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// Copyright (c) 2011 AlphaSierraPapa for the SharpDevelop Team
//
// Permission is hereby granted, free of charge, to any person obtaining a copy of this
// software and associated documentation files (the "Software"), to deal in the Software
// without restriction, including without limitation the rights to use, copy, modify, merge,
// publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons
// to whom the Software is furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in all copies or
// substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED,
// INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR
// PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE
// FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
// DEALINGS IN THE SOFTWARE.
using System;
using System.Diagnostics;
using System.IO;
using System.Collections.Generic;
using System.Linq;
namespace ICSharpCode.Decompiler.ILAst
{
public class GotoRemoval
{
Dictionary<ILNode, ILNode> parent = new Dictionary<ILNode, ILNode>();
Dictionary<ILNode, ILNode> nextSibling = new Dictionary<ILNode, ILNode>();
public void RemoveGotos(ILBlock method)
{
// Build the navigation data
parent[method] = null;
foreach (ILNode node in method.GetSelfAndChildrenRecursive<ILNode>()) {
ILNode previousChild = null;
foreach (ILNode child in node.GetChildren()) {
if (parent.ContainsKey(child))
throw new Exception("The following expression is linked from several locations: " + child.ToString());
parent[child] = node;
if (previousChild != null)
nextSibling[previousChild] = child;
previousChild = child;
}
if (previousChild != null)
nextSibling[previousChild] = null;
}
// Simplify gotos
bool modified;
do {
modified = false;
foreach (ILExpression gotoExpr in method.GetSelfAndChildrenRecursive<ILExpression>(e => e.Code == ILCode.Br || e.Code == ILCode.Leave)) {
modified |= TrySimplifyGoto(gotoExpr);
}
} while(modified);
RemoveRedundantCode(method);
}
public static void RemoveRedundantCode(ILBlock method)
{
// Remove dead lables and nops
HashSet<ILLabel> liveLabels = new HashSet<ILLabel>(method.GetSelfAndChildrenRecursive<ILExpression>(e => e.IsBranch()).SelectMany(e => e.GetBranchTargets()));
foreach(ILBlock block in method.GetSelfAndChildrenRecursive<ILBlock>()) {
block.Body = block.Body.Where(n => !n.Match(ILCode.Nop) && !(n is ILLabel && !liveLabels.Contains((ILLabel)n))).ToList();
}
// Remove redundant continue
foreach(ILWhileLoop loop in method.GetSelfAndChildrenRecursive<ILWhileLoop>()) {
var body = loop.BodyBlock.Body;
if (body.Count > 0 && body.Last().Match(ILCode.LoopContinue)) {
body.RemoveAt(body.Count - 1);
}
}
// Remove redundant break at the end of case
// Remove redundant case blocks altogether
foreach(ILSwitch ilSwitch in method.GetSelfAndChildrenRecursive<ILSwitch>()) {
foreach(ILBlock ilCase in ilSwitch.CaseBlocks) {
Debug.Assert(ilCase.EntryGoto == null);
int count = ilCase.Body.Count;
if (count >= 2) {
if (ilCase.Body[count - 2].IsUnconditionalControlFlow() &&
ilCase.Body[count - 1].Match(ILCode.LoopOrSwitchBreak))
{
ilCase.Body.RemoveAt(count - 1);
}
}
}
var defaultCase = ilSwitch.CaseBlocks.SingleOrDefault(cb => cb.Values == null);
// If there is no default block, remove empty case blocks
if (defaultCase == null || (defaultCase.Body.Count == 1 && defaultCase.Body.Single().Match(ILCode.LoopOrSwitchBreak))) {
ilSwitch.CaseBlocks.RemoveAll(b => b.Body.Count == 1 && b.Body.Single().Match(ILCode.LoopOrSwitchBreak));
}
}
// Remove redundant return at the end of method
if (method.Body.Count > 0 && method.Body.Last().Match(ILCode.Ret) && ((ILExpression)method.Body.Last()).Arguments.Count == 0) {
method.Body.RemoveAt(method.Body.Count - 1);
}
// Remove unreachable return statements
bool modified = false;
foreach(ILBlock block in method.GetSelfAndChildrenRecursive<ILBlock>()) {
for (int i = 0; i < block.Body.Count - 1;) {
if (block.Body[i].IsUnconditionalControlFlow() && block.Body[i+1].Match(ILCode.Ret)) {
modified = true;
block.Body.RemoveAt(i+1);
} else {
i++;
}
}
}
if (modified) {
// More removals might be possible
new GotoRemoval().RemoveGotos(method);
}
}
IEnumerable<ILNode> GetParents(ILNode node)
{
ILNode current = node;
while(true) {
current = parent[current];
if (current == null)
yield break;
yield return current;
}
}
bool TrySimplifyGoto(ILExpression gotoExpr)
{
Debug.Assert(gotoExpr.Code == ILCode.Br || gotoExpr.Code == ILCode.Leave);
Debug.Assert(gotoExpr.Prefixes == null);
Debug.Assert(gotoExpr.Operand != null);
ILNode target = Enter(gotoExpr, new HashSet<ILNode>());
if (target == null)
return false;
// The gotoExper is marked as visited because we do not want to
// walk over node which we plan to modify
// The simulated path always has to start in the same try-block
// in other for the same finally blocks to be executed.
