = ResourceUtils.getResourceList(e, ResourceType.Observation);
    assertThat(obsResource).hasSize(4);
    List<Resource> practitionerResource = ResourceUtils.getResourceList(e, ResourceType.Practitioner);
    assertThat(practitionerResource).hasSize(2);
    List<Resource> diagnosticReport = ResourceUtils.getResourceList(e, ResourceType.DiagnosticReport);
    assertThat(diagnosticReport).hasSize(2);
    List<Resource> servReqResource = ResourceUtils.getResourceList(e, ResourceType.ServiceRequest);
    assertThat(servReqResource).hasSize(2);
    // Expecting only the above resources, no extras!
    assertThat(e).hasSize(11);
    // /////////////////////////////////////////
    // Now confirm content of the FIRST diagnosticReport because we don't have separate tests for DiagnosticReport
    // /////////////////////////////////////////
    DiagnosticReport diag = ResourceUtils.getResourceDiagnosticReport(diagnosticReport.get(0), context);
    // Verify status from OBR.25
    assertThat(diag.getStatus().toCode()).isEqualTo("final");
    // Verify category from OBR.24
    assertThat(diag.getCategory()).isEmpty();
    // Verify code from OBR.4
    assertThat(diag.hasCode()).isTrue();
    List<Coding> codings = diag.getCode().getCoding();
    assertThat(codings).hasSize(1);
    Coding coding = codings.get(0);
    assertThat(coding.hasDisplay()).isTrue();
    assertThat(coding.getDisplay()).hasToString("Final Echocardiogram Report");
    assertThat(coding.hasCode()).isTrue();
    assertThat(coding.getCode()).hasToString("112");
    assertThat(coding.hasSystem()).isFalse();
    // Verify encounter reference
    assertThat(diag.getEncounter().isEmpty()).isTrue();
    // Verify subject reference
    assertThat(diag.getSubject().isEmpty()).isFalse();
    // Verify effectiveDateTime from OBR.7 and OBR.8
    // This also verifies the type, confirming effectiveDateTime was set rather than effectivePeriod
    assertThat(diag.getEffectiveDateTimeType().asStringValue()).isEqualTo("2015-10-09T17:36:44+08:00");
    // Verify issued from OBR.22
    assertThat(diag.getIssued()).isNull();
    // Verify resultsInterpreter from OBR.32
    assertThat(diag.getResultsInterpreter()).hasSize(1);
    // Verify basedOn is ref to the ServiceRequest created for ORC or OBR
    assertThat(diag.getBasedOn()).hasSize(1);
    assertThat(diag.getBasedOn().get(0).getReference().substring(0, 15)).isEqualTo("ServiceRequest/");
    // Verify specimen reference
    assertThat(diag.getSpecimen()).isEmpty();
    // Verify result reference
    List<Reference> obsRef = diag.getResult();
    assertThat(obsRef).hasSize(2);
    assertThat(obsRef.get(0).isEmpty()).isFalse();
    // Verify presentedForm from OBX of type TX - In this case no attachments created because the OBX is not of type TX.
