# How to determine the type of literal in Haskell?

When I test the type of literal in GHCi, I find

``````Prelude> :t 1
1 :: Num p => p

Prelude> :t 'c'
'c' :: Char

Prelude> :t "string"
"string" :: [Char]

Prelude> :t 1.0
1.0 :: Fractional p => p
``````

The problem is how does Haskell to determine the type of such literal? where can I find the information about that?

Furthermore, Are there exist any way to change the way of GHC to interpret the type of literal?

For example:

`````` -- do something

:t 1
1 :: Int      -- interprets 1 as Int rather then Num p => p

:t 1.0
1.0 :: Double -- interprets 1.0 as Double rather then Fractional p => p
``````

• stackoverflow.com/questions/34974872/… not what you asked but somewhat helpful – saintsbrook Oct 12 at 3:08
• Note that the types of literals are exactly what you got above: some of these are polymorphic values, which will fit any suitable type. If `1` was an `Int`, then we couldn't do `x+1` when `x::Double`, and we would need to resort to an explicit numeric conversion (there is no "numeric promotion" in Haskell). If you really want an int `1`, use `(1 :: Int)` instead; otherwise, let `1` adapt to the type required by the context. – chi Oct 12 at 8:19

You can ask ghci to default the type variables:

``````\$ ghci
λ> let x = 3
λ> :type x
x :: Num p => p
λ> :type +d x
x :: Integer
λ> :type +d 1
1 :: Integer
λ> :type +d 1.0
1.0 :: Double
``````

The `:type +d` will make ghci to chose the default types for the type variables. Also, this is the general Haskell defaulting rule:

``````default Num Integer
default Real Integer
default Enum Integer
default Integral Integer
default Fractional Double
default RealFrac Double
default Floating Double
default RealFloat Double
``````

If you write `1`, it has any possible number type. That's what `Num p => p` actually means.

If you use `1` in an expression, GHCi will attempt to figure out the correct type of number to use based on what functions you're calling on it, and then automatically give `1` the right type.

If GHCi cannot guess what the correct type is (because there's not enough context or because several types would fit), it defaults to `Integer`. (And for `1.0` it will default to `Double`. And for any other type constraint, it will try to default to `()` if possible.)

This is similar to how compiled code works. If you write a number in your source code, GHC (the compiler) will attempt to auto-detect what the correct type should be. The difference is, if the compiler can't figure it out, it won't "guess" or "default", it'll just give you a compile-time error and demand that you specify what you mean. That's desirable to make compiled code work how you expected, but it's tedious for interactively trying stuff out, which is why GHCi has defaulting.

The type of a single character is always `Char`.

The type of a string is always `String` or `[Char]`. (One is an alias to the other.)

The type of `True` and `False` is always `Bool`. And so on.

So it's only really numbers that have the possibility of multiple types.

[Well, there's an option to make strings polymorphic too, but we won't worry about that now...]

If you want messy details, you can read the Haskell Language Report (which is the official specification document that defines the Haskell language) and the GHCi user manual (which describes what GHCi does).