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TypeScript/tests/baselines/reference/qualify.symbols
Wesley Wigham 5353475fce Always collect type and symbol baselines (#18621) 
* 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
2017-09-22 15:52:04 -07:00

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=== tests/cases/compiler/qualify.ts ===
module M {
>M : Symbol(M, Decl(qualify.ts, 0, 0), Decl(qualify.ts, 5, 1))
export var m=0;
>m : Symbol(m, Decl(qualify.ts, 1, 14))
export module N {
>N : Symbol(N, Decl(qualify.ts, 1, 19), Decl(qualify.ts, 7, 10))
export var n=1;
>n : Symbol(n, Decl(qualify.ts, 3, 18))
}
}
module M {
>M : Symbol(M, Decl(qualify.ts, 0, 0), Decl(qualify.ts, 5, 1))
export module N {
>N : Symbol(N, Decl(qualify.ts, 1, 19), Decl(qualify.ts, 7, 10))
var y=m;
>y : Symbol(y, Decl(qualify.ts, 9, 11))
>m : Symbol(m, Decl(qualify.ts, 1, 14))
var x=n+y;
>x : Symbol(x, Decl(qualify.ts, 10, 11))
>n : Symbol(n, Decl(qualify.ts, 3, 18))
>y : Symbol(y, Decl(qualify.ts, 9, 11))
}
}
module T {
>T : Symbol(T, Decl(qualify.ts, 12, 1))
export interface I {
>I : Symbol(I, Decl(qualify.ts, 15, 10))
p;
>p : Symbol(I.p, Decl(qualify.ts, 16, 24))
}
export module U {
>U : Symbol(U, Decl(qualify.ts, 18, 5))
var z:I=3;
>z : Symbol(z, Decl(qualify.ts, 20, 11))
>I : Symbol(I, Decl(qualify.ts, 15, 10))
export interface I2 {
>I2 : Symbol(I2, Decl(qualify.ts, 20, 18))
q;
>q : Symbol(I2.q, Decl(qualify.ts, 21, 29))
}
}
}
module Peer {
>Peer : Symbol(Peer, Decl(qualify.ts, 25, 1))
export module U2 {
>U2 : Symbol(U2, Decl(qualify.ts, 27, 13))
var z:T.U.I2=3;
>z : Symbol(z, Decl(qualify.ts, 29, 11))
>T : Symbol(T, Decl(qualify.ts, 12, 1))
>U : Symbol(T.U, Decl(qualify.ts, 18, 5))
>I2 : Symbol(T.U.I2, Decl(qualify.ts, 20, 18))
}
}
module Everest {
>Everest : Symbol(Everest, Decl(qualify.ts, 31, 1))
export module K1 {
>K1 : Symbol(K1, Decl(qualify.ts, 33, 16))
export interface I3 {
>I3 : Symbol(I3, Decl(qualify.ts, 34, 22))
zeep;
>zeep : Symbol(I3.zeep, Decl(qualify.ts, 35, 29))
}
}
export module K2 {
>K2 : Symbol(K2, Decl(qualify.ts, 38, 5))
export interface I4 {
>I4 : Symbol(I4, Decl(qualify.ts, 39, 22))
z;
>z : Symbol(I4.z, Decl(qualify.ts, 40, 29))
}
var v1:I4;
>v1 : Symbol(v1, Decl(qualify.ts, 43, 11))
>I4 : Symbol(I4, Decl(qualify.ts, 39, 22))
var v2:K1.I3=v1;
>v2 : Symbol(v2, Decl(qualify.ts, 44, 11))
>K1 : Symbol(K1, Decl(qualify.ts, 33, 16))
>I3 : Symbol(K1.I3, Decl(qualify.ts, 34, 22))
>v1 : Symbol(v1, Decl(qualify.ts, 43, 11))
var v3:K1.I3[]=v1;
>v3 : Symbol(v3, Decl(qualify.ts, 45, 11))
>K1 : Symbol(K1, Decl(qualify.ts, 33, 16))
>I3 : Symbol(K1.I3, Decl(qualify.ts, 34, 22))
>v1 : Symbol(v1, Decl(qualify.ts, 43, 11))
var v4:()=>K1.I3=v1;
>v4 : Symbol(v4, Decl(qualify.ts, 46, 11))
>K1 : Symbol(K1, Decl(qualify.ts, 33, 16))
>I3 : Symbol(K1.I3, Decl(qualify.ts, 34, 22))
>v1 : Symbol(v1, Decl(qualify.ts, 43, 11))
var v5:(k:K1.I3)=>void=v1;
>v5 : Symbol(v5, Decl(qualify.ts, 47, 11))
>k : Symbol(k, Decl(qualify.ts, 47, 16))
>K1 : Symbol(K1, Decl(qualify.ts, 33, 16))
>I3 : Symbol(K1.I3, Decl(qualify.ts, 34, 22))
>v1 : Symbol(v1, Decl(qualify.ts, 43, 11))
var v6:{k:K1.I3;}=v1;
>v6 : Symbol(v6, Decl(qualify.ts, 48, 11))
>k : Symbol(k, Decl(qualify.ts, 48, 16))
>K1 : Symbol(K1, Decl(qualify.ts, 33, 16))
>I3 : Symbol(K1.I3, Decl(qualify.ts, 34, 22))
>v1 : Symbol(v1, Decl(qualify.ts, 43, 11))
}
}
interface I {
>I : Symbol(I, Decl(qualify.ts, 50, 1))
k;
>k : Symbol(I.k, Decl(qualify.ts, 52, 13))
}
var y:I;
>y : Symbol(y, Decl(qualify.ts, 56, 3))
>I : Symbol(I, Decl(qualify.ts, 50, 1))
var x:T.I=y;
>x : Symbol(x, Decl(qualify.ts, 57, 3))
>T : Symbol(T, Decl(qualify.ts, 12, 1))
>I : Symbol(T.I, Decl(qualify.ts, 15, 10))
>y : Symbol(y, Decl(qualify.ts, 56, 3))
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