public async Task SuppressTest()
{
var stateFactory = Services.StateFactory();
var time = Services.GetRequiredService <ITimeService>();
var count1 = 0;
var count2 = 0;
#pragma warning disable 1998
var s1 = await stateFactory.NewComputed <int>(async (s, ct) => count1++).Update();
var s2 = await stateFactory.NewComputed <int>(async (s, ct) => count2++).Update();
#pragma warning restore 1998
var s12 = await stateFactory.NewComputed <(int, int)>(
async (s, cancellationToken) => {
var a = await s1.Use(cancellationToken);
using var _ = Computed.SuspendDependencyCapture();
var b = await s2.Use(cancellationToken);
return(a, b);
}).Update();
var v12a = await s12.Use();
s1.Computed.Invalidate(); // Should increment c1 & impact c12
var v12b = await s12.Use();
v12b.Should().Be((v12a.Item1 + 1, v12a.Item2));
s2.Computed.Invalidate(); // Should increment c2, but shouldn't impact c12
var v12c = await s12.Use();
v12c.Should().Be(v12b);
}
public void Increment(string key)
{
WriteLine($"{nameof(Increment)}({key})");
_counters.AddOrUpdate(key, k => 1, (k, v) => v + 1);
using (Computed.Invalidate())
Get(key).Ignore();
}
public static async Task IncrementCounter()
{
#region Part02_IncrementCounter
var counters = CreateServices().GetRequiredService <CounterService>();
Task.Run(async() => {
for (var i = 0; i <= 5; i++)
{
await Task.Delay(1000);
counters.Increment("a");
}
}).Ignore();
var computed = await Computed.Capture(_ => counters.Get("a"));
WriteLine($"{DateTime.Now}: {computed.Value}");
for (var i = 0; i < 5; i++)
{
await computed.WhenInvalidated();
computed = await computed.Update();
WriteLine($"{DateTime.Now}: {computed.Value}");
}
#endregion
}
public ComputedCollection(Func <IEnumerable <T> > getMethod)
{
_getMethod = getMethod;
_depCollection = new Computed(OnUpdateCollection);
_depCollection.Invalidated += () => UpdateScheduler.ScheduleUpdate(UpdateNow);
_depCollection.Touch();
}
public virtual async Task EditUser(EditUserCommand command, CancellationToken cancellationToken = default)
{
var session = command.Session;
var context = CommandContext.GetCurrent();
if (Computed.IsInvalidating())
{
var invSessionInfo = context.Operation().Items.Get <SessionInfo>();
TryGetUser(invSessionInfo.UserId, default).Ignore();
return;
}
var sessionInfo = await GetSessionInfo(session, cancellationToken).ConfigureAwait(false);
if (!sessionInfo.IsAuthenticated)
{
throw Errors.NotAuthenticated();
}
await using var dbContext = await CreateCommandDbContext(cancellationToken).ConfigureAwait(false);
var longUserId = long.Parse(sessionInfo.UserId);
var dbUser = await Users.TryGet(dbContext, longUserId, cancellationToken).ConfigureAwait(false);
if (dbUser == null)
{
throw Internal.Errors.EntityNotFound(Users.UserEntityType);
}
await Users.Edit(dbContext, dbUser, command, cancellationToken).ConfigureAwait(false);
context.Operation().Items.Set(sessionInfo);
}
private async Task <IComputed <Screenshot> > GetScreenshotComputedAsync()
{
var screenshots = Services.GetRequiredService <IScreenshotService>();
var computed = await Computed.CaptureAsync(_ => screenshots.GetScreenshotAsync(1280));
return(computed);
}
public async Task BasicTest()
{
var kvs = Services.GetRequiredService <IKeyValueStore>();
