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More examples added from https://live.gnome.org/Vala/ThreadingSamples

This commit is contained in:
Kolan Sh 2013-03-28 17:41:39 +04:00
parent baa6bbb808
commit c3d3d0efc7
6 changed files with 264 additions and 57 deletions
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76
vala/live.gnome.org_tutorial/async-queue-test.vala Normal file
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class ThreadCommunication {
private const int NUMBER_OF_MESSAGES = 200000;
private AsyncQueue<DataBox> async_queue;
public ThreadCommunication () {
this.async_queue = new AsyncQueue<DataBox> ();
}
// data object for sending
private class DataBox {
public int number { get; private set; }
public string name { get; private set; }
public DataBox (int number, string name) {
this.number = number;
this.name = name;
}
}
private void* writing_func () {
var timer = new Timer ();
timer.start ();
for (int i = 0; i < NUMBER_OF_MESSAGES; i++) {
// prepare an object to send
var databox = new DataBox (i, @"some text for value $i");
// send a message to the queue
async_queue.push (databox);
}
// show time result
print ("Pushed %d DataBoxes into AsyncQueue in %f s\n", NUMBER_OF_MESSAGES, timer.elapsed ());
return null;
}
private void* reading_func () {
var timer = new Timer ();
timer.start ();
for (int i = 0; i < NUMBER_OF_MESSAGES; i++) {
// receive a message from the queue
var databox = async_queue.pop ();
// make sure the content is right
assert (i == databox.number);
assert (@"some text for value $i" == databox.name);
// show one of the strings
if ((NUMBER_OF_MESSAGES / 2) == databox.number) {
print ("\tNO: %d \tTEXT: %s\n", databox.number, databox.name);
}
}
// show time result
print ("Popped %d DataBoxes from AsyncQueue in %f s\n", NUMBER_OF_MESSAGES, timer.elapsed ());
return null;
}
public void run () {
try {
unowned Thread<void*> thread_a = Thread.create<void*> (writing_func, true);
unowned Thread<void*> thread_b = Thread.create<void*> (reading_func, true);
// Wait until the threads finish
thread_a.join ();
thread_b.join ();
} catch (ThreadError e) {
stderr.printf ("%s\n", e.message);
return;
}
}
}
void main () {
var thread_comm = new ThreadCommunication ();
thread_comm.run ();
}

88
vala/live.gnome.org_tutorial/philosophers.vala Normal file
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/** Fork pool used by the philosophers */
class Forks {
private bool[] fork = new bool[5]; // initially false, i.e. not used
private Cond cond = new Cond ();
private Mutex mutex = new Mutex ();
// Try to pick up the forks with the designated numbers
public void pick_up (int left, int right) {
mutex.lock ();
while (fork[left] || fork[right]) {
cond.wait (mutex);
}
fork[left] = true;
fork[right] = true;
mutex.unlock ();
}
// Lay down the forks with the designated numbers
public void lay_down (int left, int right) {
mutex.lock ();
fork[left] = false;
fork[right] = false;
cond.broadcast ();
mutex.unlock ();
}
}
/** A dining philosopher */
class Philosopher {
private int number; // this philosopher's number
private int think_delay; // how long does this philosopher think?
private int eat_delay; // how long does this philosopher eat?
private int left; // left fork number
private int right; // right fork number
private Forks forks; // forks used by all philosophers
public Philosopher (int number, int think_delay, int eat_delay, Forks forks) {
this.number = number;
this.think_delay = think_delay;
this.eat_delay = eat_delay;
this.forks = forks;
this.left = number == 0 ? 4 : number - 1;
this.right = (number + 1) % 5;
}
public void* run () {
while (true) {
Thread.usleep (think_delay);
forks.pick_up (left, right);
stdout.printf ("Philosopher %d starts eating...\n", number);
Thread.usleep (eat_delay);
forks.lay_down (left, right);
stdout.printf ("Philosopher %d stops eating...\n", number);
}
}
}
int main (string[] args) {
if (!Thread.supported ()) {
error ("Cannot run without thread support.");
}
var forks = new Forks ();
Philosopher[] philos = {
new Philosopher (0, 100000, 500000, forks),
new Philosopher (1, 200000, 400000, forks),
new Philosopher (2, 300000, 300000, forks),
new Philosopher (3, 400000, 200000, forks),
new Philosopher (4, 500000, 100000, forks)
};
try {
foreach (var philosopher in philos) {
Thread.create<void*> (philosopher.run, false);
}
} catch (ThreadError e) {
error ("%s\n", e.message);
}
new MainLoop ().run ();
return 0;
}

