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I am aware that relational operators for pointers give reliable results only in limited cases, and they are not guaranteed to generate a total order. However, standard function objects for those operators do have specializations which generate a total order.

So what's preventing the same rule applying for built-in operators? That doesn't seem to simplify anything, since reliable comparison is still needed (by some implementation-specific method) for those function objects to work.

Furthermore, is it possible do reliable comparison on pointers with only built-in operators? Although it looks like impossible, I would like to confirm it here.

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Why the downvotes? –  Mankarse Nov 27 '12 at 9:20
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No idea. It looks like a worthy question to me. –  Gorpik Nov 27 '12 at 9:22
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Not sure what your question exactly is, but maybe you find the necessary info here: stackoverflow.com/questions/13380063/… (I did not downvote, but I find the question vague) –  Zane Nov 27 '12 at 9:22
    
Is there a standard's definition of "total order"? If not, how do we suppose to know what it is? –  SChepurin Nov 27 '12 at 10:01
    
@SChepurin Well, there is a mathematical one, I don't know if you can get more "standard" than that. In the end the set theoretical terms about orderings are used throughout the "STL" part of the C++ standard anyway. –  Christian Rau Nov 27 '12 at 10:23

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up vote 7 down vote accepted

It's not that they don't generate a total order, but simply that they are not guaranteed to do so. In practice, they typically will obey a total ordering on most modern hardware. It's just not guaranteed by the standard.

Of course, an implementation could always force them to do so, but then it comes down to the C++ guiding principle, "you don't pay for what you don't use". On some CPUs it may be more expensive to do that.

Suppose you have a CPU with a more complex address model, like, say, a segmented address space. In that case, it is no longer quite as trivial to determine if one pointer is "greater than" another. So the C++ standard allows for both: the "usual" weak pointer comparison rules only guarantee a total ordering for certain limited cases (basically, when pointers point into the same array, which is guaranteed to be linear and sequential and can be implemented very efficiently), and wrapper functions such as std::less which on some CPUs may be more expensive, but which do guarantee a total ordering for all pointers.

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Sorry for my unclear title. What I really meant is "not guaranteed". –  hpsMouse Nov 27 '12 at 9:29

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