@synanetics/fhir-fml-convert
Version:
Converts StructureMaps written in FML to JSON ($convert operation)
451 lines • 19.4 kB
TypeScript
import { ATN } from "antlr4ts/atn/ATN";
import { FailedPredicateException } from "antlr4ts/FailedPredicateException";
import { Parser } from "antlr4ts/Parser";
import { ParserRuleContext } from "antlr4ts/ParserRuleContext";
import { RuleContext } from "antlr4ts/RuleContext";
import { TerminalNode } from "antlr4ts/tree/TerminalNode";
import { TokenStream } from "antlr4ts/TokenStream";
import { Vocabulary } from "antlr4ts/Vocabulary";
import { fhirpathListener } from "./fhirpathListener";
import { fhirpathVisitor } from "./fhirpathVisitor";
export declare class fhirpathParser extends Parser {
static readonly T__0 = 1;
static readonly T__1 = 2;
static readonly T__2 = 3;
static readonly T__3 = 4;
static readonly T__4 = 5;
static readonly T__5 = 6;
static readonly T__6 = 7;
static readonly T__7 = 8;
static readonly T__8 = 9;
static readonly T__9 = 10;
static readonly T__10 = 11;
static readonly T__11 = 12;
static readonly T__12 = 13;
static readonly T__13 = 14;
static readonly T__14 = 15;
static readonly T__15 = 16;
static readonly T__16 = 17;
static readonly T__17 = 18;
static readonly T__18 = 19;
static readonly T__19 = 20;
static readonly T__20 = 21;
static readonly T__21 = 22;
static readonly T__22 = 23;
static readonly T__23 = 24;
static readonly T__24 = 25;
static readonly T__25 = 26;
static readonly T__26 = 27;
static readonly T__27 = 28;
static readonly T__28 = 29;
static readonly T__29 = 30;
static readonly T__30 = 31;
static readonly T__31 = 32;
static readonly T__32 = 33;
static readonly T__33 = 34;
static readonly T__34 = 35;
static readonly T__35 = 36;
static readonly T__36 = 37;
static readonly T__37 = 38;
static readonly T__38 = 39;
static readonly T__39 = 40;
static readonly T__40 = 41;
static readonly T__41 = 42;
static readonly T__42 = 43;
static readonly T__43 = 44;
static readonly T__44 = 45;
static readonly T__45 = 46;
static readonly T__46 = 47;
static readonly T__47 = 48;
static readonly T__48 = 49;
static readonly T__49 = 50;
static readonly T__50 = 51;
static readonly T__51 = 52;
static readonly T__52 = 53;
static readonly T__53 = 54;
static readonly DATE = 55;
static readonly DATETIME = 56;
static readonly TIME = 57;
static readonly IDENTIFIER = 58;
static readonly DELIMITEDIDENTIFIER = 59;
static readonly STRING = 60;
static readonly NUMBER = 61;
static readonly WS = 62;
static readonly COMMENT = 63;
static readonly LINE_COMMENT = 64;
static readonly RULE_expression = 0;
static readonly RULE_term = 1;
static readonly RULE_literal = 2;
static readonly RULE_externalConstant = 3;
static readonly RULE_invocation = 4;
static readonly RULE_function = 5;
static readonly RULE_paramList = 6;
static readonly RULE_quantity = 7;
static readonly RULE_unit = 8;
static readonly RULE_dateTimePrecision = 9;
static readonly RULE_pluralDateTimePrecision = 10;
static readonly RULE_typeSpecifier = 11;
static readonly RULE_qualifiedIdentifier = 12;
static readonly RULE_identifier = 13;
static readonly ruleNames: string[];
private static readonly _LITERAL_NAMES;
private static readonly _SYMBOLIC_NAMES;
static readonly VOCABULARY: Vocabulary;
get vocabulary(): Vocabulary;
get grammarFileName(): string;
get ruleNames(): string[];
get serializedATN(): string;
protected createFailedPredicateException(predicate?: string, message?: string): FailedPredicateException;
constructor(input: TokenStream);
expression(): ExpressionContext;
expression(_p: number): ExpressionContext;
term(): TermContext;
literal(): LiteralContext;
externalConstant(): ExternalConstantContext;
invocation(): InvocationContext;
function(): FunctionContext;
paramList(): ParamListContext;
quantity(): QuantityContext;
unit(): UnitContext;
dateTimePrecision(): DateTimePrecisionContext;
pluralDateTimePrecision(): PluralDateTimePrecisionContext;
typeSpecifier(): TypeSpecifierContext;
qualifiedIdentifier(): QualifiedIdentifierContext;
identifier(): IdentifierContext;
sempred(_localctx: RuleContext, ruleIndex: number, predIndex: number): boolean;
private expression_sempred;
static readonly _serializedATN: string;
static __ATN: ATN;
static get _ATN(): ATN;
}
export declare class ExpressionContext extends ParserRuleContext {
constructor(parent: ParserRuleContext | undefined, invokingState: number);
get ruleIndex(): number;
copyFrom(ctx: ExpressionContext): void;
}
export declare class TermExpressionContext extends ExpressionContext {
term(): TermContext;
