public virtual void UpdateTransientSharpness(float newSharpness)
{
TransientSharpness = newSharpness;
TransientSharpnessText.text = NiceVibrationsDemoHelpers.Round(newSharpness, 2).ToString();
SharpnessProgressBar.UpdateBar(TransientSharpness, 0f, 1f);
TargetCurve.UpdateCurve(TransientIntensity, TransientSharpness);
}
public virtual void UpdateContinuousIntensity(float newIntensity)
{
ContinuousIntensity = newIntensity;
IntensityProgressBar.UpdateBar(ContinuousIntensity, 0f, 1f);
ContinuousIntensityText.text = NiceVibrationsDemoHelpers.Round(newIntensity, 2).ToString();
UpdateContinuous();
}
public virtual void UpdateContinuousSharpness(float newSharpness)
{
ContinuousSharpness = newSharpness;
SharpnessProgressBar.UpdateBar(ContinuousSharpness, 0f, 1f);
ContinuousSharpnessText.text = NiceVibrationsDemoHelpers.Round(newSharpness, 2).ToString();
UpdateContinuous();
}
protected virtual void DrawCurve()
{
_startPosition = StartPoint.transform.position;
_startPosition.z -= 0.1f;
_endPosition = EndPoint.transform.position;
_endPosition.z -= 0.1f;
Points.Clear();
for (int i = 0; i < PointsCount; i++)
{
float t = NiceVibrationsDemoHelpers.Remap(i, 0, PointsCount, 0f, 1f);
float sinValue = MMSignal.GetValue(t, MMSignal.SignalType.Sine, 1f, AmplitudeFactor, Period, 0f, false);
float triangleValue = MMSignal.GetValue(t, MMSignal.SignalType.Triangle, 1f, AmplitudeFactor, Period, 0f, false);
if (Move)
{
sinValue = MMSignal.GetValue(t + Time.time * MovementSpeed, MMSignal.SignalType.Sine, 1f, AmplitudeFactor, Period, 0f, false);
triangleValue = MMSignal.GetValue(t + Time.time * MovementSpeed, MMSignal.SignalType.Triangle, 1f, AmplitudeFactor, Period, 0f, false);
}
float finalValue = Mathf.Lerp(sinValue, triangleValue, Sharpness);
_workPoint.x = Mathf.Lerp(_startPosition.x, _endPosition.x, t);
_workPoint.y = finalValue * Intensity + _startPosition.y;
_workPoint.z = _startPosition.z;
Points.Add(_workPoint);
}
_targetLineRenderer.positionCount = PointsCount;
_targetLineRenderer.SetPositions(Points.ToArray());
}
protected virtual void UpdateContinuousDemo()
{
if (_timeLeft > 0f)
{
ContinuousProgressBar.UpdateBar(_timeLeft, 0f, ContinuousDuration);
_timeLeft -= Time.deltaTime;
Logo.Shaking = true;
TargetCurve.Move = true;
Logo.Intensity = NiceVibrationsDemoHelpers.Remap(ContinuousIntensity, 0f, 1f, 1f, 8f);
Logo.Sharpness = NiceVibrationsDemoHelpers.Remap(ContinuousSharpness, 0f, 1f, 10f, 25f);
}
else
{
ContinuousProgressBar.UpdateBar(0f, 0f, ContinuousDuration);
Logo.Shaking = false;
TargetCurve.Move = false;
if (_continuousActive)
{
MMVibrationManager.StopContinuousHaptic(true);
OnHapticsStopped();
}
}
if ((_sharpnessLastFrame != ContinuousSharpness) || (_intensityLastFrame != ContinuousIntensity))
{
TargetCurve.UpdateCurve(ContinuousIntensity, ContinuousSharpness);
}
_intensityLastFrame = ContinuousIntensity;
_sharpnessLastFrame = ContinuousSharpness;
}
/// <summary>
/// Plays a continuous haptic of the specified intensity, sharpness and duration
/// </summary>
/// <param name="intensity"></param>
/// <param name="sharpness"></param>
/// <param name="duration"></param>
public static void ContinuousHaptic(float intensity, float sharpness, float duration, HapticTypes fallbackOldiOS = HapticTypes.None, MonoBehaviour mono = null)
{
if (!_vibrationsActive)
{
return;
}
DebugLog("[MMVibrationManager] Continuous Haptic");
if (Android())
{
intensity = NiceVibrationsDemoHelpers.Remap(intensity, 0f, 1f, 0, 255);
MMNVAndroid.AndroidVibrate((long)(duration * 1000), (int)(intensity));