var c1 = await Computed.Capture(_ => kvs.Get("1"));
var c2 = await Computed.Capture(_ => kvs.Get("2"));
var c3 = await Computed.Capture(_ => kvs.Get("3"));
c1.Value.Should().BeNull();
c2.Value.Should().BeNull();
c3.Value.Should().BeNull();
var commander = Services.Commander();
var command = new NestedOperationLoggerTester.SetManyCommand(
new[] { "1", "2", "3" }, "v");
await commander.Call(command);
c1.IsInvalidated().Should().BeTrue();
c2.IsInvalidated().Should().BeTrue();
c3.IsInvalidated().Should().BeTrue();
c1 = await c1.Update();
c2 = await c2.Update();
c3 = await c3.Update();
c1.Value.Should().Be("v3");
c2.Value.Should().Be("v2");
c3.Value.Should().Be("v1");
}
public async Task Test1()
{
var epsilon = TimeSpan.FromSeconds(0.5);
await using var serving = await WebSocketHost.ServeAsync();
var client = Services.GetRequiredService <IClientTimeService>();
var cTime = await Computed.CaptureAsync(_ => client.GetTimeAsync());
cTime.Options.AutoInvalidateTime.Should().Be(ComputedOptions.Default.AutoInvalidateTime);
if (!cTime.IsConsistent())
{
cTime = await cTime.UpdateAsync(false);
cTime.IsConsistent().Should().BeTrue();
}
(DateTime.Now - cTime.Value).Should().BeLessThan(epsilon);
await TestEx.WhenMetAsync(
() => cTime.IsConsistent().Should().BeFalse(),
TimeSpan.FromSeconds(5));
var time = await cTime.UseAsync();
(DateTime.Now - time).Should().BeLessThan(epsilon);
}
public async Task InvalidateEverythingTest()
{
var users = Services.GetRequiredService <IUserService>();
// We need at least 1 user to see count invalidation messages
await users.Create(new(new User()
{
Id = int.MaxValue,
Name = "Chuck Norris",
}));
var u1 = await users.TryGet(int.MaxValue);
var c1 = await Computed.Capture(_ => users.Count());
users.Invalidate();
var u2 = await users.TryGet(int.MaxValue);
var c2 = await Computed.Capture(_ => users.Count());
u2.Should().NotBeSameAs(u1);
u2 !.Id.Should().Be(u1 !.Id);
u2.Name.Should().Be(u1.Name);
c2.Should().NotBeSameAs(c1);
c2 !.Value.Should().Be(c1 !.Value);
}
public async Task BasicTest()
{
var liveClock = Services.GetRequiredService <ILiveClock>();
var cTime = await Computed.Capture(_ => liveClock.GetUtcNow());
cTime.IsConsistent().Should().BeTrue();
(DateTime.UtcNow - cTime.Value).Should().BeLessThan(TimeSpan.FromSeconds(1.1));
await Delay(1.3);
cTime.IsConsistent().Should().BeFalse();
cTime = await Computed.Capture(_ => liveClock.GetUtcNow(TimeSpan.FromMilliseconds(200)));
cTime.IsConsistent().Should().BeTrue();
await Delay(0.25);
cTime.IsConsistent().Should().BeFalse();
var now = DateTime.UtcNow;
var ago = await liveClock.GetMomentsAgo(now);
ago.Should().Be("just now");
await Delay(1.8);
ago = await liveClock.GetMomentsAgo(now);
ago.Should().Be("1 second ago");
}
public async Task AutoRecomputeTest()
{
var stateFactory = Services.StateFactory();
var time = Services.GetRequiredService <ITimeService>();
var c = await Computed.Capture(
_ => time.GetTimeWithOffset(TimeSpan.FromSeconds(1)));
var count = 0L;
using var state = stateFactory.NewComputed <DateTime>(
UpdateDelayer.ZeroUpdateDelay,
async(_, ct) => await c.Use(ct));
state.Updated += (s, _)
=> Log.LogInformation($"{++count} -> {s.Value:hh:mm:ss:fff}");
await TestEx.WhenMet(
