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Fixed an issue with reverse mapped types inference when single type v…
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…ariable is left after inferring from matching types (#55941)

Co-authored-by: Nathan Shively-Sanders <293473+sandersn@users.noreply.github.com>
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@Andarist @sandersn
Andarist and sandersn committed Nov 30, 2023
1 parent 30f3ce7 commit 6edfef8
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Showing 4 changed files with 380 additions and 1 deletion.
2 changes: 1 addition & 1 deletion src/compiler/checker.ts
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Original file line number Diff line number Diff line change
Expand Up @@ -25354,7 +25354,7 @@ export function createTypeChecker(host: TypeCheckerHost): TypeChecker {
target = getIntersectionType(targets);
}
}
else if (target.flags & (TypeFlags.IndexedAccess | TypeFlags.Substitution)) {
if (target.flags & (TypeFlags.IndexedAccess | TypeFlags.Substitution)) {
target = getActualTypeVariable(target);
}
if (target.flags & TypeFlags.TypeVariable) {
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172 changes: 172 additions & 0 deletions tests/baselines/reference/reverseMappedUnionInference.symbols
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//// [tests/cases/compiler/reverseMappedUnionInference.ts] ////

=== reverseMappedUnionInference.ts ===
interface AnyExtractor<Result> {
>AnyExtractor : Symbol(AnyExtractor, Decl(reverseMappedUnionInference.ts, 0, 0))
>Result : Symbol(Result, Decl(reverseMappedUnionInference.ts, 0, 23))

matches: (node: any) => boolean;
>matches : Symbol(AnyExtractor.matches, Decl(reverseMappedUnionInference.ts, 0, 32))
>node : Symbol(node, Decl(reverseMappedUnionInference.ts, 1, 12))

extract: (node: any) => Result | undefined;
>extract : Symbol(AnyExtractor.extract, Decl(reverseMappedUnionInference.ts, 1, 34))
>node : Symbol(node, Decl(reverseMappedUnionInference.ts, 2, 12))
>Result : Symbol(Result, Decl(reverseMappedUnionInference.ts, 0, 23))
}

interface Extractor<T, Result> {
>Extractor : Symbol(Extractor, Decl(reverseMappedUnionInference.ts, 3, 1))
>T : Symbol(T, Decl(reverseMappedUnionInference.ts, 5, 20))
>Result : Symbol(Result, Decl(reverseMappedUnionInference.ts, 5, 22))

matches: (node: unknown) => node is T;
>matches : Symbol(Extractor.matches, Decl(reverseMappedUnionInference.ts, 5, 32))
>node : Symbol(node, Decl(reverseMappedUnionInference.ts, 6, 12))
>node : Symbol(node, Decl(reverseMappedUnionInference.ts, 6, 12))
>T : Symbol(T, Decl(reverseMappedUnionInference.ts, 5, 20))

extract: (node: T) => Result | undefined;
>extract : Symbol(Extractor.extract, Decl(reverseMappedUnionInference.ts, 6, 40))
>node : Symbol(node, Decl(reverseMappedUnionInference.ts, 7, 12))
>T : Symbol(T, Decl(reverseMappedUnionInference.ts, 5, 20))
>Result : Symbol(Result, Decl(reverseMappedUnionInference.ts, 5, 22))
}

declare function createExtractor<T, Result>(params: {
>createExtractor : Symbol(createExtractor, Decl(reverseMappedUnionInference.ts, 8, 1))
>T : Symbol(T, Decl(reverseMappedUnionInference.ts, 10, 33))
>Result : Symbol(Result, Decl(reverseMappedUnionInference.ts, 10, 35))
>params : Symbol(params, Decl(reverseMappedUnionInference.ts, 10, 44))

matcher: (node: unknown) => node is T;
>matcher : Symbol(matcher, Decl(reverseMappedUnionInference.ts, 10, 53))
>node : Symbol(node, Decl(reverseMappedUnionInference.ts, 11, 12))
>node : Symbol(node, Decl(reverseMappedUnionInference.ts, 11, 12))
>T : Symbol(T, Decl(reverseMappedUnionInference.ts, 10, 33))

extract: (node: T) => Result;
>extract : Symbol(extract, Decl(reverseMappedUnionInference.ts, 11, 40))
>node : Symbol(node, Decl(reverseMappedUnionInference.ts, 12, 12))
>T : Symbol(T, Decl(reverseMappedUnionInference.ts, 10, 33))
>Result : Symbol(Result, Decl(reverseMappedUnionInference.ts, 10, 35))

