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I came up with this as a quick solution to a debugging problem - I have the pointer variable and its type, I know it points to an array of objects allocated on the heap, but I don't know how many. So I wrote this function to look at the cookie that stores the number of bytes when memory is allocated on the heap.

template< typename T >
int num_allocated_items( T *p )
return *((int*)p-4)/sizeof(T);

#include <iostream>
int main( int argc, char *argv[] )
    using std::cout; using std::endl;
    typedef long double testtype;
    testtype *p = new testtype[ 45 ];

    //prints 45
    std::cout<<"num allocated = "<<num_allocated_items<testtype>(p)<<std::endl;
    delete[] p;
    return 0;

I'd like to know just how portable this code is.

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3 Answers 3

up vote 11 down vote accepted

It is not even remotely portable.

An implementation can perform heap bookkeeping however it wants and there is absolutely no way to portably get the size of a heap allocation unless you keep track of it yourself (which is what you should be doing).

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As I suspected. Cheers. –  Carl May 4 '10 at 0:57

Not portable. But why not use std::vector? Then you can ask it directly how many elements it contains, and you won't need to worry about memory management and exception safety.

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legacy code. That's why :) –  Carl May 4 '10 at 2:36

You can globally overload new/delete operators on array, and put the size into the memory area. You get a portable solution.

The below code shows how:

void * operator new [] (size_t size)
    void* p = malloc(size+sizeof(int));
    *(int*)p = size;
    return (void*)((int*)p+1);

void operator delete [] (void * p)
    p = (void*)((int*)p-1);

template<typename T>
int get_array_size(T* p)
    return *((int*)p-1)/sizeof(T);

int main(int argc, char* argv[])
    int* a = new int[200];
    printf("size of a is %d.\n", get_array_size(a));
    delete[] a;
    return 0;


   size of a is 200.
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Was just wondering about that. Cheers. –  Carl May 4 '10 at 3:15
He said the array was allocated on the heap, not that it was allocated via new[]. –  Dennis Zickefoose May 4 '10 at 3:16
@carleeto: To clarify my comment, since this seems to be something you're considering, in the general case you can't know how a pointer was allocated. Besides the possibility that the array was allocated via malloc directly, classes can override operator new[] on an individual basis. In which case, Sherwood's get_array_size is no more reliable than your own. –  Dennis Zickefoose May 4 '10 at 4:55
@Dennis: Thanks for that. I was testing some code based on Sherwood's response and came across the same problem :) –  Carl May 4 '10 at 7:27

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