310 lines
8.3 KiB
C#
310 lines
8.3 KiB
C#
//
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// Outline.cs
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// QuickOutline
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//
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// Created by Chris Nolet on 3/30/18.
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// Copyright © 2018 Chris Nolet. All rights reserved.
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//
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using System;
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using System.Collections.Generic;
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using System.Linq;
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using UnityEngine;
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[DisallowMultipleComponent]
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public class Outline : MonoBehaviour {
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private static HashSet<Mesh> registeredMeshes = new HashSet<Mesh>();
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public enum Mode {
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OutlineAll,
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OutlineVisible,
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OutlineHidden,
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OutlineAndSilhouette,
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SilhouetteOnly
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}
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public Mode OutlineMode {
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get { return outlineMode; }
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set {
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outlineMode = value;
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needsUpdate = true;
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}
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}
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public Color OutlineColor {
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get { return outlineColor; }
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set {
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outlineColor = value;
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needsUpdate = true;
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}
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}
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public float OutlineWidth {
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get { return outlineWidth; }
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set {
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outlineWidth = value;
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needsUpdate = true;
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}
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}
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[Serializable]
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private class ListVector3 {
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public List<Vector3> data;
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}
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[SerializeField]
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private Mode outlineMode;
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[SerializeField]
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private Color outlineColor = Color.white;
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[SerializeField, Range(0f, 10f)]
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private float outlineWidth = 2f;
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[Header("Optional")]
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[SerializeField, Tooltip("Precompute enabled: Per-vertex calculations are performed in the editor and serialized with the object. "
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+ "Precompute disabled: Per-vertex calculations are performed at runtime in Awake(). This may cause a pause for large meshes.")]
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private bool precomputeOutline;
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[SerializeField, HideInInspector]
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private List<Mesh> bakeKeys = new List<Mesh>();
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[SerializeField, HideInInspector]
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private List<ListVector3> bakeValues = new List<ListVector3>();
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private Renderer[] renderers;
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private Material outlineMaskMaterial;
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private Material outlineFillMaterial;
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private bool needsUpdate;
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void Awake() {
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// Cache renderers
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renderers = GetComponentsInChildren<Renderer>();
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// Instantiate outline materials
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outlineMaskMaterial = Instantiate(Resources.Load<Material>(@"Materials/OutlineMask"));
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outlineFillMaterial = Instantiate(Resources.Load<Material>(@"Materials/OutlineFill"));
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outlineMaskMaterial.name = "OutlineMask (Instance)";
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outlineFillMaterial.name = "OutlineFill (Instance)";
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// Retrieve or generate smooth normals
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LoadSmoothNormals();
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// Apply material properties immediately
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needsUpdate = true;
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}
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void OnEnable() {
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foreach (var renderer in renderers) {
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// Append outline shaders
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var materials = renderer.sharedMaterials.ToList();
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materials.Add(outlineMaskMaterial);
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materials.Add(outlineFillMaterial);
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renderer.materials = materials.ToArray();
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}
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}
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void OnValidate() {
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// Update material properties
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needsUpdate = true;
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// Clear cache when baking is disabled or corrupted
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if (!precomputeOutline && bakeKeys.Count != 0 || bakeKeys.Count != bakeValues.Count) {
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bakeKeys.Clear();
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bakeValues.Clear();
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}
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// Generate smooth normals when baking is enabled
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if (precomputeOutline && bakeKeys.Count == 0) {
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Bake();
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}
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}
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void Update() {
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if (needsUpdate) {
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needsUpdate = false;
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UpdateMaterialProperties();
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}
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}
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void OnDisable() {
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foreach (var renderer in renderers) {
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// Remove outline shaders
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var materials = renderer.sharedMaterials.ToList();
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materials.Remove(outlineMaskMaterial);
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materials.Remove(outlineFillMaterial);
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renderer.materials = materials.ToArray();
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}
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}
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void OnDestroy() {
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// Destroy material instances
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Destroy(outlineMaskMaterial);
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Destroy(outlineFillMaterial);
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}
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void Bake() {
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// Generate smooth normals for each mesh
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var bakedMeshes = new HashSet<Mesh>();
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foreach (var meshFilter in GetComponentsInChildren<MeshFilter>()) {
