hybridclr_unity/Editor/MethodBridge/Generator.cs

829 lines
32 KiB
C#

using dnlib.DotNet;
using HybridCLR.Editor.ABI;
using HybridCLR.Editor.Meta;
using HybridCLR.Editor.Template;
using System;
using System.Collections.Generic;
using System.ComponentModel.DataAnnotations;
using System.IO;
using System.Linq;
using System.Reflection;
using System.Text;
using System.Threading.Tasks;
using UnityEditor;
using UnityEngine;
using TypeInfo = HybridCLR.Editor.ABI.TypeInfo;
namespace HybridCLR.Editor.MethodBridge
{
public class Generator
{
public class Options
{
public string TemplateCode { get; set; }
public string OutputFile { get; set; }
public IReadOnlyCollection<GenericMethod> GenericMethods { get; set; }
}
private readonly List<GenericMethod> _genericMethods;
private readonly string _templateCode;
private readonly string _outputFile;
private readonly TypeCreator _typeCreator;
private readonly HashSet<MethodDesc> _managed2nativeMethodSet = new HashSet<MethodDesc>();
private readonly HashSet<MethodDesc> _native2managedMethodSet = new HashSet<MethodDesc>();
private readonly HashSet<MethodDesc> _adjustThunkMethodSet = new HashSet<MethodDesc>();
public Generator(Options options)
{
List<(GenericMethod, string)> genericMethodInfo = options.GenericMethods.Select(m => (m, m.ToString())).ToList();
genericMethodInfo.Sort((a, b) => string.CompareOrdinal(a.Item2, b.Item2));
_genericMethods = genericMethodInfo.Select(m => m.Item1).ToList();
_templateCode = options.TemplateCode;
_outputFile = options.OutputFile;
_typeCreator = new TypeCreator();
}
private readonly Dictionary<string, TypeInfo> _sig2Types = new Dictionary<string, TypeInfo>();
private TypeInfo GetSharedTypeInfo(TypeSig type)
{
var typeInfo = _typeCreator.CreateTypeInfo(type);
if (!typeInfo.IsStruct)
{
return typeInfo;
}
string sigName = ToFullName(typeInfo.Klass);
if (!_sig2Types.TryGetValue(sigName, out var sharedTypeInfo))
{
sharedTypeInfo = typeInfo;
_sig2Types.Add(sigName, sharedTypeInfo);
}
return sharedTypeInfo;
}
private MethodDesc CreateMethodDesc(MethodDef methodDef, bool forceRemoveThis, TypeSig returnType, List<TypeSig> parameters)
{
var paramInfos = new List<ParamInfo>();
if (forceRemoveThis && !methodDef.IsStatic)
{
parameters.RemoveAt(0);
}
if (returnType.ContainsGenericParameter)
{
throw new Exception($"[PreservedMethod] method:{methodDef} has generic parameters");
}
foreach (var paramInfo in parameters)
{
if (paramInfo.ContainsGenericParameter)
{
throw new Exception($"[PreservedMethod] method:{methodDef} has generic parameters");
}
paramInfos.Add(new ParamInfo() { Type = GetSharedTypeInfo(paramInfo) });
}
var mbs = new MethodDesc()
{
MethodDef = methodDef,
ReturnInfo = new ReturnInfo() { Type = returnType != null ? GetSharedTypeInfo(returnType) : TypeInfo.s_void },
ParamInfos = paramInfos,
};
return mbs;
}
private void AddManaged2NativeMethod(MethodDesc method)
{
method.Init();
_managed2nativeMethodSet.Add(method);
}
private void AddNative2ManagedMethod(MethodDesc method)
{
method.Init();
_native2managedMethodSet.Add(method);
}
private void AddAdjustThunkMethod(MethodDesc method)
{
method.Init();
_adjustThunkMethodSet.Add(method);
}
private void ProcessMethod(MethodDef method, List<TypeSig> klassInst, List<TypeSig> methodInst)
{
if (method.IsPrivate || (method.IsAssembly && !method.IsPublic && !method.IsFamily))