() => count.Should().BeGreaterThan(2),
TimeSpan.FromSeconds(5));
var lastCount = count;
state.Dispose();
await Task.Delay(1000);
count.Should().Be(lastCount);
}
public async Task InvalidationAndCachingTest2()
{
// TODO: Fix the test so that it starts right after the time invalidation,
// otherwise it has a tiny chance of failure
var time = Services.GetRequiredService <ITimeService>();
var c1 = await Computed.CaptureAsync(_ => time.GetTimeWithOffsetAsync(TimeSpan.FromSeconds(1)));
c1.Should().NotBeNull();
var c2 = await Computed.CaptureAsync(_ => time.GetTimeWithOffsetAsync(TimeSpan.FromSeconds(2)));
c2.Should().NotBeNull();
c1.Should().NotBeSameAs(c2);
var c1a = await Computed.CaptureAsync(_ => time.GetTimeWithOffsetAsync(TimeSpan.FromSeconds(1)));
var c2a = await Computed.CaptureAsync(_ => time.GetTimeWithOffsetAsync(TimeSpan.FromSeconds(2)));
c1.Should().BeSameAs(c1a);
c2.Should().BeSameAs(c2a);
// Wait for time invalidation
await Task.Delay(500);
c1a = await Computed.CaptureAsync(_ => time.GetTimeWithOffsetAsync(TimeSpan.FromSeconds(1)));
c2a = await Computed.CaptureAsync(_ => time.GetTimeWithOffsetAsync(TimeSpan.FromSeconds(2)));
c1.Should().NotBeSameAs(c1a);
c2.Should().NotBeSameAs(c2a);
}
public Task AddLoggingRecord(LoggingRecord loggingRecord)
{
database.Add(loggingRecord);
using (Computed.Invalidate())
GetLatest().Ignore();
return(Task.CompletedTask);
}
public static async Task <IPublication <T>?> TryPublish <T>(
this IPublisher publisher,
Func <CancellationToken, Task <T> > producer,
CancellationToken cancellationToken = default)
{
var computed = await Computed
.Capture(producer, cancellationToken)
.ConfigureAwait(false);
if (computed == null)
{
return(null);
}
var publication = (IPublication <T>)publisher.Publish(computed);
// Publication doesn't have to be "in sync" with the computed
// we requested it for (i.e. it might still point to its older,
// inconsistent version), so we have to update it here.
try {
await publication.Update(cancellationToken);
}
catch (OperationCanceledException) {
throw;
}
catch {
// Intended, it's fine to publish a computed w/ an error
}
return(publication);
}
public Task Increment(CancellationToken cancellationToken = default)
{
Interlocked.Increment(ref _count);
using (Computed.Invalidate())
Get(cancellationToken);
return(Task.CompletedTask);
}
public MainViewModel()
{
// init
this.Sum = Computed <int> .Of(this, nameof(Sum))
.Observe(nameof(Num1), nameof(Num2))
.ComputeAs(me => me.Num1 + me.Num2)
.Build();
}
public virtual void Invalidate()
{
if (!IsCaching)
{
return;
}
Computed.Invalidate(Everything);
}
public virtual Task <TimeSpan> GetUptime(TimeSpan updatePeriod, CancellationToken cancellationToken = default)
{
var computed = Computed.GetCurrent();
Task.Delay(updatePeriod, default)
.ContinueWith(_ => computed !.Invalidate(), CancellationToken.None);
return(Task.FromResult(DateTime.UtcNow - _startTime));
}
public ComputedSubscription(Computed computed, Action update)
{
_computed = computed;
_update = update;
_computed.Invalidated += Computed_Invalidated;
Computed_Invalidated();
}
public Personnage()
{
Caractéristiques = new Caractéristiques();
_reflexe = Computed.From(() => _classes.Sum(setable => setable.Reflexe) + Caractéristiques.Dexterite.Modificateur);
