Please, can anybody explain how to use and create an unique_lock in c++? It should be used both to get mutual exclusion to any procedure of the monitor and to be able to perform wait() on the condition variable...I'm not understanding from the documentation how I am supposed to create it. Is necessary a mutex? Here is a pseudo-code:

/* compile with g++, flags -std=c++0x -lpthread */

#include <condition_variable>
#include <mutex>
#include <thread>
#include <iostream>
#include <string.h>
#include <unistd.h>

class monitorTh {


    std::mutex m;
    std::condition_variable waitP;
    std::condition_variable waitC;
    char element[32];
    std::unique_lock::unique_lock l;

    void produce(char* elemProd) {
        if (/*already_present_element*/) {
        else {/*produce element*/}

    void consume() {
        /*something specular*/

int main(int argc, char* argv[]) {

    monitorTh* monitor = new monitorTh();
    char prodotto[32] = "oggetto";

    std::thread producer([&]() {

    std::thread consumer([&]() {


std::unique_lock use the RAII pattern.

When you want to lock a mutex, you create a local variable of type std::unique_lock passing the mutex as parameter. When the unique_lock is constructed it will lock the mutex, and it gets destructed it will unlock the mutex. More importantly: If a exceptions is thrown, the std::unique_lock destructer will be called and so the mutex will be unlocked.


int some_shared_var=0;

int func() {
    int a = 3;
    { //Critical section
        std::unique_lock<std::mutex> lock(my_mutex);
        some_shared_var += a;
    } //End of critical section
  • Why don't you need a new keyword in order to create the lock? – Pro Q Dec 6 '18 at 1:39
  • 4
    @ProQ It's created on the stack. If you used the new keyword, it wouldn't be destructed when you leave the scope. – Omegastick Apr 26 '19 at 4:03

std::unique_lock<std::mutex> holds a lock on a separate std::mutex object. You associate the lock object with the mutex by passing it in the constructor. Unless you specify otherwise, the mutex will be immediately locked. If the lock object holds the lock when it is destroyed then the destructor will release the lock. Typically, the std::unique_lock<std::mutex> object will thus be a local variable, declared at the point where you wish to acquire the lock.

In your case, the produce() function could be written like this:

void produce(char* elemProd) {
    std::unique_lock<std::mutex> lk(m); // lock the mutex
    while (/*already_present_element*/) { // condition variable waits may wake spuriously
    {/*produce element*/}
    // lk releases the lock when it is destroyed

Note that I have replaced the if with a while to account for spurious wakes from the wait() call.

  • You have an else without an if. – cp.engr Feb 16 '16 at 20:24

A more detailed sample code using condition variables:

std::mutex(mu); //Global variable or place within class
std::condition_variable condition; //A signal that can be used to communicate between functions

auto MyFunction()->void
  std::unique_lock<mutex> lock(mu);
  //Do Stuff
  lock.unlock(); //Unlock the mutex
  condition.notify_one(); //Notify MyOtherFunction that this is done

auto MyOtherFunction()->void
   std::unique_lock<mutex> lock(mu);
   condition.wait(lock) //Wait for MyFunction to finish, a lambda can be passed also to protects against spurious wake up e.g (lock,[](){return *some condition*})
  • 4
    the explicit unlocking is unnecessary. look up how a unique_lock() behaves. – pcodex Mar 5 '18 at 8:20
  • @Prab, just to give the explanation: unique_lock() is automatically released when the destructor is called meaning it is exception safe and that it automatically unlocks when you leave scope. – EliSquared Mar 11 '18 at 0:26
  • 1
    @EliSquared you're repeating what I've already mentioned in my comment to the author – pcodex Mar 13 '18 at 11:10

In this case, I think all you need to do is:

// Critical section code

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