I'm trying to understand multithreading in C++, but I’m stuck in this problem: if I launch threads in a for loop they print wrong values. This is the code:

#include <iostream>
#include <list>
#include <thread>

void print_id(int id){
    printf("Hello from thread %d\n", id);

int main() {
    int n=5;
    std::list<std::thread> threads={};
    for(int i=0; i<n; i++ ){
        threads.emplace_back(std::thread([&](){ print_id(i); }));
    for(auto& t: threads){
    return 0;

I was expecting to get printed the values 0,1,2,3,4 but I often got the same value twice. This is the output:

Hello from thread 2
Hello from thread 3
Hello from thread 3
Hello from thread 4
Hello from thread 5

What am I missing?

  • 8
    Pass i by value to lambda, [i].
    – rafix07
    Feb 6, 2020 at 10:51
  • 1
    It's worth noting that your use of emplace_back is odd: emplace_back takes a list of arguments and passes that on to a constructor for std::thread. You've passed a (rvalue) instance of std::thread, hence will construct a thread, then move that thread into the vector. That operation is better expressed by the more common method push_back. It'd be more sensible to either write threads.emplace_back([i](){ print_id(i); }); (construct in place) or threads.push_back(std::thread([i](){ print_id(i); })); (construct + move) which are somewhat more idiomatic. Feb 6, 2020 at 19:36

3 Answers 3


The [&] syntax is causing i to be captured by reference. So quite often therefore i will be further advanced when the thread runs than you might expect. More seriously, the behaviour of your code is undefined if i goes out of scope before a thread runs.

Capturing i by value - i.e. std::thread([i](){ print_id(i); }) is the fix.

  • 2
    Or less used and not often advisable std::thread([=](){ print_id(i); })
    – Wander3r
    Feb 6, 2020 at 10:59
  • 4
    The behavior is already undefined because this is a data race on the (non-atomic) i with the main thread writing and the other threads reading.
    – walnut
    Feb 6, 2020 at 17:12

Two problems:

  1. You have no control over when the thread runs, which means the value of the variable i in the lambda might not be what you expect.

  2. The variable i is local for the loop and the loop only. If the loop finishes before one or more thread runs, those threads will have an invalid reference to a variable whose lifetime have ended.

You can solve both these problems very simply by capturing the variable i by value instead of by reference. That means each thread will have a copy of the value, and that copy will be made uniquely for each thread.


Another thing:

Do not wait until to have always an ordered sequence: 0, 1, 2, 3, ... because the multithreading execution mode has a specificity: indeterminism.

Indeterminism means that the execution of the same program, under the same conditions, gives a different result.

This is due to the fact that the OS schedules threads differently from one execution to another depending on several parameters: CPU load, priority of other processes, possible system interruptions, etc.

Your example contains only five threads, so it's simple. Try to increase the number of threads, and for example put a sleep in the processing function. You will see that the result can be different from one execution to another.

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