}): Extractor<T, Result>;
>Extractor : Symbol(Extractor, Decl(reverseMappedUnionInference.ts, 3, 1))
>T : Symbol(T, Decl(reverseMappedUnionInference.ts, 10, 33))
>Result : Symbol(Result, Decl(reverseMappedUnionInference.ts, 10, 35))

interface Identifier {
>Identifier : Symbol(Identifier, Decl(reverseMappedUnionInference.ts, 13, 25))

kind: "identifier";
>kind : Symbol(Identifier.kind, Decl(reverseMappedUnionInference.ts, 15, 22))

name: string;
>name : Symbol(Identifier.name, Decl(reverseMappedUnionInference.ts, 16, 21))
}

declare function isIdentifier(node: unknown): node is Identifier;
>isIdentifier : Symbol(isIdentifier, Decl(reverseMappedUnionInference.ts, 18, 1))
>node : Symbol(node, Decl(reverseMappedUnionInference.ts, 20, 30))
>node : Symbol(node, Decl(reverseMappedUnionInference.ts, 20, 30))
>Identifier : Symbol(Identifier, Decl(reverseMappedUnionInference.ts, 13, 25))

const identifierExtractor = createExtractor({
>identifierExtractor : Symbol(identifierExtractor, Decl(reverseMappedUnionInference.ts, 22, 5))
>createExtractor : Symbol(createExtractor, Decl(reverseMappedUnionInference.ts, 8, 1))

matcher: isIdentifier,
>matcher : Symbol(matcher, Decl(reverseMappedUnionInference.ts, 22, 45))
>isIdentifier : Symbol(isIdentifier, Decl(reverseMappedUnionInference.ts, 18, 1))

extract: (node) => {
>extract : Symbol(extract, Decl(reverseMappedUnionInference.ts, 23, 24))
>node : Symbol(node, Decl(reverseMappedUnionInference.ts, 24, 12))

return {
node,
>node : Symbol(node, Decl(reverseMappedUnionInference.ts, 25, 12))

kind: "identifier" as const,
>kind : Symbol(kind, Decl(reverseMappedUnionInference.ts, 26, 11))
>const : Symbol(const)

value: node.name,
>value : Symbol(value, Decl(reverseMappedUnionInference.ts, 27, 34))
>node.name : Symbol(Identifier.name, Decl(reverseMappedUnionInference.ts, 16, 21))
>node : Symbol(node, Decl(reverseMappedUnionInference.ts, 24, 12))
>name : Symbol(Identifier.name, Decl(reverseMappedUnionInference.ts, 16, 21))

};
},
});

interface StringLiteral {
>StringLiteral : Symbol(StringLiteral, Decl(reverseMappedUnionInference.ts, 31, 3))

kind: "stringLiteral";
>kind : Symbol(StringLiteral.kind, Decl(reverseMappedUnionInference.ts, 33, 25))

value: string;
>value : Symbol(StringLiteral.value, Decl(reverseMappedUnionInference.ts, 34, 24))
}

declare function isStringLiteral(node: unknown): node is StringLiteral;
>isStringLiteral : Symbol(isStringLiteral, Decl(reverseMappedUnionInference.ts, 36, 1))
>node : Symbol(node, Decl(reverseMappedUnionInference.ts, 38, 33))
>node : Symbol(node, Decl(reverseMappedUnionInference.ts, 38, 33))
>StringLiteral : Symbol(StringLiteral, Decl(reverseMappedUnionInference.ts, 31, 3))

const stringExtractor = createExtractor({
>stringExtractor : Symbol(stringExtractor, Decl(reverseMappedUnionInference.ts, 40, 5))
>createExtractor : Symbol(createExtractor, Decl(reverseMappedUnionInference.ts, 8, 1))

matcher: isStringLiteral,
>matcher : Symbol(matcher, Decl(reverseMappedUnionInference.ts, 40, 41))
>isStringLiteral : Symbol(isStringLiteral, Decl(reverseMappedUnionInference.ts, 36, 1))

extract: (node) => {
>extract : Symbol(extract, Decl(reverseMappedUnionInference.ts, 41, 27))
>node : Symbol(node, Decl(reverseMappedUnionInference.ts, 42, 12))

return {
node,
>node : Symbol(node, Decl(reverseMappedUnionInference.ts, 43, 12))

kind: "string" as const,
>kind : Symbol(kind, Decl(reverseMappedUnionInference.ts, 44, 11))
>const : Symbol(const)

value: node.value,
>value : Symbol(value, Decl(reverseMappedUnionInference.ts, 45, 30))
>node.value : Symbol(StringLiteral.value, Decl(reverseMappedUnionInference.ts, 34, 24))
>node : Symbol(node, Decl(reverseMappedUnionInference.ts, 42, 12))
>value : Symbol(StringLiteral.value, Decl(reverseMappedUnionInference.ts, 34, 24))

