private void WriteMethodLocals(MethodDefinition definition, ISourceCodeOutput output) { if (definition == null || !definition.HasBody || !definition.Body.InitLocals) { return; } var body = definition.Body; output.WriteLine(".locals init ("); output.Indent(); for (int i = 0; i < body.Variables.Count; i++) { var variable = body.Variables[i]; if (i > 0) { output.WriteLine(","); } output.Write("[{0}] {1} {2}", variable.Index, variable.VariableType.ToShortTypeName(), variable); } output.WriteLine(")"); output.Unindent(); }
public void WriteModule(ModuleDefinition definition, ISourceCodeOutput output, DecompilerOptions options) { output.WriteLine(".module {0}", definition.Name); output.WriteLine("// MVID: {0}", definition.Mvid.ToString("B")); output.WriteLine("// Target Runtime Version: v{0}", definition.GetRuntimeVersion()); output.WriteLine("// Architecture: {0}", definition.Architecture); }
public void WriteEvent(EventDefinition definition, ISourceCodeOutput output, DecompilerOptions options) { output.WriteDefinition(".event ", definition); output.Write(definition.EventType.ToShortTypeName() + " "); output.Write(definition.Name + " "); OpenBlock(output); if (definition.HasCustomAttributes) { WriteCustomAttributes(definition.CustomAttributes, output); } if (definition.AddMethod != null) { var setter = definition.AddMethod; output.Write(".addon "); if (setter.HasThis) { output.Write("instance "); } output.Write( setter.ReturnType.IsPrimitive || setter.IsVoid() ? setter.ReturnType.Name.ToLowerInvariant() : setter.ReturnType.FullName); output.WriteSpace(); //setter.ReturnType == setter.Module.TypeSystem.Void //setter.ReturnType.FullName + " " + (setter.DeclaringType.FullName + "::" + setter.Name) + MethodSignatureFullName(setter) output.WriteLine("{0}::{1}{2}", setter.DeclaringType.FullName, setter.Name, MethodSignatureFullName(setter)); } if (definition.RemoveMethod != null) { var getter = definition.RemoveMethod; output.Write(".removeon "); if (getter.HasThis) { output.Write("instance "); } output.Write( getter.ReturnType.IsPrimitive || getter.IsVoid() ? getter.ReturnType.Name.ToLowerInvariant() : getter.ReturnType.FullName); output.WriteSpace(); output.WriteLine("{0}::{1}{2}", getter.DeclaringType.FullName, getter.Name, MethodSignatureFullName(getter)); } CloseBlock(output); }
public void WriteNamespace(NamespaceDefinition definition, ISourceCodeOutput output, DecompilerOptions options) { output.Write(".namespace {0}", definition.Name); OpenBlock(output); foreach (var type in definition.Types.OrderBy(t => t.Name)) { WriteType(type, output, null); output.WriteLine(); } CloseBlock(output); }
public void WriteProperty(PropertyDefinition definition, ISourceCodeOutput output, DecompilerOptions options) { output.WriteDefinition(".property ", definition); output.Write(definition.HasThis ? "instance " : "class "); if (definition.PropertyType.IsValueType && !definition.PropertyType.IsPrimitive) { output.Write("valuetype "); } output.Write(definition.PropertyType.ToShortTypeName() + " "); output.Write(definition.Name); OpenBlock(output); if (definition.HasCustomAttributes) { WriteCustomAttributes(definition.CustomAttributes, output); } if (definition.HasGetter()) { var getter = definition.GetMethod; var returnType = getter.MethodReturnType.ReturnType; output.Write(".get "); if (getter.HasThis) { output.Write("instance "); } if (returnType.IsValueType && !returnType.IsPrimitive) { output.Write("valuetype "); } // TODO: To be unwrapped output.WriteLine(getter.ToString()); } if (definition.HasSetter()) { var setter = definition.SetMethod; output.Write(".set "); if (setter.HasThis) { output.Write("instance "); } output.WriteLine(setter.ToString()); } CloseBlock(output); }
private void WriteMethodParameters(MethodDefinition definition, ISourceCodeOutput output, DecompilerOptions options) { output.Write("("); if (definition.HasParameters) { for (int i = 0; i < definition.Parameters.Count; i++) { if (i > 0) { output.Write(", "); } var parameter = definition.Parameters[i]; output.Write("{0} {1}", parameter.ParameterType.ToShortTypeName(), parameter.Name); } } output.Write(")"); }
