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HeavenStudioPlus/Assets/Plugins/com.unity.uiextensions/Runtime/Scripts/Controls/RadialSlider.cs
Starpelly 032777e36f Editor stuff
2022-01-05 19:11:33 -05:00

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/// Credit mgear, SimonDarksideJ
/// Sourced from - https://forum.unity3d.com/threads/radial-slider-circle-slider.326392/#post-3143582
/// Updated to include lerping features and programmatic access to angle/value
using System;
using UnityEngine.Events;
using UnityEngine.EventSystems;
namespace UnityEngine.UI.Extensions
{
[AddComponentMenu("UI/Extensions/Radial Slider")]
[RequireComponent(typeof(Image))]
public class RadialSlider : MonoBehaviour, IPointerEnterHandler, IPointerDownHandler, IPointerUpHandler, IDragHandler
{
private bool isPointerDown, isPointerReleased, lerpInProgress;
private Vector2 m_localPos, m_screenPos;
private float m_targetAngle, m_lerpTargetAngle, m_startAngle, m_currentLerpTime, m_lerpTime;
private Camera m_eventCamera;
private Image m_image;
[SerializeField]
[Tooltip("Radial Gradient Start Color")]
private Color m_startColor = Color.green;
[SerializeField]
[Tooltip("Radial Gradient End Color")]
private Color m_endColor = Color.red;
[Tooltip("Move slider absolute or use Lerping?\nDragging only supported with absolute")]
[SerializeField]
private bool m_lerpToTarget;
[Tooltip("Curve to apply to the Lerp\nMust be set to enable Lerp")]
[SerializeField]
private AnimationCurve m_lerpCurve;
[Tooltip("Event fired when value of control changes, outputs an INT angle value")]
[SerializeField]
private RadialSliderValueChangedEvent _onValueChanged = new RadialSliderValueChangedEvent();
[Tooltip("Event fired when value of control changes, outputs a TEXT angle value")]
[SerializeField]
private RadialSliderTextValueChangedEvent _onTextValueChanged = new RadialSliderTextValueChangedEvent();
public float Angle
{
get { return RadialImage.fillAmount * 360f; }
set
{
if (LerpToTarget)
{
StartLerp(value / 360f);
}
else
{
UpdateRadialImage(value / 360f);
}
}
}
public float Value
{
get { return RadialImage.fillAmount; }
set
{
if (LerpToTarget)
{
StartLerp(value);
}
else
{
UpdateRadialImage(value);
}
}
}
public Color EndColor
{
get { return m_endColor; }
set { m_endColor = value; }
}
public Color StartColor
{
get { return m_startColor; }
set { m_startColor = value; }
}
public bool LerpToTarget
{
get { return m_lerpToTarget; }
set { m_lerpToTarget = value; }
}
public AnimationCurve LerpCurve
{
get { return m_lerpCurve; }
set { m_lerpCurve = value; m_lerpTime = LerpCurve[LerpCurve.length - 1].time; }
}
public bool LerpInProgress
{
get { return lerpInProgress; }
}
[Serializable]
public class RadialSliderValueChangedEvent : UnityEvent<int> { }
[Serializable]
public class RadialSliderTextValueChangedEvent : UnityEvent<string> { }
public Image RadialImage
{
get
{
if (m_image == null)
{
m_image = GetComponent<Image>();
m_image.type = Image.Type.Filled;
m_image.fillMethod = Image.FillMethod.Radial360;
m_image.fillAmount = 0;
}
return m_image;
}
}
public RadialSliderValueChangedEvent onValueChanged
{
get { return _onValueChanged; }
set { _onValueChanged = value; }
}
public RadialSliderTextValueChangedEvent onTextValueChanged
{
get { return _onTextValueChanged; }
set { _onTextValueChanged = value; }
}
private void Awake()
{
if (LerpCurve != null && LerpCurve.length > 0)
{
m_lerpTime = LerpCurve[LerpCurve.length - 1].time;
}
else
{
m_lerpTime = 1;
}
}
private void Update()
{
if (isPointerDown)
{
m_targetAngle = GetAngleFromMousePoint();
if (!lerpInProgress)
{
if (!LerpToTarget)
{
UpdateRadialImage(m_targetAngle);
NotifyValueChanged();
}
else
{
if (isPointerReleased) StartLerp(m_targetAngle);
isPointerReleased = false;
}
}
}
if (lerpInProgress && Value != m_lerpTargetAngle)
{
m_currentLerpTime += Time.deltaTime;
float perc = m_currentLerpTime / m_lerpTime;
if (LerpCurve != null && LerpCurve.length > 0)
{
UpdateRadialImage(Mathf.Lerp(m_startAngle, m_lerpTargetAngle, LerpCurve.Evaluate(perc)));
}
else
{
UpdateRadialImage(Mathf.Lerp(m_startAngle, m_lerpTargetAngle, perc));
}
}
if (m_currentLerpTime >= m_lerpTime || Value == m_lerpTargetAngle)
{
lerpInProgress = false;
UpdateRadialImage(m_lerpTargetAngle);
NotifyValueChanged();
}
}
private void StartLerp(float targetAngle)
{
if (!lerpInProgress)
{
m_startAngle = Value;
m_lerpTargetAngle = targetAngle;
m_currentLerpTime = 0f;
lerpInProgress = true;
}
}
private float GetAngleFromMousePoint()
{
RectTransformUtility.ScreenPointToLocalPointInRectangle(transform as RectTransform, m_screenPos, m_eventCamera, out m_localPos);
// radial pos of the mouse position.
return (Mathf.Atan2(-m_localPos.y, m_localPos.x) * 180f / Mathf.PI + 180f) / 360f;
}
private void UpdateRadialImage(float targetAngle)
{
RadialImage.fillAmount = targetAngle;
RadialImage.color = Color.Lerp(m_startColor, m_endColor, targetAngle);
}
private void NotifyValueChanged()
{
_onValueChanged.Invoke((int)(m_targetAngle * 360f));
_onTextValueChanged.Invoke(((int)(m_targetAngle * 360f)).ToString());
}
//#if UNITY_EDITOR
// private void OnValidate()
// {
// if (LerpToTarget && LerpCurve.length < 2)
// {
// LerpToTarget = false;
// Debug.LogError("You need to define a Lerp Curve to enable 'Lerp To Target'");
// }
// }
//#endif
#region Interfaces
// Called when the pointer enters our GUI component.
// Start tracking the mouse
public void OnPointerEnter(PointerEventData eventData)
{
m_screenPos = eventData.position;
m_eventCamera = eventData.enterEventCamera;
}
public void OnPointerDown(PointerEventData eventData)
{
m_screenPos = eventData.position;
m_eventCamera = eventData.enterEventCamera;
isPointerDown = true;
}
public void OnPointerUp(PointerEventData eventData)
{
m_screenPos = Vector2.zero;
isPointerDown = false;
isPointerReleased = true;
}
public void OnDrag(PointerEventData eventData)
{
m_screenPos = eventData.position;
}
#endregion
}
}
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