};
},
});

declare function unionType<Result extends readonly unknown[]>(parsers: {
>unionType : Symbol(unionType, Decl(reverseMappedUnionInference.ts, 49, 3))
>Result : Symbol(Result, Decl(reverseMappedUnionInference.ts, 51, 27))
>parsers : Symbol(parsers, Decl(reverseMappedUnionInference.ts, 51, 62))

[K in keyof Result]: AnyExtractor<Result[K]>;
>K : Symbol(K, Decl(reverseMappedUnionInference.ts, 52, 3))
>Result : Symbol(Result, Decl(reverseMappedUnionInference.ts, 51, 27))
>AnyExtractor : Symbol(AnyExtractor, Decl(reverseMappedUnionInference.ts, 0, 0))
>Result : Symbol(Result, Decl(reverseMappedUnionInference.ts, 51, 27))
>K : Symbol(K, Decl(reverseMappedUnionInference.ts, 52, 3))

}): AnyExtractor<Result[number]>;
>AnyExtractor : Symbol(AnyExtractor, Decl(reverseMappedUnionInference.ts, 0, 0))
>Result : Symbol(Result, Decl(reverseMappedUnionInference.ts, 51, 27))

const myUnion = unionType([identifierExtractor, stringExtractor]);
>myUnion : Symbol(myUnion, Decl(reverseMappedUnionInference.ts, 55, 5))
>unionType : Symbol(unionType, Decl(reverseMappedUnionInference.ts, 49, 3))
>identifierExtractor : Symbol(identifierExtractor, Decl(reverseMappedUnionInference.ts, 22, 5))
>stringExtractor : Symbol(stringExtractor, Decl(reverseMappedUnionInference.ts, 40, 5))

148 changes: 148 additions & 0 deletions tests/baselines/reference/reverseMappedUnionInference.types
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//// [tests/cases/compiler/reverseMappedUnionInference.ts] ////

=== reverseMappedUnionInference.ts ===
interface AnyExtractor<Result> {
matches: (node: any) => boolean;
>matches : (node: any) => boolean
>node : any

extract: (node: any) => Result | undefined;
>extract : (node: any) => Result | undefined
>node : any
}

interface Extractor<T, Result> {
matches: (node: unknown) => node is T;
>matches : (node: unknown) => node is T
>node : unknown

extract: (node: T) => Result | undefined;
>extract : (node: T) => Result | undefined
>node : T
}

declare function createExtractor<T, Result>(params: {
>createExtractor : <T, Result>(params: { matcher: (node: unknown) => node is T; extract: (node: T) => Result; }) => Extractor<T, Result>
>params : { matcher: (node: unknown) => node is T; extract: (node: T) => Result; }

matcher: (node: unknown) => node is T;
>matcher : (node: unknown) => node is T
>node : unknown

extract: (node: T) => Result;
>extract : (node: T) => Result
>node : T

}): Extractor<T, Result>;

interface Identifier {
kind: "identifier";
>kind : "identifier"

name: string;
>name : string
}

declare function isIdentifier(node: unknown): node is Identifier;
>isIdentifier : (node: unknown) => node is Identifier
>node : unknown

const identifierExtractor = createExtractor({
>identifierExtractor : Extractor<Identifier, { node: Identifier; kind: "identifier"; value: string; }>
>createExtractor({ matcher: isIdentifier, extract: (node) => { return { node, kind: "identifier" as const, value: node.name, }; },}) : Extractor<Identifier, { node: Identifier; kind: "identifier"; value: string; }>
>createExtractor : <T, Result>(params: { matcher: (node: unknown) => node is T; extract: (node: T) => Result; }) => Extractor<T, Result>
>{ matcher: isIdentifier, extract: (node) => { return { node, kind: "identifier" as const, value: node.name, }; },} : { matcher: (node: unknown) => node is Identifier; extract: (node: Identifier) => { node: Identifier; kind: "identifier"; value: string; }; }

matcher: isIdentifier,
>matcher : (node: unknown) => node is Identifier
>isIdentifier : (node: unknown) => node is Identifier

extract: (node) => {
>extract : (node: Identifier) => { node: Identifier; kind: "identifier"; value: string; }
>(node) => { return { node, kind: "identifier" as const, value: node.name, }; } : (node: Identifier) => { node: Identifier; kind: "identifier"; value: string; }
>node : Identifier

return {
>{ node, kind: "identifier" as const, value: node.name, } : { node: Identifier; kind: "identifier"; value: string; }

node,
>node : Identifier

kind: "identifier" as const,
>kind : "identifier"
>"identifier" as const : "identifier"
>"identifier" : "identifier"

value: node.name,
>value : string
>node.name : string
>node : Identifier
>name : string

