383 lines
18 KiB
C#
383 lines
18 KiB
C#
//======= Copyright (c) Valve Corporation, All rights reserved. ===============
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//
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// Purpose: Custom inspector display for SteamVR_Skybox
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//
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//=============================================================================
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using UnityEngine;
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using UnityEditor;
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using System.Text;
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using System.Collections.Generic;
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using Valve.VR;
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using System.IO;
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namespace Valve.VR
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{
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[CustomEditor(typeof(SteamVR_Skybox)), CanEditMultipleObjects]
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public class SteamVR_SkyboxEditor : Editor
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{
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private const string nameFormat = "{0}/{1}-{2}.png";
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private const string helpText = "Take snapshot will use the current " +
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"position and rotation to capture six directional screenshots to use as this " +
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"skybox's textures. Note: This skybox is only used to override what shows up " +
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"in the compositor (e.g. when loading levels). Add a Camera component to this " +
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"object to override default settings like which layers to render. Additionally, " +
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"by specifying your own targetTexture, you can control the size of the textures " +
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"and other properties like antialiasing. Don't forget to disable the camera.\n\n" +
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"For stereo screenshots, a panorama is render for each eye using the specified " +
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"ipd (in millimeters) broken up into segments cellSize pixels square to optimize " +
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"generation.\n(32x32 takes about 10 seconds depending on scene complexity, 16x16 " +
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"takes around a minute, while will 8x8 take several minutes.)\n\nTo test, hit " +
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"play then pause - this will activate the skybox settings, and then drop you to " +
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"the compositor where the skybox is rendered.";
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public override void OnInspectorGUI()
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{
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DrawDefaultInspector();
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EditorGUILayout.HelpBox(helpText, MessageType.Info);
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if (GUILayout.Button("Take snapshot"))
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{
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var directions = new Quaternion[] {
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Quaternion.LookRotation(Vector3.forward),
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Quaternion.LookRotation(Vector3.back),
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Quaternion.LookRotation(Vector3.left),
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Quaternion.LookRotation(Vector3.right),
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Quaternion.LookRotation(Vector3.up, Vector3.back),
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Quaternion.LookRotation(Vector3.down, Vector3.forward)
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};
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Camera tempCamera = null;
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foreach (SteamVR_Skybox target in targets)
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{
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var targetScene = target.gameObject.scene;
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var sceneName = Path.GetFileNameWithoutExtension(targetScene.path);
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var scenePath = Path.GetDirectoryName(targetScene.path);
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var assetPath = scenePath + "/" + sceneName;
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if (!AssetDatabase.IsValidFolder(assetPath))
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{
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var guid = AssetDatabase.CreateFolder(scenePath, sceneName);
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assetPath = AssetDatabase.GUIDToAssetPath(guid);
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}
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var camera = target.GetComponent<Camera>();
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if (camera == null)
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{
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if (tempCamera == null)
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tempCamera = new GameObject().AddComponent<Camera>();
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camera = tempCamera;
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}
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var targetTexture = camera.targetTexture;
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if (camera.targetTexture == null)
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{
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targetTexture = new RenderTexture(1024, 1024, 24);
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targetTexture.antiAliasing = 8;
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camera.targetTexture = targetTexture;
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}
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var oldPosition = target.transform.localPosition;
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var oldRotation = target.transform.localRotation;
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var baseRotation = target.transform.rotation;
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var t = camera.transform;
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t.position = target.transform.position;
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camera.orthographic = false;
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camera.fieldOfView = 90;
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for (int i = 0; i < directions.Length; i++)
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{
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t.rotation = baseRotation * directions[i];
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camera.Render();
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// Copy to texture and save to disk.
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RenderTexture.active = targetTexture;
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var texture = new Texture2D(targetTexture.width, targetTexture.height, TextureFormat.ARGB32, false);
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texture.ReadPixels(new Rect(0, 0, texture.width, texture.height), 0, 0);
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texture.Apply();
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RenderTexture.active = null;
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var assetName = string.Format(nameFormat, assetPath, target.name, i);
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System.IO.File.WriteAllBytes(assetName, texture.EncodeToPNG());
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}
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if (camera != tempCamera)
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{
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target.transform.localPosition = oldPosition;
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target.transform.localRotation = oldRotation;
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}
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}
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if (tempCamera != null)
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{
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Object.DestroyImmediate(tempCamera.gameObject);
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}
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// Now that everything has be written out, reload the associated assets and assign them.
