5

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.

test.cpp:

#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;

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

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

compile:

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

output:

 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
warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.

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
5

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();
  BOOST_ASSERT(!!p);
  //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);
  ++first;
  ++it_past_newly_constructed;
}

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

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.