using System; using System.Collections.Generic; using System.IO; using System.Runtime.Serialization.Formatters.Binary; using System.Security.Cryptography; using System.Text; using System.Text.RegularExpressions; using UnityEngine; public class UTY : MonoBehaviour { public static string[] GetStringList(string sss) { List list = new List(); if (sss == null) { sss = string.Empty; } int length = sss.Length; int i = 0; string text = string.Empty; while (i < length) { while (i < length && (sss[i] == ' ' || sss[i] == '\t' || sss[i] == '\u3000' || sss[i] == '\r')) { i++; } if (i == length) { break; } if (i < length && sss[i] == '"') { i++; while (i < length && sss[i] != '"') { text += sss[i]; i++; } i++; } else { while (i < length && sss[i] != ' ' && sss[i] != '\t' && sss[i] != '\u3000' && sss[i] != '\r') { text += sss[i]; i++; } } list.Add(text); text = string.Empty; } return list.ToArray(); } public static float DistLineToPointPrim3(Vector3 p0, Vector3 p1, Vector3 c) { Vector3 vector = p1 - p0; if (vector == Vector3.zero) { return 0f; } Vector3 rhs = c - p0; float magnitude = vector.magnitude; float d = Vector3.Dot(vector, rhs) / magnitude; return (c - (p0 + vector * d)).magnitude; } public static Vector3 LineToPointPrim3(Vector3 p0, Vector3 p1, Vector3 c) { Vector3 vector = p1 - p0; if (vector == Vector3.zero) { return Vector3.zero; } Vector3 rhs = c - p0; float sqrMagnitude = vector.sqrMagnitude; float d = Vector3.Dot(vector, rhs) / sqrMagnitude; return p0 + vector * d; } public static string GetStringCom(string sss) { int length = sss.Length; int num = 0; string text = string.Empty; while (num < length && (sss[num] == ' ' || sss[num] == '\t' || sss[num] == '\u3000')) { num++; } if (num < length && sss[num] == '/') { return string.Empty; } if (num < length && sss[num] == '"') { num++; while (num < length && sss[num] != '"') { text += sss[num]; num++; } num++; } else { while (num < length && sss[num] != ' ' && sss[num] != '\t' && sss[num] != '\u3000') { text += sss[num]; num++; } } return text.ToLower(); } public static string[] GetStringListSS(string sss) { List list = new List(); int length = sss.Length; int i = 0; string text = string.Empty; while (i < length) { while (i < length && (sss[i] == ' ' || sss[i] == '\t' || sss[i] == '\u3000')) { i++; } if (i == length) { break; } if (i < length && sss[i] == '"') { i++; while (i < length && sss[i] != '"') { text += sss[i]; i++; } i++; } else if (i < length && sss[i] == '『') { i++; while (i < length && sss[i] != '』') { text += sss[i]; i++; } i++; } else { while (i < length && sss[i] != ' ' && sss[i] != '\t' && sss[i] != '\u3000') { text += sss[i]; i++; } } list.Add(text); text = string.Empty; } return list.ToArray(); } public static string[] GetStringListSS_2(string sss) { List list = new List(); int length = sss.Length; int i = 0; string text = string.Empty; while (i < length) { while (i < length && (sss[i] == ' ' || sss[i] == '\t' || sss[i] == '\u3000')) { i++; } if (i == length) { break; } if (i < length && sss[i] == '"') { i++; text += "\""; while (i < length && sss[i] != '"') { text += sss[i]; i++; } i++; text += "\""; } else if (i < length && sss[i] == '『') { i++; text += "『"; while (i < length && sss[i] != '』') { text += sss[i]; i++; } i++; text += "』"; } else { while (i < length && sss[i] != ' ' && sss[i] != '\t' && sss[i] != '\u3000') { text += sss[i]; i++; } } list.Add(text); text = string.Empty; } return list.ToArray(); } public static int Clamp(int val, int min, int max) { if (val > max) { return max; } if (val < min) { return min; } return val; } public static int GetRnd(int n) { if (UTY.rnd == null) { UTY.rnd = new System.Random(); } return UTY.rnd.Next(n); } public static float COSS2(float v, float pw = 4f) { if (v < 0.5f) { v *= 2f; float num = Mathf.Pow(v, pw); return num * 0.5f; } float