public Task Start(EntertainmentLayer layer, Func <TimeSpan> waitTime, RGBColor?color, CancellationToken cancellationToken, double x, double y)
{
RedLightEffect effect = new RedLightEffect();
effect.X = x;
effect.Y = y;
layer.PlaceEffect(effect);
effect.Start();
return(Task.Run(async() =>
{
await Task.Delay(waitTime());
effect.Stop();
layer.Effects.Remove(effect);
}));
}
public async Task Start()
{
StreamingGroup stream = await StreamingSetup.SetupAndReturnGroup();
var baseEntLayer = stream.GetNewLayer(isBaseLayer: true);
var effectLayer = stream.GetNewLayer();
//Optional: calculated effects that are placed on this layer
baseEntLayer.AutoCalculateEffectUpdate(new CancellationToken());
effectLayer.AutoCalculateEffectUpdate(new CancellationToken());
//Order lights based on position in the room
var orderedLeft = baseEntLayer.GetLeft().OrderByDescending(x => x.LightLocation.Y).ThenBy(x => x.LightLocation.X).To2DGroup();
var orderedRight = baseEntLayer.GetRight().OrderByDescending(x => x.LightLocation.Y).ThenByDescending(x => x.LightLocation.X);
var allLightsOrdered = baseEntLayer.OrderBy(x => x.LightLocation.X).ThenBy(x => x.LightLocation.Y).ToList().To2DGroup();
var allLightsOrderedFlat = baseEntLayer.OrderBy(x => x.LightLocation.X).ThenBy(x => x.LightLocation.Y).ToList();
var orderedByDistance = baseEntLayer.OrderBy(x => x.LightLocation.Distance(0, 0)).To2DGroup();
var orderedByAngle = baseEntLayer.OrderBy(x => x.LightLocation.Angle(0, 0)).To2DGroup();
var line1 = baseEntLayer.Where(x => x.LightLocation.X <= -0.6).ToList();
var line2 = baseEntLayer.Where(x => x.LightLocation.X > -0.6 && x.LightLocation.X <= -0.1).ToList();
var line3 = baseEntLayer.Where(x => x.LightLocation.X > -0.1 && x.LightLocation.X <= 0.1).ToList();
var line4 = baseEntLayer.Where(x => x.LightLocation.X > 0.1 && x.LightLocation.X <= 0.6).ToList();
var line5 = baseEntLayer.Where(x => x.LightLocation.X > 0.6).ToList();
var allLightsReverse = allLightsOrdered.ToList();
allLightsReverse.Reverse();
CancellationTokenSource cst = new CancellationTokenSource();
Console.WriteLine("Blue line on 90 degree angle");
var blueLineEffect = new HorizontalScanLineEffect();
baseEntLayer.PlaceEffect(blueLineEffect);
blueLineEffect.Start();
cst = WaitCancelAndNext(cst);
blueLineEffect.Stop();
//Ref<int?> stepSize = 20;
//blueLineEffect.Rotate(stepSize);
//Console.ReadLine();
//stepSize.Value -= 5;
//Console.ReadLine();
//stepSize.Value -= 5;
//Console.ReadLine();
//stepSize.Value -= 5;
//Console.ReadLine();
//stepSize.Value -= 5;
//Console.ReadLine();
//stepSize.Value -= 5;
//Console.ReadLine();
//stepSize.Value -= 5;
//Console.ReadLine();
//stepSize.Value -= 5;
//Console.ReadLine();
//stepSize.Value -= 5;
//Console.ReadLine();
//stepSize.Value -= 5;
//Console.ReadLine();
//stepSize.Value -= 5;
//Console.WriteLine("Finished");
//cst = WaitCancelAndNext(cst);
//blueLineEffect.Stop();
var quarter = new[] { baseEntLayer.GetLeft().GetFront(), baseEntLayer.GetLeft().GetBack(), baseEntLayer.GetRight().GetBack(), baseEntLayer.GetRight().GetFront() }.ToList();
Console.WriteLine("Random color All / All");
quarter.SetRandomColor(cst.Token, IteratorEffectMode.All, IteratorEffectMode.All, waitTime: () => TimeSpan.FromMilliseconds(500));
cst = WaitCancelAndNext(cst);
Console.WriteLine("Flash on lights Cycle / Random");
quarter.FlashQuick(cst.Token, new Q42.HueApi.ColorConverters.RGBColor("FFFFFF"), IteratorEffectMode.Cycle, IteratorEffectMode.Random, waitTime: () => TimeSpan.FromMilliseconds(50));
