using System.Collections;
using System.Collections.Generic;
using UnityEngine;
using MoreMountains.Tools;
namespace MoreMountains.Feedbacks
{
///
/// This feedback will let you animate the density, color, end and start distance of your scene's fog
///
[AddComponentMenu("")]
[FeedbackHelp("This feedback will let you animate the density, color, end and start distance of your scene's fog")]
[FeedbackPath("Renderer/Fog")]
public class MMFeedbackFog : MMFeedback
{
/// a static bool used to disable all feedbacks of this type at once
public static bool FeedbackTypeAuthorized = true;
/// sets the inspector color for this feedback
#if UNITY_EDITOR
public override Color FeedbackColor { get { return MMFeedbacksInspectorColors.RendererColor; } }
#endif
/// the possible modes for this feedback
public enum Modes { OverTime, Instant }
[Header("Fog")]
/// whether the feedback should affect the sprite renderer instantly or over a period of time
[Tooltip("whether the feedback should affect the sprite renderer instantly or over a period of time")]
public Modes Mode = Modes.OverTime;
/// how long the sprite renderer should change over time
[Tooltip("how long the sprite renderer should change over time")]
[MMFEnumCondition("Mode", (int)Modes.OverTime)]
public float Duration = 0.2f;
/// if this is true, calling that feedback will trigger it, even if it's in progress. If it's false, it'll prevent any new Play until the current one is over
[Tooltip("if this is true, calling that feedback will trigger it, even if it's in progress. If it's false, it'll prevent any new Play until the current one is over")]
public bool AllowAdditivePlays = false;
[Header("Fog Density")]
/// whether or not to modify the fog's density
[Tooltip("whether or not to modify the fog's density")]
public bool ModifyFogDensity = true;
/// a curve to use to animate the fog's density over time
[Tooltip("a curve to use to animate the fog's density over time")]
public MMTweenType DensityCurve = new MMTweenType(new AnimationCurve(new Keyframe(0, 0), new Keyframe(0.3f, 1f), new Keyframe(1, 0)));
/// the value to remap the fog's density curve zero value to
[Tooltip("the value to remap the fog's density curve zero value to")]
public float DensityRemapZero = 0.01f;
/// the value to remap the fog's density curve one value to
[Tooltip("the value to remap the fog's density curve one value to")]
public float DensityRemapOne = 0.05f;
/// the value to change the fog's density to when in instant mode
[Tooltip("the value to change the fog's density to when in instant mode")]
public float DensityInstantChange;
[Header("Fog Start Distance")]
/// whether or not to modify the fog's start distance
[Tooltip("whether or not to modify the fog's start distance")]
public bool ModifyStartDistance = true;
/// a curve to use to animate the fog's start distance over time
[Tooltip("a curve to use to animate the fog's start distance over time")]
public MMTweenType StartDistanceCurve = new MMTweenType(new AnimationCurve(new Keyframe(0, 0), new Keyframe(0.3f, 1f), new Keyframe(1, 0)));
/// the value to remap the fog's start distance curve zero value to
[Tooltip("the value to remap the fog's start distance curve zero value to")]
public float StartDistanceRemapZero = 0f;
/// the value to remap the fog's start distance curve one value to
[Tooltip("the value to remap the fog's start distance curve one value to")]
public float StartDistanceRemapOne = 0f;
/// the value to change the fog's start distance to when in instant mode
[Tooltip("the value to change the fog's start distance to when in instant mode")]
public float StartDistanceInstantChange;
[Header("Fog End Distance")]
/// whether or not to modify the fog's end distance
[Tooltip("whether or not to modify the fog's end distance")]
public bool ModifyEndDistance = true;
/// a curve to use to animate the fog's end distance over time
[Tooltip("a curve to use to animate the fog's end distance over time")]
