* Always generate type & symbol baselines * Accept changed shadowed baselines * Accept brand new type and symbol baselines * Allow `getTypeAtLocation` to return undefined in the type writer * Accept baselines which had missing type information * Bind container for dynamically names enum members so they may be printed * Accept type/symbol baselines for enums with computed members * First pass at reducing typeWriter memory overhead * Use generators to allow for type and symbol baselines with no cache * Accept new baselines for tests whose output was fixed by better newline splitting * Hard cap on number of declarations printed, cache declaration print text * handle differing newlines better still to handle RWC newlines * Lower abridging count, accept abridged baselines * Limit max RWC error output size, limit RWC type and symbol baseline input size * Move skip logic into type and symbol baseliner to streamline error handling * Accept removal of empty baselines * Canonicalize path earlier to handle odd paths in input files * Do canonicalization earlier still, also ensure parallel perf profiles for different targets do not trample one another * No need to pathify again
80 lines
2.5 KiB
Plaintext
80 lines
2.5 KiB
Plaintext
=== tests/cases/compiler/generics2.ts ===
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interface A { a: string; }
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>A : Symbol(A, Decl(generics2.ts, 0, 0))
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>a : Symbol(A.a, Decl(generics2.ts, 0, 13))
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interface B extends A { b: string; }
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>B : Symbol(B, Decl(generics2.ts, 0, 26))
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>A : Symbol(A, Decl(generics2.ts, 0, 0))
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>b : Symbol(B.b, Decl(generics2.ts, 1, 23))
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interface C extends B { c: string; }
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>C : Symbol(C, Decl(generics2.ts, 1, 36))
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>B : Symbol(B, Decl(generics2.ts, 0, 26))
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>c : Symbol(C.c, Decl(generics2.ts, 2, 23))
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interface G<T, U extends B> {
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>G : Symbol(G, Decl(generics2.ts, 2, 36))
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>T : Symbol(T, Decl(generics2.ts, 3, 12))
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>U : Symbol(U, Decl(generics2.ts, 3, 14))
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>B : Symbol(B, Decl(generics2.ts, 0, 26))
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x: T;
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>x : Symbol(G.x, Decl(generics2.ts, 3, 29))
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>T : Symbol(T, Decl(generics2.ts, 3, 12))
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y: U;
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>y : Symbol(G.y, Decl(generics2.ts, 4, 9))
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>U : Symbol(U, Decl(generics2.ts, 3, 14))
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}
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var v1: {
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>v1 : Symbol(v1, Decl(generics2.ts, 9, 3))
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x: { a: string; }
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>x : Symbol(x, Decl(generics2.ts, 9, 9))
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>a : Symbol(a, Decl(generics2.ts, 10, 8))
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y: { a: string; b: string; c: string };
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>y : Symbol(y, Decl(generics2.ts, 10, 21))
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>a : Symbol(a, Decl(generics2.ts, 11, 8))
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>b : Symbol(b, Decl(generics2.ts, 11, 19))
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>c : Symbol(c, Decl(generics2.ts, 11, 30))
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}; // Ok
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var v2: G<{ a: string }, C>; // Ok, equivalent to G<A, C>
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>v2 : Symbol(v2, Decl(generics2.ts, 15, 3))
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>G : Symbol(G, Decl(generics2.ts, 2, 36))
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>a : Symbol(a, Decl(generics2.ts, 15, 11))
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>C : Symbol(C, Decl(generics2.ts, 1, 36))
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var v3: G<A, A>; // Error, A not valid argument for U
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>v3 : Symbol(v3, Decl(generics2.ts, 16, 3))
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>G : Symbol(G, Decl(generics2.ts, 2, 36))
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>A : Symbol(A, Decl(generics2.ts, 0, 0))
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>A : Symbol(A, Decl(generics2.ts, 0, 0))
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var v4: G<G<A, B>, C>; // Ok
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>v4 : Symbol(v4, Decl(generics2.ts, 17, 3))
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>G : Symbol(G, Decl(generics2.ts, 2, 36))
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>G : Symbol(G, Decl(generics2.ts, 2, 36))
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>A : Symbol(A, Decl(generics2.ts, 0, 0))
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>B : Symbol(B, Decl(generics2.ts, 0, 26))
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>C : Symbol(C, Decl(generics2.ts, 1, 36))
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var v5: G<any, any>; // Error, any does not satisfy constraint B
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>v5 : Symbol(v5, Decl(generics2.ts, 18, 3))
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>G : Symbol(G, Decl(generics2.ts, 2, 36))
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var v6: G<any>; // Error, wrong number of arguments
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>v6 : Symbol(v6, Decl(generics2.ts, 19, 3))
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>G : Symbol(G, Decl(generics2.ts, 2, 36))
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var v7: G; // Error, no type arguments
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>v7 : Symbol(v7, Decl(generics2.ts, 20, 3))
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>G : Symbol(G, Decl(generics2.ts, 2, 36))
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