cst = WaitCancelAndNext(cst);
Console.WriteLine("SetColor white Single / Single");
quarter.SetColor(cst.Token, new RGBColor("FFFFFF"), IteratorEffectMode.Single, IteratorEffectMode.Single, waitTime: () => TimeSpan.FromMilliseconds(200));
cst = WaitCancelAndNext(cst);
Console.WriteLine("Flash on lights Cycle / All");
quarter.FlashQuick(cst.Token, new Q42.HueApi.ColorConverters.RGBColor("FFFFFF"), IteratorEffectMode.Cycle, IteratorEffectMode.All, waitTime: () => TimeSpan.FromMilliseconds(50));
cst = WaitCancelAndNext(cst);
Console.WriteLine("Flash on lights Cycle / Single");
quarter.FlashQuick(cst.Token, new Q42.HueApi.ColorConverters.RGBColor("FFFFFF"), IteratorEffectMode.Cycle, IteratorEffectMode.Single, waitTime: () => TimeSpan.FromMilliseconds(50));
cst = WaitCancelAndNext(cst);
Console.WriteLine("Random color Cycle / All");
quarter.SetRandomColor(cst.Token, IteratorEffectMode.Cycle, IteratorEffectMode.All, waitTime: () => TimeSpan.FromMilliseconds(500));
cst = WaitCancelAndNext(cst);
Console.WriteLine("Random color Cycle / AllIndividual");
quarter.SetRandomColor(cst.Token, IteratorEffectMode.Cycle, IteratorEffectMode.AllIndividual, waitTime: () => TimeSpan.FromMilliseconds(500));
cst = WaitCancelAndNext(cst);
Console.WriteLine("Random color Cycle / Single");
quarter.SetRandomColor(cst.Token, IteratorEffectMode.Cycle, IteratorEffectMode.Single, waitTime: () => TimeSpan.FromMilliseconds(500));
cst = WaitCancelAndNext(cst);
Console.WriteLine("Random color Cycle / Random");
quarter.SetRandomColor(cst.Token, IteratorEffectMode.Cycle, IteratorEffectMode.Random, waitTime: () => TimeSpan.FromMilliseconds(500));
cst = WaitCancelAndNext(cst);
Console.WriteLine("Random color Cycle / Bounce");
quarter.SetRandomColor(cst.Token, IteratorEffectMode.Cycle, IteratorEffectMode.Bounce, waitTime: () => TimeSpan.FromMilliseconds(500));
cst = WaitCancelAndNext(cst);
Console.WriteLine("Random color on all lights");
baseEntLayer.To2DGroup().SetRandomColor(cst.Token, IteratorEffectMode.All, waitTime: () => TimeSpan.FromMilliseconds(500));
cst = WaitCancelAndNext(cst);
//Uncomment for demo using a secondary layer
//var secondGroup = stream.GetNewLayer();
//secondGroup.FlashQuick(new Q42.HueApi.ColorConverters.RGBColor("FFFFFF"), IteratorEffectMode.Cycle, waitTime: TimeSpan.FromMilliseconds(500));
cst = WaitCancelAndNext(cst);
//Group demo
//Console.WriteLine("Group demo");
////var groups = new List<IEnumerable<EntertainmentLight>>() { line1, line2, line3, line4, line5 };
//var groups = allLightsOrderedFlat.ChunkBy(5);
//var groupstest = allLightsOrderedFlat.ChunkByGroupNumber(4);
//groups.IteratorEffect(async (current, duration) => {
// //var r = new Random();
// //var color = new RGBColor(r.NextDouble(), r.NextDouble(), r.NextDouble());
// //current.SetState(color, 1);
// current.SetRandomColor(IteratorEffectMode.All, TimeSpan.FromMilliseconds(5000), duration: duration);
//}, IteratorEffectMode.All, TimeSpan.FromMilliseconds(500));
//cst = WaitCancelAndNext(cst);
//Random color from center
Console.WriteLine("Fill white color from center");
await orderedByDistance.SetColor(cst.Token, new RGBColor("FFFFFF"), IteratorEffectMode.Single, waitTime : () => TimeSpan.FromMilliseconds(50));
cst = WaitCancelAndNext(cst);
//Random color from center
Console.WriteLine("Fill red color order by angle from center");
