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Is there any reason to prefer static_cast<> over C style casting? Are they equivalent? Is there any sort of speed difference?

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7 Answers 7

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C++ style casts are checked by the compiler. C style casts aren't and can fail at runtime.

Also, c++ style casts can be searched for easily, whereas it's really hard to search for c style casts.

Another big benefit is that the 4 different C++ style casts express the intent of the programmer more clearly.

When writing C++ I'd pretty much always use the C++ ones over the the C style.

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  • 80
    The only casts that can fail at runtime are dynamic_casts. Jul 27, 2012 at 0:13
  • 16
    C++ reinterpret_cast<T>(U) can fail at run time pretty much the same way C style casts can, and they are all quite different from how dynamic_cast<T>(U) fails. Sep 20, 2012 at 2:29
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    ­­­­­˗1 normal C cast (int)something can't fail - either you get cast to int or compiler error. Nov 16, 2015 at 12:34
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    Can you elaborate why C++ casts be searched more easily than C casts?
    – Minh Tran
    Apr 16, 2018 at 15:08
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    @MinhTran For C++ style you can search for the keyword "cast" thru out your source files. But want could you do with the c-style casts? May 31, 2018 at 16:01
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In short:

  1. static_cast<>() gives you a compile time checking ability, C-Style cast doesn't.
  2. static_cast<>() is more readable and can be spotted easily anywhere inside a C++ source code, C_Style cast is'nt.
  3. Intentions are conveyed much better using C++ casts.

More Explanation:

The static cast performs conversions between compatible types. It is similar to the C-style cast, but is more restrictive. For example, the C-style cast would allow an integer pointer to point to a char.

char c = 10;       // 1 byte
int *p = (int*)&c; // 4 bytes

Since this results in a pointer to a 4-byte type, pointing to 1 byte of allocated memory, writing to this pointer will either cause a run-time error or will overwrite some adjacent memory.

*p = 5; // run-time error: stack corruption

In contrast to the C-style cast, the static cast will allow the compiler to check that the pointer and pointee data types are compatible, which allows the programmer to catch this incorrect pointer assignment during compilation.

int *q = static_cast<int*>(&c); // compile-time error

You can also check this page on more explanation on C++ casts : Click Here

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    I think instead of "4-byte pointer" you meant "pointer to 4-byte datatype"
    – iheanyi
    Jul 23, 2014 at 19:55
  • but it allows int q = static_cast<int>(c);
    – TonyParker
    Feb 5, 2019 at 11:28
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    @TonyParker That's because there's nothing wrong with that line. Aug 5, 2019 at 21:32
  • @TonyParker in this case, it will have the same effect as an implicit conversion in int q = c;. The type of the initialized variable dominates and the initializer is converted to the that type. Hence, the c will be promoted to int and then this result will be used to initialize the q.
    – rawrex
    May 5 at 6:10
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See A comparison of the C++ casting operators.

However, using the same syntax for a variety of different casting operations can make the intent of the programmer unclear.

Furthermore, it can be difficult to find a specific type of cast in a large codebase.

the generality of the C-style cast can be overkill for situations where all that is needed is a simple conversion. The ability to select between several different casting operators of differing degrees of power can prevent programmers from inadvertently casting to an incorrect type.

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struct A {};
struct B : A {};
struct C {}; 

int main()
{
    A* a = new A;    

    int i = 10;

    a = (A*) (&i); // NO ERROR! FAIL!

    //a = static_cast<A*>(&i); ERROR! SMART!

    A* b = new B;

    B* b2 = static_cast<B*>(b); // NO ERROR! SMART!

    C* c = (C*)(b); // NO ERROR! FAIL!

    //C* c = static_cast<C*>(b); ERROR! SMART!
}
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    Could you please elaborate more your answer adding a little more description about the solution you provide?
    – abarisone
    Apr 16, 2015 at 11:15
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    I think the answer shows that "static_casts" checks for type conversions to make sure they are along valid paths in the hierarchy graph. In this particular example, casting from A* to B* or B* to A* is allowed because A and B form a path in the hierarchical graph. C* is not on the path so static_cast will produce compile-time error. Sidenote: It may be worth noting that casting from A* to B* may result in NULL with a dynamic_cast at run time depending on the true underlying object. Aug 21, 2017 at 20:10
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A great post explaining different casts in C/C++, and what C-style cast really does: https://anteru.net/blog/2007/12/18/200/index.html

C-Style casting, using the (type)variable syntax. The worst ever invented. This tries to do the following casts, in this order: (see also C++ Standard, 5.4 expr.cast paragraph 5)

  1. const_cast
  2. static_cast
  3. static_cast followed by const_cast
  4. reinterpret_cast
  5. reinterpret_castfollowed by const_cast
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static_cast checks at compile time that conversion is not between obviously incompatible types. Contrary to dynamic_cast, no check for types compatibility is done at run time. Also, static_cast conversion is not necessarily safe.

static_cast is used to convert from pointer to base class to pointer to derived class, or between native types, such as enum to int or float to int.

The user of static_cast must make sure that the conversion is safe.

The C-style cast does not perform any check, either at compile or at run time.

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Since there are many different kinds of casting each with different semantics, static_cast<> allows you to say "I'm doing a legal conversion from one type to another" like from int to double. A plain C-style cast can mean a lot of things. Are you up/down casting? Are you reinterpreting a pointer?

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