Files
riojoy/tests/RioJoy.Core.Tests/RioRuntimeTests.cs
T
CydandClaude Fable 5 2ac3188528 Fix pedal gauges frozen under ZR mix: feed L/R from pre-mix pedal readouts
The editor's L/R gauges read Rx/Ry, but EnableZR (on in real profiles)
folds the pedals into Rz and pins Rx/Ry to center, so the bars never
moved with the physical pedals. AxisCalibrator now exposes
LeftPedalOutput/RightPedalOutput (the calibrated pre-mix positions) and
RioRuntime.AxesUpdated carries an AxisReadout (the six virtual axes +
both pedals); the strip draws L/R from the pedal readouts, Z/Rz/X/Y
from the axes. With ZR off the readouts equal Rx/Ry, so nothing
changes there. Verified by screenshot: Rx/Ry centered while L=75% and
R=25% render correctly.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-06 10:22:05 -05:00

191 lines
6.8 KiB
C#

using System.Diagnostics;
using AxisOutputs = RioJoy.Core.Calibration.AxisOutputs;
using AxisReadout = RioJoy.Core.Calibration.AxisReadout;
using RioJoy.Core;
using RioJoy.Core.Mapping;
using RioJoy.Core.Protocol;
using RioJoy.Core.Serial;
using RioJoy.Core.Tests.Mapping;
using RioJoy.Core.Tests.Serial;
using Xunit;
namespace RioJoy.Core.Tests;
public class RioRuntimeTests
{
private static readonly TimeSpan Timeout = TimeSpan.FromSeconds(5);
private static async Task WaitUntilAsync(Func<bool> condition)
{
var sw = Stopwatch.StartNew();
while (!condition())
{
if (sw.Elapsed > Timeout)
throw new TimeoutException("Condition not met in time.");
await Task.Delay(10);
}
}
[Fact]
public async Task ButtonPressed_RoutesToJoystick()
{
var fake = new FakeTransport();
var link = new RioSerialLink(fake, new RioSerialLinkOptions { AutoPollAnalog = false });
var recorder = new RecordingSink();
var map = new RioInputMap { [0x05] = new RioMapEntry(0x1009) }; // joystick button 9
using var runtime = new RioRuntime(link, map, recorder, recorder);
runtime.Start();
using var cts = new CancellationTokenSource();
Task run = link.RunAsync(cts.Token);
fake.Enqueue(PacketBuilder.Build(RioCommand.ButtonPressed, new byte[] { 0x05 }));
await WaitUntilAsync(() => recorder.Snapshot().Contains("Joy(9,True)"));
cts.Cancel();
await run;
}
[Fact]
public async Task AnalogReply_DrivesAllSixAxes()
{
var fake = new FakeTransport();
var link = new RioSerialLink(fake, new RioSerialLinkOptions { AutoPollAnalog = false });
var recorder = new RecordingSink();
using var runtime = new RioRuntime(link, new RioInputMap(), recorder, recorder);
runtime.Start();
using var cts = new CancellationTokenSource();
Task run = link.RunAsync(cts.Token);
// All axes at zero → joystick X/Y centered.
fake.Enqueue(PacketBuilder.Build(RioCommand.AnalogReply, new byte[10]));
await WaitUntilAsync(() => recorder.Snapshot().Count(e => e.StartsWith("Axis(")) == 6);
string[] log = recorder.Snapshot();
Assert.Contains("Axis(X,16383)", log);
Assert.Contains("Axis(Y,16383)", log);
cts.Cancel();
await run;
}
[Fact]
public async Task AnalogReply_RaisesAxesUpdated()
{
var fake = new FakeTransport();
var link = new RioSerialLink(fake, new RioSerialLinkOptions { AutoPollAnalog = false });
var recorder = new RecordingSink();
using var runtime = new RioRuntime(link, new RioInputMap(), recorder, recorder);
AxisReadout? seen = null;
runtime.AxesUpdated += axes => seen = axes;
runtime.Start();
using var cts = new CancellationTokenSource();
Task run = link.RunAsync(cts.Token);
// All raw axes at zero → joystick X/Y centered, same values the sink receives;
// both pedals at rest → pedal readouts empty.