{
if (klassInst == null && methodInst == null)
{
return;
}
else
{
//Debug.Log($"[PreservedMethod] method:{method}");
}
}
ICorLibTypes corLibTypes = method.Module.CorLibTypes;
TypeSig returnType;
List<TypeSig> parameters;
if (klassInst == null && methodInst == null)
{
if (method.HasGenericParameters)
{
throw new Exception($"[PreservedMethod] method:{method} has generic parameters");
}
returnType = MetaUtil.ToShareTypeSig(corLibTypes, method.ReturnType);
parameters = method.Parameters.Select(p => MetaUtil.ToShareTypeSig(corLibTypes, p.Type)).ToList();
}
else
{
var gc = new GenericArgumentContext(klassInst, methodInst);
returnType = MetaUtil.ToShareTypeSig(corLibTypes, MetaUtil.Inflate(method.ReturnType, gc));
parameters = method.Parameters.Select(p => MetaUtil.ToShareTypeSig(corLibTypes, MetaUtil.Inflate(p.Type, gc))).ToList();
}
var m2nMethod = CreateMethodDesc(method, false, returnType, parameters);
AddManaged2NativeMethod(m2nMethod);
if (method.IsVirtual)
{
if (method.DeclaringType.IsInterface)
{
AddAdjustThunkMethod(m2nMethod);
}
//var adjustThunkMethod = CreateMethodDesc(method, true, returnType, parameters);
AddNative2ManagedMethod(m2nMethod);
}
if (method.Name == "Invoke" && method.DeclaringType.IsDelegate)
{
var openMethod = CreateMethodDesc(method, true, returnType, parameters);
AddNative2ManagedMethod(openMethod);
}
}
public void PrepareMethods()
{
foreach(var method in _genericMethods)
{
ProcessMethod(method.Method, method.KlassInst, method.MethodInst);
}
}
static void CheckUnique(IEnumerable<string> names)
{
var set = new HashSet<string>();
foreach (var name in names)
{
if (!set.Add(name))
{
throw new Exception($"[CheckUnique] duplicate name:{name}");
}
}
}
private List<MethodDesc> _managed2NativeMethodList0;
private List<MethodDesc> _native2ManagedMethodList0;
private List<MethodDesc> _adjustThunkMethodList0;
private List<TypeInfo> _structTypes0;
private void CollectTypesAndMethods()
{
_managed2NativeMethodList0 = _managed2nativeMethodSet.ToList();
_managed2NativeMethodList0.Sort((a, b) => string.CompareOrdinal(a.Sig, b.Sig));
_native2ManagedMethodList0 = _native2managedMethodSet.ToList();
_native2ManagedMethodList0.Sort((a, b) => string.CompareOrdinal(a.Sig, b.Sig));
_adjustThunkMethodList0 = _adjustThunkMethodSet.ToList();
_adjustThunkMethodList0.Sort((a, b) => string.CompareOrdinal(a.Sig, b.Sig));
var structTypeSet = new HashSet<TypeInfo>();
CollectStructDefs(_managed2NativeMethodList0, structTypeSet);
CollectStructDefs(_native2ManagedMethodList0, structTypeSet);
CollectStructDefs(_adjustThunkMethodList0, structTypeSet);
_structTypes0 = structTypeSet.ToList();
_structTypes0.Sort((a, b) => a.TypeId - b.TypeId);
CheckUnique(_structTypes0.Select(t => ToFullName(t.Klass)));
CheckUnique(_structTypes0.Select(t => t.CreateSigName()));
Debug.LogFormat("== before optimization struct:{3} managed2native:{0} native2managed:{1} adjustThunk:{2}",
_managed2NativeMethodList0.Count, _native2ManagedMethodList0.Count, _adjustThunkMethodList0.Count, _structTypes0.Count);
}
private class AnalyzeTypeInfo
{
public TypeInfo toSharedType;
public List<TypeInfo> fields;
public string signature;
}
private readonly Dictionary<TypeInfo, AnalyzeTypeInfo> _analyzeTypeInfos = new Dictionary<TypeInfo, AnalyzeTypeInfo>();