public void WriteMethod(MethodDefinition definition, ISourceCodeOutput output, DecompilerOptions options) { output.WriteDefinition(".method ", definition); WriteMethodName(definition, output, options); OpenBlock(output); if (definition.HasCustomAttributes) WriteCustomAttributes(definition.CustomAttributes, output); if (definition.HasBody && options != null && options.FullDecompilation) { output.WriteLine(".maxstack {0}", definition.Body.MaxStackSize); WriteMethodLocals(definition, output); foreach (var instruction in definition.Body.Instructions) output.WriteLine(instruction.ToString()); } CloseBlock(output); }
public void WriteAssembly(AssemblyDefinition definition, ISourceCodeOutput output, DecompilerOptions options) { var name = definition.Name; output.Write(".assembly " + name.Name); OpenBlock(output); // Write version if (name.Version != null) { output.WriteLine(".ver {0}", name.Version.ToString().Replace('.', ':')); } // Write hash algorithm if (name.HashAlgorithm != AssemblyHashAlgorithm.None) { output.Write(".hash algorithm {0}", string.Format("0x{0:X8}", (uint)definition.Name.HashAlgorithm)); if (name.HashAlgorithm == AssemblyHashAlgorithm.SHA1) { output.Write(" // SHA1"); output.WriteLine(); } } // Write public key if (name.HasPublicKey) { output.WriteLine(".publickey = ({0})", BitConverter.ToString(name.PublicKey).Replace("-", " ")); } // Try to write custom attributes if (definition.HasCustomAttributes) { WriteCustomAttributes(definition.CustomAttributes, output); } CloseBlock(output); }
private void WriteMethodName(MethodDefinition definition, ISourceCodeOutput output, DecompilerOptions options) { if (definition.IsAssembly) output.Write("assembly "); if (definition.IsFamily) output.Write("family "); if (definition.IsPublic) output.Write("public "); if (definition.IsPrivate) output.Write("private "); if (definition.IsHideBySig) output.Write("hidebysig "); if (definition.IsSpecialName) output.Write("specialname "); if (definition.IsNewSlot) output.Write("newslot "); if (definition.IsVirtual) output.Write("virtual "); if (definition.IsFinal) output.Write("final "); if (definition.IsRuntimeSpecialName) output.Write("rtspecialname "); output.Write(definition.IsStatic ? "static " : "instance "); output.Write(definition.ReturnType.ToShortTypeName() + " "); // Name output.Write(GetMethodName(definition)); WriteMethodParameters(definition, output, options); output.WriteSpace(); if (definition.IsIL) output.Write("cil "); if (definition.IsRuntime) output.Write("runtime "); if (definition.IsManaged) output.Write("managed "); }
public void WriteMethod(MethodDefinition definition, ISourceCodeOutput output, DecompilerOptions options) { output.WriteDefinition(".method ", definition); WriteMethodName(definition, output, options); OpenBlock(output); if (definition.HasCustomAttributes) { WriteCustomAttributes(definition.CustomAttributes, output); } if (definition.HasBody && options != null && options.FullDecompilation) { output.WriteLine(".maxstack {0}", definition.Body.MaxStackSize); WriteMethodLocals(definition, output); foreach (var instruction in definition.Body.Instructions) { output.WriteLine(instruction.ToString()); } } CloseBlock(output); }
public void WriteType(TypeDefinition definition, ISourceCodeOutput output, DecompilerOptions options) { output.WriteDefinition(".class ", definition); //if (definition.IsClass || definition.IsInterface) builder.AppendFormat("{0}.class ", indent); if (definition.IsPublic || definition.IsNestedPublic) { output.Write("public "); } if (definition.IsNotPublic || definition.IsNestedPrivate) { output.Write("private "); } if (definition.IsInterface) { output.Write("interface "); } if (definition.IsAbstract) { output.Write("abstract "); } if (definition.IsSequentialLayout) { output.Write("sequential "); } if (definition.IsAutoLayout) { output.Write("auto "); } if (definition.IsAnsiClass) { output.Write("ansi "); } if (definition.IsSealed) { output.Write("sealed "); } if (definition.IsNested) { output.Write("nested "); } if (definition.IsNestedFamily) { output.Write("family "); } if (definition.IsBeforeFieldInit) { output.Write("beforefieldinit "); } output.Write(definition.ToShortTypeName()); if (definition.BaseType != null) { output.WriteLine(); output.Indent(); output.Write("extends {0}", definition.BaseType.ToShortTypeName()); output.Unindent(); } if (definition.HasInterfaces) { output.WriteLine(); output.Indent(); output.Write("implements "); for (int i = 0; i < definition.Interfaces.Count; i++) { if (i > 0) { output.Write(", "); } output.Write(definition.Interfaces[i].FullName); } output.Unindent(); } OpenBlock(output); if (definition.HasCustomAttributes) { WriteCustomAttributes(definition.CustomAttributes, output); output.WriteLine(); } if (options != null && options.FullDecompilation) { if (definition.HasNestedTypes) { foreach (var nestedType in definition.NestedTypes.OrderBy(t => t.Name)) { WriteType(nestedType, output, options); output.WriteLine(); } } if (definition.HasMethods) { foreach (var method in definition.Methods.OrderBy(m => m.Name)) { if (method.IsGetter || method.IsSetter) { continue; } if (method.IsAddOn || method.IsRemoveOn) { continue; } WriteMethod(method, output, null); output.WriteLine(); } } if (definition.HasProperties) { foreach (var property in definition.Properties.OrderBy(p => p.Name)) { WriteProperty(property, output, null); output.WriteLine(); } } if (definition.HasEvents) { foreach (var eventDefinition in definition.Events.OrderBy(e => e.Name)) { WriteEvent(eventDefinition, output, null); output.WriteLine(); } } if (definition.HasFields) { foreach (var field in definition.Fields.OrderBy(f => f.Name)) { WriteField(field, output, null); output.WriteLine(); } } } CloseBlock(output); }
// TODO: look at ILSpy WriteEnum/WriteFlags helpers public void WriteField(FieldDefinition definition, ISourceCodeOutput output, DecompilerOptions options) { output.WriteDefinition(".field ", definition); if (definition.IsAssembly) output.Write("assembly "); if (definition.IsFamily) output.Write("family "); if (definition.IsPrivate) output.Write("private "); if (definition.IsPublic) output.Write("public "); if (definition.IsStatic) output.Write("static "); if (!definition.FieldType.IsPrimitive && definition.FieldType.IsValueType) output.Write("valuetype "); if (definition.IsSpecialName) output.Write("specialname "); if (definition.IsRuntimeSpecialName) output.Write("rtspecialname "); if (definition.IsLiteral) output.Write("literal "); if (definition.IsInitOnly) output.Write("initonly "); output.Write(definition.FieldType.ToShortTypeName() + " "); output.Write(definition.Name + " "); if (definition.HasConstant) { string valueFormat = definition.FieldType == definition.Module.TypeSystem.String ? "'{0}'" : "{0}"; output.Write(" = {0}({1})", definition.FieldType.FullName, string.Format(valueFormat, definition.Constant.ToString())); } if (definition.HasCustomAttributes) { OpenBlock(output); WriteCustomAttributes(definition.CustomAttributes, output); CloseBlock(output); } output.WriteLine(); }
public void WriteEvent(EventDefinition definition, ISourceCodeOutput output, DecompilerOptions options) { output.WriteDefinition(".event ", definition); output.Write(definition.EventType.ToShortTypeName() + " "); output.Write(definition.Name + " "); OpenBlock(output); if (definition.HasCustomAttributes) WriteCustomAttributes(definition.CustomAttributes, output); if (definition.AddMethod != null) { var setter = definition.AddMethod; output.Write(".addon "); if (setter.HasThis) output.Write("instance "); output.Write( setter.ReturnType.IsPrimitive || setter.IsVoid() ? setter.ReturnType.Name.ToLowerInvariant() : setter.ReturnType.FullName); output.WriteSpace(); //setter.ReturnType == setter.Module.TypeSystem.Void //setter.ReturnType.FullName + " " + (setter.DeclaringType.FullName + "::" + setter.Name) + MethodSignatureFullName(setter) output.WriteLine("{0}::{1}{2}", setter.DeclaringType.FullName, setter.Name, MethodSignatureFullName(setter)); } if (definition.RemoveMethod != null) { var getter = definition.RemoveMethod; output.Write(".removeon "); if (getter.HasThis) output.Write("instance "); output.Write( getter.ReturnType.IsPrimitive || getter.IsVoid() ? getter.ReturnType.Name.ToLowerInvariant() : getter.ReturnType.FullName); output.WriteSpace(); output.WriteLine("{0}::{1}{2}", getter.DeclaringType.FullName, getter.Name, MethodSignatureFullName(getter)); } CloseBlock(output); }
