public void OnDestroy() { if (script != null) { script.Destroy(); } }
public void OnDestroy() { if (reflectionScript != null) { reflectionScript.Destroy(); } }
public override void OnStart(StartState state) { var reflections = Reflections.Instance; Shader reflectiveShader = shader.Length == 0 ? null : Shader.Find(shader); Color reflectionColour = Color.white; int updateInterval = 1; Util.Parse(colour, ref reflectionColour); Util.Parse(interval, ref updateInterval); updateInterval = Math.Max(updateInterval, 1); List <string> meshNames = Util.SplitConfigValue(meshes).ToList(); if (reflections.LogReflectiveMeshes) { log.Print("Part \"{0}\"", part.name); } if (reflections.ReflectionType == Reflections.Type.None) { return; } script = new Reflections.Script(part, updateInterval); bool success = false; foreach (MeshFilter meshFilter in part.FindModelComponents <MeshFilter>()) { var renderer = meshFilter.GetComponent <Renderer>(); if (renderer == null) { continue; } Material material = renderer.material; if (reflections.LogReflectiveMeshes) { log.Print("+ {0} [{1}]", meshFilter.name, material.shader.name); } if (meshNames.Count == 0 || meshNames.Contains(meshFilter.name)) { success |= script.Apply(material, reflectiveShader, reflectionColour); } } if (!success) { script?.Destroy(); script = null; log.Print("Failed to replace any shader on \"{0}\" with its reflective counterpart", part.name); } }
public void OnDestroy() { reflectionScript?.Destroy(); }
public void OnDestroy() { script?.Destroy(); }