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// Skip duplicates
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if (!bakedMeshes.Add(meshFilter.sharedMesh)) {
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continue;
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}
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// Serialize smooth normals
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var smoothNormals = SmoothNormals(meshFilter.sharedMesh);
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bakeKeys.Add(meshFilter.sharedMesh);
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bakeValues.Add(new ListVector3() { data = smoothNormals });
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}
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}
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void LoadSmoothNormals() {
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// Retrieve or generate smooth normals
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foreach (var meshFilter in GetComponentsInChildren<MeshFilter>()) {
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// Skip if smooth normals have already been adopted
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if (!registeredMeshes.Add(meshFilter.sharedMesh)) {
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continue;
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}
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// Retrieve or generate smooth normals
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var index = bakeKeys.IndexOf(meshFilter.sharedMesh);
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var smoothNormals = (index >= 0) ? bakeValues[index].data : SmoothNormals(meshFilter.sharedMesh);
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// Store smooth normals in UV3
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meshFilter.sharedMesh.SetUVs(3, smoothNormals);
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// Combine submeshes
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var renderer = meshFilter.GetComponent<Renderer>();
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if (renderer != null) {
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CombineSubmeshes(meshFilter.sharedMesh, renderer.sharedMaterials);
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}
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}
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// Clear UV3 on skinned mesh renderers
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foreach (var skinnedMeshRenderer in GetComponentsInChildren<SkinnedMeshRenderer>()) {
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// Skip if UV3 has already been reset
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if (!registeredMeshes.Add(skinnedMeshRenderer.sharedMesh)) {
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continue;
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}
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// Clear UV3
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skinnedMeshRenderer.sharedMesh.uv4 = new Vector2[skinnedMeshRenderer.sharedMesh.vertexCount];
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// Combine submeshes
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CombineSubmeshes(skinnedMeshRenderer.sharedMesh, skinnedMeshRenderer.sharedMaterials);
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}
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}
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List<Vector3> SmoothNormals(Mesh mesh) {
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// Group vertices by location
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var groups = mesh.vertices.Select((vertex, index) => new KeyValuePair<Vector3, int>(vertex, index)).GroupBy(pair => pair.Key);
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// Copy normals to a new list
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var smoothNormals = new List<Vector3>(mesh.normals);
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// Average normals for grouped vertices
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foreach (var group in groups) {
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// Skip single vertices
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if (group.Count() == 1) {
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continue;
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}
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// Calculate the average normal
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var smoothNormal = Vector3.zero;
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foreach (var pair in group) {
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smoothNormal += smoothNormals[pair.Value];
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}
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smoothNormal.Normalize();
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// Assign smooth normal to each vertex
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foreach (var pair in group) {
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smoothNormals[pair.Value] = smoothNormal;
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}
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}
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return smoothNormals;
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}
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void CombineSubmeshes(Mesh mesh, Material[] materials) {
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// Skip meshes with a single submesh
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if (mesh.subMeshCount == 1) {
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return;
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}
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// Skip if submesh count exceeds material count
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if (mesh.subMeshCount > materials.Length) {
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return;
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}
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// Append combined submesh
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mesh.subMeshCount++;
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mesh.SetTriangles(mesh.triangles, mesh.subMeshCount - 1);
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}
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void UpdateMaterialProperties() {
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// Apply properties according to mode
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outlineFillMaterial.SetColor("_OutlineColor", outlineColor);
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switch (outlineMode) {
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case Mode.OutlineAll:
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outlineMaskMaterial.SetFloat("_ZTest", (float)UnityEngine.Rendering.CompareFunction.Always);
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outlineFillMaterial.SetFloat("_ZTest", (float)UnityEngine.Rendering.CompareFunction.Always);
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outlineFillMaterial.SetFloat("_OutlineWidth", outlineWidth);
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break;
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case Mode.OutlineVisible:
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outlineMaskMaterial.SetFloat("_ZTest", (float)UnityEngine.Rendering.CompareFunction.Always);
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outlineFillMaterial.SetFloat("_ZTest", (float)UnityEngine.Rendering.CompareFunction.LessEqual);
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outlineFillMaterial.SetFloat("_OutlineWidth", outlineWidth);
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break;
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case Mode.OutlineHidden:
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outlineMaskMaterial.SetFloat("_ZTest", (float)UnityEngine.Rendering.CompareFunction.Always);
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outlineFillMaterial.SetFloat("_ZTest", (float)UnityEngine.Rendering.CompareFunction.Greater);
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outlineFillMaterial.SetFloat("_OutlineWidth", outlineWidth);
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break;
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case Mode.OutlineAndSilhouette:
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outlineMaskMaterial.SetFloat("_ZTest", (float)UnityEngine.Rendering.CompareFunction.LessEqual);
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outlineFillMaterial.SetFloat("_ZTest", (float)UnityEngine.Rendering.CompareFunction.Always);
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outlineFillMaterial.SetFloat("_OutlineWidth", outlineWidth);
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break;
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case Mode.SilhouetteOnly:
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outlineMaskMaterial.SetFloat("_ZTest", (float)UnityEngine.Rendering.CompareFunction.LessEqual);
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outlineFillMaterial.SetFloat("_ZTest", (float)UnityEngine.Rendering.CompareFunction.Greater);
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outlineFillMaterial.SetFloat("_OutlineWidth", 0f);
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break;
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}
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}
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}
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