protected virtual void WriteInstruction(ITextOutput output, Instruction instruction)
{
if (ShowSequencePoints && nextSequencePointIndex < sequencePoints?.Count)
{
SequencePoint sp = sequencePoints[nextSequencePointIndex];
if (sp.Offset <= instruction.Offset)
{
output.Write("// sequence point: ");
if (sp.Offset != instruction.Offset)
{
output.Write("!! at " + DisassemblerHelpers.OffsetToString(sp.Offset) + " !!");
}
if (sp.IsHidden)
{
output.WriteLine("hidden");
}
else
{
output.WriteLine($"(line {sp.StartLine}, col {sp.StartColumn}) to (line {sp.EndLine}, col {sp.EndColumn}) in {sp.Document?.Url}");
}
nextSequencePointIndex++;
}
}
instruction.WriteTo(output);
}
protected virtual void WriteInstruction(ITextOutput output, MetadataReader metadata, MethodDefinitionHandle methodDefinition, ref BlobReader blob)
{
int offset = blob.Offset;
if (ShowSequencePoints && nextSequencePointIndex < sequencePoints?.Count)
{
var sp = sequencePoints[nextSequencePointIndex];
if (sp.Offset <= offset)
{
output.Write("// sequence point: ");
if (sp.Offset != offset)
{
output.Write("!! at " + DisassemblerHelpers.OffsetToString(sp.Offset) + " !!");
}
if (sp.IsHidden)
{
output.WriteLine("hidden");
}
else
{
output.WriteLine($"(line {sp.StartLine}, col {sp.StartColumn}) to (line {sp.EndLine}, col {sp.EndColumn}) in {sp.DocumentUrl}");
}
nextSequencePointIndex++;
}
}
ILOpCode opCode = ILParser.DecodeOpCode(ref blob);
output.WriteLocalReference(DisassemblerHelpers.OffsetToString(offset), offset, isDefinition: true);
output.Write(": ");
if (opCode.IsDefined())
{
output.WriteReference(new OpCodeInfo(opCode, opCode.GetDisplayName()));
switch (opCode.GetOperandType())
{
case OperandType.BrTarget:
case OperandType.ShortBrTarget:
output.Write(' ');
int targetOffset = ILParser.DecodeBranchTarget(ref blob, opCode);
output.WriteLocalReference($"IL_{targetOffset:x4}", targetOffset);
break;
case OperandType.Field:
case OperandType.Method:
case OperandType.Sig:
case OperandType.Type:
output.Write(' ');
int metadataToken = blob.ReadInt32();
EntityHandle?handle = MetadataTokenHelpers.TryAsEntityHandle(metadataToken);
try {
handle?.WriteTo(module, output, genericContext);
} catch (BadImageFormatException) {
handle = null;
}
WriteMetadataToken(handle, metadataToken, spaceBefore: true);
break;
case OperandType.Tok:
output.Write(' ');
metadataToken = blob.ReadInt32();
handle = MetadataTokenHelpers.TryAsEntityHandle(metadataToken);
switch (handle?.Kind)
{
case HandleKind.MemberReference:
switch (metadata.GetMemberReference((MemberReferenceHandle)handle).GetKind())
{
case MemberReferenceKind.Method:
output.Write("method ");
break;
case MemberReferenceKind.Field:
output.Write("field ");
break;
}
break;
case HandleKind.FieldDefinition:
output.Write("field ");
break;
case HandleKind.MethodDefinition:
output.Write("method ");
break;
}
try {
handle?.WriteTo(module, output, genericContext);
} catch (BadImageFormatException) {
handle = null;
}
WriteMetadataToken(handle, metadataToken, spaceBefore: true);
break;
case OperandType.ShortI:
output.Write(' ');
DisassemblerHelpers.WriteOperand(output, blob.ReadSByte());
break;
case OperandType.I:
output.Write(' ');
DisassemblerHelpers.WriteOperand(output, blob.ReadInt32());
break;
case OperandType.I8:
output.Write(' ');
DisassemblerHelpers.WriteOperand(output, blob.ReadInt64());
break;
case OperandType.ShortR:
output.Write(' ');
DisassemblerHelpers.WriteOperand(output, blob.ReadSingle());
break;
case OperandType.R:
output.Write(' ');
DisassemblerHelpers.WriteOperand(output, blob.ReadDouble());
break;
case OperandType.String:
metadataToken = blob.ReadInt32();
output.Write(' ');
UserStringHandle?userString;
string text;
try {
userString = MetadataTokens.UserStringHandle(metadataToken);
text = metadata.GetUserString(userString.Value);
} catch (BadImageFormatException) {
userString = null;
text = null;
}
if (userString != null)
{
DisassemblerHelpers.WriteOperand(output, text);
}
WriteMetadataToken(userString, metadataToken, spaceBefore: true);
break;
case OperandType.Switch:
int[] targets = ILParser.DecodeSwitchTargets(ref blob);
output.Write(" (");
for (int i = 0; i < targets.Length; i++)
{
if (i > 0)
{
output.Write(", ");
}
output.WriteLocalReference($"IL_{targets[i]:x4}", targets[i]);
}
output.Write(")");
break;
case OperandType.Variable:
output.Write(' ');
int index = blob.ReadUInt16();
if (opCode == ILOpCode.Ldloc || opCode == ILOpCode.Ldloca || opCode == ILOpCode.Stloc)
{
DisassemblerHelpers.WriteVariableReference(output, metadata, methodDefinition, index);
}
else
{
DisassemblerHelpers.WriteParameterReference(output, metadata, methodDefinition, index);
}
break;
case OperandType.ShortVariable:
output.Write(' ');
index = blob.ReadByte();
if (opCode == ILOpCode.Ldloc_s || opCode == ILOpCode.Ldloca_s || opCode == ILOpCode.Stloc_s)
{
DisassemblerHelpers.WriteVariableReference(output, metadata, methodDefinition, index);
}
else
{
DisassemblerHelpers.WriteParameterReference(output, metadata, methodDefinition, index);
}
break;
}
}
else
{
ushort opCodeValue = (ushort)opCode;
if (opCodeValue > 0xFF)
{
// split 16-bit value into two emitbyte directives
output.WriteLine($".emitbyte 0x{(byte)(opCodeValue >> 8):x}");
// add label
output.WriteLocalReference(DisassemblerHelpers.OffsetToString(offset + 1), offset + 1, isDefinition: true);
output.Write(": ");
output.Write($".emitbyte 0x{(byte)(opCodeValue & 0xFF):x}");
}
else
{
output.Write($".emitbyte 0x{(byte)opCodeValue:x}");
}
}
output.WriteLine();
}