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I guess it's all said in the title...

But here's an example. Given

void functionThatTakesAFloat(float par);
float f = 3.5f;



produce any additionial code compared to


or is this static_cast completely eliminated by the compiler?

Edit: I'm using VC++ (2010)

share|improve this question
Wow, someone wants to close this as “too localized”. Not sure I'd agree. This is actually a pretty interesting question, although it would benefit from the OP specifying the compiler he's wondering about. – Jonathan Sterling Apr 28 '11 at 6:20
@JonathanSterling: I think it is too localized as it depends on compiler options, compiler and possible platform. None given in the question. – dalle Apr 28 '11 at 6:24
@dalle Point taken! – Jonathan Sterling Apr 28 '11 at 6:26
up vote 6 down vote accepted

The simple answer here is that by definition a cast from float to float is a no-op. There is no conceivable code that could worth emitting for this cast. It may be true that some compiler in this universe emits unquestionably redundant code in this case, but it is safe to assume that you will never encounter such a compiler.

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5.2.9 /

-2- An expression e can be explicitly converted to a type T
    using a static_cast of the form static_cast<T>(e) if the
    declaration ``"T t(e);"'' is well-formed, for some invented
    temporary variable t (dcl.init). The effect of such an explicit
    conversion is the same as performing the declaration and
    initialization and then using the temporary variable as the
    result of the conversion. <cont...>

So given:

float my_float = ...;



...must be equivalent to...

float temp = my_float;

Whether it's actually followed that literally, and generates a temp in non-optimised builds, would be up to the compiler. If you don't trust your optimiser to remove this (if it was ever inserted), then you should try another compiler... ;-).

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+1 for quoting the standard. Good answer. – ereOn Apr 28 '11 at 6:38

Ideally compiler should never produce extra code for any casting operation (except dynamic_cast<>) especially for such primitive types.

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But what about a static_cast from float to int, for example? I guess there is some assembler instruction needed to do the job. reinterpret_cast is the only type of cast where I can't see the need to produce additional code, ever. – Robert Hegner Apr 28 '11 at 6:25
@Robert Hegner: A reinterpret_cast between two different types has an unspecified behavior (aka. it depends on the compiler/implementation) It may change the pointer address so even there, I would be careful. – ereOn Apr 28 '11 at 6:27
@ereOn: That's interesting! Under what circumstances would reinterpret_cast change the pointer address? – Robert Hegner Apr 28 '11 at 6:29
@Robert Hegner: Well, I never observed it but the standard says it can happen. The only guarantee you have with reinterpret_cast is that if you cast a variable of type A to a B then to a A again, you get the original pointer. Nothing more. – ereOn Apr 28 '11 at 6:32

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