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singrdk/base/Applications/Tests/UnitTestTest/UnitTestTest.cs

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RDK 1.1
2008-03-05 09:52:00 -05:00
///////////////////////////////////////////////////////////////////////////////
//
// Microsoft Research Singularity
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//
// Note: A test of the Unit testing code.
//
using System;
using System.Collections;
using System.Threading;
using Microsoft.Singularity.UnitTest;
using Microsoft.Singularity.Channels;
using Microsoft.Contracts;
using Microsoft.SingSharp.Reflection;
using Microsoft.Singularity.Applications;
using Microsoft.Singularity.Io;
using Microsoft.Singularity.Configuration;
[assembly: Transform(typeof(ApplicationResourceTransform))]
RDK 2.0
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namespace Microsoft.Singularity.Applications
{
RDK 1.1
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[ConsoleCategory(DefaultAction=true)]
internal class Parameters {
[InputEndpoint("data")]
public readonly TRef<UnicodePipeContract.Exp:READY> Stdin;
[OutputEndpoint("data")]
public readonly TRef<UnicodePipeContract.Imp:READY> Stdout;
reflective internal Parameters();
internal int AppMain() {
return Test.AppMain(this);
}
}
public class Test
{
private static void SimpleChecks()
{
Assert.True(true, "Expected true");
Assert.False(false, "Expected false");
Assert.Null(null, "Expected null");
object low = (object)0;
object high = (object)1;
Assert.NonNull(low, "Expected non-null value");
Assert.SameObject(low, low, "Expected same object");
Assert.NotSameObject(low, new object(),
"Expected different objects");
Assert.Equal(low, low,
"Expected equal objects");
Assert.NotEqual(low, high, "Expected unequal objects.");
}
// -------------------------------------------------------------------
// Byte tests
//
// Generics would be handy here,
// but are not crucial as the overloads for binary
// operators are script generated so we expect them to work
// irrespective of type.
internal delegate void BinaryOp(byte a, byte b, string msg);
internal class WrappedBinaryOp
{
byte first;
byte second;
string! message;
BinaryOp! op;
internal WrappedBinaryOp(byte first,
byte second,
string! message,
BinaryOp! op)
{
this.first = first;
this.second = second;
this.message = message;
this.op = op;
}
public void Dispatch()
{
op(first, second, message);
}
}
private static void TestBadByteOperations()
{
ArrayList ops = new ArrayList();
int oldPasses = Assert.Passes;
int oldFailures = Assert.Failures;
ops.Add(new WrappedBinaryOp(0, 1, "Equal",
new BinaryOp(Assert.Equal)));
ops.Add(new WrappedBinaryOp(0, 1, "Greater",
new BinaryOp(Assert.Greater)));
ops.Add(new WrappedBinaryOp(0, 0, "Greater",
new BinaryOp(Assert.Greater)));
ops.Add(new WrappedBinaryOp(0, 1, "GreaterOrEqual",
new BinaryOp(Assert.GreaterOrEqual)));
ops.Add(new WrappedBinaryOp(1, 0, "Less",
new BinaryOp(Assert.Less)));
ops.Add(new WrappedBinaryOp(0, 0, "Less",
new BinaryOp(Assert.Less)));
ops.Add(new WrappedBinaryOp(1, 0, "LessOrEqual",
new BinaryOp(Assert.LessOrEqual)));
foreach (WrappedBinaryOp! op in ops) {
bool missedException = false;
try {
op.Dispatch();
missedException = true;
}
catch (FailedAssertionException) {
missedException = false;
}
if (missedException) {
throw new
FailedAssertionException("Unexpected test pass.");
}
}
Assert.Equal(oldPasses, Assert.Passes, "Assert Passes");
Assert.Equal(oldFailures + 7, Assert.Failures, "Assert Failures");
}
private static void TestByteOperations()
{
int oldPasses = Assert.Passes;
Assert.Equal((byte)0, (byte)0, "byte Equal Test");
Assert.Greater((byte)1, (byte)0, "byte Greater Test");
Assert.GreaterOrEqual((byte)1, (byte)0,
"byte GreaterOrEqual Test");
Assert.GreaterOrEqual((byte)0, (byte)0,
"byte GreaterOrEqual Test 2");
Assert.Less((byte)0, (byte)1, "byte Less Test");
Assert.LessOrEqual((byte)0, (byte)1,
"byte LessOrEqual Test");
Assert.LessOrEqual((byte)0, (byte)0,
"byte LessOrEqual Test 2");
Assert.Equal(oldPasses + 7, Assert.Passes, "Assert Passes");
}
private static void TestWatchDog()
{
const int deferrals = 20;
TimeSpan deferPeriod = TimeSpan.FromMilliseconds(250);
TimeSpan halfDeferPeriod =
TimeSpan.FromTicks(deferPeriod.Ticks / 2);
WatchDogTimer wd = new WatchDogTimer(deferPeriod);
wd.Start();
Assert.True(wd.Running, "Watch dog failed to start");
wd.Stop();
Assert.False(wd.Running, "Watch dog failed to stop");
wd.Start();
Assert.True(wd.Running, "Watch dog failed to restart");
Thread.Sleep(halfDeferPeriod);
for (int i = 0; i < deferrals; i++) {
wd.Defer();
Thread.Sleep(halfDeferPeriod);
Assert.True(wd.Running,
"Watch dog timer stopped unexpectedly.");
}
// About to deliberately timeout watchdog
// so announce upcoming assertion failure from watchdog.
UnitTest.ExpectNextAssertionFails();
Thread.Sleep(deferPeriod);
Thread.Sleep(deferPeriod);
UnitTest.ExpectNextAssertionPasses();
Assert.False(wd.Running, "Watch dog timer did not timeout.");
wd.Start();
wd.Start();
wd.Start();
wd.Stop();
wd.Stop();
}
internal static int AppMain(Parameters! config)
{
UnitTest.Add("SimpleChecks",
new UnitTest.TestDelegate(SimpleChecks));
UnitTest.Add("TestByteOperations",
new UnitTest.TestDelegate(TestByteOperations));
UnitTest.Add("TestBadByteOperations",
new UnitTest.TestDelegate(TestBadByteOperations));
if (UnitTest.Run(true) != UnitTest.Result.Passed)
return -1;
UnitTest.Clear();
// The following test "fails" because
// it needs to see the watchdog timeout.
UnitTest.Add("TestWatchDog",
new UnitTest.TestDelegate(TestWatchDog));
UnitTest.Run(true);
return 0;
}
}
}