// TODO: look at ILSpy WriteEnum/WriteFlags helpers public void WriteField(FieldDefinition definition, ISourceCodeOutput output, DecompilerOptions options) { output.WriteDefinition(".field ", definition); if (definition.IsAssembly) { output.Write("assembly "); } if (definition.IsFamily) { output.Write("family "); } if (definition.IsPrivate) { output.Write("private "); } if (definition.IsPublic) { output.Write("public "); } if (definition.IsStatic) { output.Write("static "); } if (!definition.FieldType.IsPrimitive && definition.FieldType.IsValueType) { output.Write("valuetype "); } if (definition.IsSpecialName) { output.Write("specialname "); } if (definition.IsRuntimeSpecialName) { output.Write("rtspecialname "); } if (definition.IsLiteral) { output.Write("literal "); } if (definition.IsInitOnly) { output.Write("initonly "); } output.Write(definition.FieldType.ToShortTypeName() + " "); output.Write(definition.Name + " "); if (definition.HasConstant) { string valueFormat = definition.FieldType == definition.Module.TypeSystem.String ? "'{0}'" : "{0}"; output.Write(" = {0}({1})", definition.FieldType.FullName, string.Format(valueFormat, definition.Constant.ToString())); } if (definition.HasCustomAttributes) { OpenBlock(output); WriteCustomAttributes(definition.CustomAttributes, output); CloseBlock(output); } output.WriteLine(); }
public void WriteCommentLine(ISourceCodeOutput output, string comment) { output.WriteLine("//" + comment); }
public void WriteType(TypeDefinition definition, ISourceCodeOutput output, DecompilerOptions options) { output.WriteDefinition(".class ", definition); //if (definition.IsClass || definition.IsInterface) builder.AppendFormat("{0}.class ", indent); if (definition.IsPublic || definition.IsNestedPublic) output.Write("public "); if (definition.IsNotPublic || definition.IsNestedPrivate) output.Write("private "); if (definition.IsInterface) output.Write("interface "); if (definition.IsAbstract) output.Write("abstract "); if (definition.IsSequentialLayout) output.Write("sequential "); if (definition.IsAutoLayout) output.Write("auto "); if (definition.IsAnsiClass) output.Write("ansi "); if (definition.IsSealed) output.Write("sealed "); if (definition.IsNested) output.Write("nested "); if (definition.IsNestedFamily) output.Write("family "); if (definition.IsBeforeFieldInit) output.Write("beforefieldinit "); output.Write(definition.ToShortTypeName()); if (definition.BaseType != null) { output.WriteLine(); output.Indent(); output.Write("extends {0}", definition.BaseType.ToShortTypeName()); output.Unindent(); } if (definition.HasInterfaces) { output.WriteLine(); output.Indent(); output.Write("implements "); for (int i = 0; i < definition.Interfaces.Count; i++) { if (i > 0) output.Write(", "); output.Write(definition.Interfaces[i].FullName); } output.Unindent(); } OpenBlock(output); if (definition.HasCustomAttributes) { WriteCustomAttributes(definition.CustomAttributes, output); output.WriteLine(); } if (options != null && options.FullDecompilation) { if (definition.HasNestedTypes) { foreach (var nestedType in definition.NestedTypes.OrderBy(t => t.Name)) { WriteType(nestedType, output, options); output.WriteLine(); } } if (definition.HasMethods) { foreach (var method in definition.Methods.OrderBy(m => m.Name)) { if (method.IsGetter || method.IsSetter) continue; if (method.IsAddOn || method.IsRemoveOn) continue; WriteMethod(method, output, null); output.WriteLine(); } } if (definition.HasProperties) { foreach (var property in definition.Properties.OrderBy(p => p.Name)) { WriteProperty(property, output, null); output.WriteLine(); } } if (definition.HasEvents) { foreach (var eventDefinition in definition.Events.OrderBy(e => e.Name)) { WriteEvent(eventDefinition, output, null); output.WriteLine(); } } if (definition.HasFields) { foreach (var field in definition.Fields.OrderBy(f => f.Name)) { WriteField(field, output, null); output.WriteLine(); } } } CloseBlock(output); }
