I'm noticing a large performance difference between std::vector and boost::stable_vector. Below is example where I construct and insert 100,000 ints into both a vector and a stable vector.


#include <iostream>
#include <vector>
#include <boost/container/stable_vector.hpp>
#include <boost/timer/timer.hpp>

int main(int argc, char** argv) {
    int size = 1e5;
    boost::timer::cpu_timer timer;

    std::vector<int> vec(size);
    std::cout << timer.format();

    boost::container::stable_vector<int> svec(size);
    std::cout << timer.format();


g++ -O3 test.cpp -o test -lboost_system-mt -lboost_timer-mt


 0.000209s wall, 0.000000s user + 0.000000s system = 0.000000s CPU (n/a%)
 5.697013s wall, 5.690000s user + 0.000000s system = 5.690000s CPU (99.9%)

What is the reason for this huge discrepancy? My understanding is that both types should have similar insertion performance.

UPDATE: boost version: 1.54

dev/stable_vector_test: g++ --version
i686-apple-darwin11-llvm-g++-4.2 (GCC) 4.2.1 (Based on Apple Inc. build 5658) (LLVM build 2336.11.00)
Copyright (C) 2007 Free Software Foundation, Inc.
This is free software; see the source for copying conditions.  There is NO

I added std::list to the code and tried passing -DNDEBUG in addition to -O3.

dev/stable_vector_test: make
g++ -g test.cpp -o test -lboost_system-mt -lboost_timer-mt
dev/stable_vector_test: ./test
size: 10000
vector:         0.000047s wall, 0.000000s user + 0.000000s system = 0.000000s CPU (n/a%)
list:           0.001168s wall, 0.000000s user + 0.000000s system = 0.000000s CPU (n/a%)
stable_vector:  0.963679s wall, 0.960000s user + 0.000000s system = 0.960000s CPU (99.6%)
dev/stable_vector_test: make opt
g++ -O3 -DNDEBUG test.cpp -o test -lboost_system-mt -lboost_timer-mt
dev/stable_vector_test: ./test
size: 10000
vector:         0.000038s wall, 0.000000s user + 0.000000s system = 0.000000s CPU (n/a%)
list:           0.000659s wall, 0.000000s user + 0.000000s system = 0.000000s CPU (n/a%)
stable_vector:  0.000752s wall, 0.000000s user + 0.000000s system = 0.000000s CPU (n/a%)

So with -O3 and -DNDEBUG I get comparable performance to std::list

  • You should probably look at the generated assembly to make sure the compiler did not optimize the first vector out since it isn't used for anything. I doubt that will explain the whole difference since this should be a cheap operation, but it is always good to verify you are actually timing what you think you are. – Retired Ninja Sep 6 '13 at 14:13
  • Did you run it multiple times with consistent results? results for my system are: ` 0.000227s wall, 0.000000s user + 0.000000s system = 0.000000s CPU (n/a%) 0.006458s wall, 0.000000s user + 0.000000s system = 0.000000s CPU (n/a%)`. It might be relevant to see at least gcc and boost versions involved at your site. You might also want to profile that stuff (or even break in gdb during that 5 second period). – PlasmaHH Sep 6 '13 at 14:14
  • As far as I understand, stable vector in worst scenario (implementation) will call new for each of the ints. Try adding std::list to your test and see if its perf is comparable to stable vector. – Artem Tokmakov Sep 6 '13 at 14:37
  • I tried using the vector to make sure it wasn't being optimized out and it didn't make a difference.I did run it multiple times with consistent results. I added an update to my original post with my boost and gcc versions. std::list results were also added above. – kmanville Sep 6 '13 at 15:29
  • @PlasmaHH: interrupting gdb during stable_vector construction reveals that it's spending most of its time in resize – kmanville Sep 6 '13 at 15:49

Since stable_vector doesn't use contiguous storage, it seems reasonable that it would take a lot longer than std::vector to allocate its initial memory.

As noted in a background post on stable_vector, one possible implementation of stable_vector involves allocating a separate node for each element of the vector. And sure enough, the source code for the stable_vector constructor shows that it calls resize, which calls insert with a pair of iterators, and insert performs N node allocations:

// (initialization...)
while(first != last){
  const node_ptr p = this->priv_get_from_pool();
  //Put it in the index so rollback can return it 
  //in pool if construct_in_place throws
  *it_past_newly_constructed = p;
  //Constructs and fixes up pointers This can throw
  this->priv_build_node_from_it(p, it_past_newly_constructed, first);

So it's doing something similar to std::list, which your data supports.

  • Yes, I was reading the doc of stable_vector before googling something in the lines of "stable_vector madness". Because 1. this changes nothing from ptr_vector, and 2. it falsely claims to be a vector, which it is not, like you said, it is an indexed list. I vote for the killing pure and simple of this non-sensical horror show. boost is not the place to post one's friends experiments at whacked containers. I don't understand how it got accepted, this must be a political joke. – v.oddou Jun 18 '15 at 9:05
  • Just to extend the discussion a little bit, I feel stable_vector could be made acceptable by the usage of a pooled allocator. This pooled allocator would be very simple to make since one only needs to store objects of 1 type. This allocator can simply track holes using a freelist. You can get around the overhead of individual node allocation thanks to that. Finally if stable_vector doesn't support custom allocators, overloading new for your contained type and make it redirect to the pooled allocator will solve the issue. – v.oddou Jun 18 '15 at 9:08

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