_vigueur = Computed.From(() => _classes.Sum(setable => setable.Vigueur) + Caractéristiques.Constitution.Modificateur);
_volonte = Computed.From(() => _classes.Sum(setable => setable.Volonte) + Caractéristiques.Sagesse.Modificateur);
_bonusDeBaseAttaque = Computed.From(() => _classes.Sum(classe => classe.BonusDeBaseAttaque));
}
public Classe(Description.Classe classe)
{
_classe = classe;
_reflexe = Computed.From(() => _classe.Sauvegardes.Reflexe(Niveau));
_vigueur = Computed.From(() => _classe.Sauvegardes.Vigueur(Niveau));
_volonte = Computed.From(() => _classe.Sauvegardes.Volonte(Niveau));
_bonusDeBaseAttaque = Computed.From(() => _classe.BonusDeBaseAttaque(Niveau));
}
public Classe(Description.Classe classe)
{
_classe = classe;
_reflexe = Computed.From(() => _classe.Sauvegardes.Reflexe(Niveau));
_vigueur = Computed.From(() => _classe.Sauvegardes.Vigueur(Niveau));
_volonte = Computed.From(() => _classe.Sauvegardes.Volonte(Niveau));
_bonusDeBaseAttaque = Computed.From(() => _classe.BonusDeBaseAttaque(Niveau));
}
public Personnage()
{
Caractéristiques = new Caractéristiques();
_reflexe = Computed.From(() => _classes.Sum(setable => setable.Reflexe) + Caractéristiques.Dexterite.Modificateur);
_vigueur = Computed.From(() => _classes.Sum(setable => setable.Vigueur) + Caractéristiques.Constitution.Modificateur);
_volonte = Computed.From(() => _classes.Sum(setable => setable.Volonte) + Caractéristiques.Sagesse.Modificateur);
_bonusDeBaseAttaque = Computed.From(() => _classes.Sum(classe => classe.BonusDeBaseAttaque));
}
public virtual Task <double> GetUptime(double updatePeriod, CancellationToken cancellationToken = default)
{
var computed = Computed.GetCurrent();
Task.Delay(TimeSpan.FromSeconds(updatePeriod), default)
.ContinueWith(_ => computed !.Invalidate(), CancellationToken.None);
return(Task.FromResult((DateTime.UtcNow - _startTime).TotalSeconds));
}
public Tree()
{
_depNodes = new Computed(delegate
{
_root.UpdateNodes();
});
_depNodes.Invalidated += () => UpdateScheduler.ScheduleUpdate(UpdateNow);
}
public Tree()
{
_depNodes = new Computed(delegate
{
_root.UpdateNodes();
});
_depNodes.Invalidated += () => UpdateScheduler.ScheduleUpdate(UpdateNow);
}
public Projection(Observable <string> prefix, Contact contact)
{
_prefix = prefix;
_contact = contact;
_name = new Computed <string>(() =>
prefix.Value + _contact.FirstName + _contact.LastName);
}
protected override async ValueTask <IComputed <T> > ComputeAsync(
InterceptedInput input, IComputed <T>?cached,
CancellationToken cancellationToken)
{
var tag = LTagGenerator.Next();
var method = Method;
var output = new Computed <InterceptedInput, T>(method.Options, input, tag);
try {
using var _ = Computed.ChangeCurrent(output);
var resultTask = input.InvokeOriginalFunction(cancellationToken);
if (method.ReturnsComputed)
{
if (method.ReturnsValueTask)
{
var task = (ValueTask <IComputed <T> >)resultTask;
await task.ConfigureAwait(false);
// output == task.Result here, so no need to call output.TrySetOutput(...)
}
else
{
var task = (Task <IComputed <T> >)resultTask;
await task.ConfigureAwait(false);
// output == task.Result here, so no need to call output.TrySetOutput(...)