await orderedByAngle.SetColor(cst.Token, new RGBColor("FF0000"), IteratorEffectMode.Single, waitTime : () => TimeSpan.FromMilliseconds(50));
cst = WaitCancelAndNext(cst);
Console.WriteLine("A pulse of random color is placed on an XY grid, matching your entertainment setup");
var randomPulseEffect = new RandomPulseEffect();
baseEntLayer.PlaceEffect(randomPulseEffect);
randomPulseEffect.Start();
cst = WaitCancelAndNext(cst);
randomPulseEffect.Stop();
Console.WriteLine("A pulse of random color is placed on an XY grid, matching your entertainment setup");
var randomPulseEffectNoFade = new RandomPulseEffect(false);
baseEntLayer.PlaceEffect(randomPulseEffectNoFade);
randomPulseEffectNoFade.Start();
cst = WaitCancelAndNext(cst);
randomPulseEffectNoFade.Stop();
Console.WriteLine("Different random colors on all lights");
baseEntLayer.To2DGroup().SetRandomColor(cst.Token, IteratorEffectMode.AllIndividual, waitTime: () => TimeSpan.FromMilliseconds(500));
cst = WaitCancelAndNext(cst);
Console.WriteLine("Trailing light effect with transition times");
allLightsOrdered.Flash(cst.Token, new Q42.HueApi.ColorConverters.RGBColor("FF0000"), IteratorEffectMode.Cycle, waitTime: () => TimeSpan.FromMilliseconds(500), transitionTimeOn: () => TimeSpan.FromMilliseconds(1000), transitionTimeOff: () => TimeSpan.FromMilliseconds(1000), waitTillFinished: false);
cst = WaitCancelAndNext(cst);
Console.WriteLine("Knight rider (works best with 6+ lights)");
allLightsOrdered.KnightRider(cst.Token);
cst = WaitCancelAndNext(cst);
Ref <TimeSpan> waitTime = TimeSpan.FromMilliseconds(750);
Console.WriteLine("Flash lights (750ms), press enter to decrease by 200 ms");
allLightsOrdered.FlashQuick(cst.Token, new Q42.HueApi.ColorConverters.RGBColor("FFFFFF"), IteratorEffectMode.Cycle, waitTime: () => waitTime);
Console.ReadLine();
waitTime.Value -= TimeSpan.FromMilliseconds(200);
Console.WriteLine($"Flash ({waitTime.Value.TotalMilliseconds})");
Console.ReadLine();
waitTime.Value -= TimeSpan.FromMilliseconds(200);
Console.WriteLine($"Flash ({waitTime.Value.TotalMilliseconds})");
Console.ReadLine();
waitTime.Value -= TimeSpan.FromMilliseconds(200);
Console.WriteLine($"Flash ({waitTime.Value.TotalMilliseconds})");
Console.ReadLine();
waitTime.Value -= TimeSpan.FromMilliseconds(100);
Console.WriteLine($"Flash ({waitTime.Value.TotalMilliseconds})");
cst = WaitCancelAndNext(cst);
Console.WriteLine("Flash on random lights");
allLightsOrdered.FlashQuick(cst.Token, new Q42.HueApi.ColorConverters.RGBColor("FFFFFF"), IteratorEffectMode.Random, waitTime: () => waitTime);
cst = WaitCancelAndNext(cst);
Console.WriteLine("Flash on ALL lights");
waitTime.Value = TimeSpan.FromMilliseconds(150);
allLightsOrdered.Flash(cst.Token, new Q42.HueApi.ColorConverters.RGBColor("FFFFFF"), IteratorEffectMode.All, waitTime: () => waitTime);
cst = WaitCancelAndNext(cst);
Console.WriteLine("Flash effect with transition times");
baseEntLayer.GetLeft().To2DGroup().Flash(cst.Token, new Q42.HueApi.ColorConverters.RGBColor("FF0000"), IteratorEffectMode.All, waitTime: () => TimeSpan.FromSeconds(1), transitionTimeOn: () => TimeSpan.FromMilliseconds(1000), transitionTimeOff: () => TimeSpan.FromMilliseconds(1000));
await Task.Delay(2000);
baseEntLayer.GetRight().To2DGroup().Flash(cst.Token, new Q42.HueApi.ColorConverters.RGBColor("FF0000"), IteratorEffectMode.All, waitTime: () => TimeSpan.FromSeconds(1), transitionTimeOn: () => TimeSpan.FromMilliseconds(1000), transitionTimeOff: () => TimeSpan.FromMilliseconds(1000));
