public override string TypeToString(ITypeDefOrRef t, bool includeNamespace, IHasCustomAttribute attributeProvider = null) { PlainTextOutput output = new PlainTextOutput(); t.WriteTo(output, includeNamespace ? ILNameSyntax.TypeName : ILNameSyntax.ShortTypeName); return(output.ToString()); }
public static void WriteTo(this ITypeDefOrRef type, ITextOutput writer, ILNameSyntax syntax = ILNameSyntax.Signature) { if (type is TypeSpec) { WriteTo(((TypeSpec)type).TypeSig, writer, syntax); return; } string name = PrimitiveTypeName(type.FullName); if (syntax == ILNameSyntax.ShortTypeName) { if (name != null) { writer.Write(name); } else { writer.WriteReference(Escape(type.Name), type); } } else if ((syntax == ILNameSyntax.Signature || syntax == ILNameSyntax.SignatureNoNamedTypeParameters) && name != null) { writer.Write(name); } else { if (syntax == ILNameSyntax.Signature || syntax == ILNameSyntax.SignatureNoNamedTypeParameters) { writer.Write(type.IsValueType ? "valuetype " : "class "); } ITypeDefOrRef declType = type.GetDeclaringType(); if (declType != null) { declType.WriteTo(writer, ILNameSyntax.TypeName); writer.Write('/'); writer.WriteReference(Escape(type.Name), type); } else { if (!(type is TypeDef) && type.Scope != null) { writer.Write("[{0}]", Escape(type.Scope.GetScopeName())); } writer.WriteReference(Escape(type.FullName), type); } } }
public override void TypeToString(ITextOutput output, ITypeDefOrRef t, bool includeNamespace, IHasCustomAttribute attributeProvider = null) { t.WriteTo(output, includeNamespace ? ILNameSyntax.TypeName : ILNameSyntax.ShortTypeName); }
protected override void TypeToString(IDecompilerOutput output, ITypeDefOrRef t, bool includeNamespace, IHasCustomAttribute attributeProvider = null) => t.WriteTo(output, includeNamespace ? ILNameSyntax.TypeName : ILNameSyntax.ShortTypeName);
public static void WriteOperand(ITextOutput writer, object operand) { if (operand == null) { throw new ArgumentNullException("operand"); } Instruction targetInstruction = operand as Instruction; if (targetInstruction != null) { WriteOffsetReference(writer, targetInstruction); return; } Instruction[] targetInstructions = operand as Instruction[]; if (targetInstructions != null) { WriteLabelList(writer, targetInstructions); return; } Local variable = operand as Local; if (variable != null) { if (string.IsNullOrEmpty(variable.Name)) { writer.WriteReference(variable.Index.ToString(), variable); } else { writer.WriteReference(Escape(variable.Name), variable); } return; } Parameter paramRef = operand as Parameter; if (paramRef != null) { if (string.IsNullOrEmpty(paramRef.Name)) { writer.WriteReference(paramRef.Index.ToString(), paramRef); } else { writer.WriteReference(Escape(paramRef.Name), paramRef); } return; } MemberRef memberRef = operand as MemberRef; if (memberRef != null) { if (memberRef.IsMethodRef) { memberRef.WriteMethodTo(writer); } else { memberRef.WriteFieldTo(writer); } return; } MethodDef methodDef = operand as MethodDef; if (methodDef != null) { methodDef.WriteMethodTo(writer); return; } FieldDef fieldDef = operand as FieldDef; if (fieldDef != null) { fieldDef.WriteFieldTo(writer); return; } ITypeDefOrRef typeRef = operand as ITypeDefOrRef; if (typeRef != null) { typeRef.WriteTo(writer, ILNameSyntax.TypeName); return; } IMethod method = operand as IMethod; if (method != null) { method.WriteMethodTo(writer); return; } MethodSig sig = operand as MethodSig; if (sig != null) { sig.WriteTo(writer); return; } string s = operand as string; if (s != null) { writer.Write("\"" + NRefactory.CSharp.CSharpOutputVisitor.ConvertString(s) + "\""); } else if (operand is char) { writer.Write(((int)(char)operand).ToString()); } else if (operand is float) { float val = (float)operand; if (val == 0) { if (1 / val == float.NegativeInfinity) { // negative zero is a special case writer.Write('-'); } writer.Write("0.0"); } else if (float.IsInfinity(val) || float.IsNaN(val)) { byte[] data = BitConverter.GetBytes(val); writer.Write('('); for (int i = 0; i < data.Length; i++) { if (i > 0) { writer.Write(' '); } writer.Write(data[i].ToString("X2")); } writer.Write(')'); } else { writer.Write(val.ToString("R", System.Globalization.CultureInfo.InvariantCulture)); } } else if (operand is double) { double val = (double)operand; if (val == 0) { if (1 / val == double.NegativeInfinity) { // negative zero is a special case writer.Write('-'); } writer.Write("0.0"); } else if (double.IsInfinity(val) || double.IsNaN(val)) { byte[] data = BitConverter.GetBytes(val); writer.Write('('); for (int i = 0; i < data.Length; i++) { if (i > 0) { writer.Write(' '); } writer.Write(data[i].ToString("X2")); } writer.Write(')'); } else { writer.Write(val.ToString("R", System.Globalization.CultureInfo.InvariantCulture)); } } else if (operand is bool) { writer.Write((bool)operand ? "true" : "false"); } else { s = ToInvariantCultureString(operand); writer.Write(s); } }
public static void WriteOperand(ITextOutput writer, object operand, MethodDef method = null) { Instruction targetInstruction = operand as Instruction; if (targetInstruction != null) { WriteOffsetReference(writer, targetInstruction, method); return; } IList <Instruction> targetInstructions = operand as IList <Instruction>; if (targetInstructions != null) { WriteLabelList(writer, targetInstructions, method); return; } Local variable = operand as Local; if (variable != null) { if (string.IsNullOrEmpty(variable.Name)) { writer.WriteReference(variable.Index.ToString(), variable, TextTokenType.Number); } else { writer.WriteReference(Escape(variable.Name), variable, TextTokenType.Local); } return; } Parameter paramRef = operand as Parameter; if (paramRef != null) { if (string.IsNullOrEmpty(paramRef.Name)) { if (paramRef.IsHiddenThisParameter) { writer.WriteReference("<hidden-this>", paramRef, TextTokenType.Parameter); } else { writer.WriteReference(paramRef.MethodSigIndex.ToString(), paramRef, TextTokenType.Parameter); } } else { writer.WriteReference(Escape(paramRef.Name), paramRef, TextTokenType.Parameter); } return; } MemberRef memberRef = operand as MemberRef; if (memberRef != null) { if (memberRef.IsMethodRef) { memberRef.WriteMethodTo(writer); } else { memberRef.WriteFieldTo(writer); } return; } MethodDef methodDef = operand as MethodDef; if (methodDef != null) { methodDef.WriteMethodTo(writer); return; } FieldDef fieldDef = operand as FieldDef; if (fieldDef != null) { fieldDef.WriteFieldTo(writer); return; } ITypeDefOrRef typeRef = operand as ITypeDefOrRef; if (typeRef != null) { typeRef.WriteTo(writer, ILNameSyntax.TypeName); return; } IMethod m = operand as IMethod; if (m != null) { m.WriteMethodTo(writer); return; } MethodSig sig = operand as MethodSig; if (sig != null) { sig.WriteTo(writer); return; } string s = operand as string; if (s != null) { writer.Write("\"" + NRefactory.CSharp.TextWriterTokenWriter.ConvertString(s) + "\"", TextTokenType.String); } else if (operand is char) { writer.Write(((int)(char)operand).ToString(), TextTokenType.Number); } else if (operand is float) { float val = (float)operand; if (val == 0) { if (1 / val == float.NegativeInfinity) { // negative zero is a special case writer.Write("-0.0", TextTokenType.Number); } else { writer.Write("0.0", TextTokenType.Number); } } else if (float.IsInfinity(val) || float.IsNaN(val)) { byte[] data = BitConverter.GetBytes(val); writer.Write('(', TextTokenType.Operator); for (int i = 0; i < data.Length; i++) { if (i > 0) { writer.WriteSpace(); } writer.Write(data[i].ToString("X2"), TextTokenType.Number); } writer.Write(')', TextTokenType.Operator); } else { writer.Write(val.ToString("R", System.Globalization.CultureInfo.InvariantCulture), TextTokenType.Number); } } else if (operand is double) { double val = (double)operand; if (val == 0) { if (1 / val == double.NegativeInfinity) { // negative zero is a special case writer.Write("-0.0", TextTokenType.Number); } else { writer.Write("0.0", TextTokenType.Number); } } else if (double.IsInfinity(val) || double.IsNaN(val)) { byte[] data = BitConverter.GetBytes(val); writer.Write('(', TextTokenType.Operator); for (int i = 0; i < data.Length; i++) { if (i > 0) { writer.WriteSpace(); } writer.Write(data[i].ToString("X2"), TextTokenType.Number); } writer.Write(')', TextTokenType.Operator); } else { writer.Write(val.ToString("R", System.Globalization.CultureInfo.InvariantCulture), TextTokenType.Number); } } else if (operand is bool) { writer.Write((bool)operand ? "true" : "false", TextTokenType.Keyword); } else { s = ToInvariantCultureString(operand); writer.Write(s, TextTokenHelper.GetTextTokenType(operand)); } }