if (target == Exit(gotoExpr, new HashSet<ILNode>() { gotoExpr })) {
gotoExpr.Code = ILCode.Nop;
gotoExpr.Operand = null;
if (target is ILExpression)
((ILExpression)target).ILRanges.AddRange(gotoExpr.ILRanges);
gotoExpr.ILRanges.Clear();
return true;
}
ILNode breakBlock = GetParents(gotoExpr).FirstOrDefault(n => n is ILWhileLoop || n is ILSwitch);
if (breakBlock != null && target == Exit(breakBlock, new HashSet<ILNode>() { gotoExpr })) {
gotoExpr.Code = ILCode.LoopOrSwitchBreak;
gotoExpr.Operand = null;
return true;
}
ILNode continueBlock = GetParents(gotoExpr).FirstOrDefault(n => n is ILWhileLoop);
if (continueBlock != null && target == Enter(continueBlock, new HashSet<ILNode>() { gotoExpr })) {
gotoExpr.Code = ILCode.LoopContinue;
gotoExpr.Operand = null;
return true;
}
return false;
}
/// <summary>
/// Get the first expression to be excecuted if the instruction pointer is at the start of the given node.
/// Try blocks may not be entered in any way. If possible, the try block is returned as the node to be executed.
/// </summary>
ILNode Enter(ILNode node, HashSet<ILNode> visitedNodes)
{
if (node == null)
throw new ArgumentNullException();
if (!visitedNodes.Add(node))
return null; // Infinite loop
ILLabel label = node as ILLabel;
if (label != null) {
return Exit(label, visitedNodes);
}
ILExpression expr = node as ILExpression;
if (expr != null) {
if (expr.Code == ILCode.Br || expr.Code == ILCode.Leave) {
ILLabel target = (ILLabel)expr.Operand;
// Early exit - same try-block
if (GetParents(expr).OfType<ILTryCatchBlock>().FirstOrDefault() == GetParents(target).OfType<ILTryCatchBlock>().FirstOrDefault())
return Enter(target, visitedNodes);
// Make sure we are not entering any try-block
var srcTryBlocks = GetParents(expr).OfType<ILTryCatchBlock>().Reverse().ToList();
var dstTryBlocks = GetParents(target).OfType<ILTryCatchBlock>().Reverse().ToList();
// Skip blocks that we are already in
int i = 0;
while(i < srcTryBlocks.Count && i < dstTryBlocks.Count && srcTryBlocks[i] == dstTryBlocks[i]) i++;
if (i == dstTryBlocks.Count) {
return Enter(target, visitedNodes);
} else {
ILTryCatchBlock dstTryBlock = dstTryBlocks[i];
// Check that the goto points to the start
ILTryCatchBlock current = dstTryBlock;
while(current != null) {
foreach(ILNode n in current.TryBlock.Body) {
if (n is ILLabel) {
if (n == target)
return dstTryBlock;
} else if (!n.Match(ILCode.Nop)) {
current = n as ILTryCatchBlock;
break;
}
}
}
return null;
}
} else if (expr.Code == ILCode.Nop) {
return Exit(expr, visitedNodes);
} else if (expr.Code == ILCode.LoopOrSwitchBreak) {
ILNode breakBlock = GetParents(expr).First(n => n is ILWhileLoop || n is ILSwitch);
return Exit(breakBlock, new HashSet<ILNode>() { expr });
} else if (expr.Code == ILCode.LoopContinue) {
ILNode continueBlock = GetParents(expr).First(n => n is ILWhileLoop);
return Enter(continueBlock, new HashSet<ILNode>() { expr });
} else {
return expr;
}
}
ILBlock block = node as ILBlock;
if (block != null) {
if (block.EntryGoto != null) {
return Enter(block.EntryGoto, visitedNodes);
} else if (block.Body.Count > 0) {
return Enter(block.Body[0], visitedNodes);
} else {
return Exit(block, visitedNodes);
}
}
ILCondition cond = node as ILCondition;
if (cond != null) {
return cond.Condition;
}
ILWhileLoop loop = node as ILWhileLoop;
if (loop != null) {
if (loop.Condition != null) {
return loop.Condition;
} else {
return Enter(loop.BodyBlock, visitedNodes);
}
}
ILTryCatchBlock tryCatch = node as ILTryCatchBlock;
if (tryCatch != null) {
return tryCatch;
}
ILSwitch ilSwitch = node as ILSwitch;
if (ilSwitch != null) {
return ilSwitch.Condition;
}
throw new NotSupportedException(node.GetType().ToString());
}
/// <summary>
/// Get the first expression to be excecuted if the instruction pointer is at the end of the given node
/// </summary>
ILNode Exit(ILNode node, HashSet<ILNode> visitedNodes)
{
if (node == null)
throw new ArgumentNullException();
ILNode nodeParent = parent[node];
if (nodeParent == null)
return null; // Exited main body
if (nodeParent is ILBlock) {
ILNode nextNode = nextSibling[node];
if (nextNode != null) {
return Enter(nextNode, visitedNodes);
} else {
return Exit(nodeParent, visitedNodes);
}
}
if (nodeParent is ILCondition) {
return Exit(nodeParent, visitedNodes);
}
if (nodeParent is ILTryCatchBlock) {
// Finally blocks are completely ignored.
// We rely on the fact that try blocks can not be entered.
return Exit(nodeParent, visitedNodes);
}
if (nodeParent is ILSwitch) {
return null; // Implicit exit from switch is not allowed
}
if (nodeParent is ILWhileLoop) {
return Enter(nodeParent, visitedNodes);
}
throw new NotSupportedException(nodeParent.GetType().ToString());
}
}
}
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