using System;
using UnityEngine;
using UnityEngine.UI;
using UnityEngine.UI.MPUIKIT;
#if UNITY_EDITOR
using UnityEditor;
#endif
namespace MPUIKIT {
[AddComponentMenu("UI/MPUI/MPImage")]
public class MPImage : Image {
#region Constants
public const string MpShaderName = "MPUI/Procedural Image";
#endregion
#region SerializedFields
[SerializeField] private DrawShape m_DrawShape = DrawShape.None;
[SerializeField] private Type m_ImageType = Type.Simple;
[SerializeField] private MaterialMode m_MaterialMode;
[SerializeField] private float m_StrokeWidth;
[SerializeField] private float m_OutlineWidth;
[SerializeField] private Color m_OutlineColor;
[SerializeField] private float m_FalloffDistance = 0.5f;
[SerializeField] private bool m_ConstrainRotation = true;
[SerializeField] private float m_ShapeRotation;
[SerializeField] private bool m_FlipHorizontal;
[SerializeField] private bool m_FlipVertical;
[SerializeField] private Triangle m_Triangle = new Triangle();
[SerializeField] private Rectangle m_Rectangle = new Rectangle();
[SerializeField] private Circle m_Circle = new Circle();
[SerializeField] private Pentagon m_Pentagon = new Pentagon();
[SerializeField] private Hexagon m_Hexagon = new Hexagon();
[SerializeField] private NStarPolygon m_NStarPolygon = new NStarPolygon();
[SerializeField] private GradientEffect m_GradientEffect = new GradientEffect();
#endregion
#region Public Properties
#region Draw Settings
///
/// Type of the shape to be drawn. ie: Rectangle, Circle
///
public DrawShape DrawShape {
get => m_DrawShape;
set {
m_DrawShape = value;
if (material == m_Material) {
m_Material.SetInt(SpDrawShape, (int) m_DrawShape);
}
base.SetMaterialDirty();
}
}
///
/// Width of the stroke for the drawn shape. 0 is no stroke.
///
public float StrokeWidth {
get => m_StrokeWidth;
set {
m_StrokeWidth = value;
m_StrokeWidth = m_StrokeWidth < 0 ? 0 : m_StrokeWidth;
if (material == m_Material) {
m_Material.SetFloat(SpStrokeWidth, m_StrokeWidth);
}
base.SetMaterialDirty();
}
}
///
/// Width of the outline for the drawn shape. 0 is no outline.
///
public float OutlineWidth {
get => m_OutlineWidth;
set {
m_OutlineWidth = value;
m_OutlineWidth = m_OutlineWidth < 0 ? 0 : m_OutlineWidth;
if (m_Material == material) {
m_Material.SetFloat(SpOutlineWidth, m_OutlineWidth);
}
base.SetMaterialDirty();
}
}
///
/// Color of the Outline. Has no effect is teh value of the OutlineWidth is 0
///
public Color OutlineColor {
get => m_OutlineColor;
set {
m_OutlineColor = value;
if (m_Material == material) {
m_Material.SetColor(SpOutlineColor, m_OutlineColor);
}
base.SetMaterialDirty();
}
}
///
/// Edge falloff distance of the shape
///
public float FalloffDistance {
get { return m_FalloffDistance; }
set {
m_FalloffDistance = Mathf.Max(value, 0f);
if (material == m_Material) {
m_Material.SetFloat(SpFalloffDistance, m_FalloffDistance);
}
base.SetMaterialDirty();
}
}
///
/// Constrains rotation to 0, 90, 270 degrees angle if set to true. But the width and height of the shape
/// is replaced as necessary to avoid clipping.
/// If set to false, any shapes can be rotated in any arbitrary angle but will often result in
/// clipping of the shape.
///
public bool ConstrainRotation {
get { return m_ConstrainRotation; }
set {
m_ConstrainRotation = value;
if (m_Material == material) {
m_Material.SetInt(SpConstrainedRotation, value?1:0);
}
if (value) {
m_ShapeRotation = ConstrainRotationValue(m_ShapeRotation);
}
base.SetVerticesDirty();
base.SetMaterialDirty();
}
}
private float ConstrainRotationValue(float val) {
float finalRotation = val - val % 90;
if (Mathf.Abs(finalRotation) >= 360) finalRotation = 0;
return finalRotation;
}
///
/// Rotation of the shape.
