Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

i have 3 thread and 2 shared resources, which need some locking...i tried to illustrate the resources with 2 buffers... - thread 1 can only access resource 1 - thread 2 can access resource 1 and 2 - thread 3 can access resource 1 and 2

can someone tell me why the following locking fails? since thread2 and thread3 will access resource 1 and 2...i thought i could use try_lock? ...it seems the issue pops up, when thread2 and thread3 is only able to lock 1 mutex at a time...any idea?

#include <iostream> 
#include <thread> 
#include <mutex> 
#include <condition_variable> 
#include <vector> 
#include <algorithm> 
#include <cassert> 
using namespace std; 

class SynchronizationTest { 
private: 
    mutex lock_r1; 
    mutex lock_r2; 
    vector<pair<string, int>> buffer_r1; 
    vector<pair<string, int>> buffer_r2; 
    unsigned int buffer_r1_max_size; 
    unsigned int buffer_r2_max_size; 

    bool buffer_r1_inc_element(const string &thread_id) {       
        if (buffer_r1.size() == buffer_r1_max_size) { 
            return true; 
        } 

        if (buffer_r1.size() == 0) { 
            buffer_r1.push_back(make_pair(thread_id, 0)); 
        } 
        else { 
            int last_val = buffer_r1.back().second; 
            buffer_r1.push_back(make_pair(thread_id, ++last_val)); 
        } 

        return false; 
    } 

    bool buffer_r2_inc_element(const string &thread_id) {   
        if (buffer_r2.size() == buffer_r2_max_size) { 
            return true; 
        } 

        if (buffer_r2.size() == 0) { 
            buffer_r2.push_back(make_pair(thread_id, 0)); 
        } 
        else { 
            int last_val = buffer_r2.back().second; 
            buffer_r2.push_back(make_pair(thread_id, ++last_val)); 
        } 

        return false; 
    } 

public: 
    SynchronizationTest(int buff_r1_size, int buff_r2_size) : buffer_r1_max_size(buff_r1_size), 
                                                              buffer_r2_max_size(buff_r2_size) {} 

    void thread1() { 
        bool buffer_r1_full = false; 

        while (!buffer_r1_full) { 
            { 
                unique_lock<mutex> l(lock_r1, std::defer_lock); 
                if (l.try_lock()) { 
                    buffer_r1_full = buffer_r1_inc_element("thread1"); 
                } 
            } 

            std::this_thread::sleep_for(std::chrono::milliseconds(10)); 
        } 
    } 

    void thread2() { 
        bool buffer_r1_full = false; 
        bool buffer_r2_full = false; 

        while (!buffer_r1_full || !buffer_r2_full) { 
            { 
                unique_lock<mutex> lock1(lock_r1, defer_lock); 
                unique_lock<mutex> lock2(lock_r2, defer_lock); 

                int result = try_lock(lock1, lock2); 
                if(result == -1) { 
                    buffer_r1_full = buffer_r1_inc_element("thread2"); 
                    buffer_r2_full = buffer_r2_inc_element("thread2"); 
                } 
                else if(result != 0) { 
                    buffer_r1_full = buffer_r1_inc_element("thread2"); 
                } 
                else if(result != 1) { 
                    buffer_r2_full = buffer_r2_inc_element("thread2"); 
                } 
            } 

            std::this_thread::sleep_for(std::chrono::milliseconds(10)); 
        } 
    } 

    void thread3() { 
        bool buffer_r1_full = false; 
        bool buffer_r2_full = false; 

        while (!buffer_r1_full || !buffer_r2_full) { 
            { 
                unique_lock<mutex> lock1(lock_r1, defer_lock); 
                unique_lock<mutex> lock2(lock_r2, defer_lock); 

                int result = try_lock(lock1, lock2); 
                if(result == -1) { 
                    buffer_r1_full = buffer_r1_inc_element("thread3"); 
                    buffer_r2_full = buffer_r2_inc_element("thread3"); 
                } 
                else if(result != 0) { 
                    buffer_r1_full = buffer_r1_inc_element("thread3"); 
                } 
                else if(result != 1) { 
                    buffer_r2_full = buffer_r2_inc_element("thread3"); 
                } 
            } 

            std::this_thread::sleep_for(std::chrono::milliseconds(10)); 
        } 
    } 

    void print_buffer() { 
        for_each(buffer_r1.begin(), buffer_r1.end(), [](pair<string, int> p) { cout << p.first.c_str() << " " << p.second << endl; }); 
        cout << '\n'; 
        for_each(buffer_r2.begin(), buffer_r2.end(), [](pair<string, int> p) { cout << p.first.c_str() << " " << p.second << endl; }); 
    } 
}; 

int main() { 
    // your code goes here 
    SynchronizationTest st(20, 20); 

    thread t1(&SynchronizationTest::thread1, &st); 
    thread t2(&SynchronizationTest::thread2, &st); 
    thread t3(&SynchronizationTest::thread3, &st); 

    t1.join(); 
    t2.join(); 
    t3.join(); 

    st.print_buffer(); 

    return 0; 
}
share|improve this question

2 Answers 2

std::try_lock does not work that way. If it returns -1, all locks are held. If it returns a non-negative integer, no locks are held. The returned value tells which lock failed, but any locks that were locked successfully are released before try_lock returns.

share|improve this answer
    
how do you know which lock was successfully if the return is not -1? -1 says both locks can be aquired...? –  Gerald Feb 19 '14 at 3:02
    
@Gerald try_lock (like lock) attempts to acquire all the locks you pass to it in a deadlock-free manner. If try_lock returns -1, it locked them all. If it returns a non-negative integer N, it acquired the first N arguments before failing to try_lock the Nth argument and then released the first N arguments before returning. Is that clearer? –  Casey Feb 19 '14 at 3:29
    
ok, so what should i change to make it work? –  Gerald Feb 20 '14 at 6:39

problem solved:

unique_lock<mutex> lock1(lock_r1, defer_lock);
unique_lock<mutex> lock2(lock_r2, defer_lock);

bool result1 = lock1.try_lock();
bool result2 = lock2.try_lock();

if(result1 && result2) {
    buffer_r1_full = buffer_r1_inc_element("thread2");
    buffer_r2_full = buffer_r2_inc_element("thread2");
}
else if(result1) { 
    buffer_r1_full = buffer_r1_inc_element("thread2");
}
else if(result2) { 
    buffer_r2_full = buffer_r2_inc_element("thread2");
}
share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

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