10
vala/live.gnome.org_tutorial/run.sh
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@ -1,4 +1,10 @@
#!/bin/sh
valac --thread --pkg glib-2.0 --target-glib=2.32 threading-sample.vala
./threading-sample
# valac --thread --target-glib=2.32 threading-sample.vala \
valac --thread threads.vala
valac --thread --target-glib=2.32 threads-2.32.vala
valac --thread philosophers.vala
valac --thread async-queue-test.vala

55
vala/live.gnome.org_tutorial/threading-sample.vala
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@ -1,55 +0,0 @@
public class MyThread : Object {
public ThreadPriority priority { get; private set; }
public int x_times { get; private set; }
public MyThread (int times, ThreadPriority priority) {
this.priority = priority;
this.x_times = times;
}
public int run () {
// set the priority:
Thread.self<int> ().set_priority (ThreadPriority.URGENT);
for (int i = 0; i < this.x_times; i++) {
stdout.printf ("ping! %d/%d\n", i + 1, this.x_times);
Thread.usleep (10000);
}
// return & exit have the same effect
Thread.exit (42);
return 43;
}
}
public static int main (string[] args) {
// Check whether threads are supported:
if (Thread.supported () == false) {
stderr.printf ("Threads are not supported!\n");
return -1;
}
try {
// Start a thread:
MyThread my_thread = new MyThread (10, ThreadPriority.URGENT);
Thread<int> thread = new Thread<int>.try ("My fst. thread", my_thread.run);
// Count all running threads:
int threads = 0;
Thread.foreach (() => {
threads++;
});
// Output: ``Running threads: 0``
stdout.printf ("Running threads: %d\n", threads);
// Wait until thread finishes:
int result = thread.join ();
// Output: `Thread stopped! Return value: 42`
stdout.printf ("Thread stopped! Return value: %d\n", result);
} catch (Error e) {
stdout.printf ("Error: %s\n", e.message);
}
return 0;
}

46
vala/live.gnome.org_tutorial/threads-2.32.vala Normal file
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class MyThread {
private string name;
private int count = 0;
public MyThread (string name) {
this.name = name;
}
public void* thread_func () {
while (true) {
stdout.printf ("%s: %i\n", this.name, this.count);
this.count++;
Thread.usleep (Random.int_range (0, 200000));
}
}
}
int main () {
if (!Thread.supported ()) {
stderr.printf ("Cannot run without thread support.\n");
return 1;
}
var thread_a_data = new MyThread ("A");
var thread_b_data = new MyThread ("B");
try {
// Start two threads
/* With error handling */
Thread<void*> thread_a = new Thread<void*>.try ("thread_a", thread_a_data.thread_func);
/* Without error handling (is not using the try/catch) */
Thread<void*> thread_b = new Thread<void*> ("thread_b", thread_b_data.thread_func);
// Wait for threads to finish (this will never happen in our case, but anyway)
thread_a.join ();
thread_b.join ();
} catch (Error e) {
stderr.printf ("%s\n", e.message);
return 1;
}
return 0;
}

46
vala/live.gnome.org_tutorial/threads.vala Normal file
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class MyThread {
private string name;
private int count = 0;
public MyThread (string name) {
this.name = name;
}
public void* thread_func () {
while (true) {
stdout.printf ("%s: %i\n", this.name, this.count);
this.count++;
Thread.usleep (Random.int_range (0, 200000));
}
}
}
int main () {
if (!Thread.supported ()) {
stderr.printf ("Cannot run without thread support.\n");
return 1;
}
var thread_a_data = new MyThread ("A");
var thread_b_data = new MyThread ("B");
try {
// Start two threads
unowned Thread<void*> thread_a = Thread.create<void*> (thread_a_data.thread_func, true);
unowned Thread<void*> thread_b = Thread.create<void*> (thread_b_data.thread_func, true);
// Wait for threads to finish (this will never happen in our case, but anyway)
thread_a.join ();
thread_b.join ();
} catch (ThreadError e) {
stderr.printf ("%s\n", e.message);
return 1;
}
return 0;
}