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I need to store 2^63 natural number in my program. Int has 4 bytes: so it is 2^(8*4) = 2^32, which type should I use?

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What platform? Signed or unsigned? You may have 'long long' or 'int64_t'. – David Schwartz Oct 21 '11 at 18:34… check this. – onatm Oct 21 '11 at 18:36
No you don't. If so tell me why? – Ed Heal Oct 21 '11 at 18:38
Note that int isn't guaranteed to be 4 bytes... It just is an every modern desktop I can think of. – Oscar Korz Oct 21 '11 at 18:45
All integer types can store 2^63 (which is equal to 61) :p. – kennytm Oct 21 '11 at 18:47
up vote 3 down vote accepted

You can use unsigned long long, but I would check that your compiler supports that type.

#include <iostream>
int main()
    std::cout<<sizeof(unsigned long long)<< " bytes" << std::endl;
    return 0;

Prints 8 bytes on my machine which is enough room to store 2^63.

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This is architecture dependent. C++ doesn't have C's stdint.h header for guaranteed integer widths. On 64-bit linux long will be 64-bits.

I think C++11 adds cstdint as a wrapper for stdint.h. Then you can use int64_t.

Edit: As johannes pointed out, long is 32 bits in Windows. I'm not sure this can be done portably in C++03 while still maintaining full standards compliance. long long and int64_t are not a part of the C++03 standard, but are offered as compiler extensions by the common compilers.

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long on win64 is 32-bits. On Unix/Linux it's 64-bit. One of the annoyances when writing portable code. As others mentioned long long, if supported is the way to go. (New in C++11) – johannes Oct 21 '11 at 18:39
you mean long long. On Windows, long is 32 bits in Windows. – Mooing Duck Oct 21 '11 at 18:41
Corrected. I should stop making assumptions about Windows, because it always seems to defy my expectations. – Oscar Korz Oct 21 '11 at 18:42
@OscarKorz, that's why limits.h exposes LONG_MAX and ULONG_MAX, so you can validate your assumptions. – MSN Oct 21 '11 at 18:45

You can use the GNU multiple precision arithmetic library

It has a C++ Class Interface as well


C++ support in GMP can be enabled with --enable-cxx', in which case a C++ compiler will be required. As a convenience--enable-cxx=detect' can be used to enable C++ support only if a compiler can be found. The C++ support consists of a library and header file gmpxx.h (see Headers and Libraries).

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On most modern processors, a long long int. Technically this is new to C99/C++11, but most C++ compilers have supported it since '99-ish.
Constants are the form 0LL

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I think the ll suffix is case-insensitive. – cdleonard Oct 21 '11 at 18:38
Never knew that. Also changed the constant. Point gets across with smaller numbers too. – Mooing Duck Oct 21 '11 at 18:41

__int64 and long long are often used but not part of STL. long long for C will work with GCC if __int64 is not supported. in C99, if you need exactly 64 bits you can use int64_t,from <stdint.h>.

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Take a look at the *_MAX constants defined in limits.h for your compiler. If any of them are >= 2^63, use the type corresponding to that constant. For my compiler, ULLONG_MAX is 0xffffffffffffffffi64 or 18446744073709551615, which is >= 9223372036854775808 (2^63). So I would use unsigned long long as the type to hold natural numbers up to 2^63.

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I don't know if this is helpful, but double is capable of representing the value pow(2, 63) exactly (no error). However, it can't represent pow(2, 63) + 1.0 exactly, nor can it represent pow(2, 63) - 1.0, so that might not be a helpful answer.

So if you actually want an integer representation of it, you need to use the unsigned 64-bit integer type (the signed type is not sufficient, as (1<<63) is a negative value). Unfortunately, 64-bit integer support is widespread but not entirely standardized. I believe that "unsigned long long int" works in all current-version compilers, but your mileage may vary. I deal with the variance by having a configuration header that typedef's a "uint64" and then typedefs it differently depending on the current compiler. Once C++11 is more widely implemented, it will add "unsigned int64_t", and that will be the correct way to do it after that point.

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I'd recommend using a Big Integer library for this.

Here's a public domain one which works:

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