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AssetDatabase.Refresh();
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foreach (SteamVR_Skybox target in targets)
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{
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var targetScene = target.gameObject.scene;
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var sceneName = Path.GetFileNameWithoutExtension(targetScene.path);
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var scenePath = Path.GetDirectoryName(targetScene.path);
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var assetPath = scenePath + "/" + sceneName;
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for (int i = 0; i < directions.Length; i++)
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{
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var assetName = string.Format(nameFormat, assetPath, target.name, i);
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var importer = AssetImporter.GetAtPath(assetName) as TextureImporter;
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#if (UNITY_5_4 || UNITY_5_3 || UNITY_5_2 || UNITY_5_1 || UNITY_5_0)
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importer.textureFormat = TextureImporterFormat.RGB24;
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#else
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importer.textureCompression = TextureImporterCompression.Uncompressed;
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#endif
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importer.wrapMode = TextureWrapMode.Clamp;
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importer.mipmapEnabled = false;
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importer.SaveAndReimport();
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var texture = AssetDatabase.LoadAssetAtPath<Texture>(assetName);
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target.SetTextureByIndex(i, texture);
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}
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}
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}
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else if (GUILayout.Button("Take stereo snapshot"))
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{
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const int width = 4096;
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const int height = width / 2;
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const int halfHeight = height / 2;
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var textures = new Texture2D[] {
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new Texture2D(width, height, TextureFormat.ARGB32, false),
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new Texture2D(width, height, TextureFormat.ARGB32, false) };
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var timer = new System.Diagnostics.Stopwatch();
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Camera tempCamera = null;
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foreach (SteamVR_Skybox target in targets)
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{
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timer.Start();
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var targetScene = target.gameObject.scene;
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var sceneName = Path.GetFileNameWithoutExtension(targetScene.path);
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var scenePath = Path.GetDirectoryName(targetScene.path);
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var assetPath = scenePath + "/" + sceneName;
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if (!AssetDatabase.IsValidFolder(assetPath))
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{
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var guid = AssetDatabase.CreateFolder(scenePath, sceneName);
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assetPath = AssetDatabase.GUIDToAssetPath(guid);
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}
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var camera = target.GetComponent<Camera>();
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if (camera == null)
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{
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if (tempCamera == null)
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tempCamera = new GameObject().AddComponent<Camera>();
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camera = tempCamera;
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}
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var fx = camera.gameObject.AddComponent<SteamVR_SphericalProjection>();
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var oldTargetTexture = camera.targetTexture;
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var oldOrthographic = camera.orthographic;
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var oldFieldOfView = camera.fieldOfView;
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var oldAspect = camera.aspect;
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var oldPosition = target.transform.localPosition;
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var oldRotation = target.transform.localRotation;
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var basePosition = target.transform.position;
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var baseRotation = target.transform.rotation;
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var transform = camera.transform;
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int cellSize = int.Parse(target.StereoCellSize.ToString().Substring(1));
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float ipd = target.StereoIpdMm / 1000.0f;
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int vTotal = halfHeight / cellSize;
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float dv = 90.0f / vTotal; // vertical degrees per segment
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float dvHalf = dv / 2.0f;
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var targetTexture = new RenderTexture(cellSize, cellSize, 24);
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targetTexture.wrapMode = TextureWrapMode.Clamp;
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targetTexture.antiAliasing = 8;
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camera.fieldOfView = dv;
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camera.orthographic = false;
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camera.targetTexture = targetTexture;
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// Render sections of a sphere using a rectilinear projection
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// and resample using a sphereical projection into a single panorama
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// texture per eye. We break into sections in order to keep the eye
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// separation similar around the sphere. Rendering alternates between
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// top and bottom sections, sweeping horizontally around the sphere,
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// alternating left and right eyes.
