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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 

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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2 Answers 2

up vote 9 down vote accepted

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.

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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).

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The bounds if Int is guaranteed to be at least [-2^29,2^29) in Haskell. –  augustss Aug 11 '13 at 13:08

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