}
}
else
{
if (method.ReturnsValueTask)
{
var task = (ValueTask <T>)resultTask;
var value = await task.ConfigureAwait(false);
output.TrySetOutput(value !);
}
else
{
var task = (Task <T>)resultTask;
var value = await task.ConfigureAwait(false);
output.TrySetOutput(value !);
}
}
}
catch (OperationCanceledException) {
throw;
}
catch (Exception e) {
output.TrySetOutput(Result.Error <T>(e));
// Weird case: if the output is already set, all we can
// is to ignore the exception we've just caught;
// throwing it further will probably make it just worse,
// since the the caller have to take this scenario into acc.
}
return(output);
}
public void Initialize()
{
_gained = false;
_observable = new NotifyingObservable();
_observable.OnGainComputed += () => { _gained = true; };
_observable.OnLoseComputed += () => { _lost = true; };
_computed = new Computed(() => { _observable.OnGet(); });
_secondComputed = new Computed(() => { _observable.OnGet(); });
}
public OrderCalculationEngine(IDataService data) : base()
{
// inputs
_inventory = Setable(data.LoadInventory(), "Inventory");
_order = Setable(data.LoadOrder(), "Order");
// outputs
_orderResult = Computed(() => OrderMethods.GetOrderResults(_order, _inventory), "OrderResult");
}
public async Task OnCommandAsync(ICompletion command, CommandContext context, CancellationToken cancellationToken)
{
var originalCommand = command.UntypedCommand;
var requiresInvalidation =
InvalidationInfoProvider.RequiresInvalidation(originalCommand) &&
!Computed.IsInvalidating();
if (!requiresInvalidation)
{
await context.InvokeRemainingHandlersAsync(cancellationToken).ConfigureAwait(false);
return;
}
var oldOperation = context.Items.TryGet <IOperation>();
var operation = command.Operation;
context.SetOperation(operation);
var invalidateScope = Computed.Invalidate();
try {
var logEnabled = LogLevel != LogLevel.None && Log.IsEnabled(LogLevel);
var finalHandler = context.ExecutionState.FindFinalHandler();
if (finalHandler != null)
{
if (logEnabled)
{
Log.Log(LogLevel, "Invalidating via dedicated command handler for '{CommandType}'", command.GetType());
}
await context.InvokeRemainingHandlersAsync(cancellationToken).ConfigureAwait(false);
}
else
{
if (logEnabled)
{
Log.Log(LogLevel, "Invalidating via shared command handler for '{CommandType}'", originalCommand.GetType());
}
await context.Commander.CallAsync(originalCommand, cancellationToken).ConfigureAwait(false);
}
var operationItems = operation.Items;
try {
var nestedCommands = operationItems.GetOrDefault(ImmutableList <NestedCommandEntry> .Empty);
if (!nestedCommands.IsEmpty)
{
await InvokeNestedCommandsAsync(context, operation, nestedCommands, cancellationToken);
}
}
finally {
operation.Items = operationItems;
}
}
finally {
context.SetOperation(oldOperation);
invalidateScope.Dispose();
}
}
public Task IncrementCounterAsync()
{
lock (_lock) {
++_count;
_changeTime = DateTime.Now;
}
Computed.Invalidate(() => GetCounterAsync());
return(Task.CompletedTask);
}
public void Initialize()
{
_gained = false;
_observable = new NotifyingObservable();
_observable.OnGainComputed += () => { _gained = true; };
_observable.OnLoseComputed += () => { _lost = true; };
_computed = new Computed(() => { _observable.OnGet(); });
_secondComputed = new Computed(() => { _observable.OnGet(); });
}
public override string ToString()
{
if (Computed.Type == ECssValueTypes.INTEGER)
{
return(Enum.GetName(typeof(Ty), Computed.AsEnum <Ty>()));
}
return(base.ToString());
}
public MethodCommand(object instance, CommandMeta meta)
{
Instance = instance;
Meta = meta;
if (meta.Condition != null)
{
_computedCan = new Computed<bool>(() => (bool)meta.Condition.GetValue(Instance));
_computedCan.Invalidated += () => UpdateScheduler.ScheduleUpdate(UpdateNow);
}
}
public Task Increment()
{
lock (_lock) {
++_count;
_changeTime = DateTime.Now;
}
using (Computed.Invalidate())
Get();
return(Task.CompletedTask);
}
public ObjectPropertyCollection(IObjectInstance objectInstance, ClassProperty classProperty)
: base(objectInstance, classProperty)
{
if (ClassProperty.CanRead)
{
// When the collection is out of date, update it from the wrapped object.
