// Copyright (c) AlphaSierraPapa for the SharpDevelop Team (for details please see \doc\copyright.txt)
// This code is distributed under MIT X11 license (for details please see \doc\license.txt)
using System;
using System.Collections.Concurrent;
using System.Collections.Generic;
using System.Linq;
using ICSharpCode.Decompiler.Ast;
using ICSharpCode.Decompiler.Disassembler;
using ICSharpCode.Decompiler.ILAst;
using Mono.Cecil;
namespace ICSharpCode.Decompiler
{
public enum DecompiledLanguages
{
IL,
CSharp
}
///
/// Maps the source code to IL.
///
public class SourceCodeMapping
{
///
/// Gets or sets the source code line number in the output.
///
public int SourceCodeLine { get; set; }
///
/// Gets or sets IL Range offset for the source code line. E.g.: 13-19 <-> 135.
///
public ILRange ILInstructionOffset { get; set; }
///
/// Gets or sets the member mapping this source code mapping belongs to.
///
public MemberMapping MemberMapping { get; set; }
///
/// Retrieves the array that contains the IL range and the missing gaps between ranges.
///
///
public int[] ToArray()
{
// add list for the current source code line
var currentList = MemberMapping.MemberCodeMappings
.FindAll(m => m.SourceCodeLine == this.SourceCodeLine)
.ConvertAll(m => m.ILInstructionOffset);
// add inverted
currentList.AddRange(MemberMapping.InvertedList);
var resultList = new List();
foreach (var element in ILRange.OrderAndJoint(currentList)) {
resultList.Add(element.From);
resultList.Add(element.To);
}
return resultList.ToArray();
}
}
///
/// Stores the method information and its source code mappings.
///
public sealed class MemberMapping
{
IEnumerable invertedList;
///
/// Gets or sets the type of the mapping.
///
public TypeDefinition Type { get; set; }
///
/// Metadata token of the method.
///
public uint MetadataToken { get; set; }
///
/// Gets or sets the code size for the member mapping.
///
public int CodeSize { get; set; }
///
/// Gets or sets the source code mappings.
///
public List MemberCodeMappings { get; set; }
///
/// Gets the inverted IL Ranges.
/// E.g.: for (0-9, 11-14, 14-18, 21-25) => (9-11,18-21).
///
/// IL Range inverted list.
public IEnumerable InvertedList
{
get {
if (invertedList == null) {
var list = MemberCodeMappings.ConvertAll(
s => new ILRange { From = s.ILInstructionOffset.From, To = s.ILInstructionOffset.To });
invertedList = ILRange.Invert(list, CodeSize);
}
return invertedList;
}
}
}
public static class CodeMappings
{
public static ConcurrentDictionary> GetStorage(DecompiledLanguages language)
{
ConcurrentDictionary> storage = null;
switch (language) {
case DecompiledLanguages.IL:
storage = ILCodeMapping.SourceCodeMappings;
break;
case DecompiledLanguages.CSharp:
storage = CSharpCodeMapping.SourceCodeMappings;
break;
default:
throw new System.Exception("Invalid value for DecompiledLanguages");
}
return storage;
}
///
/// Create code mapping for a method.
///
/// Method to create the mapping for.
/// Source code mapping storage.
public static MemberMapping CreateCodeMapping(
this MethodDefinition member,
ConcurrentDictionary> codeMappings)
{
if (member == null || !member.HasBody)
return null;
if (codeMappings == null)
throw new ArgumentNullException("CodeMappings storage must be valid!");
// create IL/CSharp code mappings - used in debugger
MemberMapping currentMemberMapping = null;
if (codeMappings.ContainsKey(member.DeclaringType.FullName)) {
var mapping = codeMappings[member.DeclaringType.FullName];
if (mapping.Find(map => (int)map.MetadataToken == member.MetadataToken.ToInt32()) == null) {
currentMemberMapping = new MemberMapping() {
MetadataToken = (uint)member.MetadataToken.ToInt32(),
Type = member.DeclaringType.Resolve(),
MemberCodeMappings = new List(),
CodeSize = member.Body.CodeSize
};
mapping.Add(currentMemberMapping);
}
}
return currentMemberMapping;
}
///
/// Gets source code mapping and metadata token based on type name and line number.
///
/// Code mappings storage.
/// Type name.
/// Line number.
/// Metadata token.
///
public static SourceCodeMapping GetInstructionByTypeAndLine(
this ConcurrentDictionary> codeMappings,
string typeName,
int lineNumber,
out uint metadataToken)
{
if (codeMappings == null)
throw new ArgumentNullException("CodeMappings storage must be valid!");
if (!codeMappings.ContainsKey(typeName)) {
metadataToken = 0;
return null;
}
if (lineNumber <= 0) {
metadataToken = 0;
return null;
}
var methodMappings = codeMappings[typeName];
foreach (var maping in methodMappings) {
var map = maping.MemberCodeMappings.Find(m => m.SourceCodeLine == lineNumber);
if (map != null) {
metadataToken = maping.MetadataToken;
return map;
}
}
metadataToken = 0;
return null;
}
///
/// Gets the source code and type name from metadata token and offset.
///
/// Code mappings storage.
/// Metadata token.
/// IL offset.
/// Type definition.
/// Line number.
public static bool GetSourceCodeFromMetadataTokenAndOffset(
this ConcurrentDictionary> codeMappings,
uint token,
int ilOffset,
out TypeDefinition type,
out int line)
{
type = null;
line = 0;
foreach (var typename in codeMappings.Keys) {
var mapping = codeMappings[typename].Find(m => m.MetadataToken == token);
if (mapping == null)
continue;
var codeMapping = mapping.MemberCodeMappings.Find(
cm => cm.ILInstructionOffset.From <= ilOffset && ilOffset <= cm.ILInstructionOffset.To - 1);
if (codeMapping == null) {
codeMapping = mapping.MemberCodeMappings.Find(cm => (cm.ILInstructionOffset.From >= ilOffset));
if (codeMapping == null) {
codeMapping = mapping.MemberCodeMappings.LastOrDefault();
if (codeMapping == null)
continue;
}
}
type = mapping.Type;
line = codeMapping.SourceCodeLine;
return true;
}
return false;
}
}
}