constructor(ctx: ExpressionContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class InvocationExpressionContext extends ExpressionContext {
expression(): ExpressionContext;
invocation(): InvocationContext;
constructor(ctx: ExpressionContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class IndexerExpressionContext extends ExpressionContext {
expression(): ExpressionContext[];
expression(i: number): ExpressionContext;
constructor(ctx: ExpressionContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class PolarityExpressionContext extends ExpressionContext {
expression(): ExpressionContext;
constructor(ctx: ExpressionContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class MultiplicativeExpressionContext extends ExpressionContext {
expression(): ExpressionContext[];
expression(i: number): ExpressionContext;
constructor(ctx: ExpressionContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class AdditiveExpressionContext extends ExpressionContext {
expression(): ExpressionContext[];
expression(i: number): ExpressionContext;
constructor(ctx: ExpressionContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class TypeExpressionContext extends ExpressionContext {
expression(): ExpressionContext;
typeSpecifier(): TypeSpecifierContext;
constructor(ctx: ExpressionContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class UnionExpressionContext extends ExpressionContext {
expression(): ExpressionContext[];
expression(i: number): ExpressionContext;
constructor(ctx: ExpressionContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class InequalityExpressionContext extends ExpressionContext {
expression(): ExpressionContext[];
expression(i: number): ExpressionContext;
constructor(ctx: ExpressionContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class EqualityExpressionContext extends ExpressionContext {
expression(): ExpressionContext[];
expression(i: number): ExpressionContext;
constructor(ctx: ExpressionContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class MembershipExpressionContext extends ExpressionContext {
expression(): ExpressionContext[];
expression(i: number): ExpressionContext;
constructor(ctx: ExpressionContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class AndExpressionContext extends ExpressionContext {
expression(): ExpressionContext[];
expression(i: number): ExpressionContext;
constructor(ctx: ExpressionContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class OrExpressionContext extends ExpressionContext {
expression(): ExpressionContext[];
expression(i: number): ExpressionContext;
constructor(ctx: ExpressionContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class ImpliesExpressionContext extends ExpressionContext {
expression(): ExpressionContext[];
expression(i: number): ExpressionContext;
constructor(ctx: ExpressionContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class TermContext extends ParserRuleContext {
constructor(parent: ParserRuleContext | undefined, invokingState: number);
get ruleIndex(): number;
copyFrom(ctx: TermContext): void;
}
export declare class InvocationTermContext extends TermContext {
invocation(): InvocationContext;
constructor(ctx: TermContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class LiteralTermContext extends TermContext {
literal(): LiteralContext;
constructor(ctx: TermContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class ExternalConstantTermContext extends TermContext {
externalConstant(): ExternalConstantContext;
constructor(ctx: TermContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class ParenthesizedTermContext extends TermContext {
expression(): ExpressionContext;
constructor(ctx: TermContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class LiteralContext extends ParserRuleContext {
constructor(parent: ParserRuleContext | undefined, invokingState: number);
get ruleIndex(): number;
copyFrom(ctx: LiteralContext): void;
}
export declare class NullLiteralContext extends LiteralContext {
constructor(ctx: LiteralContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class BooleanLiteralContext extends LiteralContext {
constructor(ctx: LiteralContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class StringLiteralContext extends LiteralContext {
STRING(): TerminalNode;
constructor(ctx: LiteralContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class NumberLiteralContext extends LiteralContext {
NUMBER(): TerminalNode;
constructor(ctx: LiteralContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class DateLiteralContext extends LiteralContext {
