The **C# language specification** describes type inference in Section §7.5.2. There is a detail in it that I don’t understand. Consider the following case:

```
// declaration
void Method<T>(T obj, Func<string, T> func);
// call
Method("obj", s => (object) s);
```

Both the Microsoft and Mono C# compilers correctly infer `T`

= `object`

, but my understanding of the algorithm in the specification would yield `T`

= `string`

and then fail. Here is how I understand it:

**The first phase**

If Ei is an anonymous function, an

*explicit parameter type inference*(§7.5.2.7) is made from Ei to Ti⇒ has no effect, because the lambda expression has no explicit parameter types. Right?

Otherwise, if Ei has a type U and xi is a value parameter then a

*lower-bound inference*is made from U to Ti.⇒ the first parameter is of static type

`string`

, so this adds`string`

to the lower bounds for`T`

, right?

**The second phase**

All

*unfixed*type variables Xi which do not*depend on*(§7.5.2.5) any Xj are fixed (§7.5.2.10).⇒

`T`

is unfixed;`T`

doesn’t depend on anything... so`T`

should be fixed, right?

**§7.5.2.11 Fixing**

The set of candidate types Uj starts out as the set of all types in the set of bounds for Xi.

⇒ {

`string`

(lower bound) }We then examine each bound for Xi in turn: [...] For each lower bound U of Xi all types Uj to which there is not an implicit conversion from U are removed from the candidate set. [...]

⇒ doesn’t remove anything from the candidate set, right?

If among the remaining candidate types Uj there is a unique type V from which there is an implicit conversion to all the other candidate types, then Xi is fixed to V.

⇒ Since there is only one candidate type, this is vacuously true, so Xi is fixed to

`string`

. Right?

**So where am I going wrong?**