I think that use of `-Wall`

may lead to less readable code. Especially, if it is doing some arithmetics.

Some other examples, where the use of `-Wall`

suggests modifications with worse readability.

`(^)`

with `-Wall`

requires type signatures for exponents

Consider this code:

```
norm2 x y = sqrt (x^2 + y^2)
main = print $ norm2 1 1
```

With `-Wall`

it gives two warnings like this:

```
rt.hs:1:18:
Warning: Defaulting the following constraint(s) to type `Integer'
`Integral t' arising from a use of `^' at rt.hs:2:18-20
In the first argument of `(+)', namely `x ^ 2'
In the first argument of `sqrt', namely `(x ^ 2 + y ^ 2)'
In the expression: sqrt (x ^ 2 + y ^ 2)
```

Writing `(^(2::Int)`

everywhere instead of `(^2)`

is not nice.

## Type signatures are required for all top-levels

When writing quick and dirty code, it's annoying. For simple code, where there are at most one or two data types in use (for exapmle, I know that I work only with `Double`

s), writing type signatures everywhere may complicate reading. In the example above there are two warnings just for the lack of type signature:

```
rt.hs:1:0:
Warning: Definition but no type signature for `norm2'
Inferred type: norm2 :: forall a. (Floating a) => a -> a -> a
...
rt.hs:2:15:
Warning: Defaulting the following constraint(s) to type `Double'
`Floating a' arising from a use of `norm2' at rt.hs:2:15-23
In the second argument of `($)', namely `norm2 1 1'
In the expression: print $ norm2 1 1
In the definition of `main': main = print $ norm2 1 1
```

As a distraction, one of them refers to the line different from the one where the type signature is needed.

## Type signatures for intermediate calculations with `Integral`

are necessary

This is a general case of the first problem. Consider an example:

```
stripe x = fromIntegral . round $ x - (fromIntegral (floor x))
main = mapM_ (print . stripe) [0,0.1..2.0]
```

It gives a bunch of warnings. Everywhere with `fromIntegral`

to convert back to `Double`

:

```
rt2.hs:1:11:
Warning: Defaulting the following constraint(s) to type `Integer'
`Integral b' arising from a use of `fromIntegral' at rt2.hs:1:11-22
In the first argument of `(.)', namely `fromIntegral'
In the first argument of `($)', namely `fromIntegral . round'
In the expression:
fromIntegral . round $ x - (fromIntegral (floor x))
```

And everyone knows how often one needs `fromIntegral`

in Haskell...

There are more cases like these the numeric code risks to become unreadable just to fulfill the `-Wall`

requirements. But I still use `-Wall`

on the code I'd like to be sure of.

`-Wall`

? Exhaustiveness checking for example seems worth the price, though I agree that, especially in the last point, the option complicates valid expressions. – Dario Nov 13 '10 at 20:59`-Wall`

has an impact on style. I am not looking for an answer for each one. There really is one question: should I stick with`-Wall`

. – gawi Nov 15 '10 at 1:43