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ScriptableRenderPipeline/com.unity.render-pipelines..../CoreRP/Volume/VolumeParameter.cs

735 行
23 KiB
原始文件 文件历史

using System;
using System.Collections.Generic;
using System.Collections.ObjectModel;
using System.Diagnostics;
using System.Linq;
using System.Reflection;
namespace UnityEngine.Experimental.Rendering
{
// We need this base class to be able to store a list of VolumeParameter in collections as we
// can't store VolumeParameter<T> with variable T types in the same collection. As a result some
// of the following is a bit hacky...
public abstract class VolumeParameter
{
public const string k_DebuggerDisplay = "{m_Value} ({m_OverrideState})";
[SerializeField]
protected bool m_OverrideState;
public virtual bool overrideState
{
get { return m_OverrideState; }
set { m_OverrideState = value; }
}
internal abstract void Interp(VolumeParameter from, VolumeParameter to, float t);
public T GetValue<T>()
{
return ((VolumeParameter<T>) this).value;
}
internal abstract void SetValue(VolumeParameter parameter);
// This is used in case you need to access fields/properties that can't be accessed in the
// constructor of a ScriptableObject (VolumeParameter are generally declared and inited in
// a VolumeComponent which is a ScriptableObject). This will be called right after the
// VolumeComponent object has been constructed, thus allowing access to previously
// "forbidden" fields/properties.
protected internal virtual void OnEnable()
{
}
// Called when the parent VolumeComponent OnDisabled is called
protected internal virtual void OnDisable()
{
}
public static bool IsObjectParameter(Type type)
{
if (type.IsGenericType && type.GetGenericTypeDefinition() == typeof(ObjectParameter<>))
return true;
return type.BaseType != null
&& IsObjectParameter(type.BaseType);
}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public class VolumeParameter<T> : VolumeParameter, IEquatable<VolumeParameter<T>>
{
[SerializeField]
protected T m_Value;
public virtual T value
{
get { return m_Value; }
set { m_Value = value; }
}
protected const float k_DefaultInterpSwap = 0f;
public VolumeParameter()
: this(default(T), false)
{
}
protected VolumeParameter(T value, bool overrideState)
{
m_Value = value;
this.overrideState = overrideState;
}
internal override void Interp(VolumeParameter from, VolumeParameter to, float t)
{
// Note: this is relatively unsafe (assumes that from and to are both holding type T)
Interp(from.GetValue<T>(), to.GetValue<T>(), t);
}
public virtual void Interp(T from, T to, float t)
{
// Default interpolation is naive
m_Value = t > k_DefaultInterpSwap ? to : from;
}
public void Override(T x)
{
overrideState = true;
m_Value = x;
}
internal override void SetValue(VolumeParameter parameter)
{
m_Value = parameter.GetValue<T>();
}
public override int GetHashCode()
{
unchecked
{
int hash = 17;
hash = hash * 23 + overrideState.GetHashCode();
hash = hash * 23 + value.GetHashCode();
return hash;
}
}
public override string ToString()
{
return string.Format("{0} ({1})", value, overrideState);
}
public static bool operator==(VolumeParameter<T> lhs, T rhs)
{
return lhs != null && lhs.value != null && lhs.value.Equals(rhs);
}
public static bool operator!=(VolumeParameter<T> lhs, T rhs)
{
return !(lhs == rhs);
}
public bool Equals(VolumeParameter<T> other)
{
if (ReferenceEquals(null, other))
return false;
if (ReferenceEquals(this, other))
return true;
return EqualityComparer<T>.Default.Equals(m_Value, other.m_Value);
}
public override bool Equals(object obj)
{
if (ReferenceEquals(null, obj))
return false;
if (ReferenceEquals(this, obj))
return true;
if (obj.GetType() != GetType())
return false;
return Equals((VolumeParameter<T>)obj);
}
//
// Implicit conversion; assuming the following:
//
// var myFloatProperty = new ParameterOverride<float> { value = 42f; };
//
// It allows for implicit casts:
//
// float myFloat = myFloatProperty.value; // No implicit cast
// float myFloat = myFloatProperty; // Implicit cast
//
// For safety reason this is one-way only.
