# What is the upper bound of Integer in Haskell?

I was solving a math problem: want to get the sum of the digits of the number `2^1000`.

In Java, the solution is like:

``````String temp = BigInteger.ONE.shiftLeft(1000).toString();

int sum = 0;
for (int i = 0; i < temp.length(); i++)
sum += temp.charAt(i) - '0';
``````

Then came up a solution in Haskell, like this:

``````digitSum ::(Integral a) => a -> a
digitSum 0 = 0
digitSum n = (mod n 10) + (digitSum (div n 10))
``````

The whole process is pretty smooth, one point seems interesting, we know integer type can not handle `2 ^ 1000`, too big, in Java, it's obvious to use `BigInteger` and treat the big number to string, but in Haskell, no compiling errors means the `2 ^ 1000` could be passed in directly. Here is the thing, does Haskell transform the number into string internally? I want to make sure what the type is and let the compiler to determine, then I type the following lines in GHCi:

``````Prelude> let i = 2 ^ 1000

Prelude> i
107150860718626732094842504906000181056140481170553360744375038837035105112493612249319
837881569585812759467291755314682518714528569231404359845775746985748039345677748242309
854210746050623711418779541821530464749835819412673987675591655439460770629145711964776
86542167660429831652624386837205668069376

Prelude> :t i
i :: Integer
``````

Here, I was totally confused, apparently, the number of `i` is oversized, but the return type of `i` is still `Integer`. How could we explain this and what's the upper bound or limit of `Integer` of Haskell?

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–  Xin Huang Aug 11 '13 at 12:53

In Haskell, `Integer` is a - theoretically - unbounded integer type. Fixed-width types are `Int`, `Int8`, `Int16`, `Int32`, `Int64` and the corresponding unsigned `Word`, `Word8` etc.
In practice, even `Integer` is of course bounded, by the available memory for instance, or by the internal representation.
By default, GHC uses the GMP package to represent `Integer`, and that means the bound is `2^(2^37)` or so, since GMP uses a 32-bit integer to store the number of limbs.
`Integer` has no upper bound in Haskell; it is an unbounded integer type. `Integer` in Haskell is like `BigInteger` in Java, and `Integer` in Java is like `Int` in Haskell. `Int` in Haskell has it's bounds at [-2^63, 2^63).
The bounds if `Int` is guaranteed to be at least [-2^29,2^29) in Haskell. –  augustss Aug 11 '13 at 13:08