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I have an integer variable, that can get a value larger than 4294967295.

What type should I use for it (long long, or double, or something else)?

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an could it be extraordinarily larger? because people are dwelling over issues of 64bits, but if you tell them you're looking at astronomical distances, or atoms count, the answer quickly shifts to "double", forget integers. –  jpinto3912 Jun 6 '09 at 10:21
Great comment! In my case it doesn't get larger than 64bit, but it is still interesting, what to do if it does? Why should I use "double" in such case? –  Igor Oks Jun 6 '09 at 10:31

14 Answers 14

up vote 8 down vote accepted

There is no portable way of doing this in C++, as the language does not specify the size of integer types (except sizeof char is 1). You need to consult your compiler documentation.

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Not quite true. The standard does specify the minimum magnitudes of each type and thus by implication a minimum bit (not byte) count see stackoverflow.com/questions/271076/… –  Loki Astari Jun 1 '09 at 15:20

Doubles are floating-point. You should use long long, probably. I don't know which alias is the preferred one.

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Use long long and if possible add a compile-time assertion that this type is wide enough (smth like sizeof( long long ) >= 8).

double is for floating-point, not integer.

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long long is not a standard C++ data type –  anon Jun 1 '09 at 11:09
According to ISO/IEC 9899:TC3 - Committee Draft — Septermber 7, 2007 - Major changes from the previous edition include: the long long int type and library functions maximum value for an object of type long long int LLONG_MAX 9223372036854775807 (2^63 - 1) –  Ionut Anghelcovici Jun 1 '09 at 11:45
That is a C99 document, not C++. –  anon Jun 1 '09 at 12:33
@Neil: +1 I always thought it was the same in C++, but it seems it is not. According to Working Draft, Standard for Programming Language C++ (N2798=08-0308): There are five standard signed integer types : “signed char”, “short int”, “int”, “long int”, and “long long int”. In this list, each type provides at least as much storage as those preceding it in the list. –  Ionut Anghelcovici Jun 1 '09 at 13:16
Note the N2798 document you quote from is the unratified C++0x draft - standard C++ does not yest have long long integers. –  anon Jun 1 '09 at 13:26

if you don't need negative numbers, unsigned long long sounds like most you can get.

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http://gmplib.org/ big num.

http://mattmccutchen.net/bigint/ big int.

I've used neither, but I've used similiar things in Java.

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gmplib is great +1 –  dfa Jun 1 '09 at 12:48
awesome answer! –  tekknolagi Nov 23 '11 at 22:38

I use


But it's not standard.

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Actually stdint.h is part of C99. But many compiler vendors are relucent in supporting "new" standard even after 10 years (anyone remembers how IT looked like 10 years ago?!). –  lispmachine Jun 1 '09 at 12:36
I don't know about your work, but for me, only three compiler vendors matter. Microsoft, Intel, and GCC. And all three have traditionally been good at "new" standard compliance. Not so much SunW C++ or HP or IBM, but in the Windows/Linux world, it should be a non-issue. 15 years ago, I remember breaking compilers and linkers for breakfast. In fact, it took DEC the better part of two months to fix a linker bug so we could ship Pro/ENGINEER for WindowsNT Alpha, back in the days when 32 MB executables where unheard of. –  Chris Kaminski Jun 1 '09 at 14:11

If your compiler does not have long long you can implement them yourself with a structure containing two long but you will need to be caurseful with carry etc. You could of course look for a Multiple Precision Arithmetic like GMP

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Both proposals aren't good because long long is not a standard C++ data type, and double is a floating-point.

Since my program has to be portable, I am going to #define my own types, that suit all the compilers that I use (visual studio and gcc) :

#ifdef WIN32
  #define unsigned_long_long unsigned __int64
  #define long_long __int64
#else // gcc. Might not work on other compilers!
  #define unsigned_long_long unsigned long long
  #define long_long long long
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Note this is not a Windows issue, it is a C++ standards issue - there is no guaranteed that non-windows platforms will support long long. –  anon Jun 1 '09 at 11:31
According to MSDN long long is equivalent to __int64 in VC++ and so you don't need that define. –  sharptooth Jun 1 '09 at 11:32
Also note that g++ will emit lots of warnings if compiled with -pedantic, which I think most C++ programs are (they certainly should be) –  anon Jun 1 '09 at 11:38
Neil: Why would it emit warnings? –  Igor Oks Jun 1 '09 at 11:51
Because long long is not standard C++ - it is part of C99, which g++ supports. Using -pedantic to compile C++ code will give aq warning about this. –  anon Jun 1 '09 at 12:35

Try TTMath. All you need to do is include a single header and then declare a bignum type such as:

typedef ttmath::UInt<100> BigInt;

which creates a type that can hold unsigned integers between 0 and 2 ^ (32*100)-1. Then just use BigInt wherever you would use int.

Of course you can choose whatever size you like for the template parameter. 100 might be overkill ;-)

Just realised, the lib only works on x86 and x64, but is OS cross-platform on those processors.

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i'm stuck trying to use ttmath and used what you said. you said he would need to use BigInt on the place where he would use Int but the facts is that i get this error "class BigInt has no member called ...", why do you think this is happening? –  wxiiir Nov 16 '11 at 18:00
@wxiir You said in your other post that you were getting an error saying BigInt has no member named blah when your variable was named blah (that shouldn't happen). What happens you try a simple declaration like ttmath::UInt<100> blah = 0; blah = blah + 10;? –  HostileFork Nov 16 '11 at 18:32

Don't use double, because:

cout << LONG_LONG_MAX << endl;
cout << double(LONG_LONG_MAX) << endl;

cout << LONG_LONG_MAX-100 << endl;
cout << double(LONG_LONG_MAX-100) << endl;


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Yes, double will some of the bits to identify the exponent, actually loosing precision (as compared to an integer type of the same size) –  David Rodríguez - dribeas Jun 1 '09 at 14:50

A lot of current C/C++ compilers have either stdint.h or inttypes.h header.

int_fast64_t or int64_t may be an option (IMHO the most portable).

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I'm going to assume your numbers will fit in 64 bits. If not, then you need an arbitrary-precision arithmetic library such as GMP.

In theory, there's no easy, portable way to do 64-bit maths in C++. In practise, most C++ compilers also support the "old fashioned" C headers, and C99 has a nice header called stdint.h.

So first do:

#include <stdint.h>

Then use types int64_t (signed) and uint64_t (unsigned).

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How portable should your program be? TR1 has cstdint and stdint.h so it's likely supported by most up-to-date compilers. Then there is Boost cstdint.hpp that you should be able to use if cstdint is not supported.

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Just out of curiosity - I don't think it would be too hard to code your own if you wanted to. I mean, all of these data types have predefined structures, of course, but you could, for example, use the double structure which uses exponents, and do something like this:

to hold a VERY large number, beyond the scale of a double, create an object that has two parts to it - the number and the power to ten,

so, if you wanted to store something like

1.1230123123 x 10^(100000000000000000000000000000000000), which isn't supported by a double, you could have the 1.123 ... part stored in a double, and then the power of ten as a seperate double/int/float (whatever suits), and then take it from there. Of course, this may not be the best way - and you would probably have to code in a lot of functionality for division, subtraction etc, but it would definitely by portable, as you would be using the normal data types defined. The useability of this would depend on what you are trying to achieve and whether or not you plan to use this beyond a single project, but I think it is a liable way to do it if those sorts of numbers are an absolute requirement

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