I am quite new to C++ and threading, and I got stuck in this problem for days.. It's supposed to form the base code for a fft (fast fourier transform) -- just a base code so several things are still lacking such as the twiddle terms, and inputs are double numbers (not yet complex numbers).
I want to do some parallel programming of a function f_thread with C++... here's a working 'compilable' code
#include<iostream>
#include<thread>
#include <vector>
#include <mutex>
void get_odd_elements(std::vector<double> inpt, std::vector<double> &out) {
for (int i = 0; i < inpt.size()-1; i = i + 2) {out[i/2] = inpt[i];}
}
void get_even_elements(std::vector<double> inpt, std::vector<double> &out) {
for (int i = 1; i < inpt.size(); i = i + 2) {out[i/2] = inpt[i];}
}
void attach(std::vector<double> a, std::vector<double> b, std::vector<double> &out) {
for (int i = 0; i < a.size(); i++) {out[i] = a[i];}
for (int i = a.size(); i < a.size()+b.size(); i++) {out[i] = b[i];}
}
void add_vectors(std::vector<double> &x, std::vector<double> &y, std::vector<double> &z) {for (int i = 0; i < x.size(); i++) {z[i] = x[i] + y[i];}}
void sub_vectors(std::vector<double> &x, std::vector<double> &y, std::vector<double> &z) {for (int i = 0; i < x.size(); i++) {z[i] = y[i] - x[i];}}
//the f_thread function
void f_thread(std::vector<double> in, std::vector<double> &out) {
if (in.size() == 1) {out = in;}
else {
std::vector<double> f0(in.size()/2);
std::vector<double> f1(in.size()/2);
get_odd_elements(in,std::ref(f0)); //get_odd_elements is a function that gets all odd-indexed elements of f
get_even_elements(in,std::ref(f1)); //get_even_elements is a function that gets all even-indexed elements of in
std::vector<double> a(f0.size());
std::vector<double> b(f1.size());
std::mutex mtx1; std::mutex mtx2;
std::thread t0(f_thread,std::ref(f0),std::ref(a)); //create thread for f_thread on a
std::thread t1(f_thread,std::ref(f1),std::ref(b)); //create thread for f_thread on b
t0.join(); t1.join(); // join 2 threads
std::vector<double> a_out(f0.size());
std::vector<double> b_out(f1.size());
add_vectors(std::ref(a),std::ref(b),std::ref(a_out)); //call add_vectors function : a + b
sub_vectors(std::ref(a),std::ref(b),std::ref(b_out)); //call sub_vectors function : b - a
std::vector<double> f_out(in.size());
attach(a_out,b_out,std::ref(f_out)); //attach is a function that appends b to the end of a
out = f_out;
}
}
int main() {
int n_elements = 16;
std::vector<double> sample_input(n_elements);
for (int i = 0; i < n_elements; i++) {sample_input[i] = i;}
std::vector<double> output(n_elements);
std::thread start(f_thread,std::ref(sample_input),std::ref(output));
start.join();
for (int i = 0; i < n_elements; i++) {std::cout << "output element "; std::cout << i; std::cout << ": "; std::cout << output[i]; std::cout<< "\n";}
}
So f_thread is initialized as a thread and then creates 2 sub-threads that recursively call f_thread. I tried several tricks using mutexes, but none seem to work since synchronization between the 2 sub-threads are not going wel (it's a hotspot for race conditions). Here's one code that I tried and which did not work. I also tried using global recursive mutexes but still no improvement.
#include<iostream>
#include<thread>
#include <vector>
#include <mutex>
void get_odd_elements(std::vector<double> inpt, std::vector<double> &out) {
for (int i = 0; i < inpt.size()-1; i = i + 2) {out[i/2] = inpt[i];}
}
void get_even_elements(std::vector<double> inpt, std::vector<double> &out) {
for (int i = 1; i < inpt.size(); i = i + 2) {out[i/2] = inpt[i];}
}
void attach(std::vector<double> a, std::vector<double> b, std::vector<double> &out) {
for (int i = 0; i < a.size(); i++) {out[i] = a[i];}
for (int i = a.size(); i < a.size()+b.size(); i++) {out[i] = b[i];}
}
void add_vectors(std::vector<double> &x, std::vector<double> &y, std::vector<double> &z) {for (int i = 0; i < x.size(); i++) {z[i] = x[i] + y[i];}}
void sub_vectors(std::vector<double> &x, std::vector<double> &y, std::vector<double> &z) {for (int i = 0; i < x.size(); i++) {z[i] = y[i] - x[i];}}
//the f_thread function
void f_thread(std::vector<double> in, std::vector<double> &out) {
if (in.size() == 1) {out = in;}
else {
std::vector<double> f0(in.size()/2);
std::vector<double> f1(in.size()/2);
get_odd_elements(in,std::ref(f0)); //get_odd_elements is a function that gets all odd-indexed elements of f
get_even_elements(in,std::ref(f1)); //get_even_elements is a function that gets all even-indexed elements of in
std::vector<double> a(f0.size());
std::vector<double> b(f1.size());
