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My understanding is that C++ reinterpret_cast and C pointer cast is a just a compile-time functionality and that it has no performance cost at all.

Is this true?

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6 Answers 6

up vote 31 down vote accepted

It's a good assumption to start with. However, the optimizer may be restricted in what it can assume in the presence of a reinterpret_cast. Then, even though the cast itself has no associated instructions, the resulting code is slower.

For instance, if you cast an int to a pointer, the optimizer likely will have no idea what that pointer could be pointing to. As a result, it probably has to assume that a write through that pointer can change any variable. That beats very common optimizations such as storing variables in registers.

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This is a good point +1. –  Billy ONeal Aug 26 '10 at 13:10
I don't think "usually not" was the response you intended for the question "is this true?" –  Rob Kennedy Aug 26 '10 at 16:11
@Rob Kennedy: Eh, yes. Reworded. –  MSalters Aug 27 '10 at 7:56
thank you very much for this answer. Maybe in that case one may hint GCC with the register keyword (!?). –  fulmicoton Aug 27 '10 at 10:08
@IngeHenriksen: A C cast is slightly worse, as it can do a little bit more (it can combine a const_cast and a reinterpret_cast). In practice I don't expect this to hinder the optimizer any further than the reinterpret_cast on its own. For readability reasons, prefer reinterpret_cast. C casts are hard to spot. –  MSalters Aug 13 '14 at 7:50

That's right. No cost other than any gain/loss in performance for performing instructions at the new width, which I might add, is only a concern in rare cases. Casting between pointers on every platform I've ever heard of has zero cost, and no performance change whatsoever.

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C style casts in C++ will attempt a static_cast first and only perform a reinterpret_cast if a static cast cannot be performed. A static_cast may change the value of the pointer in the case of multiple inheritance (or when casting an interface to a concrete type), this offset calculation may involve an extra machine instruction. This will at most be 1 machine instruction so really very small.

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Yes, this is true. Casting type which has runtime cost is dynamic_cast.

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static_cast can have runtime cost as well; though it's usually just a single pointer adjustment, or code to covert one type to another (such as an int into a float) –  Billy ONeal Aug 26 '10 at 13:04
Won't static_cast also call user-defined conversions? The runtime cost on those is unbounded. –  Ben Voigt Aug 26 '10 at 13:13
Right, static_cast has runtime cost in the case of type (not pointer) conversion. My point is that dynamic_cast is the only cast type which has additional runtime cost, relatively to C casting. –  Alex Farber Aug 26 '10 at 13:26

You're right, but think about it: reinterpret_cast means maybe a bad design or that you're doing something very low level.

dynamic-cast instead it will cost you something, because it has to look in a lookup table at runtime.

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dynamic_cast is more akin to static_cast with runtime checking rather than reinterpret_cast. You cannot cast polymorphic types with reinterpreT_cast. –  Billy ONeal Aug 26 '10 at 13:07
@Billy ONeal: You can but not polymorphically aware. –  Matt Joiner Aug 29 '10 at 5:56

reinterpret_cast does not incur runtime cost.. however you have to be careful, as every use of reinterpret_cast is implementation defined. For example, it is possible reinterpreting a char array as an int array could cause the target architecture to throw an interrupt, because different types may have different alignment rules.

Get correct first, then worry about efficiency.

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