_depCollection = new Computed(OnUpdateCollection);
// When the property becomes out of date, trigger an update.
_depCollection.Invalidated += TriggerUpdate;
}
}
public MediaCacheService(
CommuterApplication application,
Func<Queue, MediaDownloader> createMediaDownloader)
{
var mediaDownloaders = new ComputedList<MediaDownloader>(() =>
application.Root?.QueuedEpisodes.Select(e =>
createMediaDownloader(e))
.ToImmutableList() ?? ImmutableList<MediaDownloader>.Empty);
var dowloadersToStart = new Computed<ImmutableList<MediaDownloader>>(() =>
mediaDownloaders.Where(d => d.ShouldStart).ToImmutableList());
_subscribeToStart = dowloadersToStart.Subscribe(StartDownloaders);
}
public ObjectPropertyCollection(IObjectInstance objectInstance, ClassProperty classProperty, bool hasChildObjects)
: base(objectInstance, classProperty)
{
_hasChildObjects = hasChildObjects;
if (ClassProperty.CanRead)
{
// Bind to the observable collection.
ClassProperty.SetUserOutput(ObjectInstance, _collection);
// When the collection is out of date, update it from the wrapped object.
_depCollection = new Computed(OnUpdateCollection);
}
}
public void CanSubscribeToAComputed()
{
Observable<int> source = new Observable<int>();
Computed<int> target = new Computed<int>(() => source);
int count = 0;
target.Subscribe(i => count++);
Process();
count.Should().Be(1);
source.Value = 42;
Process();
count.Should().Be(2);
}
protected MemberSlot(ViewProxy proxy, MemberMeta member)
{
Proxy = proxy;
Member = member;
if (member.CanRead)
{
// When the property is out of date, update it from the wrapped object.
_computed = new Computed(() => BindingInterceptor.Current.UpdateValue(this));
// When the property becomes out of date, trigger an update.
// The update should have lower priority than user input & drawing,
// to ensure that the app doesn't lock up in case a large model is
// being updated outside the UI (e.g. via timers or the network).
_computed.Invalidated += () => UpdateScheduler.ScheduleUpdate(UpdateNow);
}
}
public ObjectPropertyAtom(IObjectInstance objectInstance, ClassProperty classProperty, bool hasChildObject)
: base(objectInstance, classProperty)
{
_hasChildObject = hasChildObject;
if (ClassProperty.CanRead)
{
// When the property is out of date, update it from the wrapped object.
