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For example:

int* x = new int;
int y = reinterpret_cast<int>(x);

y now holds the integer value of the memory address of variable x. Variable y is of size int. Will that int size always be large enough to store the converted memory address of ANY TYPE being converted to int?

EDIT: Or is safer to use long int to avoid a possible loss of data?

EDIT 2: Sorry people, to make this question more understandable the thing I want to find out here is the size of returned HEX value as a number, not size of int nor size of pointer to int but plain hex value. I need to get that value in in human-readable notation. That's why I'm using reinterpret_cast to convert that memory HEX value to DEC value. But to store the value safely I also need to fing out into what kind of variable to it: int, long - what type is big enough?

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Use size_t or more correctly - uintptr_t to match the pointer size. – malkia Jan 5 '12 at 3:25
I don't think you understand what "hex value" means. There's no such thing as a "memory HEX value". You have a pointer. It's made up of some number of bits. You can represent that textually however you like but that has nothing to do with the code you've posted. – Brian Roach Jan 5 '12 at 3:32
@Brian Roach, maybe I do not understand but memory address looks like 0x0f3a89bb, isn't that HEX value? each object has it's uniqe memory address like that. so how do think "There's no such thing as a "memory HEX value"? thanks. – codekiddy Jan 5 '12 at 3:44
@codekiddy - yes, that is a hexadecimal number. Whatever it is you're using to see that is converting a bunch of bits (a value) into a hexadecimal textual representation and showing to you. If that's what you need, you would need to do the same. Computers have no notion of hexadecimal; they operate in binary. – Brian Roach Jan 5 '12 at 3:49
up vote 7 down vote accepted

No, that's not safe. There's no guarantee sizeof(int) == sizeof(int*)

On a 64 bit platform you're almost guaranteed that it's not.

As for the "hexadecimal value" ... I'm not sure what you're talking about. If you're talking about the textual representation of the pointer in hexadecimal ... you'd need a string.

Edit to try and help the OP based on comments:

Because computers don't work in hex. I don't know how else to explain it. An int stores some amount of bits (binary), as does a long. Hexadecimal is a textual representation of those bits (specifically, the base16 representation). strings are used for textual representations of values. If you need a hexadecimal representation of a pointer, you would need to convert that pointer to text (hex).

Here's a c++ example of how you would do that:


#include <string>
#include <iostream>
#include <sstream>

int main()

    int *p; // declare a pointer to an int. 
    std::ostringstream oss; // create a stringstream
    std::string s; // create a string

    // this takes the value of p (the memory address), converts it to 
    // the hexadecimal textual representation, and puts it in the stream
    oss << std::hex << p;

    // Get a std::string from the stream
    s = oss.str();

    // Display the string
    std::cout << s << std::endl;


Sample output:

roach$ g++ -o test test.cpp
roach$ ./test

It's worth noting that the same thing is needed when you want to see the base10 (decimal) representation of a number - you have to convert it to a string. Everything in memory is stored in binary (base2)

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+1 from me. Judging from the OP's latest edit, he is apparently still not clear on the distinction between physical data storage and textual representation of POD integers. – ksming Jan 5 '12 at 3:35
Yeah, that's my suspicion as well. – Brian Roach Jan 5 '12 at 3:37
@Brian, you said I'll need a string to store hex representation of pointer... why string?, what's wrong with int or lon long as I intended in my question? thanks alot. – codekiddy Jan 5 '12 at 4:13
See latest edit. – Brian Roach Jan 5 '12 at 5:13

On most 64-bit targets, int is still 32-bit, while pointer is 64bit, so it won't work.


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thanks, but what the size of converted memory HEX value? is size of int big enough to store that converted hex memory value? – codekiddy Jan 5 '12 at 3:00
No, you shouldn't rely on int being able to hold a pointer value. I think you'd be safe with long long though, or better just size_t. From memory it'd work on some systems but not on 64 bit Linux or Windows. Check your system with cout << "int: " << sizeof(int) << endl << "Pointer: " << sizeof(int*) – matiu Jan 5 '12 at 3:08
@codekiddy: why hex? Because your debugger shows it as hex? Anyhow, hex or not, it's entirely irrelevant. x is a pointer value. As others have already pointed out, it may not fit into int. It may not fit even into long. It will fit into uintptr_t. If your compiler doesn't support uintptr_t, the next best thing is size_t. – Alexey Frunze Jan 5 '12 at 3:18
@codekiddy: but there's no hex value. There is just a value. How you print it or save to a file (as binary, octal, decimal, hex or other) is entirely independent of the value itself. If you want it look like hex somewhere, you have to actually convert the value into a string containing the hex digits making up/representing the value. – Alexey Frunze Jan 5 '12 at 3:31
@codekiddy: the fact that it can be represented as something doesn't mean it is already represented as that something. All distinct objects in C(++) have unique addresses, true (we're not talking about aliased through references or unions variables). – Alexey Frunze Jan 5 '12 at 3:59

What you probably want is to use std::ostream's formatting of addresses:

int x(0);
std::cout << &x << '\n';

As to the length of the produced string, you need to determine the size of the respective pointer: for each used byte the output will use two hex digit because each hex digit can represent 16 values. All bytes are typically used even if it is unlikely that you have memory for all bytes e.g. when the size of pointers is 8 bytes as happens on 64 bit systems. This is because the stacks often grow from the biggest address downwards while the executable code start at the beginning of the address range (well, the very first page may be unused to cause segmentation violations if it is touched in any way). Above the executable code live some data segments, followed by the heap, and lots of unused pages.

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There is question addressing similar topic:


Summary: do not try to write pointers into non-pointer variable. If you need to print out the pointer value, there are other solutions.

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