//
public static implicit operator T(VolumeParameter<T> prop)
{
return prop.m_Value;
}
}
//
// The serialization system in Unity can't serialize generic types, the workaround is to extend
// and flatten pre-defined generic types.
// For enums it's recommended to make your own types on the spot, like so:
//
// [Serializable]
// public sealed class MyEnumParameter : VolumeParameter<MyEnum> { }
// public enum MyEnum { One, Two }
//
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class BoolParameter : VolumeParameter<bool>
{
public BoolParameter(bool value, bool overrideState = false)
: base(value, overrideState) {}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public class IntParameter : VolumeParameter<int>
{
public IntParameter(int value, bool overrideState = false)
: base(value, overrideState) {}
public sealed override void Interp(int from, int to, float t)
{
// Int snapping interpolation. Don't use this for enums as they don't necessarily have
// contiguous values. Use the default interpolator instead (same as bool).
m_Value = (int)(from + (to - from) * t);
}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class NoInterpIntParameter : VolumeParameter<int>
{
public NoInterpIntParameter(int value, bool overrideState = false)
: base(value, overrideState) {}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class MinIntParameter : IntParameter
{
public int min;
public override int value
{
get { return m_Value; }
set { m_Value = Mathf.Max(value, min); }
}
public MinIntParameter(int value, int min, bool overrideState = false)
: base(value, overrideState)
{
this.min = min;
}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class NoInterpMinIntParameter : VolumeParameter<int>
{
public int min;
public override int value
{
get { return m_Value; }
set { m_Value = Mathf.Max(value, min); }
}
public NoInterpMinIntParameter(int value, int min, bool overrideState = false)
: base(value, overrideState)
{
this.min = min;
}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class MaxIntParameter : IntParameter
{
public int max;
public override int value
{
get { return m_Value; }
set { m_Value = Mathf.Min(value, max); }
}
public MaxIntParameter(int value, int max, bool overrideState = false)
: base(value, overrideState)
{
this.max = max;
}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class NoInterpMaxIntParameter : VolumeParameter<int>
{
public int max;
public override int value
{
get { return m_Value; }
set { m_Value = Mathf.Min(value, max); }
}
public NoInterpMaxIntParameter(int value, int max, bool overrideState = false)
: base(value, overrideState)
{
this.max = max;
}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class ClampedIntParameter : IntParameter
{
public int min;
public int max;
public override int value
{
get { return m_Value; }
set { m_Value = Mathf.Clamp(value, min, max); }
}
public ClampedIntParameter(int value, int min, int max, bool overrideState = false)
: base(value, overrideState)
{
this.min = min;
this.max = max;
}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class NoInterpClampedIntParameter : VolumeParameter<int>
{
public int min;
public int max;
public override int value
{
get { return m_Value; }
set { m_Value = Mathf.Clamp(value, min, max); }
}
public NoInterpClampedIntParameter(int value, int min, int max, bool overrideState = false)
: base(value, overrideState)
{
this.min = min;
this.max = max;
}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public class FloatParameter : VolumeParameter<float>
{
public FloatParameter(float value, bool overrideState = false)
: base(value, overrideState) {}
public sealed override void Interp(float from, float to, float t)
{
m_Value = from + (to - from) * t;
}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class NoInterpFloatParameter : VolumeParameter<float>
{
public NoInterpFloatParameter(float value, bool overrideState = false)
: base(value, overrideState) {}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class MinFloatParameter : FloatParameter
{
public float min;
public override float value
{
get { return m_Value; }
