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What is uintptr_t and what it can be used for?

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Additional details on this type as well as other related types is available here: –  Void Dec 4 '09 at 18:17

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up vote 69 down vote accepted

It is an unsigned int that is capable of storing a pointer. Which typically means that it's the same size as a pointer.

It is defined in C++11 and later standards.

A common reason to want an integer type that can hold an architecture's pointer type is to perform integer-specific operations on a pointer, or to obscure the type of a pointer by providing it as an integer "handle".

Edit: Note that Steve Jessop has some very interesting additional details in another answer here for you pedantic types :)

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Note that size_t only needs to be sufficient to hold th size of the largest object, and can be smaller than a pointer. This would be expected on segmented architectures like the 8086 (16 bits size_t, but 32 bits void*) –  MSalters Dec 4 '09 at 9:08
for representing the difference between two pointers, you have ptrdiff_t. uintptr_t isn't meant for that. –  jalf Dec 4 '09 at 14:44
@jalf: For difference, yes, but for distance, you would want an unsigned type. –  Drew Dormann Dec 4 '09 at 17:00
@MSalters: Thank you. Edited. –  Drew Dormann Dec 4 '09 at 17:02
@MarcusJ unsigned int usually isn't large enough. But it might be large enough. This type exists specifically to remove all "assuming". –  Drew Dormann May 31 at 16:46

First thing, at the time the question was asked, uintptr_t was not in C++. It's in C99, in <stdint.h>, as an optional type. Many C++03 compilers do provide that file. It's also in C++11, in <cstdint>, where again it is optional, and which refers to C99 for the definition.

In C99, it is defined as "an unsigned integer type with the property that any valid pointer to void can be converted to this type, then converted back to pointer to void, and the result will compare equal to the original pointer".

Take this to mean what it says. It doesn't say anything about size.

uintptr_t might be the same size as a void*. It might be larger. It could conceivably be smaller, although such a C++ implementation approaches perverse. For example on some hypothetical platform where void* is 32 bits, but only 24 bits of virtual address space are used, you could have a 24-bit uintptr_t which satisfies the requirement. I don't know why an implementation would do that, but the standard permits it.

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Thanks for the "<stdint.h>". My application didn't compile because of uintptr_t declaration. But when I read your comment I add "#include <stdint.h>" and yeah now it works. Thanks! –  JavaRunner Feb 12 '14 at 8:13
Why would someone want to cast a pointer to int? –  Ciro Santilli 六四事件 法轮功 纳米比亚 威视 Jun 27 at 15:28
To allocate aligned memory, among other uses, for instance? –  legends2k Jul 21 at 7:36

It's an unsigned integer type exactly the size of a pointer. Whenever you need to do something unusual with a pointer - like for example invert all bits (don't ask why) you cast it to uintptr_t and manipulate it as a usual integer number, then cast back.

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Of course you could do that, but that would of course be undefined behavior. I believe then only thing you can do with the result of a cast to uintptr_t is to pass it on unchanged and cast it back - everything else is UB. –  sleske Jan 13 '11 at 22:47
There are times where you need to play with the bits, and it would normally generate compiler errors. A common example is enforcing 16-byte aligned memory for certain video and performance critical applications.… –  Dogbert Jul 22 '14 at 21:48
@sleske that's not true. On machines that have self-aligned types the two least significant bits of a pointer are going to be zero (because addresses are multiples of 4 or 8). I've seen programs that exploit this to compress data.. –  saadtaame Jan 3 at 17:48
@saadtaame: I just pointed out that this is UB according to the C standard. That does not mean it cannot be defined on some systems - compilers and runtimes are free to define a specific behaviour for something that is UB in standard C. So there's no contradiction :-). –  sleske Jan 3 at 18:34

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