public void ShouldRunModulesAtCorrectTickRate()
        {
            LosgapSystem.InvokeOnMaster(() => {
                const int MODULE_EXEC_LENGTH          = 1;
                const int MODULE_BLOCK_SIZE           = 1;
                const int MODULE_TICK_RATE_MS         = 10;
                const int TEST_ERROR_MARGIN_NUM_TICKS = 5;
                ILosgapModule[] inputExecutionUnits   =
                {
                    new MockModule(MODULE_BLOCK_SIZE, MODULE_TICK_RATE_MS),
                };
                PipelineProcessor processor = new PipelineProcessor(inputExecutionUnits);

                // Set up context
                ((MockModule)inputExecutionUnits[0]).SetExecutionRange(MODULE_EXEC_LENGTH);
                Task.Run(() => {
                    Thread.Sleep(1000);
                    processor.Dispose();
                });

                // Execute
                processor.Start();

                // Assert outcome
                Assert.IsTrue(((MockModule)inputExecutionUnits[0]).PostExecuteCalls <= MODULE_TICK_RATE_MS + TEST_ERROR_MARGIN_NUM_TICKS);
            });
        }
Example #2
0
        public void TestDispose()
        {
            MasterSlaveBarrier testBarrier = new MasterSlaveBarrier(2U);
            Thread             slaveA      = new Thread(testBarrier.SlaveWaitForFirstOpen);
            Thread             slaveB      = new Thread(testBarrier.SlaveWaitForFirstOpen);

            slaveA.Start();
            LosgapSystem.InvokeOnMaster(() => testBarrier.Dispose());
            slaveB.Start();

            slaveA.Join();
            slaveB.Join();

            testBarrier = new MasterSlaveBarrier(2U);
            slaveA      = new Thread(() => {
                testBarrier.SlaveWaitForFirstOpen();
                testBarrier.SlaveWaitForReset();
            });
            slaveB = new Thread(() => {
                testBarrier.SlaveWaitForFirstOpen();
                testBarrier.SlaveWaitForReset();
            });

            slaveA.Start();
            slaveB.Start();

            LosgapSystem.InvokeOnMaster(() => {
                testBarrier.MasterOpenBarrier();
                testBarrier.MasterWaitForClose();
                testBarrier.Dispose();
            });

            slaveA.Join();
            slaveB.Join();
        }
        public void PMIShouldNotStallPipeline()
        {
            LosgapSystem.InvokeOnMaster(() => {
                // Define variables and constants
                const int MODULE_EXEC_LENGTH        = 15;
                const int MODULE_BLOCK_SIZE         = 1;
                const int MODULE_TICK_RATE_MS       = 10;
                ILosgapModule[] inputExecutionUnits =
                {
                    new MockModule(MODULE_BLOCK_SIZE, MODULE_TICK_RATE_MS),
                };
                PipelineProcessor processor = new PipelineProcessor(inputExecutionUnits);

                // Set up context
                ((MockModule)inputExecutionUnits[0]).SetExecutionRange(MODULE_EXEC_LENGTH);
                ((MockModule)inputExecutionUnits[0]).ExecBlock += () => {
                    Thread.Sleep(15);
                    processor.InvokeOnMaster(new PipelineMasterInvocation(() => Thread.Sleep(15), true));
                };
                ((MockModule)inputExecutionUnits[0]).PostExec += processor.Dispose;

                // Execute
                processor.Start();

                // Assert outcome
            });
        }
Example #4
0
        public void SingleModuleSingleIterationTest()
        {
            LosgapSystem.InvokeOnMaster(() => {             // Must invoke on master because the PP has assurances that the master thread is invoking operations
                // Define variables and constants
                const int MODULE_EXEC_LENGTH        = 500021;
                const int MODULE_BLOCK_SIZE         = 200;
                ILosgapModule[] inputExecutionUnits =
                {
                    new MockModule(MODULE_BLOCK_SIZE, Int32.MaxValue),
                };
                ParallelizationProvider pp = new ParallelizationProvider();

                // Set up context
                ((MockModule)inputExecutionUnits[0]).SetExecutionRange(MODULE_EXEC_LENGTH);
                ((MockModule)inputExecutionUnits[0]).PostExec += () => {
                    int[] workspace = ((MockModule)inputExecutionUnits[0]).Workspace;
                    for (int i = 0; i < MODULE_EXEC_LENGTH; ++i)
                    {
                        Assert.AreEqual(i, workspace[i]);
                    }
                    ((IDisposable)pp).Dispose();
                };

