@synanetics/fhir-fml-convert

import { ParseTreeListener } from "antlr4ts/tree/ParseTreeListener"; import { TermExpressionContext } from "./fhirpathParser"; import { InvocationExpressionContext } from "./fhirpathParser"; import { IndexerExpressionContext } from "./fhirpathParser"; import { PolarityExpressionContext } from "./fhirpathParser"; import { MultiplicativeExpressionContext } from "./fhirpathParser"; import { AdditiveExpressionContext } from "./fhirpathParser"; import { TypeExpressionContext } from "./fhirpathParser"; import { UnionExpressionContext } from "./fhirpathParser"; import { InequalityExpressionContext } from "./fhirpathParser"; import { EqualityExpressionContext } from "./fhirpathParser"; import { MembershipExpressionContext } from "./fhirpathParser"; import { AndExpressionContext } from "./fhirpathParser"; import { OrExpressionContext } from "./fhirpathParser"; import { ImpliesExpressionContext } from "./fhirpathParser"; import { NullLiteralContext } from "./fhirpathParser"; import { BooleanLiteralContext } from "./fhirpathParser"; import { StringLiteralContext } from "./fhirpathParser"; import { NumberLiteralContext } from "./fhirpathParser"; import { DateLiteralContext } from "./fhirpathParser"; import { DateTimeLiteralContext } from "./fhirpathParser"; import { TimeLiteralContext } from "./fhirpathParser"; import { QuantityLiteralContext } from "./fhirpathParser"; import { MemberInvocationContext } from "./fhirpathParser"; import { FunctionInvocationContext } from "./fhirpathParser"; import { ThisInvocationContext } from "./fhirpathParser"; import { IndexInvocationContext } from "./fhirpathParser"; import { TotalInvocationContext } from "./fhirpathParser"; import { InvocationTermContext } from "./fhirpathParser"; import { LiteralTermContext } from "./fhirpathParser"; import { ExternalConstantTermContext } from "./fhirpathParser"; import { ParenthesizedTermContext } from "./fhirpathParser"; import { ExpressionContext } from "./fhirpathParser"; import { TermContext } from "./fhirpathParser"; import { LiteralContext } from "./fhirpathParser"; import { ExternalConstantContext } from "./fhirpathParser"; import { InvocationContext } from "./fhirpathParser"; import { FunctionContext } from "./fhirpathParser"; import { ParamListContext } from "./fhirpathParser"; import { QuantityContext } from "./fhirpathParser"; import { UnitContext } from "./fhirpathParser"; import { DateTimePrecisionContext } from "./fhirpathParser"; import { PluralDateTimePrecisionContext } from "./fhirpathParser"; import { TypeSpecifierContext } from "./fhirpathParser"; import { QualifiedIdentifierContext } from "./fhirpathParser"; import { IdentifierContext } from "./fhirpathParser"; /** * This interface defines a complete listener for a parse tree produced by * `fhirpathParser`. */ export interface fhirpathListener extends ParseTreeListener { /** * Enter a parse tree produced by the `termExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ enterTermExpression?: (ctx: TermExpressionContext) => void; /** * Exit a parse tree produced by the `termExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ exitTermExpression?: (ctx: TermExpressionContext) => void; /** * Enter a parse tree produced by the `invocationExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ enterInvocationExpression?: (ctx: InvocationExpressionContext) => void; /** * Exit a parse tree produced by the `invocationExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ exitInvocationExpression?: (ctx: InvocationExpressionContext) => void; /** * Enter a parse tree produced by the `indexerExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ enterIndexerExpression?: (ctx: IndexerExpressionContext) => void; /** * Exit a parse tree produced by the `indexerExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ exitIndexerExpression?: (ctx: IndexerExpressionContext) => void; /** * Enter a parse tree produced by the `polarityExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ enterPolarityExpression?: (ctx: PolarityExpressionContext) => void; /** * Exit a parse tree produced by the `polarityExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ exitPolarityExpression?: (ctx: PolarityExpressionContext) => void; /** * Enter a parse tree produced by the `multiplicativeExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ enterMultiplicativeExpression?: (ctx: MultiplicativeExpressionContext) => void; /** * Exit a parse tree produced by the `multiplicativeExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ exitMultiplicativeExpression?: (ctx: MultiplicativeExpressionContext) => void; /** * Enter a parse tree produced by the `additiveExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ enterAdditiveExpression?: (ctx: AdditiveExpressionContext) => void; /** * Exit a parse tree produced by the `additiveExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ exitAdditiveExpression?: (ctx: AdditiveExpressionContext) => void; /** * Enter a parse tree produced by the `typeExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ enterTypeExpression?: (ctx: TypeExpressionContext) => void; /** * Exit a parse tree produced by the `typeExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ exitTypeExpression?: (ctx: TypeExpressionContext) => void; /** * Enter a parse tree produced by the `unionExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ enterUnionExpression?: (ctx: UnionExpressionContext) => void; /** * Exit a parse tree produced by the `unionExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ exitUnionExpression?: (ctx: UnionExpressionContext) => void; /** * Enter a parse tree produced by the `inequalityExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ enterInequalityExpression?: (ctx: InequalityExpressionContext) => void; /** * Exit a parse tree produced by the `inequalityExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ exitInequalityExpression?: (ctx: InequalityExpressionContext) => void; /** * Enter a parse tree produced by the `equalityExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ enterEqualityExpression?: (ctx: EqualityExpressionContext) => void; /** * Exit a parse tree produced by the `equalityExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ exitEqualityExpression?: (ctx: EqualityExpressionContext) => void; /** * Enter a parse tree produced by the `membershipExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ enterMembershipExpression?: (ctx: MembershipExpressionContext) => void; /** * Exit a parse tree produced by the `membershipExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ exitMembershipExpression?: (ctx: MembershipExpressionContext) => void; /** * Enter a parse tree produced by the `andExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ enterAndExpression?: (ctx: AndExpressionContext) => void; /** * Exit a parse tree produced by the `andExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ exitAndExpression?: (ctx: AndExpressionContext) => void; /** * Enter a parse tree produced by the `orExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ enterOrExpression?: (ctx: OrExpressionContext) => void; /** * Exit a parse tree produced by the `orExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ exitOrExpression?: (ctx: OrExpressionContext) => void; /** * Enter a parse tree produced by the `impliesExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ enterImpliesExpression?: (ctx: ImpliesExpressionContext) => void; /** * Exit a parse tree produced by the `impliesExpression` * labeled alternative in `fhirpathParser.expression`. * @param ctx the parse tree */ exitImpliesExpression?: (ctx: ImpliesExpressionContext) => void; /** * Enter a parse tree produced by the `nullLiteral` * labeled alternative in `fhirpathParser.literal`. * @param ctx the parse tree */ enterNullLiteral?: (ctx: NullLiteralContext) => void; /** * Exit a parse tree produced by the `nullLiteral` * labeled alternative in `fhirpathParser.literal`. * @param ctx the parse tree */ exitNullLiteral?: (ctx: NullLiteralContext) => void; /** * Enter a parse tree produced by the `booleanLiteral` * labeled alternative in `fhirpathParser.literal`. * @param ctx the parse tree */ enterBooleanLiteral?: (ctx: BooleanLiteralContext) => void; /** * Exit a parse tree produced by the `booleanLiteral` * labeled alternative in `fhirpathParser.literal`. * @param ctx the parse tree */ exitBooleanLiteral?: (ctx: BooleanLiteralContext) => void; /** * Enter a parse tree produced by the `stringLiteral` * labeled alternative in `fhirpathParser.literal`. * @param ctx the parse tree */ enterStringLiteral?: (ctx: StringLiteralContext) => void; /** * Exit a parse tree produced by the `stringLiteral` * labeled alternative in `fhirpathParser.literal`. * @param ctx the parse tree */ exitStringLiteral?: (ctx: StringLiteralContext) => void; /** * Enter a parse tree produced by the `numberLiteral` * labeled alternative in `fhirpathParser.literal`. * @param ctx the parse tree */ enterNumberLiteral?: (ctx: NumberLiteralContext) => void; /** * Exit a parse tree produced by the `numberLiteral` * labeled alternative in `fhirpathParser.literal`. * @param ctx the parse tree */ exitNumberLiteral?: (ctx: NumberLiteralContext) => void; /** * Enter a parse tree produced by the `dateLiteral` * labeled alternative in `fhirpathParser.literal`. * @param ctx the parse tree */ enterDateLiteral?: (ctx: DateLiteralContext) => void; /** * Exit a parse tree produced by the `dateLiteral` * labeled alternative in `fhirpathParser.literal`. * @param ctx the parse tree */ exitDateLiteral?: (ctx: DateLiteralContext) => void; /** * Enter a parse tree produced by the `dateTimeLiteral` * labeled alternative in `fhirpathParser.literal`. * @param ctx the parse tree */ enterDateTimeLiteral?: (ctx: DateTimeLiteralContext) => void; /** * Exit a parse tree produced by the `dateTimeLiteral` * labeled alternative in `fhirpathParser.literal`. * @param ctx the parse tree */ exitDateTimeLiteral?: (ctx: DateTimeLiteralContext) => void; /** * Enter a parse tree produced by the `timeLiteral` * labeled alternative in `fhirpathParser.literal`. * @param ctx the parse tree */ enterTimeLiteral?: (ctx: TimeLiteralContext) => void; /** * Exit a parse tree produced by the `timeLiteral` * labeled alternative in `fhirpathParser.literal`. * @param ctx the parse tree */ exitTimeLiteral?: (ctx: TimeLiteralContext) => void; /** * Enter a parse tree produced by the `quantityLiteral` * labeled alternative in `fhirpathParser.literal`. * @param ctx the parse tree */ enterQuantityLiteral?: (ctx: QuantityLiteralContext) => void; /** * Exit a parse tree produced by the `quantityLiteral` * labeled alternative in `fhirpathParser.literal`. * @param ctx the parse tree */ exitQuantityLiteral?: (ctx: QuantityLiteralContext) => void; /** * Enter a parse tree produced by the `memberInvocation` * labeled alternative in `fhirpathParser.invocation`. * @param ctx the parse tree */ enterMemberInvocation?: (ctx: MemberInvocationContext) => void; /** * Exit a parse tree produced by the `memberInvocation` * labeled alternative in `fhirpathParser.invocation`. * @param ctx the parse tree */ exitMemberInvocation?: (ctx: MemberInvocationContext) => void; /** * Enter a parse tree produced by the `functionInvocation` * labeled alternative in `fhirpathParser.invocation`. * @param ctx the parse tree */ enterFunctionInvocation?: (ctx: FunctionInvocationContext) => void; /** * Exit a parse tree produced by the `functionInvocation` * labeled alternative in `fhirpathParser.invocation`. * @param ctx the parse tree */ exitFunctionInvocation?: (ctx: FunctionInvocationContext) => void; /** * Enter a parse tree produced by the `thisInvocation` * labeled alternative in `fhirpathParser.invocation`. * @param ctx the parse tree */ enterThisInvocation?: (ctx: ThisInvocationContext) => void; /** * Exit a parse tree produced by the `thisInvocation` * labeled alternative in `fhirpathParser.invocation`. * @param ctx the parse tree */ exitThisInvocation?: (ctx: ThisInvocationContext) => void; /** * Enter a parse tree produced by the `indexInvocation` * labeled alternative in `fhirpathParser.invocation`. * @param ctx the parse tree */ enterIndexInvocation?: (ctx: IndexInvocationContext) => void; /** * Exit a parse tree produced by the `indexInvocation` * labeled alternative in `fhirpathParser.invocation`. * @param ctx the parse tree */ exitIndexInvocation?: (ctx: IndexInvocationContext) => void; /** * Enter a parse tree produced by the `totalInvocation` * labeled alternative in `fhirpathParser.invocation`. * @param ctx the parse tree */ enterTotalInvocation?: (ctx: TotalInvocationContext) => void; /** * Exit a parse tree produced by the `totalInvocation` * labeled alternative in `fhirpathParser.invocation`. * @param ctx the parse tree */ exitTotalInvocation?: (ctx: TotalInvocationContext) => void; /** * Enter a parse tree produced by the `invocationTerm` * labeled alternative in `fhirpathParser.term`. * @param ctx the parse tree */ enterInvocationTerm?: (ctx: InvocationTermContext) => void; /** * Exit a parse tree produced by the `invocationTerm` * labeled alternative in `fhirpathParser.term`. * @param ctx the parse tree */ exitInvocationTerm?: (ctx: InvocationTermContext) => void; /** * Enter a parse tree produced by the `literalTerm` * labeled alternative in `fhirpathParser.term`. * @param ctx the parse tree */ enterLiteralTerm?: (ctx: LiteralTermContext) => void; /** * Exit a parse tree produced by the `literalTerm` * labeled alternative in `fhirpathParser.term`. * @param ctx the parse tree */ exitLiteralTerm?: (ctx: LiteralTermContext) => void; /** * Enter a parse tree produced by the `externalConstantTerm` * labeled alternative in `fhirpathParser.term`. * @param ctx the parse tree */ enterExternalConstantTerm?: (ctx: ExternalConstantTermContext) => void; /** * Exit a parse tree produced by the `externalConstantTerm` * labeled alternative in `fhirpathParser.term`. * @param ctx the parse tree */ exitExternalConstantTerm?: (ctx: ExternalConstantTermContext) => void; /** * Enter