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I'd like to know at compile-time the range of values for a pointer type. limits.h only specifies maximums and minimums for pure number types. I don't wish to use hard-coded constants, and I prefer not to compute a max using sizeof(foo*).

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Explain the problem you are trying to solve rather than ask how to implement the solution you have selected. I smell something very pungent here. –  Amardeep Jul 15 '10 at 19:16
You want the compiler to detect how much memory is available in the system?? –  Crazy Eddie Jul 15 '10 at 19:19
Other than NULL, the actual values in pointers are meant to be opaque. Even NULL isn't guaranteed to have any sort of bit pattern, just that it's unique. If you just want to know 32-bit vs. 64-bit architecture, there are compiler-specific #defines that will tell you that. –  Eclipse Jul 15 '10 at 19:20
re: Amardeep, a templated trie container class is parameterized on the maximum and minimum values of the type used as the token of its provided key type. I'd like to use a list of pointers as my key type, therefore giving a pointer as the token type. To fulfill the parameterization, I need the range of valid pointer values. –  sjbach Jul 15 '10 at 19:25
Why do you not want to compute a maximum using sizeof? –  James McNellis Jul 15 '10 at 19:40

2 Answers 2

I believe I would use intptr_t. It is defined to be the integer that can hold a pointer value, so the min/max values of intptr_t should work.

It might be larger than the values of an actual pointer. But from your explanation of a class that just needs min/max values, I don't believe that you need complete accuracy.

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Note that intptr_t is not currently part of C++; it was added to C in C99 and will be present in the forthcoming C++0x standard. –  James McNellis Jul 15 '10 at 19:42

Pointers are not numbers. In particular, they're not absolutely ordered - given two random pointers p and q, you cannot subtract one from another and get a meaningful result - it is U.B., unless they both point to the same object (malloc memory block, static or automatic object, etc). So the concept of a permitted range of pointers is meaningless in Standard C++.

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That's informative, but I'm not sure it's germane. The only pointer arithmetic being done is comparison, and according to this answer, pointers to separate objects are safely and consistently comparable with std::less<>. Presumably if there's an absolute ordering there's also an absolute range. –  sjbach Jul 15 '10 at 21:40
Applying operators < and > in this case would be similarly undefined. But that's a good point regarding std::less, actually - though it does not have to be defined in terms of < for pointers (the Standard is fairly clear on that) - it still defines an absolute ordering, and, therefore, a range. It doesn't have to map to actual addresses, though, and I'm pretty sure that there's no way to find out the minimum and maximum (in terms of std::less) values without enumerating them all. –  Pavel Minaev Jul 15 '10 at 23:25

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