    List<Attachment> attachments = diag.getPresentedForm();
    Assertions.assertEquals(0, attachments.size(), "Unexpected number of attachments");
    // /////////////////////////////////////////
    // Now confirm content of the SECOND diagnosticReport because we don't have separate tests for DiagnosticReport
    // /////////////////////////////////////////
    DiagnosticReport diag2 = ResourceUtils.getResourceDiagnosticReport(diagnosticReport.get(0), context);
    // Verify status from OBR.25
    assertThat(diag2.getStatus().toCode()).isEqualTo("final");
    // Verify category from OBR.24
    assertThat(diag2.getCategory()).isEmpty();
    // Verify code from OBR.4
    assertThat(diag2.hasCode()).isTrue();
    List<Coding> codings2 = diag2.getCode().getCoding();
    assertThat(codings2).hasSize(1);
    Coding coding2 = codings.get(0);
    assertThat(coding2.hasDisplay()).isTrue();
    assertThat(coding2.getDisplay()).hasToString("Final Echocardiogram Report");
    assertThat(coding2.hasCode()).isTrue();
    assertThat(coding2.getCode()).hasToString("112");
    assertThat(coding2.hasSystem()).isFalse();
    // Verify encounter reference
    assertThat(diag2.getEncounter().isEmpty()).isTrue();
    // Verify subject reference
    assertThat(diag2.getSubject().isEmpty()).isFalse();
    // Verify effectiveDateTime from OBR.7 and OBR.8
    // This also verifies the type, confirming effectiveDateTime was set rather than effectivePeriod
    assertThat(diag2.getEffectiveDateTimeType().asStringValue()).isEqualTo("2015-10-09T17:36:44+08:00");
    // Verify issued from OBR.22
    assertThat(diag2.getIssued()).isNull();
    // Verify resultsInterpreter from OBR.32
    assertThat(diag2.getResultsInterpreter()).hasSize(1);
    // Verify basedOn is ref to the ServiceRequest created for ORC or OBR
    assertThat(diag.getBasedOn()).hasSize(1);
    assertThat(diag.getBasedOn().get(0).getReference().substring(0, 15)).isEqualTo("ServiceRequest/");
    // Verify specimen reference
    assertThat(diag2.getSpecimen()).isEmpty();
    // Verify result reference
    List<Reference> obsRef2 = diag2.getResult();
    assertThat(obsRef2).hasSize(2);
    assertThat(obsRef2.get(0).isEmpty()).isFalse();
    // Verify presentedForm from OBX of type TX - In this case no attachments created because the OBX is not type TX.
    List<Attachment> attachments2 = diag2.getPresentedForm();
    Assertions.assertEquals(0, attachments2.size(), "Unexpected number of attachments");
    // //////////////////////////////////
    for (Resource res : obsResource) {
        // Verify encounter reference is not set
        Observation obs = (Observation) res;
        assertThat(obs.getEncounter().isEmpty()).isTrue();
        // Verify subject reference to Patient exists
        Base subject = ResourceUtils.getValue(obs, "subject");
        assertThat(ResourceUtils.getValueAsString(subject, "reference").substring(0, 8)).isEqualTo("Patient/");
    }
}
Also used : Reference(org.hl7.fhir.r4.model.Reference) IBaseResource(org.hl7.fhir.instance.model.api.IBaseResource) Resource(org.hl7.fhir.r4.model.Resource) DiagnosticReport(org.hl7.fhir.r4.model.DiagnosticReport) Attachment(org.hl7.fhir.r4.model.Attachment) Base(org.hl7.fhir.r4.model.Base) BundleEntryComponent(org.hl7.fhir.r4.model.Bundle.BundleEntryComponent) Coding(org.hl7.fhir.r4.model.Coding) Observation(org.hl7.fhir.r4.model.Observation) Test(org.junit.jupiter.api.Test)

Example 5 with Subject

use of org.hl7.fhir.dstu3.utils.formats.Turtle.Subject in project cqf-ruler by DBCG.

the class CqlExecutionProvider method evaluate.

/**
 * Evaluates a CQL expression and returns the results as a Parameters resource.
 *
 * @param theRequestDetails   the {@link RequestDetails RequestDetails}
 * @param subject             ***Only Patient is supported as of now*** Subject
 *                            for which the expression will be
 *                            evaluated. This corresponds to the context in
 *                            which the expression will be evaluated and is
 *                            represented as a relative FHIR id (e.g.
 *                            Patient/123), which establishes both the context
 *                            and context value for the evaluation
 * @param expression          Expression to be evaluated. Note that this is an
 *                            expression of CQL, not the text of a library with
 *                            definition statements.
 * @param parameters          Any input parameters for the expression.
 *                            {@link Parameters} Parameters defined in this
 *                            input will be made available by name to the CQL
 *                            expression. Parameter types are mapped to CQL as
 *                            specified in the Using CQL section of the CPG
 *                            Implementation guide. If a parameter appears more
 *                            than once in the input Parameters resource, it is
 *                            represented with a List in the input CQL. If a
 *                            parameter has parts, it is represented as a Tuple
 *                            in the input CQL.
 * @param library             A library to be included. The {@link Library}
 *                            library is resolved by url and made available by
 *                            name within the expression to be evaluated.
