public RiskAssessmentPredictionComponent addPrediction() { //3 RiskAssessmentPredictionComponent t = new RiskAssessmentPredictionComponent(); if (this.prediction == null) this.prediction = new ArrayList<RiskAssessmentPredictionComponent>(); this.prediction.add(t); return t; }
@Override public Base setProperty(String name, Base value) throws FHIRException { if (name.equals("outcome")) { this.outcome = castToCodeableConcept(value); // CodeableConcept } else if (name.equals("probability[x]")) { this.probability = castToType(value); // Type } else if (name.equals("qualitativeRisk")) { this.qualitativeRisk = castToCodeableConcept(value); // CodeableConcept } else if (name.equals("relativeRisk")) { this.relativeRisk = castToDecimal(value); // DecimalType } else if (name.equals("when[x]")) { this.when = castToType(value); // Type } else if (name.equals("rationale")) { this.rationale = castToString(value); // StringType } else return super.setProperty(name, value); return value; }
@Override public Base setProperty(int hash, String name, Base value) throws FHIRException { switch (hash) { case -1106507950: // outcome this.outcome = castToCodeableConcept(value); // CodeableConcept return value; case -1290561483: // probability this.probability = castToType(value); // Type return value; case 123308730: // qualitativeRisk this.qualitativeRisk = castToCodeableConcept(value); // CodeableConcept return value; case -70741061: // relativeRisk this.relativeRisk = castToDecimal(value); // DecimalType return value; case 3648314: // when this.when = castToType(value); // Type return value; case 345689335: // rationale this.rationale = castToString(value); // StringType return value; default: return super.setProperty(hash, name, value); } }
@Override public Base setProperty(String name, Base value) throws FHIRException { if (name.equals("outcome")) { this.outcome = castToCodeableConcept(value); // CodeableConcept } else if (name.equals("probability[x]")) { this.probability = castToType(value); // Type } else if (name.equals("qualitativeRisk")) { this.qualitativeRisk = castToCodeableConcept(value); // CodeableConcept } else if (name.equals("relativeRisk")) { this.relativeRisk = castToDecimal(value); // DecimalType } else if (name.equals("when[x]")) { this.when = castToType(value); // Type } else if (name.equals("rationale")) { this.rationale = castToString(value); // StringType } else return super.setProperty(name, value); return value; }
@Override public Base makeProperty(int hash, String name) throws FHIRException { switch (hash) { case -1106507950: return getOutcome(); case 1430185003: return getProbability(); case -1290561483: return getProbability(); case 123308730: return getQualitativeRisk(); case -70741061: return getRelativeRiskElement(); case 1312831238: return getWhen(); case 3648314: return getWhen(); case 345689335: return getRationaleElement(); default: return super.makeProperty(hash, name); } }
public boolean hasPrediction() { if (this.prediction == null) return false; for (RiskAssessmentPredictionComponent item : this.prediction) if (!item.isEmpty()) return true; return false; }
public RiskAssessmentPredictionComponent copy() { RiskAssessmentPredictionComponent dst = new RiskAssessmentPredictionComponent(); copyValues(dst); dst.outcome = outcome == null ? null : outcome.copy(); dst.probability = probability == null ? null : probability.copy(); dst.qualitativeRisk = qualitativeRisk == null ? null : qualitativeRisk.copy(); dst.relativeRisk = relativeRisk == null ? null : relativeRisk.copy(); dst.when = when == null ? null : when.copy(); dst.rationale = rationale == null ? null : rationale.copy(); return dst; }
public RiskAssessmentPredictionComponent addPrediction() { //3 RiskAssessmentPredictionComponent t = new RiskAssessmentPredictionComponent(); if (this.prediction == null) this.prediction = new ArrayList<RiskAssessmentPredictionComponent>(); this.prediction.add(t); return t; }
@Override public boolean equalsDeep(Base other_) { if (!super.equalsDeep(other_)) return false; if (!(other_ instanceof RiskAssessmentPredictionComponent)) return false; RiskAssessmentPredictionComponent o = (RiskAssessmentPredictionComponent) other_; return compareDeep(outcome, o.outcome, true) && compareDeep(probability, o.probability, true) && compareDeep(qualitativeRisk, o.qualitativeRisk, true) && compareDeep(relativeRisk, o.relativeRisk, true) && compareDeep(when, o.when, true) && compareDeep(rationale, o.rationale, true) ; }
public org.hl7.fhir.r4.model.RiskAssessment.RiskAssessmentPredictionComponent convertRiskAssessmentPredictionComponent(org.hl7.fhir.instance.model.RiskAssessment.RiskAssessmentPredictionComponent src) throws FHIRException { if (src == null || src.isEmpty()) return null; org.hl7.fhir.r4.model.RiskAssessment.RiskAssessmentPredictionComponent tgt = new org.hl7.fhir.r4.model.RiskAssessment.RiskAssessmentPredictionComponent(); copyElement(src, tgt); tgt.setOutcome(convertCodeableConcept(src.getOutcome())); tgt.setProbability(convertType(src.getProbability())); tgt.setRelativeRisk(src.getRelativeRisk()); tgt.setWhen(convertType(src.getWhen())); tgt.setRationale(src.getRationale()); return tgt; }
