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Is there a malloc/free based allocator in the STL? If not, does anyone know of a simple copy/paste one? I need it for a map that must not call new/delete.

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Why can't it call new/delete? They are part of the language (and typically implemented via malloc/free already). – hamstergene Jul 10 '12 at 14:13
Stephan T. Lavavej wrote up "The Mallocator" as an example of a bare-bones allocator to show exactly what's necessary in a custom allocator: – Michael Burr Jul 10 '12 at 16:41
Worth noting that on some platforms, malloc() and free() call new and delete rather than the other way around. – Jonathan Grynspan Jul 10 '12 at 17:20
@JonathanGrynspan: The standard doesn't allow that (20.4.6/3&4): The functions calloc(), malloc(), and realloc() do not attempt to allocate storage by calling ::operator new(), and The function free() does not attempt to deallocate storage by calling ::operator delete(). (That's not to argue that it hasn't been done, only that doing so violates the requirements of the standard). – Jerry Coffin Jul 10 '12 at 17:24
@JerryCoffin: You're right of course. :) That said, I've worked on systems where the implementation was non-conformant. Tip of the iceberg... – Jonathan Grynspan Jul 10 '12 at 17:47

1 Answer 1

up vote 9 down vote accepted

First, I'd note that changing the allocator for the map itself won't change the allocation used by the objects stored in the map. For example, if you do something like:

std::map<std::string, int, my_allocator<std::pair<const std::string, int> > m;

The map itself will allocate memory using the specified allocator, but when the std::strings in the map allocate memory, they'll still use the default allocator (which will use new and delete. So, if you need to avoid new and delete in general, you have to ensure that not only the map itself uses the right allocator, but that any objects it stores do the same (I know that's probably stating the obvious, but I've overlooked it, so maybe it's worth mentioning).

With that proviso, on with the code:


#include <stdlib.h>
#include <new>
#include <limits>

namespace JVC {
template <class T> 
struct allocator {
    typedef size_t size_type;
    typedef ptrdiff_t difference_type;
    typedef T* pointer;
    typedef const T* const_pointer;
    typedef T& reference;
    typedef const T& const_reference;
    typedef T value_type;

    template <class U> struct rebind { typedef allocator<U> other; };
    allocator() throw() {}
    allocator(const allocator&) throw() {}

    template <class U> allocator(const allocator<U>&) throw(){}

    ~allocator() throw() {}

    pointer address(reference x) const { return &x; }
    const_pointer address(const_reference x) const { return &x; }

    pointer allocate(size_type s, void const * = 0) {
        if (0 == s)
            return NULL;
        pointer temp = (pointer)malloc(s * sizeof(T)); 
        if (temp == NULL)
            throw std::bad_alloc();
        return temp;

    void deallocate(pointer p, size_type) {

    size_type max_size() const throw() { 
        return std::numeric_limits<size_t>::max() / sizeof(T); 

    void construct(pointer p, const T& val) {
        new((void *)p) T(val);

    void destroy(pointer p) {


And, a little test code:

#include <map>
#include <vector>
#include <iostream>
#include <string>
#include <iterator>
#include "allocator.h"

// Technically this isn't allowed, but it's only demo code, so we'll live with it.
namespace std { 
std::ostream &operator<<(std::ostream &os, std::pair<std::string, int> const &c) { 
    return os << c.first << ": " << c.second;

int main() { 
    std::map<std::string, int, std::less<std::string>, 
             JVC::allocator<std::pair<const std::string, int> > > stuff;

    stuff["string 1"] = 1;
    stuff["string 2"] = 2;
    stuff["string 3"] = 3;

    std::copy(stuff.begin(), stuff.end(), 
        std::ostream_iterator<std::pair<std::string, int> >(std::cout, "\n"));

    return 0;
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I believe that your answers may contain more uses of ostream_iterator than all the production C++ code written to date. ;-) – James McNellis Jul 10 '12 at 16:35
numberic_limits is in the <limits> header – Mooing Duck Jul 10 '12 at 17:11
@MooingDuck: Good point -- thank you. Fixed. – Jerry Coffin Jul 10 '12 at 17:19
@JerryCoffin How do you ensure the std::string's are also allocated using the same mechanism? – thegreendroid Jul 9 '14 at 22:05
@thegreendroid: You can't. The allocator used by a standard container (including string) is defined as part of its type. std::string is a typedef for std::basic_string<chat, std::Allocator<char> >. You can define your own std::basic_string<char, my_allocator>, and that will use the allocator you specify--but it'll also be largely incompatible with most existing string implementations. – Jerry Coffin Jul 9 '14 at 22:51

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