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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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up vote 42 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<> or C pointer 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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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
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
Highly unlikely. On older implementations, the optimizer did little more than assign variables to registers. Using register would turn off that functionality. Nowadays, register assignment algorithms are much, much better. For instance, they can reuse a register for multiple variables, and assign a variable to a register for only part of its lifetime. As a result, the register keyword for a variable is effectively ignored. – MSalters Aug 30 '10 at 9:18
In light of your comment about the optimiser seeing the actual write, does that mean a reinterpret_cast between only pointer types will be optimised to have no runtime cost? – Ephemera Apr 1 '13 at 2:11
@PLPiper: That can harm another common optimization. If you write through a float* and then read through a int*, the optimizer usually can reorder the two statements. The write cannot affect the read, because the types differ. But if there's a preceding reinterpret_cast between a int* and float*, the optimizer is probably going to play it safe. – MSalters Apr 2 '13 at 6:24

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. – 0123456789 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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