private readonly Dictionary<string, TypeInfo> _signature2Type = new Dictionary<string, TypeInfo>();
private AnalyzeTypeInfo CalculateAnalyzeTypeInfoBasic(TypeInfo typeInfo)
{
TypeSig type = typeInfo.Klass;
TypeDef typeDef = type.ToTypeDefOrRef().ResolveTypeDefThrow();
List<TypeSig> klassInst = type.ToGenericInstSig()?.GenericArguments?.ToList();
GenericArgumentContext ctx = klassInst != null ? new GenericArgumentContext(klassInst, null) : null;
ClassLayout sa = typeDef.ClassLayout;
var analyzeTypeInfo = new AnalyzeTypeInfo();
// don't share type with explicit layout
if (sa != null)
{
analyzeTypeInfo.toSharedType = typeInfo;
analyzeTypeInfo.signature = typeInfo.CreateSigName();
_signature2Type.Add(analyzeTypeInfo.signature, typeInfo);
return analyzeTypeInfo;
}
var fields = analyzeTypeInfo.fields = new List<TypeInfo>();
foreach (FieldDef field in typeDef.Fields)
{
if (field.IsStatic)
{
continue;
}
TypeSig fieldType = ctx != null ? MetaUtil.Inflate(field.FieldType, ctx) : field.FieldType;
fields.Add(GetSharedTypeInfo(fieldType));
}
return analyzeTypeInfo;
}
private string GetOrCalculateTypeInfoSignature(TypeInfo typeInfo)
{
if (!typeInfo.IsStruct)
{
return typeInfo.CreateSigName();
}
var ati = _analyzeTypeInfos[typeInfo];
//if (_analyzeTypeInfos.TryGetValue(typeInfo, out var ati))
//{
// return ati.signature;
//}
//ati = CalculateAnalyzeTypeInfoBasic(typeInfo);
//_analyzeTypeInfos.Add(typeInfo, ati);
if (ati.signature != null)
{
return ati.signature;
}
var sigBuf = new StringBuilder();
foreach (var field in ati.fields)
{
sigBuf.Append(GetOrCalculateTypeInfoSignature(ToIsomorphicType(field)));
}
return ati.signature = sigBuf.ToString();
}
private TypeInfo ToIsomorphicType(TypeInfo type)
{
if (!type.IsStruct)
{
return type;
}
if (!_analyzeTypeInfos.TryGetValue(type, out var ati))
{
ati = CalculateAnalyzeTypeInfoBasic(type);
_analyzeTypeInfos.Add(type, ati);
}
if (ati.toSharedType == null)
{
string signature = GetOrCalculateTypeInfoSignature(type);
Debug.Assert(signature == ati.signature);
if (_signature2Type.TryGetValue(signature, out var sharedType))
{
// Debug.Log($"[ToIsomorphicType] type:{type.Klass} ==> sharedType:{sharedType.Klass} signature:{signature} ");
ati.toSharedType = sharedType;
}
else
{
ati.toSharedType = type;
_signature2Type.Add(signature, type);
}
}
return ati.toSharedType;
}
private MethodDesc ToIsomorphicMethod(MethodDesc method)
{
var paramInfos = new List<ParamInfo>();
foreach (var paramInfo in method.ParamInfos)
{
paramInfos.Add(new ParamInfo() { Type = ToIsomorphicType(paramInfo.Type) });
}
var mbs = new MethodDesc()
{
MethodDef = method.MethodDef,
ReturnInfo = new ReturnInfo() { Type = ToIsomorphicType(method.ReturnInfo.Type) },
ParamInfos = paramInfos,
};
mbs.Init();
return mbs;
}
private List<MethodDesc> _managed2NativeMethodList;
private List<MethodDesc> _native2ManagedMethodList;
private List<MethodDesc> _adjustThunkMethodList;
private List<TypeInfo> structTypes;
private void BuildAnalyzeTypeInfos()
{
foreach (var type in _structTypes0)
{
ToIsomorphicType(type);
}
structTypes = _signature2Type.Values.ToList();
structTypes.Sort((a, b) => a.TypeId - b.TypeId);
}
private List<MethodDesc> ToUniqueOrderedList(List<MethodDesc> methods)
{
var methodMap = new SortedDictionary<string, MethodDesc>();
foreach (var method in methods)