///
public float ShapeRotation {
get { return m_ShapeRotation; }
set {
m_ShapeRotation = m_ConstrainRotation ? ConstrainRotationValue(value) : value;
if (m_Material == material) {
m_Material.SetFloat(SpShapeRotation, m_ShapeRotation);
}
base.SetMaterialDirty();
}
}
///
/// Flips the shape horizontally.
///
public bool FlipHorizontal {
get { return m_FlipHorizontal; }
set {
m_FlipHorizontal = value;
if (m_Material == material) {
m_Material.SetInt(SpFlipHorizontal, m_FlipHorizontal ? 1 : 0);
}
base.SetMaterialDirty();
}
}
///
/// Flips the shape vertically
///
public bool FlipVertical {
get { return m_FlipVertical; }
set {
m_FlipVertical = value;
if (m_Material == material) {
m_Material.SetInt(SpFlipVertical, m_FlipVertical ? 1 : 0);
}
base.SetMaterialDirty();
}
}
///
/// Defines what material type of use to render the shape. Dynamic or Shared.
/// Default is Dynamic and will issue one draw call per image object. If set to shared, assigned
/// material in the material slot will be used to render the image. It will fallback to dynamic
/// if no material in the material slot is assigned
///
public MaterialMode MaterialMode {
get { return m_MaterialMode; }
set {
if (m_MaterialMode == value) return;
m_MaterialMode = value;
InitializeComponents();
if (material == m_Material) {
InitValuesFromSharedMaterial();
#if UNITY_EDITOR
_parseAgainOnValidate = true;
#endif
}
base.SetMaterialDirty();
}
}
///
/// Shared material to use to render the shape. the material must use the "MPUI/Procedural Sprite" shader
///
public override Material material {
get {
if (m_Material && m_MaterialMode == MaterialMode.Shared) {
return m_Material;
}
return DynamicMaterial;
}
set {
m_Material = value;
if (m_Material && m_MaterialMode == MaterialMode.Shared && m_Material.shader.name == MpShaderName) {
InitValuesFromSharedMaterial();
#if UNITY_EDITOR
_parseAgainOnValidate = true;
#endif
}
InitializeComponents();
base.SetMaterialDirty();
}
}
// ReSharper disable once InconsistentNaming
///
/// Type of the image. Only two types are supported. Simple and Filled.
/// Default and fallback value is Simple.
///
public new Type type {
get => m_ImageType;
set {
if (m_ImageType == value) return;
switch (value) {
case Type.Simple:
case Type.Filled:
m_ImageType = value;
break;
case Type.Tiled:
case Type.Sliced:
break;
default:
throw new ArgumentOutOfRangeException(value.ToString(), value, null);
}
base.type = m_ImageType;
}
}
#endregion
public Triangle Triangle {
get => m_Triangle;
set {
m_Triangle = value;
SetMaterialDirty();
}
}
public Rectangle Rectangle {
get => m_Rectangle;
set {
m_Rectangle = value;
SetMaterialDirty();
}
}
public Circle Circle{
get => m_Circle;
set {
m_Circle = value;
SetMaterialDirty();
}
}
public Pentagon Pentagon {
get => m_Pentagon;
set {
m_Pentagon = value;
SetMaterialDirty();
}
}
public Hexagon Hexagon {
get => m_Hexagon;
set {
m_Hexagon = value;
SetMaterialDirty();
}
}
public NStarPolygon NStarPolygon {
get => m_NStarPolygon;
set {
m_NStarPolygon = value;
SetMaterialDirty();
}
}
public GradientEffect GradientEffect {
get => m_GradientEffect;
set {
m_GradientEffect = value;
SetMaterialDirty();
}
}
#endregion
#region Private Variables
private Material _dynamicMaterial;
