Can somebody give a simple example which demonstrates the functionality of std::ref? I mean an example in which some other constructs (like tuples, or data type templates) are used only if it is impossible to explain std::ref without them.

I found two questions about std::ref here and here. But in the first one it goes about a bug in a compiler and in the second one, examples of use of std::ref do not contain std::ref and they involve tuples and data type templates which make understanding of these examples complex.


You should think of using std::ref when a function:

  • takes a template parameter by value
  • or copies/moves a forwarding reference parameter, such as std::bind or the constructor for std::thread.

std::ref is a value type that behaves like a reference.

This example makes demonstrable use of std::ref.

#include <iostream>
#include <functional>

void increment( int &x )

int main()
  int i = 0;

  // Here, we bind increment to (a copy of) i...
  std::bind( increment, i ) ();
  //                        ^^ (...and invoke the resulting function object)

  // i is still 0, because the copy was incremented.
  std::cout << i << std::endl;

  // Now, we bind increment to std::ref(i)
  std::bind( increment, std::ref(i) ) ();

  // i has now been incremented.
  std::cout << i << std::endl;


void PrintNumber(int i) {...}

int n = 4;
std::function<void()> print1 = std::bind(&PrintNumber, n);
std::function<void()> print2 = std::bind(&PrintNumber, std::ref(n));

n = 5;

print1(); //prints 4
print2(); //prints 5

std::ref is mainly used to encapsulate references when using std::bind (but other uses are possible of course).


Another place where you may need std::ref is when passing objects to threads where you want each thread to operate on the single object and not a copy of the object.

int main(){
BoundedBuffer buffer(200);

std::thread c1(consumer, 0, std::ref(buffer));
std::thread c2(consumer, 1, std::ref(buffer));
std::thread c3(consumer, 2, std::ref(buffer));
std::thread p1(producer, 0, std::ref(buffer));
std::thread p2(producer, 1, std::ref(buffer));


return 0; }

where you wish various functions running in various threads to share a single buffer object. This example was stolen from this excellent tutorial ( C++11 Concurrency Tutorial - Part 3: Advanced locking and condition variables (Baptiste Wicht) ) (hope I did the attribution correctly)

  • The reason to use std::ref here, is constructor of thread requires a parameter type of std::reference_wrapper – Deqing May 6 '15 at 3:45

// Producer Consumer Problem

#include <iostream>
#include <thread>
#include <mutex>
#include <deque>
#include <condition_variable>
using namespace std;

class Buffer {

    std::mutex m;
    std::condition_variable cv;
    std::deque<int> queue;
    const unsigned long size = 1000;

    void addNum(int num) {
        std::unique_lock<std::mutex> lock(m);
        cv.wait(lock, [this]() { return queue.size() <= size; });
        cout << "Pushed " << num << endl;
    int removeNum() {
        std::unique_lock<std::mutex> lock(m);
        cv.wait(lock, [this]() { return queue.size()>0; });
        int num = queue.back();
        cout << "Poped " << num << endl;
        return num;


void producer(int val, Buffer& buf) {
    for(int i=0; i<val; ++i){

void consumer(int val, Buffer& buf){
    for(int i=0; i<val; ++i){

int main() {
    Buffer b;
    std::thread t1(producer, 1000, std::ref(b));
    std::thread t2(consumer, 1000, std::ref(b));

    return 0;

Just another use of std::ref in main while passing Buffer object as reference in producer and consumer. If std::ref not used then this code will not compile.

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