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The power function (written in c++)...

long power (long a, long b){
    long result=1l;
    for (int i = 0;i<b;i++){
    return result;

Now I do some output testing...




Well there seems to be some problem with the long falling back to a 32 bit size (instead of staying as a 64 bit). I'm wondering why this doesn't work, yet if I use the long long type, everything works fine.

Some extra info:

I'm using C++ and the compiler MinGW
I am running a 64-bit OS (Windows 7)


You guys are awesome! Never thought that this type of thing would be going on.

I just checked some arbitrary PDTs using sizeof and this is what I found...

cout<<sizeof(long)<<" "<<sizeof(int)<<" "<<sizeof(char)<<" "<<sizeof(long long)<<" "<<sizeof(uint64_t)<<endl;


4 4 1 8 8

So, it looks like my long and int are both 32 bit in size. Some more playing around shows that the intmax_t type is also 64 bit. Practically every single PDT is capped at 64 bits, so if I ever needed to represent a 128-bit integer, does c++ have a built in class for that (something similar to BigInteger in Java)?

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Dont guess - print the values of sizeof(long) and sizeof(int) to find out how big they are –  Adrian Cornish Jan 2 '12 at 15:59
If you want to ask a new question, I'd recommend creating a new question (or better yet, finding a previous question on the topic). Here's one quick link: gmplib.org –  Fred Larson Jan 2 '12 at 16:42

4 Answers 4

up vote 6 down vote accepted

Apparently, the type long is 32 bits in your environment.

To get around similar problems, I would suggest that you use types like uint64_t instead of relying in the assumption that a native type has a specific size.


To answer your second question (does c++ have a built in class for 128-bit integers?): No, it does not. Or rather, it does not mandate one. However, if an implementation would provide one you would be able to use something like uint128_t. Personally, I haven't seen any system that does this, though. There are third party libraries like GMP that provide that functionality, though.

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added link to external information about integer overflows. –  Niklas B. Jan 2 '12 at 15:56
Small comment: an overflow on a signed integer is undefined behavior, so 0 is one of the possible inputs. Using an unsigned integer instead (like unsigned long) there would have been a wrap around and the result might not have been 0 (but 1) –  Matthieu M. Jan 2 '12 at 16:08
Big metal can have them. I have used several (less than 5) research machines that had int 128. –  Loki Astari Jan 2 '12 at 17:44

A. trying running:


To see that it's a 32 bit.

B. I guess it is a problem with the definition of your project. even if you work on a 64 bit machine it can compile a 32 bit program so you can use it both on 32 and 64 but machines.
and long is always the size of a pointer...

C. uint64_t is the best practice.

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Well long type takes 32 bits, so max positive value is 4294967296-1. But your function calculates value 5842587018385982521381124421=21^21.

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Actually, that was 2l ^ 2l where the "l" (L in capitalized form) denotes type long –  Jimmy Huch Jan 2 '12 at 16:13

In C++, as well as in C, size of int is architecture-dependent, and that's all true, but that catch is that 32-bit signed int's go between -2^31 and (2^31-1), not 2^31. You are indeed overflowing a 32-bit number. You should use an unsigned int instead. That goes between 0 and (2^32-1).

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What you say makes sense, but my ints are still 32-bit :S –  Jimmy Huch Jan 2 '12 at 16:00
Changed my answer. –  Phonon Jan 2 '12 at 16:03
Yup, what you are saying is dead on, except I would need numbers as large as 2^61, where even an unsigned int would not suffice. –  Jimmy Huch Jan 2 '12 at 16:15

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