private Material DynamicMaterial {
get {
if (_dynamicMaterial == null) {
_dynamicMaterial = new Material(Shader.Find(MpShaderName));
_dynamicMaterial.name += " [Dynamic]";
}
return _dynamicMaterial;
}
}
#if UNITY_EDITOR
private bool _parseAgainOnValidate;
#endif
private Sprite ActiveSprite {
get {
Sprite overrideSprite1 = overrideSprite;
return overrideSprite1 != null ? overrideSprite1 : sprite;
}
}
#endregion
#region Material PropertyIds
private static readonly int SpPixelWorldScale = Shader.PropertyToID("_PixelWorldScale");
private static readonly int SpDrawShape = Shader.PropertyToID("_DrawShape");
private static readonly int SpStrokeWidth = Shader.PropertyToID("_StrokeWidth");
private static readonly int SpOutlineWidth = Shader.PropertyToID("_OutlineWidth");
private static readonly int SpOutlineColor = Shader.PropertyToID("_OutlineColor");
private static readonly int SpFalloffDistance = Shader.PropertyToID("_FalloffDistance");
private static readonly int SpShapeRotation = Shader.PropertyToID("_ShapeRotation");
private static readonly int SpConstrainedRotation = Shader.PropertyToID("_ConstrainRotation");
private static readonly int SpFlipHorizontal = Shader.PropertyToID("_FlipHorizontal");
private static readonly int SpFlipVertical = Shader.PropertyToID("_FlipVertical");
#endregion
#if UNITY_EDITOR
public void UpdateSerializedValuesFromSharedMaterial() {
if (m_Material && MaterialMode == MaterialMode.Shared) {
InitValuesFromSharedMaterial();
base.SetMaterialDirty();
}
}
protected override void OnValidate() {
InitializeComponents();
if (_parseAgainOnValidate) {
InitValuesFromSharedMaterial();
_parseAgainOnValidate = false;
}
DrawShape = m_DrawShape;
StrokeWidth = m_StrokeWidth;
OutlineWidth = m_OutlineWidth;
OutlineColor = m_OutlineColor;
FalloffDistance = m_FalloffDistance;
ConstrainRotation = m_ConstrainRotation;
ShapeRotation = m_ShapeRotation;
FlipHorizontal = m_FlipHorizontal;
FlipVertical = m_FlipVertical;
m_Triangle.OnValidate();
m_Circle.OnValidate();
m_Rectangle.OnValidate();
m_Pentagon.OnValidate();
m_Hexagon.OnValidate();
m_NStarPolygon.OnValidate();
m_GradientEffect.OnValidate();
base.OnValidate();
base.SetMaterialDirty();
}
#endif
private void InitializeComponents() {
m_Circle.Init(m_Material, material, rectTransform);
m_Triangle.Init(m_Material, material, rectTransform);
m_Rectangle.Init(m_Material, material, rectTransform);
m_Pentagon.Init(m_Material, material, rectTransform);
m_Hexagon.Init(m_Material, material, rectTransform);
m_NStarPolygon.Init(m_Material, material, rectTransform);
m_GradientEffect.Init(m_Material, material, rectTransform);
}
void FixAdditionalShaderChannelsInCanvas()
{
Canvas c = canvas;
if(canvas == null) return;
AdditionalCanvasShaderChannels additionalShaderChannels = c.additionalShaderChannels;
additionalShaderChannels |= AdditionalCanvasShaderChannels.TexCoord1;
additionalShaderChannels |= AdditionalCanvasShaderChannels.TexCoord2;
c.additionalShaderChannels = additionalShaderChannels;
}
#if UNITY_EDITOR
protected override void Reset() {
InitializeComponents();
base.Reset();
}
#else
void Reset() {
InitializeComponents();
}
#endif
protected override void Awake()
{
base.Awake();
Init();
}
protected void Init()
{
InitializeComponents();