{
var sharedMethod = ToIsomorphicMethod(method);
var sig = sharedMethod.Sig;
if (!methodMap.TryGetValue(sig, out var _))
{
methodMap.Add(sig, sharedMethod);
}
}
return methodMap.Values.ToList();
}
private void BuildOptimizedMethods()
{
_managed2NativeMethodList = ToUniqueOrderedList(_managed2NativeMethodList0);
_native2ManagedMethodList = ToUniqueOrderedList(_native2ManagedMethodList0);
_adjustThunkMethodList = ToUniqueOrderedList(_adjustThunkMethodList0);
}
private void OptimizationTypesAndMethods()
{
BuildAnalyzeTypeInfos();
BuildOptimizedMethods();
Debug.LogFormat("== after optimization struct:{3} managed2native:{0} native2managed:{1} adjustThunk:{2}",
_managed2NativeMethodList.Count, _native2ManagedMethodList.Count, _adjustThunkMethodList.Count, structTypes.Count);
}
private void GenerateCode()
{
var frr = new FileRegionReplace(_templateCode);
List<string> lines = new List<string>(20_0000);
var classInfos = new List<ClassInfo>();
var classTypeSet = new HashSet<TypeInfo>();
foreach (var type in structTypes)
{
GenerateClassInfo(type, classTypeSet, classInfos);
}
GenerateStructDefines(classInfos, lines);
// use structTypes0 to generate signature
GenerateStructureSignatureStub(_structTypes0, lines);
foreach (var method in _managed2NativeMethodList)
{
GenerateManaged2NativeMethod(method, lines);
}
GenerateManaged2NativeStub(_managed2NativeMethodList, lines);
foreach (var method in _native2ManagedMethodList)
{
GenerateNative2ManagedMethod(method, lines);
}
GenerateNative2ManagedStub(_native2ManagedMethodList, lines);
foreach (var method in _adjustThunkMethodList)
{
GenerateAdjustThunkMethod(method, lines);
}
GenerateAdjustThunkStub(_adjustThunkMethodList, lines);
frr.Replace("CODE", string.Join("\n", lines));
Directory.CreateDirectory(Path.GetDirectoryName(_outputFile));
frr.Commit(_outputFile);
}
public void Generate()
{
CollectTypesAndMethods();
OptimizationTypesAndMethods();
GenerateCode();
}
private void CollectStructDefs(List<MethodDesc> methods, HashSet<TypeInfo> structTypes)
{
foreach (var method in methods)
{
foreach(var paramInfo in method.ParamInfos)
{
if (paramInfo.Type.IsStruct)
{
structTypes.Add(paramInfo.Type);
if (paramInfo.Type.Klass.ContainsGenericParameter)
{
throw new Exception($"[CollectStructDefs] method:{method.MethodDef} type:{paramInfo.Type.Klass} contains generic parameter");
}
}
}
if (method.ReturnInfo.Type.IsStruct)
{
structTypes.Add(method.ReturnInfo.Type);
if (method.ReturnInfo.Type.Klass.ContainsGenericParameter)
{
throw new Exception($"[CollectStructDefs] method:{method.MethodDef} type:{method.ReturnInfo.Type.Klass} contains generic parameter");
}
}
}
}
class FieldInfo
{
public FieldDef field;
public TypeInfo type;
}
class ClassInfo
{
public TypeInfo type;
public TypeDef typeDef;
public List<FieldInfo> fields = new List<FieldInfo>();
public ClassLayout layout;
}
private void GenerateClassInfo(TypeInfo type, HashSet<TypeInfo> typeSet, List<ClassInfo> classInfos)
{
if (!typeSet.Add(type))
{
return;
}
TypeSig typeSig = type.Klass;
var fields = new List<FieldInfo>();
TypeDef typeDef = typeSig.ToTypeDefOrRef().ResolveTypeDefThrow();
List<TypeSig> klassInst = typeSig.ToGenericInstSig()?.GenericArguments?.ToList();
GenericArgumentContext ctx = klassInst != null ? new GenericArgumentContext(klassInst, null) : null;