private void WriteMethodLocals(MethodDefinition definition, ISourceCodeOutput output) { if (definition == null || !definition.HasBody || !definition.Body.InitLocals) return; var body = definition.Body; output.WriteLine(".locals init ("); output.Indent(); for (int i = 0; i < body.Variables.Count; i++) { var variable = body.Variables[i]; if (i > 0) output.WriteLine(","); output.Write("[{0}] {1} {2}", variable.Index, variable.VariableType.ToShortTypeName(), variable); } output.WriteLine(")"); output.Unindent(); }
public static void WriteSpace(this ISourceCodeOutput output) { output.Write(" "); }
private void WriteMethodName(MethodDefinition definition, ISourceCodeOutput output, DecompilerOptions options) { if (definition.IsAssembly) { output.Write("assembly "); } if (definition.IsFamily) { output.Write("family "); } if (definition.IsPublic) { output.Write("public "); } if (definition.IsPrivate) { output.Write("private "); } if (definition.IsHideBySig) { output.Write("hidebysig "); } if (definition.IsSpecialName) { output.Write("specialname "); } if (definition.IsNewSlot) { output.Write("newslot "); } if (definition.IsVirtual) { output.Write("virtual "); } if (definition.IsFinal) { output.Write("final "); } if (definition.IsRuntimeSpecialName) { output.Write("rtspecialname "); } output.Write(definition.IsStatic ? "static " : "instance "); output.Write(definition.ReturnType.ToShortTypeName() + " "); // Name output.Write(GetMethodName(definition)); WriteMethodParameters(definition, output, options); output.WriteSpace(); if (definition.IsIL) { output.Write("cil "); } if (definition.IsRuntime) { output.Write("runtime "); } if (definition.IsManaged) { output.Write("managed "); } }
private void CloseBlock(ISourceCodeOutput output) { output.Unindent(); output.WriteLine("}"); }
public void WriteAssembly(AssemblyDefinition definition, ISourceCodeOutput output, DecompilerOptions options) { var name = definition.Name; output.Write(".assembly " + name.Name); OpenBlock(output); // Write version if (name.Version != null) output.WriteLine(".ver {0}", name.Version.ToString().Replace('.', ':')); // Write hash algorithm if (name.HashAlgorithm != AssemblyHashAlgorithm.None) { output.Write(".hash algorithm {0}", string.Format("0x{0:X8}", (uint)definition.Name.HashAlgorithm)); if (name.HashAlgorithm == AssemblyHashAlgorithm.SHA1) { output.Write(" // SHA1"); output.WriteLine(); } } // Write public key if (name.HasPublicKey) output.WriteLine(".publickey = ({0})", BitConverter.ToString(name.PublicKey).Replace("-", " ")); // Try to write custom attributes if (definition.HasCustomAttributes) WriteCustomAttributes(definition.CustomAttributes, output); CloseBlock(output); }
private void OpenBlock(ISourceCodeOutput output) { output.WriteLine(); output.WriteLine("{"); output.Indent(); }
public void WriteProperty(PropertyDefinition definition, ISourceCodeOutput output, DecompilerOptions options) { output.WriteDefinition(".property ", definition); output.Write(definition.HasThis ? "instance " : "class "); if (definition.PropertyType.IsValueType && !definition.PropertyType.IsPrimitive) output.Write("valuetype "); output.Write(definition.PropertyType.ToShortTypeName() + " "); output.Write(definition.Name); OpenBlock(output); if (definition.HasCustomAttributes) WriteCustomAttributes(definition.CustomAttributes, output); if (definition.HasGetter()) { var getter = definition.GetMethod; var returnType = getter.MethodReturnType.ReturnType; output.Write(".get "); if (getter.HasThis) output.Write("instance "); if (returnType.IsValueType && !returnType.IsPrimitive) output.Write("valuetype "); // TODO: To be unwrapped output.WriteLine(getter.ToString()); } if (definition.HasSetter()) { var setter = definition.SetMethod; output.Write(".set "); if (setter.HasThis) output.Write("instance "); output.WriteLine(setter.ToString()); } CloseBlock(output); }