                // Execute
                inputExecutionUnits[0].PipelineIterate(pp, 0L);

                // Assert outcome
            });
        }
Example #5
0
        public void TestForceSingleThreaded()
        {
            LosgapSystem.InvokeOnMaster(() => {             // Must invoke on master because the PP has assurances that the master thread is invoking operations
                const int NUM_ITERATIONS        = 10000;
                HashSet <Thread> invokedThreads = new HashSet <Thread>();
                ParallelizationProvider pp      = new ParallelizationProvider();

                for (int i = 0; i < NUM_ITERATIONS; i++)
                {
                    pp.ForceSingleThreadedMode = true;
                    invokedThreads.Clear();
                    pp.InvokeOnAll(() => {
                        lock (invokedThreads) {
                            invokedThreads.Add(Thread.CurrentThread);
                        }
                    }, true);
                    Assert.AreEqual(LosgapSystem.MasterThread, invokedThreads.Single());
                    invokedThreads.Clear();
                    pp.Execute(100, 1, atomic => {
                        lock (invokedThreads) {
                            invokedThreads.Add(Thread.CurrentThread);
                        }
                    });
                    Assert.AreEqual(LosgapSystem.MasterThread, invokedThreads.Single());
                    pp.ForceSingleThreadedMode = false;
                }
            });
        }
Example #6
0
        public void TestInvokeOnAll()
        {
            LosgapSystem.InvokeOnMaster(() => {             // Must invoke on master because the PP has assurances that the master thread is invoking operations
                // Define variables and constants
                const int NUM_ITERATIONS        = 10000;
                HashSet <Thread> invokedThreads = new HashSet <Thread>();
                ParallelizationProvider pp      = new ParallelizationProvider();

                // Set up context


                // Execute
                for (int i = 0; i < NUM_ITERATIONS; i++)
                {
                    invokedThreads.Clear();
                    pp.InvokeOnAll(() => {
                        lock (invokedThreads) {
                            invokedThreads.Add(Thread.CurrentThread);
                        }
                    }, true);
                    Assert.AreEqual(pp.NumThreads, (uint)invokedThreads.Count);
                    invokedThreads.Clear();
                    pp.InvokeOnAll(() => {
                        lock (invokedThreads) {
                            invokedThreads.Add(Thread.CurrentThread);
                        }
                    }, false);
                    Assert.AreEqual(pp.NumThreads - 1U, (uint)invokedThreads.Count);
                    Assert.IsFalse(invokedThreads.Contains(Thread.CurrentThread));
                }

                // Assert outcome
            });
        }
        public void MasterWaitOnExternalLock(object lockObj, Func <bool> completionPredicate)
        {
            Assure.NotNull(lockObj);
            Assure.NotNull(completionPredicate);
            Assure.True(Monitor.IsEntered(lockObj));
            Assure.Equal(Thread.CurrentThread, LosgapSystem.MasterThread);

            Monitor.Enter(externalLockObjLock);
            externalLockObj = lockObj;
            try {
                while (!completionPredicate())
                {
                    while (masterInvocationQueue.Count > 0)
                    {
                        PipelineMasterInvocation pmi;
                        if (!masterInvocationQueue.TryDequeue(out pmi))
                        {
                            continue;
                        }
                        try {
                            if (pmi.IsSynchronousCall)
                            {
                                Monitor.Enter(pmi.InvocationCompleteMonitor);
                                pmi.Action();
                            }
                            else
                            {
                                pmi.Action();
                            }
                        }
                        catch (Exception e) {
                            if (pmi.IsSynchronousCall)
                            {
                                pmi.RaisedException = e;
                            }
                            else
                            {
                                LosgapSystem.ExitWithError("Exception raised in asynchronous pipeline master invocation.", e);
                            }
                        }
                        finally {
                            if (pmi.IsSynchronousCall)
                            {
                                Monitor.Pulse(pmi.InvocationCompleteMonitor);
                                Monitor.Exit(pmi.InvocationCompleteMonitor);
                            }
                        }
                    }
                    Monitor.Exit(externalLockObjLock);
                    Monitor.Wait(lockObj);
                    Monitor.Enter(externalLockObjLock);
                }
            }
            finally {
                externalLockObj = null;
                Monitor.Exit(externalLockObjLock);
            }
        }
        public static void ShutdownTests()
        {
            bool exited = false;