 * @param useServerData       Whether to use data from the server performing the
 *                            evaluation. If this parameter is true (the
 *                            default), then the operation will use data first
 *                            from any bundles provided as parameters (through
 *                            the data and prefetch parameters), second data
 *                            from the server performing the operation, and
 *                            third, data from the dataEndpoint parameter (if
 *                            provided). If this parameter is false, the
 *                            operation will use data first from the bundles
 *                            provided in the data or prefetch parameters, and
 *                            second from the dataEndpoint parameter (if
 *                            provided).
 * @param data                Data to be made available to the library
 *                            evaluation. This parameter is exclusive with the
 *                            prefetchData parameter (i.e. either provide all
 *                            data as a single bundle, or provide data using
 *                            multiple bundles with prefetch descriptions).
 * @param prefetchData        ***Not Yet Implemented***
 * @param dataEndpoint        An {@link Endpoint} endpoint to use to access data
 *                            referenced by retrieve operations in the library.
 *                            If provided, this endpoint is used after the data
 *                            or prefetchData bundles, and the server, if the
 *                            useServerData parameter is true.
 * @param contentEndpoint     An {@link Endpoint} endpoint to use to access
 *                            content (i.e. libraries) referenced by the
 *                            library. If no content endpoint is supplied, the
 *                            evaluation will attempt to retrieve content from
 *                            the server on which the operation is being
 *                            performed.
 * @param terminologyEndpoint An {@link Endpoint} endpoint to use to access
 *                            terminology (i.e. valuesets, codesystems, and
 *                            membership testing) referenced by the library. If
 *                            no terminology endpoint is supplied, the
 *                            evaluation will attempt to use the server on which
 *                            the operation is being performed as the
 *                            terminology server.
 * @return The result of evaluating the given expression, returned as a FHIR
 *         type, either a {@link Resource} resource, or a FHIR-defined type
 *         corresponding to the CQL return type, as defined in the Using CQL
 *         section of the CPG Implementation guide. If the result is a List of
 *         resources, the result will be a {@link Bundle} Bundle . If the result
 *         is a CQL system-defined or FHIR-defined type, the result is returned
 *         as a {@link Parameters} Parameters resource
 */
@Operation(name = "$cql")
@Description(shortDefinition = "$cql", value = "Evaluates a CQL expression and returns the results as a Parameters resource. Defined: http://build.fhir.org/ig/HL7/cqf-recommendations/OperationDefinition-cpg-cql.html", example = "$cql?expression=5*5")
public Parameters evaluate(RequestDetails theRequestDetails, @OperationParam(name = "subject", max = 1) String subject, @OperationParam(name = "expression", min = 1, max = 1) String expression, @OperationParam(name = "parameters", max = 1) Parameters parameters, @OperationParam(name = "library") List<Parameters> library, @OperationParam(name = "useServerData", max = 1) BooleanType useServerData, @OperationParam(name = "data", max = 1) Bundle data, @OperationParam(name = "prefetchData") List<Parameters> prefetchData, @OperationParam(name = "dataEndpoint", max = 1) Endpoint dataEndpoint, @OperationParam(name = "contentEndpoint", max = 1) Endpoint contentEndpoint, @OperationParam(name = "terminologyEndpoint", max = 1) Endpoint terminologyEndpoint) {
    if (prefetchData != null) {
        throw new NotImplementedException("prefetchData is not yet supported.");
    }
    if (useServerData == null) {
        useServerData = new BooleanType(true);
    }
    List<LibraryParameter> libraryParameters = new ArrayList<>();
    if (library != null) {
        for (Parameters libraryParameter : library) {
            String url = null;
            String name = null;
            for (ParametersParameterComponent param : libraryParameter.getParameter()) {
                switch(param.getName()) {
                    case "url":
                        url = ((StringType) param.getValue()).asStringValue();
                        break;
                    case "name":
                        name = ((StringType) param.getValue()).asStringValue();
                        break;
                    default:
                        throw new IllegalArgumentException("Only url and name parts are allowed for Parameter: library");
                }
            }
            if (url == null) {
                throw new IllegalArgumentException("If library parameter must provide a url parameter part.");
            }
            libraryParameters.add(new LibraryParameter().withUrl(url).withName(name));
        }
    // Remove LocalLibrary from cache first...