};
},
});

interface StringLiteral {
kind: "stringLiteral";
>kind : "stringLiteral"

value: string;
>value : string
}

declare function isStringLiteral(node: unknown): node is StringLiteral;
>isStringLiteral : (node: unknown) => node is StringLiteral
>node : unknown

const stringExtractor = createExtractor({
>stringExtractor : Extractor<StringLiteral, { node: StringLiteral; kind: "string"; value: string; }>
>createExtractor({ matcher: isStringLiteral, extract: (node) => { return { node, kind: "string" as const, value: node.value, }; },}) : Extractor<StringLiteral, { node: StringLiteral; kind: "string"; value: string; }>
>createExtractor : <T, Result>(params: { matcher: (node: unknown) => node is T; extract: (node: T) => Result; }) => Extractor<T, Result>
>{ matcher: isStringLiteral, extract: (node) => { return { node, kind: "string" as const, value: node.value, }; },} : { matcher: (node: unknown) => node is StringLiteral; extract: (node: StringLiteral) => { node: StringLiteral; kind: "string"; value: string; }; }

matcher: isStringLiteral,
>matcher : (node: unknown) => node is StringLiteral
>isStringLiteral : (node: unknown) => node is StringLiteral

extract: (node) => {
>extract : (node: StringLiteral) => { node: StringLiteral; kind: "string"; value: string; }
>(node) => { return { node, kind: "string" as const, value: node.value, }; } : (node: StringLiteral) => { node: StringLiteral; kind: "string"; value: string; }
>node : StringLiteral

return {
>{ node, kind: "string" as const, value: node.value, } : { node: StringLiteral; kind: "string"; value: string; }

node,
>node : StringLiteral

kind: "string" as const,
>kind : "string"
>"string" as const : "string"
>"string" : "string"

value: node.value,
>value : string
>node.value : string
>node : StringLiteral
>value : string

};
},
});

declare function unionType<Result extends readonly unknown[]>(parsers: {
>unionType : <Result extends readonly unknown[]>(parsers: { [K in keyof Result]: AnyExtractor<Result[K]>; }) => AnyExtractor<Result[number]>
>parsers : { [K in keyof Result]: AnyExtractor<Result[K]>; }

[K in keyof Result]: AnyExtractor<Result[K]>;
}): AnyExtractor<Result[number]>;

const myUnion = unionType([identifierExtractor, stringExtractor]);
>myUnion : AnyExtractor<{ node: Identifier; kind: "identifier"; value: string; } | { node: StringLiteral; kind: "string"; value: string; }>
>unionType([identifierExtractor, stringExtractor]) : AnyExtractor<{ node: Identifier; kind: "identifier"; value: string; } | { node: StringLiteral; kind: "string"; value: string; }>
>unionType : <Result extends readonly unknown[]>(parsers: { [K in keyof Result]: AnyExtractor<Result[K]>; }) => AnyExtractor<Result[number]>
>[identifierExtractor, stringExtractor] : (Extractor<Identifier, { node: Identifier; kind: "identifier"; value: string; }> | Extractor<StringLiteral, { node: StringLiteral; kind: "string"; value: string; }>)[]
>identifierExtractor : Extractor<Identifier, { node: Identifier; kind: "identifier"; value: string; }>
>stringExtractor : Extractor<StringLiteral, { node: StringLiteral; kind: "string"; value: string; }>

59 changes: 59 additions & 0 deletions tests/cases/compiler/reverseMappedUnionInference.ts
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// @strict: true
// @noEmit: true

interface AnyExtractor<Result> {
matches: (node: any) => boolean;
extract: (node: any) => Result | undefined;
}

interface Extractor<T, Result> {
matches: (node: unknown) => node is T;
extract: (node: T) => Result | undefined;
}

declare function createExtractor<T, Result>(params: {
matcher: (node: unknown) => node is T;
extract: (node: T) => Result;
}): Extractor<T, Result>;

interface Identifier {
kind: "identifier";
name: string;
}

declare function isIdentifier(node: unknown): node is Identifier;

const identifierExtractor = createExtractor({
matcher: isIdentifier,
extract: (node) => {
return {
node,
kind: "identifier" as const,
value: node.name,
};
},
});

interface StringLiteral {
kind: "stringLiteral";
value: string;
}

declare function isStringLiteral(node: unknown): node is StringLiteral;

const stringExtractor = createExtractor({
matcher: isStringLiteral,
extract: (node) => {
return {
node,
kind: "string" as const,
value: node.value,
};
},
});

declare function unionType<Result extends readonly unknown[]>(parsers: {
[K in keyof Result]: AnyExtractor<Result[K]>;
}): AnyExtractor<Result[number]>;

const myUnion = unionType([identifierExtractor, stringExtractor]);

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