            LosgapSystem.SystemExited += () => exited = true;
            LosgapSystem.Exit();
            SpinWait.SpinUntil(() => exited);
            if (((TestLoggingProvider)Logger.LoggingProvider).SuppressionActive)
            {
                LosgapSystem.ExitWithError("Logging provider was still suppressed at test finish.");
            }
        }
        private static void MasterLoop()
        {
            try {
                LosgapSystem.AddModule(typeof(RenderingModule));

                LosgapSystem.Start();
            }
            catch (ThreadAbortException) {
                Thread.ResetAbort();
            }
            catch (Exception e) {
                Logger.Fatal("Test master loop has failed.", e);
            }
        }
Example #10
0
        public void MultipleModuleMultipleIterationTest()
        {
            LosgapSystem.InvokeOnMaster(() => {             // Must invoke on master because the PP has assurances that the master thread is invoking operations
                // Define variables and constants
                const int NUM_ITERATIONS = 500;
                int[] moduleExecLengths  =
                {
                    136,
                    88433,
                    287,
                    1
                };
                int[] moduleBlockSizes =
                {
                    313,
                    5000,
                    2,
                    1000
                };
                ILosgapModule[] inputExecutionUnits = moduleBlockSizes.Select(mbs => new MockModule(mbs, Int32.MaxValue)).ToArray();
                for (int i = 0; i < moduleExecLengths.Length; i++)
                {
                    ((MockModule)inputExecutionUnits[i]).SetExecutionRange(moduleExecLengths[i]);
                }
                ParallelizationProvider pp = new ParallelizationProvider();

                // Set up context

                // Execute
                for (int i = 0; i < NUM_ITERATIONS; i++)
                {
                    foreach (ILosgapModule module in inputExecutionUnits)
                    {
                        module.PipelineIterate(pp, 0L);
                    }
                }

                // Assert outcome
                for (int i = 0; i < inputExecutionUnits.Length; i++)
                {
                    MockModule executionUnit = (MockModule)inputExecutionUnits[i];
                    Assert.IsTrue(executionUnit.PostExecuteCalls == NUM_ITERATIONS);
                    int[] workspace = executionUnit.Workspace;
                    for (int w = 0; w < workspace.Length; ++w)
                    {
                        Assert.AreEqual(executionUnit.PostExecuteCalls * w, workspace[w]);
                    }
                }
            });
        }
        public void MasterWaitForClose()
        {
            Assure.Equal(Thread.CurrentThread, LosgapSystem.MasterThread);
            Monitor.Enter(barrierOpenLock);

hydrateInvocationQueue:
            while (masterInvocationQueue.Count > 0)
            {
                PipelineMasterInvocation pmi;
                if (!masterInvocationQueue.TryDequeue(out pmi))
                {
                    continue;
                }
                try {
                    if (pmi.IsSynchronousCall)
                    {
                        Monitor.Enter(pmi.InvocationCompleteMonitor);
                        pmi.Action();
                    }
                    else
                    {
                        pmi.Action();
                    }
                }
                catch (Exception e) {
                    if (pmi.IsSynchronousCall)
                    {
                        pmi.RaisedException = e;
                    }
                    else
                    {
                        LosgapSystem.ExitWithError("Exception raised in asynchronous pipeline master invocation.", e);
                    }
                }
                finally {
                    if (pmi.IsSynchronousCall)
                    {
                        Monitor.Pulse(pmi.InvocationCompleteMonitor);
                        Monitor.Exit(pmi.InvocationCompleteMonitor);
                    }
                }
            }
            if (barrierOpen)
            {
                Monitor.Wait(barrierOpenLock);
                goto hydrateInvocationQueue;
            }
            Monitor.Exit(barrierOpenLock);
        }
Example #12
0
        public void TestOpenAndClose()
        {
            MasterSlaveBarrier testBarrier = new MasterSlaveBarrier(2U);
            Thread             slaveA      = new Thread(testBarrier.SlaveWaitForFirstOpen);

            slaveA.Start();
            Thread slaveB = new Thread(testBarrier.SlaveWaitForFirstOpen);

            slaveB.Start();
            Assert.IsFalse(slaveA.Join(TimeSpan.FromSeconds(0.5d)));
            Assert.IsFalse(slaveB.Join(TimeSpan.FromSeconds(0.5d)));
            LosgapSystem.InvokeOnMaster(testBarrier.MasterOpenBarrier);
            slaveA.Join();
            slaveB.Join();

            slaveA = new Thread(testBarrier.SlaveWaitForReset);
            slaveA.Start();
            slaveB = new Thread(testBarrier.SlaveWaitForReset);

            bool   barrierClosed     = false;
            object barrierClosePulse = new object();