}
else if (iOS())
{
if (iOSVersion >= 13)
{
MMNViOSCoreHaptics.PlayContinuousHapticPattern(intensity, sharpness, duration, mono);
}
else
{
MMNViOS.iOSTriggerHaptics(fallbackOldiOS);
}
}
}
protected virtual void Update()
{
if (!Active)
{
Dragging = false;
_image.color = InactiveColor;
return;
}
else
{
_image.color = ActiveColor;
}
if (!Dragging)
{
return;
}
Vector2 v1 = Vector2.down;
Vector2 v2 = this.transform.position - GetWorldPosition(_pointerEventData.position);
float angle = Vector2.SignedAngle(v1, v2);
angle = Mathf.Clamp(angle, -130f, 130f);
_rotation.z = NiceVibrationsDemoHelpers.Remap(angle, -130f, 130f, MaximumAngle, MinimumAngle);
_rectTransform.SetPositionAndRotation(this.transform.position, Quaternion.Euler(_rotation));
Value = NiceVibrationsDemoHelpers.Remap(angle, -130f, 130f, 1f, 0f);
}
public virtual void SetValue(float value)
{
SetRotation(MinimumAngle);
Value = value;
float angle = NiceVibrationsDemoHelpers.Remap(value, 0f, 1f, MinimumAngle, MaximumAngle);
_rotation.z = angle;
_rectTransform.SetPositionAndRotation(this.transform.position, Quaternion.Euler(_rotation));
}
protected virtual void Start()
{
_canvas = GetComponentInParent <Canvas>();
float horizontalF = (ContentZone.rect.width - 2 * Padding) / (PrefabSize.x + Margin);
float verticalF = (ContentZone.rect.height - 2 * Padding) / (PrefabSize.y + Margin);
int horizontal = Mathf.FloorToInt(horizontalF);
int vertical = Mathf.FloorToInt(verticalF);
float centerH = (ContentZone.rect.width - (Padding * 2) - (horizontal * PrefabSize.x) - (horizontal - 1) * Margin) / 2f;
float centerV = (ContentZone.rect.height - (Padding * 2) - (vertical * PrefabSize.x) - (vertical - 1) * Margin) / 2f;
Buttons = new List <WobbleButton>();
for (int i = 0; i < horizontal; i++)
{
for (int j = 0; j < vertical; j++)
{
_position.x = centerH + Padding + PrefabSize.x / 2f + i * (PrefabSize.x + Margin);
_position.y = centerV + Padding + PrefabSize.y / 2f + j * (PrefabSize.y + Margin);
_position.z = 0f;
WobbleButton button = Instantiate(WobbleButtonPrefab);
button.transform.SetParent(ContentZone.transform);
Buttons.Add(button);
RectTransform rectTransform = button.GetComponent <RectTransform>();
rectTransform.anchorMin = Vector2.zero;
rectTransform.anchorMax = Vector2.zero;
button.name = "WobbleButton" + i + j;
button.transform.localScale = Vector3.one;
rectTransform.anchoredPosition3D = _position;
button.TargetCamera = ButtonCamera;
button.Initialization();
}
}
int counter = 0;
foreach (WobbleButton wbutton in Buttons)
{
float newPitch = NiceVibrationsDemoHelpers.Remap(counter, 0f, Buttons.Count, 0.3f, 1f);
wbutton.SetPitch(newPitch);
counter++;
}
}
protected virtual void UpdateCar()
{
float targetSpeed = _carStarted ? NiceVibrationsDemoHelpers.Remap(Knob.Value, MinimumKnobValue, 1f, 0f, 1f) : 0f;
CarSpeed = Mathf.Lerp(CarSpeed, targetSpeed, Time.deltaTime * 1f);
CarEngineAudioSource.volume = CarSpeed;
CarEngineAudioSource.pitch = NiceVibrationsDemoHelpers.Remap(CarSpeed, 0f, 1f, 0.5f, 1.25f);
LeftWheel.Rotate(CarSpeed * Time.deltaTime * WheelRotationSpeed, Space.Self);
RightWheel.Rotate(CarSpeed * Time.deltaTime * WheelRotationSpeed, Space.Self);
_carPosition.x = _initialCarPosition.x + 0f;
_carPosition.y = _initialCarPosition.y + 10 * CarSpeed * Mathf.PerlinNoise(Time.time * 10f, CarSpeed * 10f);
_carPosition.z = 0f;
CarBody.localPosition = _carPosition;
}
/// <summary>
/// Converts a AHAP string into a MMNVAndroidWaveForm
/// </summary>
/// <param name="AHAPasString"></param>