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for (int v = 0; v < vTotal; v++)
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{
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var pitch = 90.0f - (v * dv) - dvHalf;
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var uTotal = width / targetTexture.width;
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var du = 360.0f / uTotal; // horizontal degrees per segment
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var duHalf = du / 2.0f;
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var vTarget = v * halfHeight / vTotal;
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for (int i = 0; i < 2; i++) // top, bottom
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{
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if (i == 1)
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{
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pitch = -pitch;
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vTarget = height - vTarget - cellSize;
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}
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for (int u = 0; u < uTotal; u++)
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{
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var yaw = -180.0f + (u * du) + duHalf;
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var uTarget = u * width / uTotal;
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var xOffset = -ipd / 2 * Mathf.Cos(pitch * Mathf.Deg2Rad);
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for (int j = 0; j < 2; j++) // left, right
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{
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var texture = textures[j];
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if (j == 1)
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{
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xOffset = -xOffset;
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}
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var offset = baseRotation * Quaternion.Euler(0, yaw, 0) * new Vector3(xOffset, 0, 0);
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transform.position = basePosition + offset;
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var direction = Quaternion.Euler(pitch, yaw, 0.0f);
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transform.rotation = baseRotation * direction;
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// vector pointing to center of this section
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var N = direction * Vector3.forward;
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// horizontal span of this section in degrees
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var phi0 = yaw - (du / 2);
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var phi1 = phi0 + du;
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// vertical span of this section in degrees
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var theta0 = pitch + (dv / 2);
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var theta1 = theta0 - dv;
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var midPhi = (phi0 + phi1) / 2;
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var baseTheta = Mathf.Abs(theta0) < Mathf.Abs(theta1) ? theta0 : theta1;
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// vectors pointing to corners of image closes to the equator
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var V00 = Quaternion.Euler(baseTheta, phi0, 0.0f) * Vector3.forward;
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var V01 = Quaternion.Euler(baseTheta, phi1, 0.0f) * Vector3.forward;
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// vectors pointing to top and bottom midsection of image
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var V0M = Quaternion.Euler(theta0, midPhi, 0.0f) * Vector3.forward;
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var V1M = Quaternion.Euler(theta1, midPhi, 0.0f) * Vector3.forward;
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// intersection points for each of the above
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var P00 = V00 / Vector3.Dot(V00, N);
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var P01 = V01 / Vector3.Dot(V01, N);
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var P0M = V0M / Vector3.Dot(V0M, N);
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var P1M = V1M / Vector3.Dot(V1M, N);
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// calculate basis vectors for plane
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var P00_P01 = P01 - P00;
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var P0M_P1M = P1M - P0M;
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var uMag = P00_P01.magnitude;
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var vMag = P0M_P1M.magnitude;
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var uScale = 1.0f / uMag;
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var vScale = 1.0f / vMag;
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var uAxis = P00_P01 * uScale;
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var vAxis = P0M_P1M * vScale;
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// update material constant buffer
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fx.Set(N, phi0, phi1, theta0, theta1,
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uAxis, P00, uScale,
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vAxis, P0M, vScale);
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camera.aspect = uMag / vMag;
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camera.Render();
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RenderTexture.active = targetTexture;
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texture.ReadPixels(new Rect(0, 0, targetTexture.width, targetTexture.height), uTarget, vTarget);
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RenderTexture.active = null;
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}
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}
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}
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}
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// Save textures to disk.
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for (int i = 0; i < 2; i++)
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{
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var texture = textures[i];
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texture.Apply();
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var assetName = string.Format(nameFormat, assetPath, target.name, i);
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File.WriteAllBytes(assetName, texture.EncodeToPNG());
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}
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// Cleanup.
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if (camera != tempCamera)
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{
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camera.targetTexture = oldTargetTexture;
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camera.orthographic = oldOrthographic;
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camera.fieldOfView = oldFieldOfView;
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camera.aspect = oldAspect;
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target.transform.localPosition = oldPosition;
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target.transform.localRotation = oldRotation;
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}
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else
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{
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tempCamera.targetTexture = null;
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}
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DestroyImmediate(targetTexture);
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DestroyImmediate(fx);
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timer.Stop();
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Debug.Log(string.Format("<b>[SteamVR]</b> Screenshot took {0} seconds.", timer.Elapsed));
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}
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if (tempCamera != null)
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{
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DestroyImmediate(tempCamera.gameObject);
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}
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DestroyImmediate(textures[0]);
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DestroyImmediate(textures[1]);
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// Now that everything has be written out, reload the associated assets and assign them.
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AssetDatabase.Refresh();
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foreach (SteamVR_Skybox target in targets)
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{
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var targetScene = target.gameObject.scene;
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var sceneName = Path.GetFileNameWithoutExtension(targetScene.path);
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var scenePath = Path.GetDirectoryName(targetScene.path);
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var assetPath = scenePath + "/" + sceneName;
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for (int i = 0; i < 2; i++)
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{
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var assetName = string.Format(nameFormat, assetPath, target.name, i);
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var importer = AssetImporter.GetAtPath(assetName) as TextureImporter;
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importer.mipmapEnabled = false;
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importer.wrapMode = TextureWrapMode.Repeat;
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#if (UNITY_5_4 || UNITY_5_3 || UNITY_5_2 || UNITY_5_1 || UNITY_5_0)
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importer.SetPlatformTextureSettings("Standalone", width, TextureImporterFormat.RGB24);
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#else
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var settings = importer.GetPlatformTextureSettings("Standalone");
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settings.textureCompression = TextureImporterCompression.Uncompressed;
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settings.maxTextureSize = width;
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importer.SetPlatformTextureSettings(settings);
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#endif
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importer.SaveAndReimport();
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var texture = AssetDatabase.LoadAssetAtPath<Texture2D>(assetName);
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target.SetTextureByIndex(i, texture);
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}
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}
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}
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}
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}
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} |