FixAdditionalShaderChannelsInCanvas();
if (m_Material && MaterialMode == MaterialMode.Shared) {
InitValuesFromSharedMaterial();
}
ListenToComponentChanges(true);
base.SetAllDirty();
}
protected override void OnDestroy() {
ListenToComponentChanges(false);
base.OnDestroy();
}
protected void ListenToComponentChanges(bool toggle) {
if (toggle) {
m_Circle.OnComponentSettingsChanged += OnComponentSettingsChanged;
m_Triangle.OnComponentSettingsChanged += OnComponentSettingsChanged;
m_Rectangle.OnComponentSettingsChanged += OnComponentSettingsChanged;
m_Pentagon.OnComponentSettingsChanged += OnComponentSettingsChanged;
m_Hexagon.OnComponentSettingsChanged += OnComponentSettingsChanged;
m_NStarPolygon.OnComponentSettingsChanged += OnComponentSettingsChanged;
m_GradientEffect.OnComponentSettingsChanged += OnComponentSettingsChanged;
}
else {
m_Circle.OnComponentSettingsChanged -= OnComponentSettingsChanged;
m_Triangle.OnComponentSettingsChanged -= OnComponentSettingsChanged;
m_Rectangle.OnComponentSettingsChanged -= OnComponentSettingsChanged;
m_Pentagon.OnComponentSettingsChanged -= OnComponentSettingsChanged;
m_Hexagon.OnComponentSettingsChanged -= OnComponentSettingsChanged;
m_NStarPolygon.OnComponentSettingsChanged -= OnComponentSettingsChanged;
m_GradientEffect.OnComponentSettingsChanged += OnComponentSettingsChanged;
}
}
protected override void OnTransformParentChanged()
{
base.OnTransformParentChanged();
FixAdditionalShaderChannelsInCanvas();
}
private void OnComponentSettingsChanged(object sender, EventArgs e) {
base.SetMaterialDirty();
}
protected override void OnRectTransformDimensionsChange() {
base.OnRectTransformDimensionsChange();
m_Circle.UpdateCircleRadius(rectTransform);
base.SetMaterialDirty();
}
protected override void OnPopulateMesh(VertexHelper vh) {
switch (type) {
case Type.Simple:
case Type.Sliced:
case Type.Tiled:
MPImageHelper.GenerateSimpleSprite(vh, preserveAspect, canvas, rectTransform, ActiveSprite,
color, m_FalloffDistance);
break;
case Type.Filled:
MPImageHelper.GenerateFilledSprite(vh, preserveAspect, canvas, rectTransform, ActiveSprite,
color, fillMethod, fillAmount, fillOrigin, fillClockwise, m_FalloffDistance);
break;
default:
throw new ArgumentOutOfRangeException();
}
}
public override Material GetModifiedMaterial(Material baseMaterial) {
Material mat = base.GetModifiedMaterial(baseMaterial);
if (m_Material && MaterialMode == MaterialMode.Shared) {
InitValuesFromSharedMaterial();
}
DisableAllMaterialKeywords(mat);
RectTransform rt = rectTransform;
if (DrawShape != DrawShape.None) {
mat.SetFloat(SpOutlineWidth, m_OutlineWidth);
mat.SetFloat(SpStrokeWidth, m_StrokeWidth);
mat.SetColor(SpOutlineColor, OutlineColor);
mat.SetFloat(SpFalloffDistance, FalloffDistance);
float pixelSize = 1/Mathf.Max(0, FalloffDistance);
mat.SetFloat(SpPixelWorldScale, Mathf.Clamp(pixelSize, 0f, 999999f));
if (m_StrokeWidth > 0 && m_OutlineWidth > 0) {
mat.EnableKeyword("OUTLINED_STROKE");
}
else {
if (m_StrokeWidth > 0) {
mat.EnableKeyword("STROKE");
}
else if (m_OutlineWidth > 0) {
mat.EnableKeyword("OUTLINED");
}
else {
mat.DisableKeyword("OUTLINED_STROKE");
mat.DisableKeyword("STROKE");
mat.DisableKeyword("OUTLINED");
}
}
}
m_Triangle.ModifyMaterial(ref mat);