ClassLayout sa = typeDef.ClassLayout;
ICorLibTypes corLibTypes = typeDef.Module.CorLibTypes;
foreach (FieldDef field in typeDef.Fields)
{
if (field.IsStatic)
{
continue;
}
TypeSig fieldType = ctx != null ? MetaUtil.Inflate(field.FieldType, ctx) : field.FieldType;
fieldType = MetaUtil.ToShareTypeSig(corLibTypes, fieldType);
var fieldTypeInfo = ToIsomorphicType(_typeCreator.CreateTypeInfo(fieldType));
if (fieldTypeInfo.IsStruct)
{
GenerateClassInfo(fieldTypeInfo, typeSet, classInfos);
}
fields.Add(new FieldInfo { field = field, type = fieldTypeInfo });
}
classInfos.Add(new ClassInfo() { type = type, typeDef = typeDef, fields = fields, layout = sa });
}
private void GenerateStructDefines(List<ClassInfo> classInfos, List<string> lines)
{
foreach (var ci in classInfos)
{
lines.Add($"// {ci.type.Klass}");
uint packingSize = ci.layout?.PackingSize ?? 0;
if (packingSize != 0)
{
lines.Add($"#pragma pack(push, {packingSize})");
}
uint classSize = ci.layout?.ClassSize ?? 0;
if (ci.typeDef.IsExplicitLayout)
{
lines.Add($"union {ci.type.GetTypeName()} {{");
if (classSize > 0)
{
lines.Add($"\tstruct {{ char __fieldSize_offsetPadding[{classSize}];}};");
}
int index = 0;
foreach (var field in ci.fields)
{
uint offset = field.field.FieldOffset.Value;
string fieldName = $"__{index}";
string commentFieldName = $"{field.field.Name}";
lines.Add("\t#pragma pack(push, 1)");
lines.Add($"\tstruct {{ {(offset > 0 ? $"char {fieldName}_offsetPadding[{offset}];" : "")} {field.type.GetTypeName()} {fieldName};}}; // {commentFieldName}");
lines.Add($"\t#pragma pack(pop)");
lines.Add($"\tstruct {{ {field.type.GetTypeName()} {fieldName}_forAlignmentOnly;}}; // {commentFieldName}");
++index;
}
}
else
{
lines.Add($"{(classSize > 0 ? "union" : "struct")} {ci.type.GetTypeName()} {{");
if (classSize > 0)
{
lines.Add($"\tstruct {{ char __fieldSize_offsetPadding[{classSize}];}};");
lines.Add("\tstruct {");
}
int index = 0;
foreach (var field in ci.fields)
{
string fieldName = $"__{index}";
string commentFieldName = $"{field.field.Name}";
lines.Add($"\t{field.type.GetTypeName()} {fieldName}; // {commentFieldName}");
++index;
}
if (classSize > 0)
{
lines.Add("\t};");
}
}
lines.Add("};");
if (packingSize != 0)
{
lines.Add($"#pragma pack(pop)");
}
}
}
public const string SigOfObj = "u";
public static string ToFullName(TypeSig type)
{
type = type.RemovePinnedAndModifiers();
switch (type.ElementType)
{
case ElementType.Void: return "v";
case ElementType.Boolean: return "u1";
case ElementType.I1: return "i1";
case ElementType.U1: return "u1";
case ElementType.I2: return "i2";
case ElementType.Char:
case ElementType.U2: return "u2";
case ElementType.I4: return "i4";
case ElementType.U4: return "u4";
case ElementType.I8: return "i8";
case ElementType.U8: return "u8";
case ElementType.R4: return "r4";
case ElementType.R8: return "r8";
case ElementType.I: return "i";
case ElementType.U:
case ElementType.String:
case ElementType.Ptr:
case ElementType.ByRef:
case ElementType.Class:
case ElementType.Array:
case ElementType.SZArray:
case ElementType.FnPtr:
case ElementType.Object:
return SigOfObj;
case ElementType.Module:
case ElementType.Var:
case ElementType.MVar:
throw new NotSupportedException($"ToFullName type:{type}");
case ElementType.TypedByRef: return TypeInfo.strTypedByRef;