a parse tree produced by the `parenthesizedTerm` * labeled alternative in `fhirpathParser.term`. * @param ctx the parse tree */ enterParenthesizedTerm?: (ctx: ParenthesizedTermContext) => void; /** * Exit a parse tree produced by the `parenthesizedTerm` * labeled alternative in `fhirpathParser.term`. * @param ctx the parse tree */ exitParenthesizedTerm?: (ctx: ParenthesizedTermContext) => void; /** * Enter a parse tree produced by `fhirpathParser.expression`. * @param ctx the parse tree */ enterExpression?: (ctx: ExpressionContext) => void; /** * Exit a parse tree produced by `fhirpathParser.expression`. * @param ctx the parse tree */ exitExpression?: (ctx: ExpressionContext) => void; /** * Enter a parse tree produced by `fhirpathParser.term`. * @param ctx the parse tree */ enterTerm?: (ctx: TermContext) => void; /** * Exit a parse tree produced by `fhirpathParser.term`. * @param ctx the parse tree */ exitTerm?: (ctx: TermContext) => void; /** * Enter a parse tree produced by `fhirpathParser.literal`. * @param ctx the parse tree */ enterLiteral?: (ctx: LiteralContext) => void; /** * Exit a parse tree produced by `fhirpathParser.literal`. * @param ctx the parse tree */ exitLiteral?: (ctx: LiteralContext) => void; /** * Enter a parse tree produced by `fhirpathParser.externalConstant`. * @param ctx the parse tree */ enterExternalConstant?: (ctx: ExternalConstantContext) => void; /** * Exit a parse tree produced by `fhirpathParser.externalConstant`. * @param ctx the parse tree */ exitExternalConstant?: (ctx: ExternalConstantContext) => void; /** * Enter a parse tree produced by `fhirpathParser.invocation`. * @param ctx the parse tree */ enterInvocation?: (ctx: InvocationContext) => void; /** * Exit a parse tree produced by `fhirpathParser.invocation`. * @param ctx the parse tree */ exitInvocation?: (ctx: InvocationContext) => void; /** * Enter a parse tree produced by `fhirpathParser.function`. * @param ctx the parse tree */ enterFunction?: (ctx: FunctionContext) => void; /** * Exit a parse tree produced by `fhirpathParser.function`. * @param ctx the parse tree */ exitFunction?: (ctx: FunctionContext) => void; /** * Enter a parse tree produced by `fhirpathParser.paramList`. * @param ctx the parse tree */ enterParamList?: (ctx: ParamListContext) => void; /** * Exit a parse tree produced by `fhirpathParser.paramList`. * @param ctx the parse tree */ exitParamList?: (ctx: ParamListContext) => void; /** * Enter a parse tree produced by `fhirpathParser.quantity`. * @param ctx the parse tree */ enterQuantity?: (ctx: QuantityContext) => void; /** * Exit a parse tree produced by `fhirpathParser.quantity`. * @param ctx the parse tree */ exitQuantity?: (ctx: QuantityContext) => void; /** * Enter a parse tree produced by `fhirpathParser.unit`. * @param ctx the parse tree */ enterUnit?: (ctx: UnitContext) => void; /** * Exit a parse tree produced by `fhirpathParser.unit`. * @param ctx the parse tree */ exitUnit?: (ctx: UnitContext) => void; /** * Enter a parse tree produced by `fhirpathParser.dateTimePrecision`. * @param ctx the parse tree */ enterDateTimePrecision?: (ctx: DateTimePrecisionContext) => void; /** * Exit a parse tree produced by `fhirpathParser.dateTimePrecision`. * @param ctx the parse tree */ exitDateTimePrecision?: (ctx: DateTimePrecisionContext) => void; /** * Enter a parse tree produced by `fhirpathParser.pluralDateTimePrecision`. * @param ctx the parse tree */ enterPluralDateTimePrecision?: (ctx: PluralDateTimePrecisionContext) => void; /** * Exit a parse tree produced by `fhirpathParser.pluralDateTimePrecision`. * @param ctx the parse tree */ exitPluralDateTimePrecision?: (ctx: PluralDateTimePrecisionContext) => void; /** * Enter a parse tree produced by `fhirpathParser.typeSpecifier`. * @param ctx the parse tree */ enterTypeSpecifier?: (ctx: TypeSpecifierContext) => void; /** * Exit a parse tree produced by `fhirpathParser.typeSpecifier`. * @param ctx the parse tree */ exitTypeSpecifier?: (ctx: TypeSpecifierContext) => void; /** * Enter a parse tree produced by `fhirpathParser.qualifiedIdentifier`. * @param ctx the parse tree */ enterQualifiedIdentifier?: (ctx: QualifiedIdentifierContext) => void; /** * Exit a parse tree produced by `fhirpathParser.qualifiedIdentifier`. * @param ctx the parse tree */ exitQualifiedIdentifier?: (ctx: QualifiedIdentifierContext) => void; /** * Enter a parse tree produced by `fhirpathParser.identifier`. * @param ctx the parse tree */ enterIdentifier?: (ctx: IdentifierContext) => void; /** * Exit a parse tree produced by `fhirpathParser.identifier`. * @param ctx the parse tree */ exitIdentifier?: (ctx: IdentifierContext) => void; } //# sourceMappingURL=fhirpathListener.d.ts.map