m_Circle.ModifyMaterial(ref mat, m_FalloffDistance);
m_Rectangle.ModifyMaterial(ref mat);
m_Pentagon.ModifyMaterial(ref mat);
m_Hexagon.ModifyMaterial(ref mat);
m_NStarPolygon.ModifyMaterial(ref mat);
m_GradientEffect.ModifyMaterial(ref mat);
switch (DrawShape) {
case DrawShape.None:
mat.DisableKeyword("CIRCLE");
mat.DisableKeyword("TRIANGLE");
mat.DisableKeyword("RECTANGLE");
mat.DisableKeyword("PENTAGON");
mat.DisableKeyword("HEXAGON");
mat.DisableKeyword("NSTAR_POLYGON");
break;
case DrawShape.Circle:
mat.EnableKeyword("CIRCLE");
break;
case DrawShape.Triangle:
mat.EnableKeyword("TRIANGLE");
break;
case DrawShape.Rectangle:
mat.EnableKeyword("RECTANGLE");
break;
case DrawShape.Pentagon:
mat.EnableKeyword("PENTAGON");
break;
case DrawShape.NStarPolygon:
mat.EnableKeyword("NSTAR_POLYGON");
break;
case DrawShape.Hexagon:
mat.EnableKeyword("HEXAGON");
break;
default:
throw new ArgumentOutOfRangeException();
}
mat.SetInt(SpDrawShape, (int) DrawShape);
mat.SetInt(SpFlipHorizontal, m_FlipHorizontal ? 1 : 0);
mat.SetInt(SpFlipVertical, m_FlipVertical ? 1 : 0);
mat.SetFloat(SpShapeRotation, m_ShapeRotation);
mat.SetInt(SpConstrainedRotation, m_ConstrainRotation?1:0);
return mat;
}
private void DisableAllMaterialKeywords(Material mat) {
mat.DisableKeyword("PROCEDURAL");
mat.DisableKeyword("HYBRID");
mat.DisableKeyword("CIRCLE");
mat.DisableKeyword("TRIANGLE");
mat.DisableKeyword("RECTANGLE");
mat.DisableKeyword("PENTAGON");
mat.DisableKeyword("HEXAGON");
mat.DisableKeyword("NSTAR_POLYGON");
mat.DisableKeyword("STROKE");
mat.DisableKeyword("OUTLINED");
mat.DisableKeyword("OUTLINED_STROKE");
mat.DisableKeyword("ROUNDED_CORNERS");
mat.DisableKeyword("GRADIENT_LINEAR");
mat.DisableKeyword("GRADIENT_CORNER");
mat.DisableKeyword("GRADIENT_RADIAL");
}
public void InitValuesFromSharedMaterial() {
if (m_Material == null) return;
Material mat = m_Material;
//Debug.Log("Parsing shared mat");
//Basic Settings
m_DrawShape = (DrawShape) mat.GetInt(SpDrawShape);
m_StrokeWidth = mat.GetFloat(SpStrokeWidth);
m_FalloffDistance = mat.GetFloat(SpFalloffDistance);
m_OutlineWidth = mat.GetFloat(SpOutlineWidth);
m_OutlineColor = mat.GetColor(SpOutlineColor);
m_FlipHorizontal = mat.GetInt(SpFlipHorizontal) == 1;
m_FlipVertical = mat.GetInt(SpFlipVertical) == 1;
m_ConstrainRotation = mat.GetInt(SpConstrainedRotation) == 1;
m_ShapeRotation = mat.GetFloat(SpShapeRotation);
//Debug.Log($"Parsed Falloff Distance: {m_FalloffDistance}");
m_Triangle.InitValuesFromMaterial(ref mat);
m_Circle.InitValuesFromMaterial(ref mat);
m_Rectangle.InitValuesFromMaterial(ref mat);
m_Pentagon.InitValuesFromMaterial(ref mat);
m_Hexagon.InitValuesFromMaterial(ref mat);
m_NStarPolygon.InitValuesFromMaterial(ref mat);
//GradientEffect
m_GradientEffect.InitValuesFromMaterial(ref mat);
}
#if UNITY_EDITOR
public Material CreateMaterialAssetFromComponentSettings() {
Material matAsset = new Material(Shader.Find(MpShaderName));
matAsset = GetModifiedMaterial(matAsset);
string path = EditorUtility.SaveFilePanelInProject("Create Material for MPImage",
"MPMaterial", "mat", "Choose location");
AssetDatabase.CreateAsset(matAsset, path);
AssetDatabase.SaveAssets();
AssetDatabase.Refresh();
return matAsset;
}
#endif
}
}