std::mutex mtx1; std::mutex mtx2;
mtx1.lock(); std::thread t0(f_thread,std::ref(f0),std::ref(a)); mtx1.unlock(); //create thread for f_thread on a
mtx2.lock(); std::thread t1(f_thread,std::ref(f1),std::ref(b)); mtx2.unlock(); //create thread for f_thread on b
t0.join(); t1.join(); // join 2 threads
std::vector<double> a_out(f0.size());
std::vector<double> b_out(f1.size());
add_vectors(std::ref(a),std::ref(b),std::ref(a_out)); //call add_vectors function : a + b
sub_vectors(std::ref(a),std::ref(b),std::ref(b_out)); //call sub_vectors function : b - a
std::vector<double> f_out(in.size());
attach(a_out,b_out,std::ref(f_out)); //attach is a function that appends b to the end of a
out = f_out;
}
}
int main() {
int n_elements = 16;
std::vector<double> sample_input(n_elements);
for (int i = 0; i < n_elements; i++) {sample_input[i] = i;}
std::vector<double> output(n_elements);
std::thread start(f_thread,std::ref(sample_input),std::ref(output));
start.join();
for (int i = 0; i < n_elements; i++) {std::cout << "output element "; std::cout << i; std::cout << ": "; std::cout << output[i]; std::cout<< "\n";}
}
I got to verify that this code compiles using g++ f_thread.cpp -pthread with standard C++ libraries in a linux (ubuntu 18.04) OS
The code now runs (no more 'aborted core dumped errors'), but the output for the threaded version changes at each run (indicating that synchronization is not working well).
For reference, here is the sequential version of the code that doesn't use sub-threads and which works well (i.e. no changes in output every time it is run)
// WORKING sequential version
#include<iostream>
#include<thread>
#include <vector>
#include <mutex>
void get_odd_elements(std::vector<double> inpt, std::vector<double> &out) {
for (int i = 0; i < inpt.size()-1; i = i + 2) {out[i/2] = inpt[i];}
}
void get_even_elements(std::vector<double> inpt, std::vector<double> &out) {
for (int i = 1; i < inpt.size(); i = i + 2) {out[i/2] = inpt[i];}
}
void attach(std::vector<double> a, std::vector<double> b, std::vector<double> &out) {
for (int i = 0; i < a.size(); i++) {out[i] = a[i];}
for (int i = a.size(); i < a.size()+b.size(); i++) {out[i] = b[i];}
}
void add_vectors(std::vector<double> &x, std::vector<double> &y, std::vector<double> &z) {for (int i = 0; i < x.size(); i++) {z[i] = x[i] + y[i];}}
void sub_vectors(std::vector<double> &x, std::vector<double> &y, std::vector<double> &z) {for (int i = 0; i < x.size(); i++) {z[i] = y[i] - x[i];}}
//the f_thread function
void f_thread(std::vector<double> in, std::vector<double> &out) {
if (in.size() == 1) {out = in;}
else {
std::vector<double> f0(in.size()/2);
std::vector<double> f1(in.size()/2);
get_odd_elements(in,std::ref(f0)); //get_odd_elements is a function that gets all odd-indexed elements of f
get_even_elements(in,std::ref(f1)); //get_even_elements is a function that gets all even-indexed elements of in
std::vector<double> a(f0.size());
std::vector<double> b(f1.size());
f_thread(std::ref(f0),std::ref(a)); // no thread, just call recursion
f_thread(std::ref(f1),std::ref(b)); // no thread, just call recursion
std::vector<double> a_out(f0.size());
std::vector<double> b_out(f1.size());
add_vectors(std::ref(a),std::ref(b),std::ref(a_out)); //call add_vectors function : a + b
sub_vectors(std::ref(a),std::ref(b),std::ref(b_out)); //call sub_vectors function : b - a
std::vector<double> f_out(in.size());
attach(a_out,b_out,std::ref(f_out)); //attach is a function that appends b to the end of a
out = f_out;
}
}
int main() {
int n_elements = 16;
std::vector<double> sample_input(n_elements);
for (int i = 0; i < n_elements; i++) {sample_input[i] = i;}
std::vector<double> output(n_elements);
std::thread start(f_thread,std::ref(sample_input),std::ref(output));
start.join();
for (int i = 0; i < n_elements; i++) {std::cout << "output element "; std::cout << i; std::cout << ": "; std::cout << output[i]; std::cout<< "\n";}
}
The results are supposed to be fixed to this output every time the code is run.
output element 0: 120
output element 1: 0
output element 2: 0
output element 3: 7.31217e-322
output element 4: 0
output element 5: 6.46188e-319
output element 6: 56
output element 7: 0
output element 8: 0
output element 9: 4.19956e-322
output element 10: 120
output element 11: 0
output element 12: 0
output element 13: 7.31217e-322
output element 14: 0
output element 15: 6.46188e-319
f0
andf1
, aren't they?mutex
as a local variable that is never shared is pointless; taking a lock around only the creation of a thread (which might not even be scheduled immediately) is separately pointless.