* 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
145 lines
3.2 KiB
Plaintext
145 lines
3.2 KiB
Plaintext
=== tests/cases/compiler/typeName1.ts ===
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interface I {
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>I : I
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k;
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>k : any
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}
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class C {
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>C : C
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public eek:string;
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>eek : string
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static zeek:number;
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>zeek : number
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}
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var x1:{ f(s:string):number;f(n:number):string; }=3;
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>x1 : { f(s: string): number; f(n: number): string; }
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>f : { (s: string): number; (n: number): string; }
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>s : string
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>f : { (s: string): number; (n: number): string; }
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>n : number
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>3 : 3
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var x2:{ f(s:string):number; } =3;
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>x2 : { f(s: string): number; }
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>f : (s: string) => number
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>s : string
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>3 : 3
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var x3:{ (s:string):number;(n:number):string; }=3;
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>x3 : { (s: string): number; (n: number): string; }
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>s : string
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>n : number
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>3 : 3
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var x4:{ x;y;z:number;f(n:number):string;f(s:string):number; }=3;
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>x4 : { x: any; y: any; z: number; f(n: number): string; f(s: string): number; }
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>x : any
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>y : any
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>z : number
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>f : { (n: number): string; (s: string): number; }
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>n : number
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>f : { (n: number): string; (s: string): number; }
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>s : string
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>3 : 3
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var x5:{ (s:string):number;(n:number):string;x;y;z:number;f(n:number):string;f(s:string):number; }=3;
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>x5 : { (s: string): number; (n: number): string; x: any; y: any; z: number; f(n: number): string; f(s: string): number; }
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>s : string
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>n : number
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>x : any
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>y : any
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>z : number
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>f : { (n: number): string; (s: string): number; }
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>n : number
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>f : { (n: number): string; (s: string): number; }
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>s : string
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>3 : 3
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var x6:{ z:number;f:{(n:number):string;(s:string):number;}; }=3;
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>x6 : { z: number; f: { (n: number): string; (s: string): number; }; }
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>z : number
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>f : { (n: number): string; (s: string): number; }
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>n : number
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>s : string
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>3 : 3
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var x7:(s:string)=>boolean=3;
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>x7 : (s: string) => boolean
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>s : string
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>3 : 3
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var x8:{ z:I;[s:string]:{ x; y; };[n:number]:{x; y;};():boolean; }=3;
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>x8 : { (): boolean; [s: string]: { x: any; y: any; }; [n: number]: { x: any; y: any; }; z: I; }
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>z : I
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>I : I
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>s : string
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>x : any
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>y : any
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>n : number
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>x : any
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>y : any
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>3 : 3
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var x9:I=3;
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>x9 : I
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>I : I
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>3 : 3
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var x10:I[][][][]=3;
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>x10 : I[][][][]
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>I : I
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>3 : 3
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var x11:{z:I;x:boolean;}[][]=3;
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>x11 : { z: I; x: boolean; }[][]
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>z : I
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>I : I
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>x : boolean
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>3 : 3
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var x12:{z:I;x:boolean;y:(s:string)=>boolean;w:{ z:I;[s:string]:{ x; y; };[n:number]:{x; y;};():boolean; };}[][]=3;
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>x12 : { z: I; x: boolean; y: (s: string) => boolean; w: { (): boolean; [s: string]: { x: any; y: any; }; [n: number]: { x: any; y: any; }; z: I; }; }[][]
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>z : I
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>I : I
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>x : boolean
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>y : (s: string) => boolean
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>s : string
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>w : { (): boolean; [s: string]: { x: any; y: any; }; [n: number]: { x: any; y: any; }; z: I; }
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>z : I
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>I : I
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>s : string
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>x : any
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>y : any
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>n : number
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>x : any
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>y : any
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>3 : 3
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var x13:{ new(): number; new(n:number):number; x: string; w: {y: number;}; (): {}; } = 3;
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>x13 : { (): {}; new (): number; new (n: number): number; x: string; w: { y: number; }; }
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>n : number
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>x : string
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>w : { y: number; }
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>y : number
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>3 : 3
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var x14:{ f(x:number):boolean; p; q; ():string; }=3;
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>x14 : { (): string; f(x: number): boolean; p: any; q: any; }
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>f : (x: number) => boolean
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>x : number
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>p : any
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>q : any
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>3 : 3
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var x15:number=C;
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>x15 : number
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>C : typeof C
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