/// <returns></returns>
public static MMNVAndroidWaveForm AHAPtoAndroidWaveForm(string AHAPasString)
{
MMNVAHAP ahap = JsonConvert.DeserializeObject <MMNVAHAP>(AHAPasString);
List <long> patterns = new List <long>();
List <int> amplitudes = new List <int>();
double totalTimeStamp = 0f;
double previousTimeStamp = 0f;
foreach (MMNVAHAPPattern pattern in ahap.Pattern)
{
if (pattern.ParameterCurve != null)
{
if (pattern.ParameterCurve.ParameterID == "HapticIntensityControl")
{
foreach (MMNVAHAPParameterCurveControlPoint point in pattern.ParameterCurve.ParameterCurveControlPoints)
{
double timeStamp = point.Time - previousTimeStamp;
totalTimeStamp += timeStamp;
patterns.Add((long)(timeStamp * 1000));
float originalIntensity = (float)point.ParameterValue;
int intensity = (int)NiceVibrationsDemoHelpers.Remap(originalIntensity, 0f, 1f, 0f, 255f);
amplitudes.Add(intensity);
previousTimeStamp = point.Time;
}
}
}
}
MMNVAndroidWaveForm returnWaveForm = new MMNVAndroidWaveForm();
returnWaveForm.Amplitudes = amplitudes.ToArray();
returnWaveForm.Pattern = patterns.ToArray();
return(returnWaveForm);
}
/// <summary>
/// Plays a transient haptic, a single, short haptic feedback, of the specified intensity and sharpness
/// </summary>
/// <param name="intensity"></param>
/// <param name="sharpness"></param>
public static void TransientHaptic(float intensity, float sharpness)
{
if (!_vibrationsActive)
{
return;
}
DebugLog("[MMVibrationManager] Transient Haptic");
if (Android())
{
intensity = NiceVibrationsDemoHelpers.Remap(intensity, 0f, 1f, 0, 255);
MMNVAndroid.AndroidVibrate(100, (int)(intensity));
}
else if (iOS())
{
if (iOSVersion >= 13)
{
MMNViOSCoreHaptics.PlayTransientHapticPattern(intensity, sharpness);
}
else
{
if (intensity < 0.3f)
{
MMNViOS.iOSTriggerHaptics(HapticTypes.LightImpact);
}
else if ((intensity >= 0.3f) && (intensity < 0.6f))
{
MMNViOS.iOSTriggerHaptics(HapticTypes.MediumImpact);
}
else
{
MMNViOS.iOSTriggerHaptics(HapticTypes.HeavyImpact);
}
}
}
}
protected virtual IEnumerator TransitionCoroutine(int previous, int next, bool goingRight)
{
_position.y = Pages[previous].localPosition.y;
_position.z = Pages[previous].localPosition.z;
foreach (RectTransform page in Pages)
{
_position.x = 1200f;
page.localPosition = _position;
}
Pages[next].gameObject.SetActive(true);
float timeSpent = 0f;
while (timeSpent < PageTransitionDuration)
{
if (goingRight)
{
_position.x = Mathf.Lerp(0f, -1200f, TransitionCurve.Evaluate(NiceVibrationsDemoHelpers.Remap(timeSpent, 0f, PageTransitionDuration, 0f, 1f)));
Pages[previous].localPosition = _position;
_position.x = Mathf.Lerp(1200f, 0f, TransitionCurve.Evaluate(NiceVibrationsDemoHelpers.Remap(timeSpent, 0f, PageTransitionDuration, 0f, 1f)));
Pages[next].localPosition = _position;
}
else
{
_position.x = Mathf.Lerp(0f, 1200f, TransitionCurve.Evaluate(NiceVibrationsDemoHelpers.Remap(timeSpent, 0f, PageTransitionDuration, 0f, 1f)));
Pages[previous].localPosition = _position;
_position.x = Mathf.Lerp(-1200f, 0f, TransitionCurve.Evaluate(NiceVibrationsDemoHelpers.Remap(timeSpent, 0f, PageTransitionDuration, 0f, 1f)));
Pages[next].localPosition = _position;
}
timeSpent += Time.deltaTime;
yield return(null);
}
Pages[previous].gameObject.SetActive(false);
}
public virtual void UpdateContinuousDuration(float newDuration)
{
ContinuousDuration = newDuration;
DurationProgressBar.UpdateBar(ContinuousDuration, 0f, 5f);
ContinuousDurationText.text = NiceVibrationsDemoHelpers.Round(newDuration, 2).ToString();
}
