I came across a frustrating *something* in Haskell today.

Here's what happened:

- I wrote a function in ghci and gave it a type signature
- ghci complained about the type
- I removed the type signature
- ghci accepted the function
- I checked the inferred type
- the inferred type was exactly the same as the type I tried to give it
- I was very distressed
- I discovered that I could reproduce the problem in any let-expression
- Gnashing of teeth; decided to consult with the experts at SO

**Attempt to define the function with a type signature:**

```
Prelude Control.Monad> let myFilterM f m = do {x <- m; guard (f x); return x} :: (MonadPlus m) => (b -> Bool) -> m b -> m b
<interactive>:1:20:
Inferred type is less polymorphic than expected
Quantified type variable `b' is mentioned in the environment:
m :: (b -> Bool) -> m b -> m b (bound at <interactive>:1:16)
f :: (m b -> m b) -> Bool (bound at <interactive>:1:14)
Quantified type variable `m' is mentioned in the environment:
m :: (b -> Bool) -> m b -> m b (bound at <interactive>:1:16)
f :: (m b -> m b) -> Bool (bound at <interactive>:1:14)
In the expression:
do { x <- m;
guard (f x);
return x } ::
(MonadPlus m) => (b -> Bool) -> m b -> m b
In the definition of `myFilterM':
myFilterM f m
= do { x <- m;
guard (f x);
return x } ::
(MonadPlus m) => (b -> Bool) -> m b -> m b
```

**Defined the function without a type signature, checked the inferred type:**

```
Prelude Control.Monad> let myFilterM f m = do {x <- m; guard (f x); return x}
Prelude Control.Monad> :t myFilterM
myFilterM :: (MonadPlus m) => (b -> Bool) -> m b -> m b
```

**Used the function for great good -- it worked properly:**

```
Prelude Control.Monad> myFilterM (>3) (Just 4)
Just 4
Prelude Control.Monad> myFilterM (>3) (Just 3)
Nothing
```

*My best guess as to what is going on:*

type annotations somehow don't work well with let-expressions, when there's a do-block.

*For bonus points:*

is there a function in the standard Haskell distribution that does this? I was surprised that `filterM`

does something very different.

`myFilterM`

, so you should be saying`:: (MonadPlus m) => m b`

. This is why the types for`m`

and`f`

in your error message are so strange. But I still get the "Inferred type is less polymorphic than expected" error message (albeit with more sensible types) and I don't know what causes that. – dave4420 Oct 5 '11 at 14:48`myFilterM`

's arguments. – dave4420 Oct 5 '11 at 15:23