cst = WaitCancelAndNext(cst);
Console.WriteLine("A red light that is moving in vertical direction and is placed on an XY grid, matching your entertainment setup");
var redLightEffect = new RedLightEffect();
redLightEffect.Radius = 0.7;
redLightEffect.Y = -0.8;
redLightEffect.X = -0.8;
baseEntLayer.PlaceEffect(redLightEffect);
redLightEffect.Start();
Task.Run(async() =>
{
double step = 0.2;
while (true)
{
redLightEffect.Y += step;
await Task.Delay(100);
if (redLightEffect.Y >= 2)
{
step = -0.1;
}
if (redLightEffect.Y <= -2)
{
step = +0.1;
}
}
}, cst.Token);
cst = WaitCancelAndNext(cst);
redLightEffect.Stop();
Console.WriteLine("Thank you for using Q42.Hue.Streaming. This library was developed during Christmas 2017.");
await allLightsOrdered.Christmas(cst.Token);
cst = WaitCancelAndNext(cst);
Console.WriteLine("Press Enter to Exit");
Console.ReadLine();
}
public async Task Start()
{
//string ip = "192.168.0.4";
//string key = "8JwWAj5J1tSsKLxyUOdAkWmcCQFcNc51AKRhxdH9";
//string entertainmentKey = "AFFD322C34C993C19503D369481869FD";
//var useSimulator = false;
//string ip = "10.42.39.194";
//string key = "tocjq6GmPJ8KX5DyLDKXQreZE6txQVQ5oBqbYDFn";
//string entertainmentKey = "DB088F63639524B5A8CDC8AEEAC9C322";
//var useSimulator = false;
string ip = "127.0.0.1";
string key = "aSimulatedUser";
string entertainmentKey = "01234567890123456789012345678901";
var useSimulator = true;
//Initialize streaming client
StreamingHueClient client = new StreamingHueClient(ip, key, entertainmentKey);
//Get the entertainment group
var all = await client.LocalHueClient.GetEntertainmentGroups();
var group = all.FirstOrDefault();
if (group == null)
{
throw new Exception("No Entertainment Group found. Create one using the Q42.HueApi.UniversalWindows.Sample");
}
else
{
Console.WriteLine($"Using Entertainment Group {group.Id}");
}
//Create a streaming group
var entGroup = new StreamingGroup(group.Locations);
entGroup.IsForSimulator = useSimulator;
//Connect to the streaming group
await client.Connect(group.Id, simulator : useSimulator);
//Start auto updating this entertainment group
client.AutoUpdate(entGroup, 50);
//Optional: calculated effects that are placed in the room
client.AutoCalculateEffectUpdate(entGroup);
//Optional: Check if streaming is currently active
var bridgeInfo = await client.LocalHueClient.GetBridgeAsync();
Console.WriteLine(bridgeInfo.IsStreamingActive ? "Streaming is active" : "Streaming is not active");
//Order lights based on position in the room
var orderedLeft = entGroup.GetLeft().OrderByDescending(x => x.LightLocation.Y).ThenBy(x => x.LightLocation.X);
var orderedRight = entGroup.GetRight().OrderByDescending(x => x.LightLocation.Y).ThenByDescending(x => x.LightLocation.X);
var allLightsOrdered = orderedLeft.Concat(orderedRight.Reverse()).ToArray();
var allLightsReverse = allLightsOrdered.ToList();
allLightsReverse.Reverse();
CancellationTokenSource cst = new CancellationTokenSource();
Console.WriteLine("Random color on all lights");
entGroup.SetRandomColor(IteratorEffectMode.All, TimeSpan.FromMilliseconds(250), cancellationToken: cst.Token);
cst = WaitCancelAndNext(cst);
Console.WriteLine("Different random colors on all lights");
entGroup.SetRandomColor(IteratorEffectMode.AllIndividual, TimeSpan.FromMilliseconds(250), cancellationToken: cst.Token);
cst = WaitCancelAndNext(cst);
Console.WriteLine("Knight rider (works best with 6+ lights)");
allLightsOrdered.KnightRider(cancellationToken: cst.Token);