num2 = (1f - v) * 2f; num2 = 1f - Mathf.Pow(num2, pw); return num2 * 0.5f + 0.5f; } public static float COSS(float v) { return Mathf.Cos(3.14159274f * (1f - v)) * 0.5f + 0.5f; } private bool Texture2Image(RenderTexture f_rtSrc, string f_strSaveFileName) { return true; } public static string FileNameEscape(string f_strSrc) { return Regex.Replace(f_strSrc, UTY.m_strEscapePattern, "_"); } public static void InitDll() { } public static void FreeDll() { } public static GameObject GetChildObject(GameObject f_goParent, string f_strObjName, bool f_bNoError = false) { Transform transform = f_goParent.transform.Find(f_strObjName); if (f_bNoError) { if (transform == null) { return null; } } else if (transform == null) { NDebug.Assert(f_goParent.name + " の子から " + f_strObjName + " が見つかりませんでした。相対パス指定が必要です。", false); } return transform.gameObject; } public static GameObject GetChildObjectNoError(GameObject f_goParent, string f_strObjName, bool f_bNoError = false) { Transform transform = f_goParent.transform.Find(f_strObjName); if (f_bNoError) { if (transform == null) { return null; } } else if (transform == null) { return null; } return transform.gameObject; } public static string GetObjectTreePath(GameObject obj) { string text = string.Empty; if (obj == null) { return text; } text += obj.name; while (obj.transform.parent != null) { obj = obj.transform.parent.gameObject; text = obj.name + "/" + text; } return text; } public static byte[] GetPixelArray(Texture2D f_texSrc) { return ColorPalette.GetPixelArrayNativeFromRGBA8(f_texSrc); } public static void ConvertColor(MaidParts.PartsColor f_cColor, byte[] f_bySrc, ref Texture2D f_texDest) { UTY.m_colStatus.base_color.hue = f_cColor.m_nMainHue; UTY.m_colStatus.base_color.sat = f_cColor.m_nMainChroma; UTY.m_colStatus.base_color.brightness = f_cColor.m_nMainBrightness; UTY.m_colStatus.base_color.contrast = f_cColor.m_nMainContrast; UTY.m_colStatus.shadow_color.hue = f_cColor.m_nShadowHue; UTY.m_colStatus.shadow_color.sat = f_cColor.m_nShadowChroma; UTY.m_colStatus.shadow_color.brightness = f_cColor.m_nShadowBrightness; UTY.m_colStatus.shadow_color.contrast = f_cColor.m_nShadowContrast; UTY.m_colStatus.shadow_threshold = f_cColor.m_nShadowRate; ColorPalette.ConvertColor(UTY.m_colStatus, f_bySrc, ref f_texDest); } public static void ConvertColorHue(int f_nHue, byte[] f_bySrc, ref Texture2D f_texDest) { UTY.m_colStatus.base_color.hue = f_nHue; UTY.m_colStatus.base_color.sat = 128; UTY.m_colStatus.base_color.brightness = 255; UTY.m_colStatus.base_color.contrast = 0; UTY.m_colStatus.shadow_color.hue = 0; UTY.m_colStatus.shadow_color.sat = 0; UTY.m_colStatus.shadow_color.brightness = 0; UTY.m_colStatus.shadow_color.contrast = 0; UTY.m_colStatus.shadow_threshold = 0; ColorPalette.ConvertColor(UTY.m_colStatus, f_bySrc, ref f_texDest); } public static void ConvertColor(ColorPalette.Status f_cColor, byte[] f_bySrc, ref Texture2D f_texDest) { ColorPalette.ConvertColor(f_cColor, f_bySrc, ref f_texDest); } public static void UpdateColorTableTexture(MaidParts.PartsColor f_cColor, ref Texture2D f_texDest) { UTY.m_colStatus.base_color.hue = f_cColor.m_nMainHue; UTY.m_colStatus.base_color.sat = f_cColor.m_nMainChroma; UTY.m_colStatus.base_color.brightness = f_cColor.m_nMainBrightness; UTY.m_colStatus.base_color.contrast = f_cColor.m_nMainContrast; UTY.m_colStatus.shadow_color.hue = f_cColor.m_nShadowHue; UTY.m_colStatus.shadow_color.sat = f_cColor.m_nShadowChroma; UTY.m_colStatus.shadow_color.brightness = f_cColor.m_nShadowBrightness; UTY.m_colStatus.shadow_color.contrast = f_cColor.m_nShadowContrast; UTY.m_colStatus.shadow_threshold = f_cColor.m_nShadowRate; ColorPalette.WriteColorTableTexture(UTY.m_colStatus, ref f_texDest); } public static void SaveImage(RenderTexture f_rtSrc, string f_strFileName = null, TextureFormat f_TexFormat = TextureFormat.ARGB32) { Texture2D texture2D = new Texture2D(f_rtSrc.width, f_rtSrc.height, f_TexFormat, false); RenderTexture active = RenderTexture.active; RenderTexture.active = f_rtSrc; texture2D.ReadPixels(new Rect(0f, 0f, (float)f_rtSrc.width, (float)f_rtSrc.height), 0, 0); RenderTexture.active = active; UTY.SaveImage(texture2D, f_strFileName); } public static string SaveImage(Texture2D f_texSrc, string f_strFileName = null) { string text = f_strFileName; if (text == null || text == string.Empty) { text = "img" + DateTime.Now.ToString("yyyyMMddHHmmss.fff") + ".png"; } byte[] bytes = f_texSrc.EncodeToPNG(); File.WriteAllBytes(text, bytes); return text; } public static byte[] LoadImage(string f_strFileName) { FileStream fileStream = new FileStream(f_strFileName, FileMode.Open); if (fileStream == null) { NDebug.Assert("イメージファイルがみつかりません。" + f_strFileName, false); } byte[] array = new byte[fileStream.Length]; fileStream.Read(array, 0, (int)fileStream.Length); fileStream.Close(); fileStream.Dispose(); return array; } public static Texture2D LoadTexture(string f_strFileName) { Texture2D texture2D = new Texture2D(1, 1, TextureFormat.ARGB32, false); texture2D.LoadImage(UTY.LoadImage(f_strFileName)); return texture2D; } public static void ClearRT(RenderTexture target, Color col) { RenderTexture active = RenderTexture.active; RenderTexture.active = target; GL.Clear(true, true, col); RenderTexture.active = active; } public static bool IsLowercaseAlphanumeric(string target) { return new Regex("^[!-~]*$()").IsMatch(target); } public static T DeepCopy(T src) { BinaryFormatter binaryFormatter = new BinaryFormatter(); MemoryStream memoryStream = new MemoryStream(); T result; try { binaryFormatter.Serialize(memoryStream, src); memoryStream.Position = 0L; result = (T)((object)binaryFormatter.Deserialize(memoryStream)); } finally { memoryStream.Close(); } return result; } public static string GetExePath() { string dataPath = Application.dataPath; int num = 0; for (int i = dataPath.Length - 1; i >= 0; i--) { if (dataPath[i] == '/') { num = i + 1; break; } } string str = dataPath.Substring(num, dataPath.Length - num).ToLower().Replace("_data", ".exe"); string str2 = dataPath.Substring(0, num); return str2 + str; } private static System.Random rnd; private static string m_strEscapePattern = "(\\\\|/|:|\\*|\\?|\"|\\<|\\>|\\||\\.|\\,)"; private static ColorPalette.Status m_colStatus = new ColorPalette.Status(); private class Crypt { public static string Encrypt(string text) { ICryptoTransform transform = new RijndaelManaged { BlockSize = 128, KeySize = 128, Padding = PaddingMode.Zeros, Mode = CipherMode.CBC, Key = Encoding.UTF8.GetBytes("feaeaeantydhgs"), IV = Encoding.UTF8.GetBytes("ujuuiaefharsbs") }.CreateEncryptor(); MemoryStream memoryStream = new MemoryStream(); CryptoStream cryptoStream = new CryptoStream(memoryStream, transform, CryptoStreamMode.Write); byte[] bytes = Encoding.UTF8.GetBytes(text); cryptoStream.Write(bytes, 0, bytes.Length); cryptoStream.FlushFinalBlock(); byte[] inArray = memoryStream.ToArray(); return Convert.ToBase64String(inArray); } public static string Decrypt(string cryptText) { ICryptoTransform transform = new RijndaelManaged { BlockSize = 128, KeySize = 128, Padding = PaddingMode.Zeros, Mode = CipherMode.CBC, Key = Encoding.UTF8.GetBytes("feaeaeantydhgs"), IV = Encoding.UTF8.GetBytes("ujuuiaefharsbs") }.CreateDecryptor(); byte[] array = Convert.FromBase64String(cryptText); byte[] array2 = new byte[array.Length]; MemoryStream stream = new MemoryStream(array); CryptoStream cryptoStream = new CryptoStream(stream, transform, CryptoStreamMode.Read); cryptoStream.Read(array2, 0, array2.Length); return Encoding.UTF8.GetString(array2); } private const string AesIV = "ujuuiaefharsbs"; private const string AesKey = "feaeaeantydhgs"; } }