public static void WriteTo(this ITypeDefOrRef type, ITextOutput writer, ILNameSyntax syntax = ILNameSyntax.Signature) { type.WriteTo(writer, syntax, 0); }
public static void WriteOperand(ITextOutput writer, object operand) { if (operand == null) { throw new ArgumentNullException("operand"); } Instruction targetInstruction = operand as Instruction; if (targetInstruction != null) { WriteOffsetReference(writer, targetInstruction); return; } Instruction[] targetInstructions = operand as Instruction[]; if (targetInstructions != null) { WriteLabelList(writer, targetInstructions); return; } Local local = operand as Local; if (local != null) { if (string.IsNullOrEmpty(local.Name)) { writer.WriteReference("[" + local.Index.ToString() + "]", local, true); } else { writer.WriteReference(Escape(local.Name), local, true); } return; } Parameter param = operand as Parameter; if (param != null) { if (string.IsNullOrEmpty(param.Name)) { writer.WriteReference("[" + param.Index.ToString() + "]", param, true); } else { writer.WriteReference(Escape(param.Name), param, true); } return; } IMethod methodRef = operand as IMethod; if (methodRef != null && dnlibExtensions.IsMethod(methodRef)) { methodRef.WriteTo(writer); writer.WriteComment(" // 0x" + methodRef.MDToken.Raw.ToString("x8")); return; } ITypeDefOrRef typeRef = operand as ITypeDefOrRef; if (typeRef != null) { typeRef.WriteTo(writer, ILNameSyntax.TypeName); writer.WriteComment(" // 0x" + typeRef.MDToken.Raw.ToString("x8")); return; } IField fieldRef = operand as IField; if (fieldRef != null && dnlibExtensions.IsField(fieldRef)) { fieldRef.WriteTo(writer); writer.WriteComment(" // 0x" + fieldRef.MDToken.Raw.ToString("x8")); return; } string s = operand as string; if (s != null) { writer.WriteLiteral("\"" + NRefactory.CSharp.CSharpOutputVisitor.ConvertString(s) + "\""); } else if (operand is char) { writer.WriteLiteral(((int)(char)operand).ToString()); } else if (operand is float) { float val = (float)operand; if (val == 0) { if (1 / val == float.NegativeInfinity) { // negative zero is a special case writer.WriteLiteral("-"); } writer.WriteLiteral("0.0"); } else if (float.IsInfinity(val) || float.IsNaN(val)) { byte[] data = BitConverter.GetBytes(val); writer.Write('('); for (int i = 0; i < data.Length; i++) { if (i > 0) { writer.WriteLiteral(" "); } writer.WriteLiteral(data[i].ToString("X2")); } writer.Write(')'); } else { writer.WriteLiteral(val.ToString("R", System.Globalization.CultureInfo.InvariantCulture)); } } else if (operand is double) { double val = (double)operand; if (val == 0) { if (1 / val == double.NegativeInfinity) { // negative zero is a special case writer.WriteLiteral("-"); } writer.WriteLiteral("0.0"); } else if (double.IsInfinity(val) || double.IsNaN(val)) { byte[] data = BitConverter.GetBytes(val); writer.Write('('); for (int i = 0; i < data.Length; i++) { if (i > 0) { writer.WriteLiteral(" "); } writer.WriteLiteral(data[i].ToString("X2")); } writer.Write(')'); } else { writer.WriteLiteral(val.ToString("R", System.Globalization.CultureInfo.InvariantCulture)); } } else if (operand is bool) { writer.WriteLiteral((bool)operand ? "true" : "false"); } else { s = ToInvariantCultureString(operand); writer.WriteLiteral(s); } }
public override string TypeToString(ITypeDefOrRef t, bool includeNamespace, IHasCustomAttribute attributeProvider = null) { PlainTextOutput output = new PlainTextOutput(); t.WriteTo(output, includeNamespace ? ILNameSyntax.TypeName : ILNameSyntax.ShortTypeName); return output.ToString(); }