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I want to define a great size pointer(64 bit or 128 bit) in gcc which is not depend on platform. I think there is something like __ptr128 or __ptr64 in MSDN.

sizeof(__ptr128) is 16 bytes.
sizeof(__ptr64 ) is 8  bytes.

is it possible?

it can be useful when you use kernel functions in 64 bit OS which requires 8 bytes pointer argument and you have a 32 bit application which uses 32 bits address and you want to use this kernel function.

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How exactly are you going to make use of a pointer that is larger than your address space? – user57368 Feb 13 '12 at 14:49
As @adelphus says in his answer below, platform -independent pointer size definition does not make sense. That being said, there is a __int128 type for 128 bit integers in GCC 4.6 (but not older) – Kimvais Feb 13 '12 at 14:56
I told __ptr128 not __int128 – sheykholeslam Feb 13 '12 at 14:57

Your question makes no sense. Pointers, by definition, are a memory address to something - the size must depend upon the platform. How would you dereference a 128-bit pointer on a hardware platform supporting 64-bit addressing?!

You can create 64 or 128-bit values, but a pointer is directly related to the memory addressing scheme of the underlying hardware.


With your additional statement, I think I see what you're trying to do. Unfortunately, I doubt it's possible. If the kernel function you want to use takes a 64-bit pointer argument, it's highly likely to be a 64-bit function (unless you're developing for some unusual hardware).

Even though it's technically possible to mix 64-bit instructions into a 32-bit executable, no compiler will actually let you do this. A 64-bit API call will use 64-bit code, 64-bit registers and a 64-bit stack - it would be extremely awkward for the compiler and operating system to manage arbitrary switching from a 32-bit environment to a 64-bit environment.

You should look at finding the equivalent API for a 32-bit environment. Perhaps you could post the kernel function prototype (name+parameters) you want to use and someone could help you find a better solution.

Just so there's no confusion, __ptr64 in MSDN is not platform independent:

On a 32-bit system, a pointer declared with __ptr64 is truncated to a 32-bit pointer.

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it can be useful when you use kernel functions in 64 bit OS which requires 8 bytes pointer argument and you have a 32 bit application which uses 32 bits address and you want to use this kernel function. – sheykholeslam Feb 13 '12 at 15:01
So what you really want is a 32/64 bit pointer, not a 128 bit pointer. Which is really just a 64 bit pointer, anyway (with the upper half zero for 32 bits...). Or, just a pointer, because on a 32 bit system you can't have a 64 bit pointer that isn't totally bogus, and on a 64 bit system, a pointer is already 64 bits in any case. Which makes the entire endeavour a bit absurd to begin with. Or, if you are paranoid about struct padding/alignment, you might want to wrap a void* and a uint64_t into an union with appropriate conversion operators. – Damon Feb 13 '12 at 16:39
Yep! i think so. but I like to have more details and an example if there is! – sheykholeslam Feb 13 '12 at 16:43

Can't comment, but the statement that you can't use 64 bit instructions in a "32 bit executable" is misleading since the definition of "32 bit executable" is subject to interpretation. If you mean an executable that uses 32 bit pointers, then there is nothing at all that says you can't use instructions that manipulate 64 bit values while using 32 bit pointers. The processor doesn't know the difference.

Linux even supports a mode where you can have a 32 bit userspace and a 64 bit kernel space. Thus, each app has access to 4GB of RAM, but the system can access much more. This keeps the size of your pointers down to 4 bytes but does not restrict the use of 64 bit data manipulations.

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