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TypeScript/tests/baselines/reference/returnTypeTypeArguments.errors.txt
Mohamed Hegazy 214df64e28 Add snapshot of compiler sources
2014-07-12 17:30:19 -07:00

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==== tests/cases/compiler/returnTypeTypeArguments.ts (37 errors) ====
class One<T>{
value: T;
}
class Two<T, U>{
value: T;
id: U;
}
class Three<T, U, V>{
value: T;
id: U;
name: V;
}
function A1(): One { return null; }
~~~
!!! Generic type 'One<T>' requires 1 type argument(s).
function A2(): Two { return null; }
~~~
!!! Generic type 'Two<T, U>' requires 2 type argument(s).
function A3(): Three { return null; }
~~~~~
!!! Generic type 'Three<T, U, V>' requires 3 type argument(s).
function B1(): Two<number> { return null; }
~~~~~~~~~~~
!!! Generic type 'Two<T, U>' requires 2 type argument(s).
function B2(): Three<string> { return null; }
~~~~~~~~~~~~~
!!! Generic type 'Three<T, U, V>' requires 3 type argument(s).
function B3(): Three<string, number> { return null; }
~~~~~~~~~~~~~~~~~~~~~
!!! Generic type 'Three<T, U, V>' requires 3 type argument(s).
class C {
A1(): One { return null; }
~~~
!!! Generic type 'One<T>' requires 1 type argument(s).
A2(): Two { return null; }
~~~
!!! Generic type 'Two<T, U>' requires 2 type argument(s).
A3(): Three { return null; }
~~~~~
!!! Generic type 'Three<T, U, V>' requires 3 type argument(s).
B1(): Two<number> { return null; }
~~~~~~~~~~~
!!! Generic type 'Two<T, U>' requires 2 type argument(s).
B2(): Three<string> { return null; }
~~~~~~~~~~~~~
!!! Generic type 'Three<T, U, V>' requires 3 type argument(s).
B3(): Three<string, number> { return null; }
~~~~~~~~~~~~~~~~~~~~~
!!! Generic type 'Three<T, U, V>' requires 3 type argument(s).
}
class D<T> {
A2(): Two<T> { return null; }
~~~~~~
!!! Generic type 'Two<T, U>' requires 2 type argument(s).
A3(): Three<T> { return null; }
~~~~~~~~
!!! Generic type 'Three<T, U, V>' requires 3 type argument(s).
B1(): Two<T> { return null; }
~~~~~~
!!! Generic type 'Two<T, U>' requires 2 type argument(s).
B2(): Three<T> { return null; }
~~~~~~~~
!!! Generic type 'Three<T, U, V>' requires 3 type argument(s).
B3(): Three<string, T> { return null; }
~~~~~~~~~~~~~~~~
!!! Generic type 'Three<T, U, V>' requires 3 type argument(s).
}
interface I<T> {
value: T;
}
class Y<T>
{
value: T;
}
class X<T>
{
p1: () => X;
~
!!! Generic type 'X<T>' requires 1 type argument(s).
p2: { [idx: number]: X }
~
!!! Generic type 'X<T>' requires 1 type argument(s).
p3: X[]
~
!!! Generic type 'X<T>' requires 1 type argument(s).
p4: I<X>
~
!!! Generic type 'X<T>' requires 1 type argument(s).
p5: X
~
!!! Generic type 'X<T>' requires 1 type argument(s).
p6: () => Y;
~
!!! Generic type 'Y<T>' requires 1 type argument(s).
p7: { [idx: number]: Y }
~
!!! Generic type 'Y<T>' requires 1 type argument(s).
p8: Y[]
~
!!! Generic type 'Y<T>' requires 1 type argument(s).
p9: I<Y>
~
!!! Generic type 'Y<T>' requires 1 type argument(s).
pa: Y
~
!!! Generic type 'Y<T>' requires 1 type argument(s).
}
declare var a: {
p1: () => X;
~
!!! Generic type 'X<T>' requires 1 type argument(s).
p2: { [idx: number]: X }
~
!!! Generic type 'X<T>' requires 1 type argument(s).
p3: X[]
~
!!! Generic type 'X<T>' requires 1 type argument(s).
p4: I<X>
~
!!! Generic type 'X<T>' requires 1 type argument(s).
p5: X
~
!!! Generic type 'X<T>' requires 1 type argument(s).
p6: () => Y;
~
!!! Generic type 'Y<T>' requires 1 type argument(s).
p7: { [idx: number]: Y }
~
!!! Generic type 'Y<T>' requires 1 type argument(s).
p8: Y[]
~
!!! Generic type 'Y<T>' requires 1 type argument(s).
p9: I<Y>
~
!!! Generic type 'Y<T>' requires 1 type argument(s).
pa: Y
~
!!! Generic type 'Y<T>' requires 1 type argument(s).
};
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