set { m_Value = Mathf.Max(value, min); }
}
public MinFloatParameter(float value, float min, bool overrideState = false)
: base(value, overrideState)
{
this.min = min;
}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class NoInterpMinFloatParameter : VolumeParameter<float>
{
public float min;
public override float value
{
get { return m_Value; }
set { m_Value = Mathf.Max(value, min); }
}
public NoInterpMinFloatParameter(float value, float min, bool overrideState = false)
: base(value, overrideState)
{
this.min = min;
}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class MaxFloatParameter : FloatParameter
{
public float max;
public override float value
{
get { return m_Value; }
set { m_Value = Mathf.Min(value, max); }
}
public MaxFloatParameter(float value, float max, bool overrideState = false)
: base(value, overrideState)
{
this.max = max;
}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class NoInterpMaxFloatParameter : VolumeParameter<float>
{
public float max;
public override float value
{
get { return m_Value; }
set { m_Value = Mathf.Min(value, max); }
}
public NoInterpMaxFloatParameter(float value, float max, bool overrideState = false)
: base(value, overrideState)
{
this.max = max;
}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class ClampedFloatParameter : FloatParameter
{
public float min;
public float max;
public override float value
{
get { return m_Value; }
set { m_Value = Mathf.Clamp(value, min, max); }
}
public ClampedFloatParameter(float value, float min, float max, bool overrideState = false)
: base(value, overrideState)
{
this.min = min;
this.max = max;
}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class NoInterpClampedFloatParameter : VolumeParameter<float>
{
public float min;
public float max;
public override float value
{
get { return m_Value; }
set { m_Value = Mathf.Clamp(value, min, max); }
}
public NoInterpClampedFloatParameter(float value, float min, float max, bool overrideState = false)
: base(value, overrideState)
{
this.min = min;
this.max = max;
}
}
// Holds a min & a max values clamped in a range (MinMaxSlider in the editor)
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class FloatRangeParameter : VolumeParameter<Vector2>
{
public float min;
public float max;
public override Vector2 value
{
get { return m_Value; }
set
{
m_Value.x = Mathf.Max(value.x, min);
m_Value.y = Mathf.Min(value.y, max);
}
}
public FloatRangeParameter(Vector2 value, float min, float max, bool overrideState = false)
: base(value, overrideState)
{
this.min = min;
this.max = max;
}
public override void Interp(Vector2 from, Vector2 to, float t)
{
m_Value.x = from.x + (to.x - from.x) * t;
m_Value.y = from.y + (to.y - from.y) * t;
}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class NoInterpFloatRangeParameter : VolumeParameter<Vector2>
{
public float min;
public float max;
public override Vector2 value
{
get { return m_Value; }
set
{
m_Value.x = Mathf.Max(value.x, min);
m_Value.y = Mathf.Min(value.y, max);
}
}
public NoInterpFloatRangeParameter(Vector2 value, float min, float max, bool overrideState = false)
: base(value, overrideState)
{
this.min = min;
this.max = max;
}
}
// 32-bit RGBA
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class ColorParameter : VolumeParameter<Color>
{
public bool hdr = false;
public bool showAlpha = true;
public bool showEyeDropper = true;
public ColorParameter(Color value, bool overrideState = false)
: base(value, overrideState) {}
public ColorParameter(Color value, bool hdr, bool showAlpha, bool showEyeDropper, bool overrideState = false)
: base(value, overrideState)
{
this.hdr = hdr;
this.showAlpha = showAlpha;
this.showEyeDropper = showEyeDropper;
this.overrideState = overrideState;
}
public override void Interp(Color from, Color to, float t)
{
// Lerping color values is a sensitive subject... We looked into lerping colors using
// HSV and LCH but they have some downsides that make them not work correctly in all
// situations, so we stick with RGB lerping for now, at least its behavior is
// predictable despite looking desaturated when `t ~= 0.5` and it's faster anyway.
