using System; using System.Collections.Generic; using System.IO; using System.Linq; using System.Reflection; using System.Reflection.Emit; using System.Text; using Mono.Cecil; namespace BepInEx { /// /// Generic helper properties and methods. /// public static class Utility { /// /// Whether current Common Language Runtime supports dynamic method generation using namespace. /// public static bool CLRSupportsDynamicAssemblies { get; } static Utility() { try { CLRSupportsDynamicAssemblies = true; // ReSharper disable once AssignNullToNotNullAttribute var m = new CustomAttributeBuilder(null, new object[0]); } catch (PlatformNotSupportedException) { CLRSupportsDynamicAssemblies = false; } catch (ArgumentNullException) { // Suppress ArgumentNullException } } /// /// Try to perform an action. /// /// Action to perform. /// Possible exception that gets returned. /// True, if action succeeded, false if an exception occured. public static bool TryDo(Action action, out Exception exception) { exception = null; try { action(); return true; } catch (Exception e) { exception = e; return false; } } /// /// Combines multiple paths together, as the specific method is not available in .NET 3.5. /// /// The multiple paths to combine together. /// A combined path. public static string CombinePaths(params string[] parts) => parts.Aggregate(Path.Combine); /// /// Tries to parse a bool, with a default value if unable to parse. /// /// The string to parse /// The value to return if parsing is unsuccessful. /// Boolean value of input if able to be parsed, otherwise default value. public static bool SafeParseBool(string input, bool defaultValue = false) { return Boolean.TryParse(input, out bool result) ? result : defaultValue; } /// /// Converts a file path into a UnityEngine.WWW format. /// /// The file path to convert. /// A converted file path. public static string ConvertToWWWFormat(string path) { return $"file://{path.Replace('\\', '/')}"; } /// /// Indicates whether a specified string is null, empty, or consists only of white-space characters. /// /// The string to test. /// True if the value parameter is null or empty, or if value consists exclusively of white-space characters. public static bool IsNullOrWhiteSpace(this string self) { return self == null || self.All(Char.IsWhiteSpace); } public static IEnumerable TopologicalSort(IEnumerable nodes, Func> dependencySelector) { List sorted_list = new List(); HashSet visited = new HashSet(); HashSet sorted = new HashSet(); foreach (TNode input in nodes) { Stack currentStack = new Stack(); if (!Visit(input, currentStack)) { throw new Exception("Cyclic Dependency:\r\n" + currentStack.Select(x => $" - {x}") //append dashes .Aggregate((a, b) => $"{a}\r\n{b}")); //add new lines inbetween } } return sorted_list; bool Visit(TNode node, Stack stack) { if (visited.Contains(node)) { if (!sorted.Contains(node)) { return false; } } else { visited.Add(node); stack.Push(node); foreach (var dep in dependencySelector(node)) if (!Visit(dep, stack)) return false; sorted.Add(node); sorted_list.Add(node); stack.Pop(); } return true; } } /// /// Try to resolve and load the given assembly DLL. /// /// Name of the assembly, of the type . /// Directory to search the assembly from. /// The loaded assembly. /// True, if the assembly was found and loaded. Otherwise, false. private static bool TryResolveDllAssembly(AssemblyName assemblyName, string directory, Func loader, out T assembly) where T : class { assembly = null; var potentialDirectories = new List { directory }; potentialDirectories.AddRange(Directory.GetDirectories(directory, "*", SearchOption.AllDirectories)); foreach (string subDirectory in potentialDirectories) { string[] potentialPaths = new[] { $"{assemblyName.Name}.dll", $"{assemblyName.Name}.exe" }; foreach (var potentialPath in potentialPaths) { string path = Path.Combine(subDirectory, potentialPath); if (!File.Exists(path)) continue; try { assembly = loader(path); } catch (Exception) { continue; } return true; } } return false; } public static bool IsSubtypeOf(this TypeDefinition self, Type td) { if (self.FullName == td.FullName) return true; return self.FullName != "System.Object" && (self.BaseType?.Resolve()?.IsSubtypeOf(td) ?? false); } /// /// Try to resolve and load the given assembly DLL. /// /// Name of the assembly, of the type . /// Directory to search the assembly from. /// The loaded assembly. /// True, if the assembly was found and loaded. Otherwise, false. public static bool TryResolveDllAssembly(AssemblyName assemblyName, string directory, out Assembly assembly) { return TryResolveDllAssembly(assemblyName, directory, Assembly.LoadFile, out assembly); } /// /// Try to resolve and load the given assembly DLL. /// /// Name of the assembly, of the type . /// Directory to search the assembly from. /// The loaded assembly. /// True, if the assembly was found and loaded. Otherwise, false. public static bool TryResolveDllAssembly(AssemblyName assemblyName, string directory, ReaderParameters readerParameters, out AssemblyDefinition assembly) { return TryResolveDllAssembly(assemblyName, directory, s => AssemblyDefinition.ReadAssembly(s, readerParameters), out assembly); } /// /// Tries to create a file with the given name /// /// Path of the file to create /// File open mode /// Resulting filestream /// File access options /// File share options /// public static bool TryOpenFileStream(string path, FileMode mode, out FileStream fileStream, FileAccess access = FileAccess.ReadWrite, FileShare share = FileShare.Read) { try { fileStream = new FileStream(path, mode, access, share); return true; } catch (IOException) { fileStream = null; return false; } } public static IEnumerable EnumerateAllMethods(this TypeDefinition type) { var currentType = type; while (currentType != null) { foreach (var method in currentType.Methods) yield return method; currentType = currentType.BaseType?.Resolve(); } } public static string ByteArrayToString(byte[] data) { StringBuilder builder = new StringBuilder(data.Length * 2); foreach (byte b in data) builder.AppendFormat("{0:x2}", b); return builder.ToString(); } } }