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I have tried to check by code how big array I can alocate but my code does not seem to check it. How to make it faster? In the end I would like to get an exception.

#include "stdafx.h"
#include "iostream"

using namespace std;

int tworzTablice(int rozmiar, char* t){
        t = new char[rozmiar];
        delete []t;
    }catch (std::bad_alloc& e){
        tworzTablice(rozmiar - 1,t);
        return -1;
    return rozmiar;

int f(long p, long skok){
    char* t;
            t = new char[p];
            delete []t;
            p = p + skok;
  catch (std::bad_alloc& ba){
    p = tworzTablice(p-1, t);
  return p;

int main(){
    cout<<f(0, 100000000)<<endl;;

    return 0;
share|improve this question
Why do you want to know it? – Zyx 2000 May 5 '13 at 13:11
It depends on the size of your RAM, I believe. And you should use delete [] t; instead of delete t; here. – FreeNickname May 5 '13 at 13:13
Double the buffer size until allocation fails (t == NULL) and then binary search for the maximum allowed size. – harpun May 5 '13 at 13:14
@harpun: You better touch (commit) the memory, because if you don't most systems will allow you to allocate as much as you want... – syam May 5 '13 at 13:19
Will be limited by two things: Available heap, and any architectural limitation. Eg for the latter would be an ancient implementation with 16-bit ints and hence limited to 32 or 64K elements. – Hot Licks May 5 '13 at 13:32
up vote -1 down vote accepted

Allocating all available memory is probably a bad idea, but if you really want to:

vector<char*> ptrs;
int avail;
try {
    while (true)
        ptrs.push_back(new char[1000]);
catch (bad_alloc& b)
    avail = ptrs.size() * 1000;
    for (int i = 0; i < ptrs.size(); i++)
       delete[] ptrs[i];
share|improve this answer
-1 : All OP needs is a std::string. Really bad advice with std::vector<char *> – Alok Save May 5 '13 at 13:15
@AlokSave I assume you mean creating a string and growing it until it throws an exception? AFAIK, strings have to be allocated contiguously in memory, so that method will show less memory available than there really is – nullptr May 5 '13 at 13:17
Yep, a contiguous data structure will only show you how much memory can be allocated contiguously, not how much memory is available in total. This answer still doesn't take into account that some OSes don't commit the memory until you try to use it, though, so it may yield false results. – jalf May 5 '13 at 13:30
@AlokSave Lol, did you read OP's question? "have tried to check by code how big array I can alocate" std::string is not an array. @nullptr Another thing here, is by creating "many" arrays, technically one would be cheating since each pointer could be spread out in memory, whereas a single allocation will be contiguous--a true array (with the largest size) (which, I think, is the question) – void ptr May 5 '13 at 13:32
@voidptr: The Q and the answer both are imaginary and pointless. both deserved a -1. Feel free to lol, but neither the Q nor the answer have any practical use or application. – Alok Save May 5 '13 at 13:34

As I noted, there is a way to query the OS in order to determine the maximal size of heap-allocated memory, but I can't for the heck of it remember its name.

However, you can easily find out yourself. However, you should use malloc/free instead of new/delete in order to avoid the unnecessary initialisation of all cells;

#include <cstdlib>
#include <cstdio>

size_t maxMem() {
  static size_t size = 0;
  if (!size) {
    size_t m = 0;
    for (void* p = 0; (p = malloc(1<<m)); m++)
    while (m) {
      size_t const testSize = size + (1<<(--m));
      if (void* const p = malloc(testSize)) {
        size = testSize;
  return size;

int main() {
  // forgive me for using printf, but I couldn't remember how to hex-format in std::cout
  printf("%u (hex %X)\n",int(maxMem()),int(maxMem()));

On my 64 bit machine I get

2147483647 (hex 7FFFFFFF)

while on another 32 system I get

2140700660 (hex 7F987FF4)

You can then go ahead and new an array of that size if you really have to. Note however, that this is the largest consecutive chunk you can request. The total memory your process might allocate is larger and depends on the installed RAM and the reserved swap space.

share|improve this answer

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