m_Value.r = from.r + (to.r - from.r) * t;
m_Value.g = from.g + (to.g - from.g) * t;
m_Value.b = from.b + (to.b - from.b) * t;
m_Value.a = from.a + (to.a - from.a) * t;
}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class NoInterpColorParameter : VolumeParameter<Color>
{
public bool hdr = false;
public bool showAlpha = true;
public bool showEyeDropper = true;
public NoInterpColorParameter(Color value, bool overrideState = false)
: base(value, overrideState) {}
public NoInterpColorParameter(Color value, bool hdr, bool showAlpha, bool showEyeDropper, bool overrideState = false)
: base(value, overrideState)
{
this.hdr = hdr;
this.showAlpha = showAlpha;
this.showEyeDropper = showEyeDropper;
this.overrideState = overrideState;
}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class Vector2Parameter : VolumeParameter<Vector2>
{
public Vector2Parameter(Vector2 value, bool overrideState = false)
: base(value, overrideState) {}
public override void Interp(Vector2 from, Vector2 to, float t)
{
m_Value.x = from.x + (to.x - from.x) * t;
m_Value.y = from.y + (to.y - from.y) * t;
}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class NoInterpVector2Parameter : VolumeParameter<Vector2>
{
public NoInterpVector2Parameter(Vector2 value, bool overrideState = false)
: base(value, overrideState) {}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class Vector3Parameter : VolumeParameter<Vector3>
{
public Vector3Parameter(Vector3 value, bool overrideState = false)
: base(value, overrideState) {}
public override void Interp(Vector3 from, Vector3 to, float t)
{
m_Value.x = from.x + (to.x - from.x) * t;
m_Value.y = from.y + (to.y - from.y) * t;
m_Value.z = from.z + (to.z - from.z) * t;
}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class NoInterpVector3Parameter : VolumeParameter<Vector3>
{
public NoInterpVector3Parameter(Vector3 value, bool overrideState = false)
: base(value, overrideState) {}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class Vector4Parameter : VolumeParameter<Vector4>
{
public Vector4Parameter(Vector4 value, bool overrideState = false)
: base(value, overrideState) {}
public override void Interp(Vector4 from, Vector4 to, float t)
{
m_Value.x = from.x + (to.x - from.x) * t;
m_Value.y = from.y + (to.y - from.y) * t;
m_Value.z = from.z + (to.z - from.z) * t;
m_Value.w = from.w + (to.w - from.w) * t;
}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class NoInterpVector4Parameter : VolumeParameter<Vector4>
{
public NoInterpVector4Parameter(Vector4 value, bool overrideState = false)
: base(value, overrideState) {}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class TextureParameter : VolumeParameter<Texture>
{
public TextureParameter(Texture value, bool overrideState = false)
: base(value, overrideState) {}
// TODO: Texture interpolation
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class NoInterpTextureParameter : VolumeParameter<Texture>
{
public NoInterpTextureParameter(Texture value, bool overrideState = false)
: base(value, overrideState) {}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class RenderTextureParameter : VolumeParameter<RenderTexture>
{
public RenderTextureParameter(RenderTexture value, bool overrideState = false)
: base(value, overrideState) {}
// TODO: RenderTexture interpolation
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class NoInterpRenderTextureParameter : VolumeParameter<RenderTexture>
{
public NoInterpRenderTextureParameter(RenderTexture value, bool overrideState = false)
: base(value, overrideState) {}
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class CubemapParameter : VolumeParameter<Cubemap>
{
public CubemapParameter(Cubemap value, bool overrideState = false)
: base(value, overrideState) {}
// TODO: Cubemap interpolation
}
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public sealed class NoInterpCubemapParameter : VolumeParameter<Cubemap>
{
public NoInterpCubemapParameter(Cubemap value, bool overrideState = false)
: base(value, overrideState) {}
}
// Used as a container to store custom serialized classes/structs inside volume components
[Serializable, DebuggerDisplay(k_DebuggerDisplay)]
public class ObjectParameter<T> : VolumeParameter<T>
{
internal ReadOnlyCollection<VolumeParameter> parameters { get; private set; }
// Force override state to true for container objects
public override bool overrideState
{
get { return true; }
set { m_OverrideState = true; }
}
public override T value
{
get { return m_Value; }
set
{
m_Value = value;
if (m_Value == null)
{
parameters = null;
return;
}
// Automatically grab all fields of type VolumeParameter contained in this instance
parameters = m_Value.GetType()
.GetFields(BindingFlags.Public | BindingFlags.Instance)
.Where(t => t.FieldType.IsSubclassOf(typeof(VolumeParameter)))
.OrderBy(t => t.MetadataToken) // Guaranteed order
.Select(t => (VolumeParameter)t.GetValue(m_Value))
.ToList()
.AsReadOnly();
}
}
public ObjectParameter(T value)
{
m_OverrideState = true;
this.value = value;
}
internal override void Interp(VolumeParameter from, VolumeParameter to, float t)
{
if (m_Value == null)
return;
var paramOrigin = parameters;
var paramFrom = ((ObjectParameter<T>)from).parameters;
var paramTo = ((ObjectParameter<T>)to).parameters;
for (int i = 0; i < paramFrom.Count; i++)
{
if (paramOrigin[i].overrideState)
paramOrigin[i].Interp(paramFrom[i], paramTo[i], t);
}
}
}
}