using dnlib.DotNet; using HybridCLR.Editor.Meta; using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading.Tasks; using UnityEngine; namespace HybridCLR.Editor.MethodBridge { public class Analyzer { public class Options { public AssemblyReferenceDeepCollector Collector { get; set; } public int MaxIterationCount { get; set; } } private readonly int _maxInterationCount; private readonly AssemblyReferenceDeepCollector _assemblyCollector; private readonly object _lock = new object(); private readonly List _typeDefs = new List(); private readonly HashSet _genericTypes = new HashSet(); private readonly HashSet _genericMethods = new HashSet(); private List _processingMethods = new List(); private List _newMethods = new List(); public IReadOnlyList TypeDefs => _typeDefs; public IReadOnlyCollection GenericTypes => _genericTypes; public IReadOnlyCollection GenericMethods => _genericMethods; private readonly MethodReferenceAnalyzer _methodReferenceAnalyzer; public Analyzer(Options options) { _maxInterationCount = options.MaxIterationCount; _assemblyCollector = options.Collector; _methodReferenceAnalyzer = new MethodReferenceAnalyzer(this.OnNewMethod); } private void TryAddAndWalkGenericType(GenericClass gc) { if (gc == null) { return; } lock(_lock) { gc = StandardizeClass(gc); if (_genericTypes.Add(gc)) { WalkType(gc); } } } private GenericClass StandardizeClass(GenericClass gc) { TypeDef typeDef = gc.Type; ICorLibTypes corLibTypes = typeDef.Module.CorLibTypes; List klassGenericParams = gc.KlassInst != null ? MetaUtil.ToShareTypeSigs(corLibTypes, gc.KlassInst) : (typeDef.GenericParameters.Count > 0 ? MetaUtil.CreateDefaultGenericParams(typeDef.Module, typeDef.GenericParameters.Count) : null); return new GenericClass(typeDef, klassGenericParams); } private GenericMethod StandardizeMethod(GenericMethod gm) { TypeDef typeDef = gm.Method.DeclaringType; ICorLibTypes corLibTypes = typeDef.Module.CorLibTypes; List klassGenericParams = gm.KlassInst != null ? MetaUtil.ToShareTypeSigs(corLibTypes, gm.KlassInst) : (typeDef.GenericParameters.Count > 0 ? MetaUtil.CreateDefaultGenericParams(typeDef.Module, typeDef.GenericParameters.Count) : null); List methodGenericParams = gm.MethodInst != null ? MetaUtil.ToShareTypeSigs(corLibTypes, gm.MethodInst) : (gm.Method.GenericParameters.Count > 0 ? MetaUtil.CreateDefaultGenericParams(typeDef.Module, gm.Method.GenericParameters.Count) : null); return new GenericMethod(gm.Method, klassGenericParams, methodGenericParams); } private void OnNewMethod(MethodDef methodDef, List klassGenericInst, List methodGenericInst, GenericMethod method) { lock(_lock) { method = StandardizeMethod(method); if (_genericMethods.Add(method)) { _newMethods.Add(method); } if (method.KlassInst != null) { TryAddAndWalkGenericType(new GenericClass(method.Method.DeclaringType, method.KlassInst)); } } } private void WalkType(GenericClass gc) { //Debug.Log($"typespec:{sig} {sig.GenericType} {sig.GenericType.TypeDefOrRef.ResolveTypeDef()}"); //Debug.Log($"== walk generic type:{new GenericInstSig(gc.Type.ToTypeSig().ToClassOrValueTypeSig(), gc.KlassInst)}"); ITypeDefOrRef baseType = gc.Type.BaseType; if (baseType != null && baseType.TryGetGenericInstSig() != null) { GenericClass parentType = GenericClass.ResolveClass((TypeSpec)baseType, new GenericArgumentContext(gc.KlassInst, null)); TryAddAndWalkGenericType(parentType); } foreach (var method in gc.Type.Methods) { var gm = StandardizeMethod(new GenericMethod(method, gc.KlassInst, null)); //Debug.Log($"add method:{gm.Method} {gm.KlassInst}"); if (_genericMethods.Add(gm)) { if (method.HasBody && method.Body.Instructions != null) { _newMethods.Add(gm); } } } } private void WalkType(TypeDef typeDef) { _typeDefs.Add(typeDef); ITypeDefOrRef baseType = typeDef.BaseType; if (baseType != null && baseType.TryGetGenericInstSig() != null) { GenericClass gc = GenericClass.ResolveClass((TypeSpec)baseType, null); TryAddAndWalkGenericType(gc); } foreach (var method in typeDef.Methods) { // 对于带泛型的参数，统一泛型共享为object var gm = StandardizeMethod(new GenericMethod(method, null, null)); _genericMethods.Add(gm); } } private void Prepare() { // 将所有非泛型函数全部加入函数列表，同时立马walk这些method。 // 后续迭代中将只遍历MethodSpec foreach (var ass in _assemblyCollector.GetLoadedModules()) { foreach (TypeDef typeDef in ass.GetTypes()) { WalkType(typeDef); } for (uint rid = 1, n = ass.Metadata.TablesStream.TypeSpecTable.Rows; rid <= n; rid++) { var ts = ass.ResolveTypeSpec(rid); var cs = GenericClass.ResolveClass(ts, null); if (cs != null) { TryAddAndWalkGenericType(cs); } } for (uint rid = 1, n = ass.Metadata.TablesStream.MethodSpecTable.Rows; rid <= n; rid++) { var ms = ass.ResolveMethodSpec(rid); var gm = GenericMethod.ResolveMethod(ms, null)?.ToGenericShare(); if (gm == null) { continue; } gm = StandardizeMethod(gm); if (_genericMethods.Add(gm)) { _newMethods.Add(gm); } } } Debug.Log($"PostPrepare allMethods:{_genericMethods.Count} newMethods:{_newMethods.Count}"); } private void RecursiveCollect() { for (int i = 0; i < _maxInterationCount && _newMethods.Count > 0; i++) { var temp = _processingMethods; _processingMethods = _newMethods; _newMethods = temp; _newMethods.Clear(); Task.WaitAll(_processingMethods.Select(method => Task.Run(() => { _methodReferenceAnalyzer.WalkMethod(method.Method, method.KlassInst, method.MethodInst); })).ToArray()); Debug.Log($"iteration:[{i}] genericClass:{_genericTypes.Count} genericMethods:{_genericMethods.Count} newMethods:{_newMethods.Count}"); } } public void Run() { Prepare(); RecursiveCollect(); } } }