Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

What is the C equivalent for reinterpret_cast?

share|improve this question
Note that the (type)exression equivalent of C can do much more than reinterpret_cast in C++ (well, after all, they are two different languages - so we can't expect much anyway). It can cast integer and floating point types into each other. Don't conclude from the answers that (type)expression in C++ is equivalent to a reinterpret_cast. – Johannes Schaub - litb Sep 5 '09 at 0:38
@litb This is an interesting comment. I checked the assembly code produced by VC2008 and it omits the same code. I am sure this is not enough, but I am really keen to know more on when does it differ? – AraK Sep 5 '09 at 0:51
Differing cases of compile time error and undefined behavior: int a = reinterpret_cast<int>('a'); (compile error). struct A { int a; }; struct B { int b; }; struct C : A, B { int c; }; int main() { C c; B &b = reinterpret_cast<B&>(c); b.b = 1; } (undefined behavior: notice the difference when you change to (B&)c: if the B sub-object is stored at an offset != 0x0, then reinterpret_cast is not required to care about any adjustments needed, while a C-style cast will do. – Johannes Schaub - litb Sep 5 '09 at 1:19
If you do eg float x; return (int)(x)+1; you should see it emit the proper fld/fistp sequence. If you're casting one pointer type to a different pointer type, there's actually no machine code necessary for that. A memory address is a memory address regardless of what it points at (on x86 anyway), so pointer "type" exists only in the mind of the compiler. The situation is different for inherited structures, where a C-style cast will deal with litb's situation by (eg) moving the pointer ahead from C's base to the locations of the B members it contains. But there's no inheritance in C anyway. – Crashworks Sep 5 '09 at 1:27
up vote 14 down vote accepted
int *foo;
float *bar;

// c++ style:
foo = reinterpret_cast< int * >(bar);

// c style:
foo = (int *)(bar);
share|improve this answer
Please also note litb's very good point in the comments to the original question. – Crashworks Sep 5 '09 at 0:51

C-style casts just look like type names in parenthesis:

void *p = NULL;
int i = (int)p; // now i is most likely 0

Obviously there are better uses for casts than this, but that's the basic syntax.

share|improve this answer

It doesn't exist, because reinterpret_cast can not change [constness][3]. For example,

int main()
    const unsigned int d = 5;
    int *g=reinterpret_cast< int* >( &d );

will produce the error:

dk.cpp: In function 'int main()':
dk.cpp:5:41: error: reinterpret_cast from type 'const unsigned int*' to type 'int*' casts away qualifiers

share|improve this answer

A C-style cast is:

int* two = ...;
pointerToOne* one = (pointerToOne*)two;
share|improve this answer
shouldn't that '==' be a single '=''? – KPexEA Sep 5 '09 at 2:48
Both are valid statements, and both will compile only because of the cast. Of course, if you want something to happen other than compiling, you'd use '=' – MSalters Sep 7 '09 at 10:55

If you can take the address of the value, one way is to cast a pointer to it to a pointer to a different type, and then dereference the pointer.

For example, an float-to-int conversion:

int main()
  float f = 1.0f;

  printf ("f is %f\n", f);
  printf ("(int) f is %d\n", (int)f);
  printf ("f as an unsigned int:%x\n", *(unsigned int *)&f);


f is 1.000000
(int) f is 1
f as an unsigned int:3f800000

Note that this is probably not guaranteed to work by the C standard. You cannot use reinterpret_cast to cast from float to int anyway, but it would be similar for a type that was supported (for example, between different pointer types).

Let's confirm the output above makes sense, anyway.

The last answer in binary:

0011 1111 1000 0000 0000 0000 0000 0000

This is IEEE-754 floating point format: a sign bit of 0, followed by an 8-bit exponent (011 1111 1), followed by a 23 bit mantissa (all zeroes).

To interpret the exponent, subtract 127: 01111111b = 127, and 127 - 127 = 0. The exponent is 0.

To interpret the mantissa, write it after 1 followed by a decimal point: 1.00000000000000000000000 (23 zeroes). This is 1 in decimal.

Hence the value represented by hex 3f800000 is 1 * 2^0 = 1, as we expected.

share|improve this answer

You can freely cast pointer types in C as you would any other type.

To be complete:

void *foo;
some_custom_t *bar;
other_custom_t *baz;
/* Initialization... */
foo = (void *)bar;
bar = (some_custom_t *)baz;
baz = (other_custom_t *)foo;
share|improve this answer
You can freely cast any type, it just might not do what you hope it does, and might not be guaranteed to do anything at all. – Chris Lutz Sep 5 '09 at 0:31

What about a REINTERPRET operator for c:

#define REINTERPRET(new_type, var) ( * ( (new_type *)   & var ) )

I don't like to say "reinterpret_cast", because cast means conversion (in c), while reinterpret means the opposite: no conversion.

share|improve this answer
Why should someone do this? It's misleading. Don't make your code unprovoked complexer. – code monkey Oct 22 '14 at 11:26

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.