_depProperty = new Computed(delegate
{
object value = ClassProperty.GetObjectValue(ObjectInstance.WrappedObject);
if (_hasChildObject)
{
IObjectInstance oldChild = _child;
object oldValue = oldChild == null ? null : oldChild.WrappedObject;
_child = null;
IObjectInstance wrapper;
if (value == null)
wrapper = null;
else if (value == oldValue)
{
wrapper = oldChild;
_child = wrapper;
}
else
{
if (WrapObject(value, out wrapper))
_child = wrapper;
}
ClassProperty.SetUserOutput(ObjectInstance, wrapper);
if (oldChild != _child && oldChild != null)
{
ObjectInstance.Tree.RemoveKey(oldValue);
oldChild.Dispose();
}
}
else
{
ClassProperty.SetUserOutput(ObjectInstance, value);
}
});
}
}
public void CanUnsubscribeFromAComputed()
{
Observable<int> source = new Observable<int>();
Computed<int> target = new Computed<int>(() => source);
int count = 0;
var subscription = target.Subscribe(i => count++);
Process();
count.Should().Be(1);
source.Value = 42;
Process();
count.Should().Be(2);
subscription.Unsubscribe();
source.Value = 24;
Process();
count.Should().Be(2);
}
public void ComputedIsAsSmallAsPossible()
{
GC.Collect();
long start = GC.GetTotalMemory(true);
Computed<int> newComputed = new Computed<int>(() => 42);
long end = GC.GetTotalMemory(true);
// Started at 260.
// Making Precedent a base class: 248.
// Removing Gain/LoseComputed events: 232.
// Making IsUpToDate no longer a precident: 192.
// Custom linked list implementation for dependents: 152.
// Custom linked list implementation for precedents: 112.
// Other optimizations: 104.
// Added WeakReferenceToSelf: 108.
// Removed WeakReferenceToSelf: 104.
Assert.AreEqual(108 + ComputedPlatformOffset, end - start);
int value = newComputed;
Assert.AreEqual(42, value);
}
public void OuterComputedDoesNotTakeADependency()
{
Observable<int> source = new Observable<int>();
Computed<Counter> outer = new Computed<Counter>(() => new Counter(source));
int created = 0;
Counter counter = null;
outer.Subscribe(c =>
{
counter = c;
created++;
});
Process();
created.Should().Be(1);
counter.Count.Should().Be(1);
source.Value = 42;
Process();
created.Should().Be(1);
counter.Count.Should().Be(2);
}
public DirectComputed(SourceData source)
{
_source = source;
_property = new Computed<int>(() => _source.SourceProperty);
}
public Caractéristique()
{
_carac = new Setable<int>();
_modificateur = new Computed<int>(() => (Carac - 10) / 2);
}
public TargetCollection(SourceCollection source)
{
_source = source;
_depResults = new Computed(UpdateResults);
}
public ViewModelContainer(Action firePropertyChanged, Func<object> constructor)
{
_firePropertyChanged = firePropertyChanged;
_computed = new Computed(() => _viewModel = ForView.Wrap(constructor()));
_computed.Invalidated += () => UpdateScheduler.ScheduleUpdate(UpdateNow);
}
public void SingleDependencyBeforeUpdateIsAsSmallAsPossible()
{
GC.Collect();
long start = GC.GetTotalMemory(true);
Observable<int> newObservable = new Observable<int>();
Computed<int> newComputed = new Computed<int>(() => newObservable);
newObservable.Value = 42;
long end = GC.GetTotalMemory(true);
// Started at 336.
// Making Precedent a base class: 312.
// Removing Gain/LoseComputed events: 288.
// Making IsUpToDate no longer a precident: 248.
// Custom linked list implementation for dependents: 200.
// Custom linked list implementation for precedents: 160.
// Other optimizations: 144.
// Added WeakReferenceToSelf: 148.
// Removed WeakReferenceToSelf: 124.
Assert.AreEqual(132 + ObservablePlatformOffset, end - start);
int value = newComputed;
Assert.AreEqual(42, value);
}
public Counter(Observable<int> source)
{
_target = new Computed<int>(() => source.Value);
_target.Subscribe(i => _count++);
}
public IndirectComputed(DirectComputed indermediateComputed)
{
_indermediateComputed = indermediateComputed;
_property = new Computed<int>(() => _indermediateComputed.ComputedProperty);
}
public Projection(Observable<string> prefix, Contact contact)
{
_prefix = prefix;
_contact = contact;
_name = new Computed<string>(() =>
prefix.Value + _contact.FirstName + _contact.LastName);
}
