import {typeOf} from '../values'; import {ValueType} from '../types'; import type {Type} from '../types'; import type {Expression} from '../expression'; import type {ParsingContext} from '../parsing_context'; import type {EvaluationContext} from '../evaluation_context'; // Map input label values to output expression index type Cases = { [k in number | string]: number; }; export class Match implements Expression { type: Type; inputType: Type; input: Expression; cases: Cases; outputs: Array; otherwise: Expression; constructor( inputType: Type, outputType: Type, input: Expression, cases: Cases, outputs: Array, otherwise: Expression ) { this.inputType = inputType; this.type = outputType; this.input = input; this.cases = cases; this.outputs = outputs; this.otherwise = otherwise; } static parse(args: ReadonlyArray, context: ParsingContext): Expression { if (args.length < 5) return context.error( `Expected at least 4 arguments, but found only ${args.length - 1}.` ) as null; if (args.length % 2 !== 1) return context.error('Expected an even number of arguments.') as null; let inputType; let outputType; if (context.expectedType && context.expectedType.kind !== 'value') { outputType = context.expectedType; } const cases = {}; const outputs = []; for (let i = 2; i < args.length - 1; i += 2) { let labels = args[i] as unknown[]; const value = args[i + 1]; if (!Array.isArray(labels)) { labels = [labels]; } const labelContext = context.concat(i); if (labels.length === 0) { return labelContext.error('Expected at least one branch label.') as null; } for (const label of labels) { if (typeof label !== 'number' && typeof label !== 'string') { return labelContext.error('Branch labels must be numbers or strings.') as null; } else if (typeof label === 'number' && Math.abs(label) > Number.MAX_SAFE_INTEGER) { return labelContext.error( `Branch labels must be integers no larger than ${Number.MAX_SAFE_INTEGER}.` ) as null; } else if (typeof label === 'number' && Math.floor(label) !== label) { return labelContext.error( 'Numeric branch labels must be integer values.' ) as null; } else if (!inputType) { inputType = typeOf(label); } else if (labelContext.checkSubtype(inputType, typeOf(label))) { return null; } if (typeof cases[String(label)] !== 'undefined') { return labelContext.error('Branch labels must be unique.') as null; } cases[String(label)] = outputs.length; } const result = context.parse(value, i, outputType); if (!result) return null; outputType = outputType || result.type; outputs.push(result); } const input = context.parse(args[1], 1, ValueType); if (!input) return null; const otherwise = context.parse(args[args.length - 1], args.length - 1, outputType); if (!otherwise) return null; if ( input.type.kind !== 'value' && context.concat(1).checkSubtype(inputType as any, input.type) ) { return null; } return new Match(inputType as any, outputType as any, input, cases, outputs, otherwise); } evaluate(ctx: EvaluationContext) { const input = this.input.evaluate(ctx) as any; const output = (typeOf(input) === this.inputType && this.outputs[this.cases[input]]) || this.otherwise; return output.evaluate(ctx); } eachChild(fn: (_: Expression) => void) { fn(this.input); this.outputs.forEach(fn); fn(this.otherwise); } outputDefined(): boolean { return this.outputs.every((out) => out.outputDefined()) && this.otherwise.outputDefined(); } }