cst = WaitCancelAndNext(cst);
Ref <TimeSpan?> waitTime = TimeSpan.FromMilliseconds(750);
Console.WriteLine("Flash lights (750ms), press enter to decrease by 200 ms");
allLightsOrdered.FlashQuick(new Q42.HueApi.ColorConverters.RGBColor("FFFFFF"), IteratorEffectMode.Cycle, waitTime: waitTime, cancellationToken: cst.Token);
Console.ReadLine();
waitTime.Value -= TimeSpan.FromMilliseconds(200);
Console.WriteLine($"Flash ({waitTime.Value.Value.TotalMilliseconds})");
Console.ReadLine();
waitTime.Value -= TimeSpan.FromMilliseconds(200);
Console.WriteLine($"Flash ({waitTime.Value.Value.TotalMilliseconds})");
Console.ReadLine();
waitTime.Value -= TimeSpan.FromMilliseconds(200);
Console.WriteLine($"Flash ({waitTime.Value.Value.TotalMilliseconds})");
Console.ReadLine();
waitTime.Value -= TimeSpan.FromMilliseconds(100);
Console.WriteLine($"Flash ({waitTime.Value.Value.TotalMilliseconds})");
cst = WaitCancelAndNext(cst);
Console.WriteLine("Flash on random lights");
allLightsOrdered.FlashQuick(new Q42.HueApi.ColorConverters.RGBColor("FFFFFF"), IteratorEffectMode.Random, waitTime: waitTime, cancellationToken: cst.Token);
cst = WaitCancelAndNext(cst);
Console.WriteLine("Flash on ALL lights");
waitTime.Value = TimeSpan.FromMilliseconds(150);
allLightsOrdered.Flash(new Q42.HueApi.ColorConverters.RGBColor("FFFFFF"), IteratorEffectMode.All, waitTime: waitTime, cancellationToken: cst.Token);
cst = WaitCancelAndNext(cst);
Console.WriteLine("Flash effect with transition times");
entGroup.GetLeft().Flash(new Q42.HueApi.ColorConverters.RGBColor("FF0000"), IteratorEffectMode.All, waitTime: TimeSpan.FromSeconds(1), transitionTimeOn: TimeSpan.FromMilliseconds(1000), transitionTimeOff: TimeSpan.FromMilliseconds(1000), cancellationToken: cst.Token);
await Task.Delay(2000);
entGroup.GetRight().Flash(new Q42.HueApi.ColorConverters.RGBColor("FF0000"), IteratorEffectMode.All, waitTime: TimeSpan.FromSeconds(1), transitionTimeOn: TimeSpan.FromMilliseconds(1000), transitionTimeOff: TimeSpan.FromMilliseconds(1000), cancellationToken: cst.Token);
cst = WaitCancelAndNext(cst);
//Console.WriteLine("Or build your own effects");
//Task.Run(async () =>
//{
// while (true && !cst.Token.IsCancellationRequested)
// {
// entGroup.SetState(new RGBColor("0000FF"), 1, TimeSpan.FromSeconds(4), cancellationToken: cst.Token);
// await Task.Delay(TimeSpan.FromSeconds(5));
// entGroup.SetState(new RGBColor("FF0000"), 0.6, TimeSpan.FromSeconds(4), cancellationToken: cst.Token);
// await Task.Delay(TimeSpan.FromSeconds(5));
// }
//}, cst.Token);
//cst = WaitCancelAndNext(cst);
Console.WriteLine("A red light that is moving in horizontal direction and is placed on an XY grid, matching your entertainment setup");
var redLightEffect = new RedLightEffect();
redLightEffect.Radius = 0.3;
redLightEffect.Y = -0.8;
redLightEffect.X = -0.8;
entGroup.PlaceEffect(redLightEffect);
redLightEffect.Start();
Task.Run(async() =>
{
double step = 0.2;
while (true)
{
redLightEffect.Y += step;
await Task.Delay(100);
if (redLightEffect.Y >= 2)
{
step = -0.1;
}
if (redLightEffect.Y <= -2)
{
step = +0.1;
}
}
}, cst.Token);
cst = WaitCancelAndNext(cst);
redLightEffect.Stop();
Console.WriteLine("Thank you for using Q42.Hue.Streaming. This library was developed during Christmas 2017.");
await allLightsOrdered.Christmas(cancellationToken : cst.Token);
cst = WaitCancelAndNext(cst);
Console.WriteLine("Press Enter to Exit");
Console.ReadLine();
}