fake.Enqueue(PacketBuilder.Build(RioCommand.AnalogReply, new byte[10]));
await WaitUntilAsync(() => seen is not null);
Assert.Equal(AxisOutputs.Center, seen!.Value.Axes.X);
Assert.Equal(AxisOutputs.Center, seen.Value.Axes.Y);
Assert.Equal(0, seen.Value.LeftPedal);
Assert.Equal(0, seen.Value.RightPedal);
cts.Cancel();
await run;
}
[Fact]
public async Task LitLamps_Dimmed_OnFirstBoardReply_NotOnStart()
{
var fake = new FakeTransport();
var link = new RioSerialLink(fake, new RioSerialLinkOptions { AutoPollAnalog = false });
var recorder = new RecordingSink();
var map = new RioInputMap { [0x05] = new RioMapEntry(0x9001) }; // lit joystick button
using var runtime = new RioRuntime(link, map, recorder, recorder);
runtime.Start();
using var cts = new CancellationTokenSource();
Task run = link.RunAsync(cts.Token);
// Nothing is sent on Start: lamp commands would be dropped during the board's
// post-reset boot, so no write happens until the board first replies.
await Assert.ThrowsAnyAsync<OperationCanceledException>(
() => fake.NextWriteAsync(TimeSpan.FromMilliseconds(150)));
// A reply proves the board is alive → the lit lamp is dimmed.
fake.Enqueue(PacketBuilder.Build(RioCommand.AnalogReply, new byte[10]));
bool dimmed = false;
for (int i = 0; i < 8 && !dimmed; i++)
{
byte[] w = await fake.NextWriteAsync(TimeSpan.FromSeconds(2));
dimmed = w.Length >= 3 && w[0] == (byte)RioCommand.LampRequest && w[1] == 0x05;
}
Assert.True(dimmed, "expected a LampRequest dimming address 0x05 after the first reply");
cts.Cancel();
await run;
}
[Fact]
public async Task ButtonActivity_FiresForPressAndRelease_EvenWhenUnmapped()
{
var fake = new FakeTransport();
var link = new RioSerialLink(fake, new RioSerialLinkOptions { AutoPollAnalog = false });
var recorder = new RecordingSink();
using var runtime = new RioRuntime(link, new RioInputMap(), recorder, recorder); // empty map
var activity = new List<(int Address, bool Pressed)>();
runtime.ButtonActivity += (addr, pressed) => activity.Add((addr, pressed));
runtime.Start();
using var cts = new CancellationTokenSource();
Task run = link.RunAsync(cts.Token);
fake.Enqueue(PacketBuilder.Build(RioCommand.ButtonPressed, new byte[] { 0x05 }));
fake.Enqueue(PacketBuilder.Build(RioCommand.ButtonReleased, new byte[] { 0x05 }));
await WaitUntilAsync(() => activity.Count == 2);
Assert.Equal((0x05, true), activity[0]);
Assert.Equal((0x05, false), activity[1]);
Assert.Empty(recorder.Snapshot()); // unmapped → no output routed, but activity still fired
cts.Cancel();
await run;
}
[Fact]
public async Task KeypadKey_RoutesThroughOffsetAddress()
{
var fake = new FakeTransport();
var link = new RioSerialLink(fake, new RioSerialLinkOptions { AutoPollAnalog = false });
var recorder = new RecordingSink();
// Keypad 1, index 2 → address 0x62; map a keyboard key there (VK 0x41 = 'A').
var map = new RioInputMap { [0x62] = new RioMapEntry(0x0041) };
using var runtime = new RioRuntime(link, map, recorder, recorder);
runtime.Start();
using var cts = new CancellationTokenSource();
Task run = link.RunAsync(cts.Token);
fake.Enqueue(PacketBuilder.Build(RioCommand.KeyPressed, new byte[] { 1, 2 }));
await WaitUntilAsync(() => recorder.Snapshot().Contains("KeyDown(0x41,ext=False)"));
cts.Cancel();
await run;
}
}