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I am trying to insert a little over 6.5 million elements(ints) in an stl set. Here is the code:

set<int> s;
cout << s.max_size() << endl;
for(int i = 0; i < T.MULT * T.MAXP; i++) {

T.MULT is 10; T.MAXP is 666013.

a is an array - statically allocated - (int a[T.MULT * T.MAXP];) that contains distinct elements.

After about 4.6 million elements s.insert() throws a bad_alloc exception. The resource monitor available on Windows 7 says I have 3 GB free memory left. What am I doing wrong? Why can't STL set allocate the memory?

Edit: Here is the full code:

Edit2: apparently the inserted elements might not be distinct after all, but that should not be a problem.

Edit3: Here is a simplified version of the code:

share|improve this question
What does the task manager report for the working set of your process? Is your code being compiled as 32 or 64 bit code? – Matteo Italia Mar 18 '13 at 13:13
Most likely, you're running out of process virtual memory. What platform is this? – David Schwartz Mar 18 '13 at 13:13
Show what a is. – Kerrek SB Mar 18 '13 at 13:13
@JoachimPileborg: There's no need for a big chunk with a std::set, you only need enough size for the node. – Xeo Mar 18 '13 at 13:15
Please show a short, self-contained, compilable example and state exactly what tools you are using (compiler, version, target machine, operating system, et cetera). It may be that something else in your program is interfering with this code. I was able to compile and execute it without problem on OS X (after replacing T.MULT and T.MAXP with numerals and defining a). – Eric Postpischil Mar 18 '13 at 13:18

The problem actually lies in the fact that you statically allocated the array A with more than 6.5 million elements, which corrupts your program stack space. If you allocate the array on the heap, it actually works. I did some code change based on your description, it worked fine.

int *A = new int[T.MULT * T.MAXP];
for (int i= 0; i <  T.MULT * T.MAXP; ++i)
    A[i] = i; //for simplicity purpose, your array may have different elem. values

set<int> s;
for (int i = 0; i <  T.MULT * T.MAXP; ++i )

cout << s.size();

set<int>::iterator iter;
int count = 0;
for (iter = s.begin(); iter != s.end(); ++ iter)
    cout << *iter << " ";
    count ++;
    if (count == 100)
        cout <<endl;
        count = 0;

delete [] A;

return 0;

It worked perfectly fine with both vector and set. It can print all those 6.6 million elements on the screen.

As other posts indicated, you may also want to try STXXL if you have interest.

share|improve this answer
Aren't global, statically declared arrays allocated on the heap? – MciprianM Mar 18 '13 at 14:08
You mean a is a global array? You can dynamically allocate the array then pass the array as a parameter whenever it is needed, which should be trivial. Meanwhile, it is not good practice to use global variables IMHO. – taocp Mar 18 '13 at 14:17

You might want to take a look at STXXL.

share|improve this answer

While I can't answer your question directly, I think it is more efficient to store your data in a std::vector, sort it, and then use std::binary_search to test for the existence of the item. Storage in a std::set is relatively expensive compared to that of std::vector. That's because there is some overhead when storing each element.

As an example, here's how you could do it. This sorts the static array.

bool existence=std::binary_search(a,a+(T.MULT*T.MAXP),3);

Fast and easy.

share|improve this answer
not forgetting he already stores it in an array anyway (and the stl algortithms can operate on that just as easily as in a vector). – gbjbaanb Mar 18 '13 at 13:26
true enough, i was assuming the static allocation's ordering needed to be preserved but that seems unlikely now that i think about it again. – Eric Johnson Mar 18 '13 at 13:36
the main problem is actually that a is statically allocated, which corrupts stack space, if a is dynamically allocated, it actually works fine with both set and vectors. BTW: what are the "some overhead" when set stores each element? because it maintains elements in sorted order? – taocp Mar 18 '13 at 13:56
It seems unlikely that it is causing stack corruption. It's only 6.4m ints which is around 25 MB. No? And I wouldn't expect that to bump into the stack space. As for set's per element cost, remember it is likely using a red/black tree type implementation. Two pointers (left and right child) and a color flag would be an additional 17 bytes per element. Ouch! – Eric Johnson Mar 18 '13 at 14:28

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