    }
    VersionedIdentifier localLibraryIdentifier = new VersionedIdentifier().withId("LocalLibrary").withVersion("1.0.0");
    globalLibraryCache.remove(localLibraryIdentifier);
    CqlEngine engine = setupEngine(localLibraryIdentifier, expression, libraryParameters, subject, parameters, contentEndpoint, dataEndpoint, terminologyEndpoint, data, useServerData.booleanValue(), theRequestDetails);
    Map<String, Object> resolvedParameters = new HashMap<String, Object>();
    if (parameters != null) {
        for (Parameters.ParametersParameterComponent pc : parameters.getParameter()) {
            resolvedParameters.put(pc.getName(), pc.getValue());
        }
    }
    String contextType = subject != null ? subject.substring(0, subject.lastIndexOf("/") - 1) : null;
    String subjectId = subject != null ? subject.substring(0, subject.lastIndexOf("/") - 1) : null;
    EvaluationResult evalResult = engine.evaluate(localLibraryIdentifier, null, Pair.of(contextType != null ? contextType : "Unspecified", subjectId == null ? "null" : subject), resolvedParameters, this.getDebugMap());
    if (evalResult != null && evalResult.expressionResults != null) {
        if (evalResult.expressionResults.size() > 1) {
            logger.debug("Evaluation resulted in more than one expression result.  ");
        }
        Parameters result = new Parameters();
        resolveResult(theRequestDetails, evalResult, result);
        return result;
    }
    return null;
}
Also used : Parameters(org.hl7.fhir.dstu3.model.Parameters) HashMap(java.util.HashMap) NotImplementedException(org.apache.commons.lang3.NotImplementedException) BooleanType(org.hl7.fhir.dstu3.model.BooleanType) ArrayList(java.util.ArrayList) CqlEngine(org.opencds.cqf.cql.engine.execution.CqlEngine) EvaluationResult(org.opencds.cqf.cql.engine.execution.EvaluationResult) VersionedIdentifier(org.cqframework.cql.elm.execution.VersionedIdentifier) ParametersParameterComponent(org.hl7.fhir.dstu3.model.Parameters.ParametersParameterComponent) ParametersParameterComponent(org.hl7.fhir.dstu3.model.Parameters.ParametersParameterComponent) Description(ca.uhn.fhir.model.api.annotation.Description) Operation(ca.uhn.fhir.rest.annotation.Operation)

Aggregations

Test (org.junit.Test)124 Test (org.junit.jupiter.api.Test)68 MockHttpServletResponse (org.springframework.mock.web.MockHttpServletResponse)64 Bundle (org.hl7.fhir.r4.model.Bundle)56 Complex (org.hl7.fhir.r4.utils.formats.Turtle.Complex)54 Parameters (org.hl7.fhir.r4.model.Parameters)46 SpringBootTest (org.springframework.boot.test.context.SpringBootTest)43 RestIntegrationTest (org.opencds.cqf.ruler.test.RestIntegrationTest)42 StringType (org.hl7.fhir.r4.model.StringType)41 IBundleProvider (ca.uhn.fhir.rest.api.server.IBundleProvider)39 Observation (org.hl7.fhir.r4.model.Observation)38 Complex (org.hl7.fhir.dstu3.utils.formats.Turtle.Complex)37 Bundle (org.hl7.fhir.dstu3.model.Bundle)35 ReferenceParam (ca.uhn.fhir.rest.param.ReferenceParam)32 IBaseResource (org.hl7.fhir.instance.model.api.IBaseResource)32 ReferenceAndListParam (ca.uhn.fhir.rest.param.ReferenceAndListParam)31 ReferenceOrListParam (ca.uhn.fhir.rest.param.ReferenceOrListParam)31 Patient (org.hl7.fhir.r4.model.Patient)30 SearchParameterMap (org.openmrs.module.fhir2.api.search.param.SearchParameterMap)30 Complex (org.hl7.fhir.dstu2016may.formats.RdfGenerator.Complex)29