            LosgapSystem.InvokeOnMasterAsync(() => {
                testBarrier.MasterWaitForClose();
                testBarrier.MasterOpenBarrier();
                lock (barrierClosePulse) {
                    barrierClosed = true;
                    Monitor.Pulse(barrierClosePulse);
                }
            });

            Thread.Sleep(TimeSpan.FromSeconds(0.5d));
            Assert.IsFalse(barrierClosed);

            Monitor.Enter(barrierClosePulse);
            slaveB.Start();
            slaveA.Join();
            slaveB.Join();
            Monitor.Wait(barrierClosePulse);
            Monitor.Exit(barrierClosePulse);
            Assert.IsTrue(barrierClosed);

            testBarrier.Dispose();
        }
Example #13
0
        private void StartSlave()
        {
            try {
                WorkBarrier.SlaveWaitForFirstOpen();
                while (!isDisposed)
                {
                    if (currentWorkIsInvokeAllAction)
                    {
                        currentInvokeAllAction();
                    }
                    else
                    {
                        for (int blockIndex = Interlocked.Decrement(ref numReservableBlocks);
                             blockIndex >= 0;
                             blockIndex = Interlocked.Decrement(ref numReservableBlocks))
                        {
                            int blockStartInc = currentBlockSize * blockIndex;
                            int blockEndEx    = currentBlockSize * (blockIndex + 1);

                            for (int i = blockStartInc; i < blockEndEx; ++i)
                            {
                                currentAction(i);
                            }
                        }
                    }

                    WorkBarrier.SlaveWaitForReset();
                }

                Monitor.Enter(slaveThreadExitMonitor);
                if (--numSlavesStillRunning == 0)
                {
                    Monitor.Pulse(slaveThreadExitMonitor);
                }
                Monitor.Exit(slaveThreadExitMonitor);
                Logger.Debug("Slave thread " + Thread.CurrentThread.Name + " has exited normally.");
            }
            catch (ThreadAbortException) {
                Thread.ResetAbort();
            }
            catch (Exception e) {
                LosgapSystem.ExitWithError("Slave thread encounted an unhandled exception.", e);
            }
        }
Example #14
0
        public void TestWaitForSlavesToExit()
        {
            LosgapSystem.InvokeOnMaster(() => {             // Must invoke on master because the PP has assurances that the master thread is invoking operations
                const int NUM_ITERATIONS = 300;

                for (int i = 0; i < NUM_ITERATIONS; ++i)
                {
                    ParallelizationProvider pp = new ParallelizationProvider();
                    pp.Execute(10, 1, x => {
                        if (x > 10)
                        {
                            Console.WriteLine("This will never be called.");
                        }
                    });
                    (pp as IDisposable).Dispose();
                    pp.WaitForSlavesToExit();
                }
            });
        }
 public void InvokeOnMaster(PipelineMasterInvocation pmi)
 {
     if (isDisposed)
     {
         throw new ObjectDisposedException("Can not invoke actions on master when pipeline is disposed!");
     }
     if (Thread.CurrentThread == LosgapSystem.MasterThread)
     {
         try {
             pmi.Action();
         }
         catch (Exception e) {
             if (pmi.IsSynchronousCall)
             {
                 pmi.RaisedException = e;
             }
             else
             {
                 LosgapSystem.ExitWithError("Exception raised in asynchronous pipeline master invocation.", e);
             }
         }
     }
     else
     {
         if (pmi.IsSynchronousCall)
         {
             Monitor.Enter(pmi.InvocationCompleteMonitor);
             ParallelizationProvider.SlaveQueueOnMaster(pmi);
             Monitor.Wait(pmi.InvocationCompleteMonitor);
             Monitor.Exit(pmi.InvocationCompleteMonitor);
         }
         else
         {
             ParallelizationProvider.SlaveQueueOnMaster(pmi);
         }
     }
 }