private void WriteCustomAttributes(IEnumerable<CustomAttribute> attributes, ISourceCodeOutput output) { foreach (var attribute in attributes) { var canProceed = attribute.TryCheckConstructorArguments(); if (!canProceed) { Debug.WriteLine("Skipping custom attribute: '{0}'", attribute.Constructor.ToString()); continue; } output.Write(".custom "); var ctor = attribute.Constructor; if (ctor.HasThis) output.Write("instance "); output.Write(ctor.ToString()); output.Write(" = { "); if (attribute.HasConstructorArguments) { for (int i = 0; i < attribute.ConstructorArguments.Count; i++) { if (i > 0) output.WriteSpace(); var argument = attribute.ConstructorArguments[i]; string valueFormat = argument.Type == argument.Type.Module.TypeSystem.String ? "'{0}'" : "{0}"; output.Write("{0}({1})", argument.Type.Name, string.Format(valueFormat, argument.Value)); } } if (attribute.HasProperties) { output.WriteSpace(); for (int i = 0; i < attribute.Properties.Count; i++) { var property = attribute.Properties[i]; if (string.IsNullOrWhiteSpace(property.Name)) continue; if (i > 0) output.WriteSpace(); var argument = property.Argument; string valueFormat = argument.Type == argument.Type.Module.TypeSystem.String ? "'{0}'" : "{0}"; output.Write("{0}={1}({2})", property.Name, argument.Type.Name, string.Format(valueFormat, argument.Value)); } } if (attribute.HasFields) { output.WriteSpace(); for (int i = 0; i < attribute.Fields.Count; i++) { var field = attribute.Fields[0]; if (string.IsNullOrWhiteSpace(field.Name)) continue; if (i > 0) output.WriteSpace(); var argument = field.Argument; string valueFormat = argument.Type == argument.Type.Module.TypeSystem.String ? "'{0}'" : "{0}"; output.Write("{0}={1}({2})", field.Name, argument.Type.Name, string.Format(valueFormat, argument.Value)); } } output.Write(" }"); output.WriteLine(); } }
public static void WriteLine(this ISourceCodeOutput output, string text) { output.Write(text); output.WriteLine(); }
public static void WriteLine(this ISourceCodeOutput output, string format, params object[] args) { output.WriteLine(string.Format(format, args)); }
private void WriteCustomAttributes(IEnumerable <CustomAttribute> attributes, ISourceCodeOutput output) { foreach (var attribute in attributes) { var canProceed = attribute.TryCheckConstructorArguments(); if (!canProceed) { Debug.WriteLine("Skipping custom attribute: '{0}'", attribute.Constructor.ToString()); continue; } output.Write(".custom "); var ctor = attribute.Constructor; if (ctor.HasThis) { output.Write("instance "); } output.Write(ctor.ToString()); output.Write(" = { "); if (attribute.HasConstructorArguments) { for (int i = 0; i < attribute.ConstructorArguments.Count; i++) { if (i > 0) { output.WriteSpace(); } var argument = attribute.ConstructorArguments[i]; string valueFormat = argument.Type == argument.Type.Module.TypeSystem.String ? "'{0}'" : "{0}"; output.Write("{0}({1})", argument.Type.Name, string.Format(valueFormat, argument.Value)); } } if (attribute.HasProperties) { output.WriteSpace(); for (int i = 0; i < attribute.Properties.Count; i++) { var property = attribute.Properties[i]; if (string.IsNullOrWhiteSpace(property.Name)) { continue; } if (i > 0) { output.WriteSpace(); } var argument = property.Argument; string valueFormat = argument.Type == argument.Type.Module.TypeSystem.String ? "'{0}'" : "{0}"; output.Write("{0}={1}({2})", property.Name, argument.Type.Name, string.Format(valueFormat, argument.Value)); } } if (attribute.HasFields) { output.WriteSpace(); for (int i = 0; i < attribute.Fields.Count; i++) { var field = attribute.Fields[0]; if (string.IsNullOrWhiteSpace(field.Name)) { continue; } if (i > 0) { output.WriteSpace(); } var argument = field.Argument; string valueFormat = argument.Type == argument.Type.Module.TypeSystem.String ? "'{0}'" : "{0}"; output.Write("{0}={1}({2})", field.Name, argument.Type.Name, string.Format(valueFormat, argument.Value)); } } output.Write(" }"); output.WriteLine(); } }
private void WriteMethodParameters(MethodDefinition definition, ISourceCodeOutput output, DecompilerOptions options) { output.Write("("); if (definition.HasParameters) { for (int i = 0; i < definition.Parameters.Count; i++) { if (i > 0) output.Write(", "); var parameter = definition.Parameters[i]; output.Write("{0} {1}", parameter.ParameterType.ToShortTypeName(), parameter.Name); } } output.Write(")"); }