VibrationController.cs 4.5 KB

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  1. using System;
  2. using System.Threading.Tasks;
  3. using Sensors;
  4. using UnityEngine;
  5. namespace SicknessReduction.Haptic
  6. {
  7. public enum VibrationControllerMode
  8. {
  9. Continuous,
  10. AlternatingFixed,
  11. AlternatingCadenceBased
  12. }
  13. [RequireComponent(typeof(DynamicReductionSource))]
  14. public class VibrationController : EspController
  15. {
  16. private const string TOPIC_CYCLE = "Vibration/Control/Cycle";
  17. private const string TOPIC_CADENCE = "Vibration/Control/Cadence";
  18. private const int THRES_CADENCE_CHANGE = 4;
  19. public int cycle = 128; //vibro motor specs: 11000 ± 3,000rpm = 133.33 - 183.33 Hz
  20. public VibrationControllerMode mode;
  21. public int fixedCycleRpm;
  22. private bool initialCyclePublished;
  23. private int previousCadence = -1;
  24. private DynamicReductionSource reductionSource;
  25. private int currentCycle = 0;
  26. protected override void Start()
  27. {
  28. base.Start();
  29. reductionSource = GetComponent<DynamicReductionSource>();
  30. }
  31. protected override async void Update()
  32. {
  33. base.Update();
  34. // > 0 while cornering
  35. var reductionValue = reductionSource.CurrentValue;
  36. if (!DoUpdate || PreviousUpdateActive) return;
  37. if (reductionValue > 0)
  38. {
  39. switch (mode)
  40. {
  41. case VibrationControllerMode.Continuous:
  42. await VibrateContinuous((int) (reductionValue * cycle));
  43. break;
  44. case VibrationControllerMode.AlternatingFixed:
  45. await VibrateAlternatingFixed((int) (reductionValue * cycle));
  46. break;
  47. case VibrationControllerMode.AlternatingCadenceBased:
  48. await VibrateAlternatingCadenceBased();
  49. break;
  50. default:
  51. throw new ArgumentOutOfRangeException();
  52. }
  53. }
  54. else if(currentCycle != 0)
  55. {
  56. await StopVibrating();
  57. }
  58. PreviousUpdateActive = false;
  59. }
  60. private async Task StopVibrating()
  61. {
  62. Debug.Log("Stop Vibrating");
  63. await Broker.Publish(TOPIC_CYCLE, "0");
  64. currentCycle = 0;
  65. }
  66. private async Task VibrateAlternatingCadenceBased()
  67. {
  68. var cadence = BikeSensorData.Instance.PowermeterData?.InstantaneousCadence;
  69. if (!cadence.HasValue) return;
  70. var c = cadence.Value;
  71. PreviousUpdateActive = true; //flag to avoid concurrent updates
  72. //as soon as we have a cadence, we want the motors to vibrate
  73. if (!initialCyclePublished)
  74. {
  75. await Broker.Publish(TOPIC_CYCLE, $"{cycle}");
  76. initialCyclePublished = true;
  77. }
  78. //if the cadence changes to 0, we have to switch off vibration
  79. if (c == 0)
  80. {
  81. await Broker.Publish(TOPIC_CYCLE, "0");
  82. previousCadence = c;
  83. }
  84. //as soon as we have cadence again, we want to switch on vibration again, and then immediately set cadence again
  85. else if (previousCadence == 0)
  86. {
  87. await Broker.Publish(TOPIC_CYCLE, $"{cycle}");
  88. await PublishCadence(c);
  89. }
  90. //if we have never set cadence, or the change of cadence is high enough, we tell the ESP to change cadence
  91. else if (previousCadence < 0 || c - previousCadence > THRES_CADENCE_CHANGE)
  92. {
  93. await PublishCadence(c);
  94. }
  95. }
  96. private async Task VibrateAlternatingFixed(int cycleValue)
  97. {
  98. if (Math.Abs(cycleValue - currentCycle) > 0)
  99. {
  100. await Broker.Publish(TOPIC_CYCLE, $"{cycleValue}");
  101. await PublishCadence(fixedCycleRpm);
  102. }
  103. }
  104. private async Task VibrateContinuous(int cycleValue)
  105. {
  106. if (Math.Abs(cycleValue - currentCycle) > 0)
  107. {
  108. Debug.Log($"Sending Cycle {cycleValue}");
  109. await Broker.Publish(TOPIC_CYCLE, $"{cycleValue}");
  110. }
  111. }
  112. private async Task PublishCadence(int cadence)
  113. {
  114. Debug.Log($"Sending Cadence {cadence}");
  115. await Broker.Publish(TOPIC_CADENCE, $"{cadence}");
  116. previousCadence = cadence;
  117. }
  118. }
  119. }