public MMTweenType EndDistanceCurve = new MMTweenType(new AnimationCurve(new Keyframe(0, 0), new Keyframe(0.3f, 1f), new Keyframe(1, 0)));
/// the value to remap the fog's end distance curve zero value to
[Tooltip("the value to remap the fog's end distance curve zero value to")]
public float EndDistanceRemapZero = 0f;
/// the value to remap the fog's end distance curve one value to
[Tooltip("the value to remap the fog's end distance curve one value to")]
public float EndDistanceRemapOne = 300f;
/// the value to change the fog's end distance to when in instant mode
[Tooltip("the value to change the fog's end distance to when in instant mode")]
public float EndDistanceInstantChange;
[Header("Fog Color")]
/// whether or not to modify the fog's color
[Tooltip("whether or not to modify the fog's color")]
public bool ModifyColor = true;
/// the colors to apply to the sprite renderer over time
[Tooltip("the colors to apply to the sprite renderer over time")]
[MMFEnumCondition("Mode", (int)Modes.OverTime)]
public Gradient ColorOverTime;
/// the color to move to in instant mode
[Tooltip("the color to move to in instant mode")]
[MMFEnumCondition("Mode", (int)Modes.Instant)]
public Color InstantColor;
/// the duration of this feedback is the duration of the sprite renderer, or 0 if instant
public override float FeedbackDuration { get { return (Mode == Modes.Instant) ? 0f : ApplyTimeMultiplier(Duration); } set { if (Mode != Modes.Instant) { Duration = value; } } }
protected Coroutine _coroutine;
///
/// On Play we change the values of our fog
///
///
///
protected override void CustomPlayFeedback(Vector3 position, float feedbacksIntensity = 1.0f)
{
if (!Active || !FeedbackTypeAuthorized)
{
return;
}
float intensityMultiplier = Timing.ConstantIntensity ? 1f : feedbacksIntensity;
switch (Mode)
{
case Modes.Instant:
if (ModifyColor)
{
RenderSettings.fogColor = InstantColor;
}
if (ModifyStartDistance)
{
RenderSettings.fogStartDistance = StartDistanceInstantChange;
}
if (ModifyEndDistance)
{
RenderSettings.fogEndDistance = EndDistanceInstantChange;
}
if (ModifyFogDensity)
{
RenderSettings.fogDensity = DensityInstantChange * intensityMultiplier;
}
break;
case Modes.OverTime:
if (!AllowAdditivePlays && (_coroutine != null))
{
return;
}
_coroutine = StartCoroutine(FogSequence(intensityMultiplier));
break;
}
}
///
/// This coroutine will modify the values on the fog settings
///
///
protected virtual IEnumerator FogSequence(float intensityMultiplier)
{
IsPlaying = true;
float journey = NormalPlayDirection ? 0f : FeedbackDuration;
while ((journey >= 0) && (journey <= FeedbackDuration) && (FeedbackDuration > 0))
{
float remappedTime = MMFeedbacksHelpers.Remap(journey, 0f, FeedbackDuration, 0f, 1f);
SetFogValues(remappedTime, intensityMultiplier);
journey += NormalPlayDirection ? FeedbackDeltaTime : -FeedbackDeltaTime;
yield return null;
}
SetFogValues(FinalNormalizedTime, intensityMultiplier);
_coroutine = null;
IsPlaying = false;
yield return null;
}
///
/// Sets the various values on the fog on a specified time (between 0 and 1)
///
///
protected virtual void SetFogValues(float time, float intensityMultiplier)
{
if (ModifyColor)
{
RenderSettings.fogColor = ColorOverTime.Evaluate(time);
}
if (ModifyFogDensity)
{
RenderSettings.fogDensity = MMTween.Tween(time, 0f, 1f, DensityRemapZero, DensityRemapOne, DensityCurve) * intensityMultiplier;
}
if (ModifyStartDistance)
{
RenderSettings.fogStartDistance = MMTween.Tween(time, 0f, 1f, StartDistanceRemapZero, StartDistanceRemapOne, StartDistanceCurve);
}
if (ModifyEndDistance)
{
RenderSettings.fogEndDistance = MMTween.Tween(time, 0f, 1f, EndDistanceRemapZero, EndDistanceRemapOne, EndDistanceCurve);
}
}
///
/// Stops this feedback
///
///
///
protected override void CustomStopFeedback(Vector3 position, float feedbacksIntensity = 1)
{
if (!Active || !FeedbackTypeAuthorized || (_coroutine == null))
{
return;
}
base.CustomStopFeedback(position, feedbacksIntensity);
IsPlaying = false;
StopCoroutine(_coroutine);
_coroutine = null;
}
}
}