public org.hl7.fhir.instance.model.RiskAssessment.RiskAssessmentPredictionComponent convertRiskAssessmentPredictionComponent(org.hl7.fhir.r4.model.RiskAssessment.RiskAssessmentPredictionComponent src) throws FHIRException { if (src == null || src.isEmpty()) return null; org.hl7.fhir.instance.model.RiskAssessment.RiskAssessmentPredictionComponent tgt = new org.hl7.fhir.instance.model.RiskAssessment.RiskAssessmentPredictionComponent(); copyElement(src, tgt); tgt.setOutcome(convertCodeableConcept(src.getOutcome())); tgt.setProbability(convertType(src.getProbability())); tgt.setRelativeRisk(src.getRelativeRisk()); tgt.setWhen(convertType(src.getWhen())); tgt.setRationale(src.getRationale()); return tgt; }
@Override public Base setProperty(int hash, String name, Base value) throws FHIRException { switch (hash) { case -1106507950: // outcome this.outcome = castToCodeableConcept(value); // CodeableConcept return value; case -1290561483: // probability this.probability = castToType(value); // Type return value; case 123308730: // qualitativeRisk this.qualitativeRisk = castToCodeableConcept(value); // CodeableConcept return value; case -70741061: // relativeRisk this.relativeRisk = castToDecimal(value); // DecimalType return value; case 3648314: // when this.when = castToType(value); // Type return value; case 345689335: // rationale this.rationale = castToString(value); // StringType return value; default: return super.setProperty(hash, name, value); } }
@Override public Base makeProperty(int hash, String name) throws FHIRException { switch (hash) { case -1106507950: return getOutcome(); case 1430185003: return getProbability(); case -1290561483: return getProbability(); case 123308730: return getQualitativeRisk(); case -70741061: return getRelativeRiskElement(); case 1312831238: return getWhen(); case 3648314: return getWhen(); case 345689335: return getRationaleElement(); default: return super.makeProperty(hash, name); } }
@Override public boolean equalsDeep(Base other_) { if (!super.equalsDeep(other_)) return false; if (!(other_ instanceof RiskAssessmentPredictionComponent)) return false; RiskAssessmentPredictionComponent o = (RiskAssessmentPredictionComponent) other_; return compareDeep(outcome, o.outcome, true) && compareDeep(probability, o.probability, true) && compareDeep(qualitativeRisk, o.qualitativeRisk, true) && compareDeep(relativeRisk, o.relativeRisk, true) && compareDeep(when, o.when, true) && compareDeep(rationale, o.rationale, true) ; }
public org.hl7.fhir.r4.model.RiskAssessment.RiskAssessmentPredictionComponent convertRiskAssessmentPredictionComponent(org.hl7.fhir.instance.model.RiskAssessment.RiskAssessmentPredictionComponent src) throws FHIRException { if (src == null || src.isEmpty()) return null; org.hl7.fhir.r4.model.RiskAssessment.RiskAssessmentPredictionComponent tgt = new org.hl7.fhir.r4.model.RiskAssessment.RiskAssessmentPredictionComponent(); copyElement(src, tgt); tgt.setOutcome(convertCodeableConcept(src.getOutcome())); tgt.setProbability(convertType(src.getProbability())); tgt.setRelativeRisk(src.getRelativeRisk()); tgt.setWhen(convertType(src.getWhen())); tgt.setRationale(src.getRationale()); return tgt; }
public RiskAssessmentPredictionComponent copy() { RiskAssessmentPredictionComponent dst = new RiskAssessmentPredictionComponent(); copyValues(dst); dst.outcome = outcome == null ? null : outcome.copy(); dst.probability = probability == null ? null : probability.copy(); dst.qualitativeRisk = qualitativeRisk == null ? null : qualitativeRisk.copy(); dst.relativeRisk = relativeRisk == null ? null : relativeRisk.copy(); dst.when = when == null ? null : when.copy(); dst.rationale = rationale == null ? null : rationale.copy(); return dst; }
public boolean hasPrediction() { if (this.prediction == null) return false; for (RiskAssessmentPredictionComponent item : this.prediction) if (!item.isEmpty()) return true; return false; }
public org.hl7.fhir.instance.model.RiskAssessment.RiskAssessmentPredictionComponent convertRiskAssessmentPredictionComponent(org.hl7.fhir.r4.model.RiskAssessment.RiskAssessmentPredictionComponent src) throws FHIRException { if (src == null || src.isEmpty()) return null; org.hl7.fhir.instance.model.RiskAssessment.RiskAssessmentPredictionComponent tgt = new org.hl7.fhir.instance.model.RiskAssessment.RiskAssessmentPredictionComponent(); copyElement(src, tgt); tgt.setOutcome(convertCodeableConcept(src.getOutcome())); tgt.setProbability(convertType(src.getProbability())); tgt.setRelativeRisk(src.getRelativeRisk()); tgt.setWhen(convertType(src.getWhen())); tgt.setRationale(src.getRationale()); return tgt; }