public void Reuse()
{
var onThread = new int[4];
var sums = new int[4];
var _ = new GameState();
using (var runner = new JobRunner(_, 4, 10))
{
runner.Initialize();
// setup the jobs
Job <int> j1, j2, j3, j4;
{
j1 = runner.CreateJob(TestTask, 0);
j2 = runner.CreateJob(TestTask, 1);
j3 = runner.CreateJob(TestTask, 2);
j4 = runner.CreateJob(TestTask, 3);
}
// wait for them to finish
var comp = runner.StartJobs(j1, j2, j3, j4);
comp.WaitForCompletion();
// got the right answer
Assert.Equal(49_995_000, sums[0]);
Assert.Equal(49_995_000, sums[1]);
Assert.Equal(49_995_000, sums[2]);
Assert.Equal(49_995_000, sums[3]);
// run them _again_
var comp2 = runner.StartJobs(j1, j2, j3, j4);
comp2.WaitForCompletion();
// got the right answer, again
Assert.Equal(2 * 49_995_000, sums[0]);
Assert.Equal(2 * 49_995_000, sums[1]);
Assert.Equal(2 * 49_995_000, sums[2]);
Assert.Equal(2 * 49_995_000, sums[3]);
}
// just a dumb task to do
void TestTask(GameState ignore, int ix)
{
for (var i = 0; i < 10_000; i++)
{
sums[ix] += i;
}
}
}
public void Aggressive()
{
var observedToRun = 0;
var rand = new Random(2018_11_27);
var _ = new GameState();
// more threads than tasks
using (var runner = new JobRunner(_, 16, 100))
{
runner.Initialize();
Stress(runner);
}
// fewer threads than tasks
using (var runner = new JobRunner(_, 4, 100))
{
runner.Initialize();
Stress(runner);
}
void Stress(JobRunner runner)
{
var jobs = Enumerable.Range(0, 100).Select(r => runner.CreateJob(TestTask, r)).ToArray();
observedToRun = 0;
var expectedToRun = 0;
for (var i = 0; i < 10_000; i++)
{
var numJobs = rand.Next(8) + 1;
var subset = jobs.OrderBy(o => Guid.NewGuid()).Take(numJobs).ToArray();
JobsCompletionToken tok;
switch (numJobs)
{
case 1: tok = runner.StartJobs(subset[0]); break;
case 2: tok = runner.StartJobs(subset[0], subset[1]); break;
case 3: tok = runner.StartJobs(subset[0], subset[1], subset[2]); break;
case 4: tok = runner.StartJobs(subset[0], subset[1], subset[2], subset[3]); break;
case 5: tok = runner.StartJobs(subset[0], subset[1], subset[2], subset[3], subset[4]); break;
case 6: tok = runner.StartJobs(subset[0], subset[1], subset[2], subset[3], subset[4], subset[5]); break;
case 7: tok = runner.StartJobs(subset[0], subset[1], subset[2], subset[3], subset[4], subset[5], subset[6]); break;
case 8: tok = runner.StartJobs(subset[0], subset[1], subset[2], subset[3], subset[4], subset[5], subset[6], subset[7]); break;
default: throw new Exception("wuh?");
}
expectedToRun += numJobs;
tok.WaitForCompletion();
}
Assert.Equal(expectedToRun, observedToRun);
}
// Just does a bunch of junk
void TestTask(GameState ignore, int ix)
{
var sum = 0;
for (var i = 0; i < 10_000; i++)
{
sum += i;
}
Interlocked.Increment(ref observedToRun);
}
}
public void InParallel()
{
var startTicks = new long[4];
var stopTicks = new long[4];
var onThread = new int[4];
var sums = new int[4];
var _ = new GameState();
using (var runner = new JobRunner(_, 4, 10))
{
runner.Initialize();
// setup the jobs
Job <int> j1, j2, j3, j4;
{
j1 = runner.CreateJob(TestTask, 0);
j2 = runner.CreateJob(TestTask, 1);
j3 = runner.CreateJob(TestTask, 2);
j4 = runner.CreateJob(TestTask, 3);
}
// wait for them to finish
var comp = runner.StartJobs(j1, j2, j3, j4);
comp.WaitForCompletion();
// no goofy time travel
for (var i = 0; i < 4; i++)
{
Assert.True(stopTicks[i] > startTicks[i]);
}
// ran on different thread
Assert.False(onThread[0] == onThread[1]);
Assert.False(onThread[0] == onThread[2]);
Assert.False(onThread[0] == onThread[3]);
Assert.False(onThread[1] == onThread[2]);
Assert.False(onThread[1] == onThread[3]);
Assert.False(onThread[2] == onThread[3]);
// got the right answer
Assert.Equal(49_995_000, sums[0]);
Assert.Equal(49_995_000, sums[1]);
Assert.Equal(49_995_000, sums[2]);
Assert.Equal(49_995_000, sums[3]);
}
// just a dumb task to do
void TestTask(GameState ignore, int ix)
{
startTicks[ix] = Stopwatch.GetTimestamp();
onThread[ix] = Thread.CurrentThread.ManagedThreadId;
Thread.Sleep(10);
for (var i = 0; i < 10_000; i++)
{
sums[ix] += i;
}
stopTicks[ix] = Stopwatch.GetTimestamp();
}
}