case ElementType.ValueType:
{
TypeDef typeDef = type.ToTypeDefOrRef().ResolveTypeDef();
if (typeDef == null)
{
throw new Exception($"type:{type} definition could not be found. Please try `HybridCLR/Genergate/LinkXml`, then Build once to generate the AOT dll, and then regenerate the bridge function");
}
if (typeDef.IsEnum)
{
return ToFullName(typeDef.GetEnumUnderlyingType());
}
return ToValueTypeFullName((ClassOrValueTypeSig)type);
}
case ElementType.GenericInst:
{
GenericInstSig gis = (GenericInstSig)type;
if (!gis.GenericType.IsValueType)
{
return SigOfObj;
}
TypeDef typeDef = gis.GenericType.ToTypeDefOrRef().ResolveTypeDef();
if (typeDef.IsEnum)
{
return ToFullName(typeDef.GetEnumUnderlyingType());
}
return $"{ToValueTypeFullName(gis.GenericType)}<{string.Join(",", gis.GenericArguments.Select(a => ToFullName(a)))}>";
}
default: throw new NotSupportedException($"{type.ElementType}");
}
}
private static bool IsSystemOrUnityAssembly(ModuleDef module)
{
if (module.IsCoreLibraryModule == true)
{
return true;
}
string assName = module.Assembly.Name.String;
return assName.StartsWith("System.") || assName.StartsWith("UnityEngine.");
}
private static string ToValueTypeFullName(ClassOrValueTypeSig type)
{
TypeDef typeDef = type.ToTypeDefOrRef().ResolveTypeDef();
if (typeDef == null)
{
throw new Exception($"type:{type} resolve fail");
}
if (typeDef.DeclaringType != null)
{
return $"{ToValueTypeFullName((ClassOrValueTypeSig)typeDef.DeclaringType.ToTypeSig())}/{typeDef.Name}";
}
if (IsSystemOrUnityAssembly(typeDef.Module))
{
return type.FullName;
}
return $"{Path.GetFileNameWithoutExtension(typeDef.Module.Name)}:{typeDef.FullName}";
}
public void GenerateStructureSignatureStub(List<TypeInfo> types, List<string> lines)
{
lines.Add("FullName2Signature hybridclr::interpreter::g_fullName2SignatureStub[] = {");
foreach (var type in types)
{
TypeInfo isoType = ToIsomorphicType(type);
lines.Add($"\t{{\"{ToFullName(type.Klass)}\", \"{isoType.CreateSigName()}\"}},");
}
lines.Add("\t{ nullptr, nullptr},");
lines.Add("};");
}
public void GenerateManaged2NativeStub(List<MethodDesc> methods, List<string> lines)
{
lines.Add($@"
Managed2NativeMethodInfo hybridclr::interpreter::g_managed2nativeStub[] =
{{
");
foreach (var method in methods)
{
lines.Add($"\t{{\"{method.CreateInvokeSigName()}\", __M2N_{method.CreateInvokeSigName()}}},");
}
lines.Add($"\t{{nullptr, nullptr}},");
lines.Add("};");
}
public void GenerateNative2ManagedStub(List<MethodDesc> methods, List<string> lines)
{
lines.Add($@"
Native2ManagedMethodInfo hybridclr::interpreter::g_native2managedStub[] =
{{
");
foreach (var method in methods)
{
lines.Add($"\t{{\"{method.CreateInvokeSigName()}\", (Il2CppMethodPointer)__N2M_{method.CreateInvokeSigName()}}},");
}
lines.Add($"\t{{nullptr, nullptr}},");
lines.Add("};");
}
public void GenerateAdjustThunkStub(List<MethodDesc> methods, List<string> lines)
{
lines.Add($@"
NativeAdjustThunkMethodInfo hybridclr::interpreter::g_adjustThunkStub[] =
{{
");
foreach (var method in methods)
{
lines.Add($"\t{{\"{method.CreateInvokeSigName()}\", (Il2CppMethodPointer)__N2M_AdjustorThunk_{method.CreateCallSigName()}}},");
}
lines.Add($"\t{{nullptr, nullptr}},");
lines.Add("};");
}
private string GetManaged2NativePassParam(TypeInfo type, string varName)
{
