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I wonder - what are cast result in cpp actualy is? And specificly - what are their lifetime?

Consider this example:

#include <iostream>
#include <stdint.h>

using namespace std;

class Foo
    Foo(const int8_t & ref)
    : _ptr(&ref)

    const int8_t & getRef() { return *_ptr; }

    const int8_t * _ptr;

enum Bar
    SOME_BAR = 100

int main()
        int32_t value = 50;
        Foo x(static_cast<int16_t>(value));
        std::cout << "casted from int32_t " << x.getRef() << std::endl;

        Bar value = SOME_BAR;
        Foo x(static_cast<int16_t>(value));
        std::cout << "casted from enum " << x.getRef() << std::endl; 

   return 0;


casted from int32_t 50
casted from enum 100

It works - but is is safe? With integers i can imagine that compiller somehow cast a "pointer" to needed part of target variable bytes. But what happens when you cast int to float?

share|improve this question
You do not have any static_casts in your code. c-style cast != static_cast, although the end result in this particular case is the same. –  user657267 Jul 23 at 5:52
You should prefer the more verbose static_cast< result_type >( source_value ) form vs. (result_type)source_value form for the simple reason that it is possible to grep for static_cast. –  Khouri Giordano Jul 23 at 5:54
@user657267 Edited. Sure, static_cast != c-cast. That was just to shorten the example –  Vasilly.Prokopyev Jul 23 at 5:55
@undefinedhero it didn't "shorten the example", it just made your question confusing. –  user657267 Jul 23 at 5:57

1 Answer 1

up vote 2 down vote accepted

static_cast creates an rvalue that exists for the life of the expression. That is, up until the semi-colon. See Value Categories. If you need to pass a reference to the value, the compiler will put the value on the stack and pass that address. Otherwise, it will probably stay in a register, especially with optimizations turned on.

The way you are using it, at the place you're using it, static_cast is completely safe. In the Foo class however, you are saving a pointer to the rvalue. It is only luck that the program executes correctly. A more complex example will probably reuse those stack locations for other uses.

Edited to elaborate on safety of static_cast.

share|improve this answer
+1 for the first part, -1 for the second. It is not safe. He's storing a pointer to the r-value integer. And then dereferencing that pointer later, when the integer no longer exists. –  Benjamin Lindley Jul 23 at 5:59
Bah, you're right. I didn't notice that. –  Khouri Giordano Jul 23 at 6:00
From the Value Categories, link to whom You provided: An rvalue may be used to initialize a const lvalue reference, in which case the lifetime of the object identified by the rvalue is extended until the scope of the reference ends. So, if I use a reference insted of poiter in class Foo - will it be safe then? –  Vasilly.Prokopyev Jul 23 at 6:06
Not the way you used the pointer in Foo. A reference is like a pointer you can only initialize and not change after that. If Foo is documented to retain a pointer or reference to the object that is passed to it, then it is the caller's responsibility to ensure the object outlives the Foo object. I would review this design carefully to see if there were a way to do it that was easy to use correctly and hard to use incorrectly. –  Khouri Giordano Jul 23 at 6:13
@undefinedhero Related question: stackoverflow.com/questions/2604206/… –  juanchopanza Jul 23 at 6:16

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