DATE(): TerminalNode;
constructor(ctx: LiteralContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class DateTimeLiteralContext extends LiteralContext {
DATETIME(): TerminalNode;
constructor(ctx: LiteralContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class TimeLiteralContext extends LiteralContext {
TIME(): TerminalNode;
constructor(ctx: LiteralContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class QuantityLiteralContext extends LiteralContext {
quantity(): QuantityContext;
constructor(ctx: LiteralContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class ExternalConstantContext extends ParserRuleContext {
identifier(): IdentifierContext | undefined;
STRING(): TerminalNode | undefined;
constructor(parent: ParserRuleContext | undefined, invokingState: number);
get ruleIndex(): number;
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class InvocationContext extends ParserRuleContext {
constructor(parent: ParserRuleContext | undefined, invokingState: number);
get ruleIndex(): number;
copyFrom(ctx: InvocationContext): void;
}
export declare class MemberInvocationContext extends InvocationContext {
identifier(): IdentifierContext;
constructor(ctx: InvocationContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class FunctionInvocationContext extends InvocationContext {
function(): FunctionContext;
constructor(ctx: InvocationContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class ThisInvocationContext extends InvocationContext {
constructor(ctx: InvocationContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class IndexInvocationContext extends InvocationContext {
constructor(ctx: InvocationContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class TotalInvocationContext extends InvocationContext {
constructor(ctx: InvocationContext);
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class FunctionContext extends ParserRuleContext {
identifier(): IdentifierContext;
paramList(): ParamListContext | undefined;
constructor(parent: ParserRuleContext | undefined, invokingState: number);
get ruleIndex(): number;
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class ParamListContext extends ParserRuleContext {
expression(): ExpressionContext[];
expression(i: number): ExpressionContext;
constructor(parent: ParserRuleContext | undefined, invokingState: number);
get ruleIndex(): number;
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class QuantityContext extends ParserRuleContext {
NUMBER(): TerminalNode;
unit(): UnitContext | undefined;
constructor(parent: ParserRuleContext | undefined, invokingState: number);
get ruleIndex(): number;
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class UnitContext extends ParserRuleContext {
dateTimePrecision(): DateTimePrecisionContext | undefined;
pluralDateTimePrecision(): PluralDateTimePrecisionContext | undefined;
STRING(): TerminalNode | undefined;
constructor(parent: ParserRuleContext | undefined, invokingState: number);
get ruleIndex(): number;
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class DateTimePrecisionContext extends ParserRuleContext {
constructor(parent: ParserRuleContext | undefined, invokingState: number);
get ruleIndex(): number;
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class PluralDateTimePrecisionContext extends ParserRuleContext {
constructor(parent: ParserRuleContext | undefined, invokingState: number);
get ruleIndex(): number;
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class TypeSpecifierContext extends ParserRuleContext {
qualifiedIdentifier(): QualifiedIdentifierContext;
constructor(parent: ParserRuleContext | undefined, invokingState: number);
get ruleIndex(): number;
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class QualifiedIdentifierContext extends ParserRuleContext {
identifier(): IdentifierContext[];
identifier(i: number): IdentifierContext;
constructor(parent: ParserRuleContext | undefined, invokingState: number);
get ruleIndex(): number;
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
export declare class IdentifierContext extends ParserRuleContext {
IDENTIFIER(): TerminalNode | undefined;
DELIMITEDIDENTIFIER(): TerminalNode | undefined;
constructor(parent: ParserRuleContext | undefined, invokingState: number);
get ruleIndex(): number;
enterRule(listener: fhirpathListener): void;
exitRule(listener: fhirpathListener): void;
accept<Result>(visitor: fhirpathVisitor<Result>): Result;
}
//# sourceMappingURL=fhirpathParser.d.ts.map