return $"M2NFromValueOrAddress<{type.GetTypeName()}>({varName})";
}
private string GetNative2ManagedPassParam(TypeInfo type, string varName)
{
return type.NeedExpandValue() ? $"(uint64_t)({varName})" : $"N2MAsUint64ValueOrAddress<{type.GetTypeName()}>({varName})";
}
public void GenerateManaged2NativeMethod(MethodDesc method, List<string> lines)
{
string paramListStr = string.Join(", ", method.ParamInfos.Select(p => $"{p.Type.GetTypeName()} __arg{p.Index}").Concat(new string[] { "const MethodInfo* method" }));
string paramNameListStr = string.Join(", ", method.ParamInfos.Select(p => GetManaged2NativePassParam(p.Type, $"localVarBase+argVarIndexs[{p.Index}]")).Concat(new string[] { "method" }));
lines.Add($@"
static void __M2N_{method.CreateCallSigName()}(const MethodInfo* method, uint16_t* argVarIndexs, StackObject* localVarBase, void* ret)
{{
typedef {method.ReturnInfo.Type.GetTypeName()} (*NativeMethod)({paramListStr});
{(!method.ReturnInfo.IsVoid ? $"*({method.ReturnInfo.Type.GetTypeName()}*)ret = " : "")}((NativeMethod)(method->methodPointerCallByInterp))({paramNameListStr});
}}
");
}
public string GenerateArgumentSizeAndOffset(List<ParamInfo> paramInfos)
{
StringBuilder s = new StringBuilder();
int index = 0;
foreach (var param in paramInfos)
{
s.AppendLine($"\tconstexpr int __ARG_OFFSET_{index}__ = {(index > 0 ? $"__ARG_OFFSET_{index - 1}__ + __ARG_SIZE_{index-1}__" : "0")};");
s.AppendLine($"\tconstexpr int __ARG_SIZE_{index}__ = (sizeof(__arg{index}) + 7)/8;");
index++;
}
s.AppendLine($"\tconstexpr int __TOTAL_ARG_SIZE__ = {(paramInfos.Count > 0 ? $"__ARG_OFFSET_{index-1}__ + __ARG_SIZE_{index-1}__" : "1")};");
return s.ToString();
}
public string GenerateCopyArgumentToInterpreterStack(List<ParamInfo> paramInfos)
{
StringBuilder s = new StringBuilder();
int index = 0;
foreach (var param in paramInfos)
{
if (param.Type.IsPrimitiveType)
{
if (param.Type.NeedExpandValue())
{
s.AppendLine($"\targs[__ARG_OFFSET_{index}__].u64 = __arg{index};");
}
else
{
s.AppendLine($"\t*({param.Type.GetTypeName()}*)(args + __ARG_OFFSET_{index}__) = __arg{index};");
}
}
else
{
s.AppendLine($"\t*({param.Type.GetTypeName()}*)(args + __ARG_OFFSET_{index}__) = __arg{index};");
}
index++;
}
return s.ToString();
}
private void GenerateNative2ManagedMethod0(MethodDesc method, bool adjustorThunk, List<string> lines)
{
string paramListStr = string.Join(", ", method.ParamInfos.Select(p => $"{p.Type.GetTypeName()} __arg{p.Index}").Concat(new string[] { "const MethodInfo* method" }));
lines.Add($@"
static {method.ReturnInfo.Type.GetTypeName()} __N2M_{(adjustorThunk ? "AdjustorThunk_" : "")}{method.CreateCallSigName()}({paramListStr})
{{
{(adjustorThunk ? "__arg0 += sizeof(Il2CppObject);" : "")}
{GenerateArgumentSizeAndOffset(method.ParamInfos)}
StackObject args[__TOTAL_ARG_SIZE__];
{GenerateCopyArgumentToInterpreterStack(method.ParamInfos)}
{(method.ReturnInfo.IsVoid ? "Interpreter::Execute(method, args, nullptr);" : $"{method.ReturnInfo.Type.GetTypeName()} ret; Interpreter::Execute(method, args, &ret); return ret;")}
}}
");
}
public void GenerateNative2ManagedMethod(MethodDesc method, List<string> lines)
{
GenerateNative2ManagedMethod0(method, false, lines);
}
public void GenerateAdjustThunkMethod(MethodDesc method, List<string> lines)
{
GenerateNative2ManagedMethod0(method, true, lines);
}
}
}