// Copyright (c) 2017 Siegfried Pammer
//
// 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.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using ICSharpCode.Decompiler.TypeSystem;
namespace ICSharpCode.Decompiler.IL.Transforms
{
class UsingTransform : IBlockTransform
{
BlockTransformContext context;
void IBlockTransform.Run(Block block, BlockTransformContext context)
{
if (!context.Settings.UsingStatement) return;
this.context = context;
for (int i = block.Instructions.Count - 1; i >= 0; i--) {
if (!TransformUsing(block, i) && !TransformUsingVB(block, i))
continue;
// This happens in some cases:
// Use correct index after transformation.
if (i >= block.Instructions.Count)
i = block.Instructions.Count;
}
}
///
/// stloc obj(resourceExpression)
/// .try BlockContainer {
/// Block IL_0003(incoming: 1) {
/// call WriteLine(ldstr "using (null)")
/// leave IL_0003(nop)
/// }
/// } finally BlockContainer {
/// Block IL_0012(incoming: 1) {
/// if (comp(ldloc obj != ldnull)) Block IL_001a {
/// callvirt Dispose(ldnull)
/// }
/// leave IL_0012(nop)
/// }
/// }
/// leave IL_0000(nop)
/// =>
/// using (resourceExpression) {
/// BlockContainer {
/// Block IL_0003(incoming: 1) {
/// call WriteLine(ldstr "using (null)")
/// leave IL_0003(nop)
/// }
/// }
/// }
///
bool TransformUsing(Block block, int i)
{
if (i < 1) return false;
if (!(block.Instructions[i] is TryFinally tryFinally) || !(block.Instructions[i - 1] is StLoc storeInst))
return false;
if (!(storeInst.Value.MatchLdNull() || CheckResourceType(storeInst.Variable.Type)))
return false;
if (storeInst.Variable.LoadInstructions.Any(ld => !ld.IsDescendantOf(tryFinally)))
return false;
if (storeInst.Variable.AddressInstructions.Any(la => !la.IsDescendantOf(tryFinally) || (la.IsDescendantOf(tryFinally.TryBlock) && !ILInlining.IsUsedAsThisPointerInCall(la))))
return false;
if (storeInst.Variable.StoreInstructions.OfType().Any(st => st != storeInst))
return false;
if (!(tryFinally.FinallyBlock is BlockContainer container) || !MatchDisposeBlock(container, storeInst.Variable, storeInst.Value.MatchLdNull()))
return false;
context.Step("UsingTransform", tryFinally);
storeInst.Variable.Kind = VariableKind.UsingLocal;
block.Instructions.RemoveAt(i);
block.Instructions[i - 1] = new UsingInstruction(storeInst.Variable, storeInst.Value, tryFinally.TryBlock);
return true;
}
///
/// .try BlockContainer {
/// Block IL_0003(incoming: 1) {
/// stloc obj(resourceExpression)
/// call WriteLine(ldstr "using (null)")
/// leave IL_0003(nop)
/// }
/// } finally BlockContainer {
/// Block IL_0012(incoming: 1) {
/// if (comp(ldloc obj != ldnull)) Block IL_001a {
/// callvirt Dispose(ldnull)
/// }
/// leave IL_0012(nop)
/// }
/// }
/// leave IL_0000(nop)
/// =>
/// using (resourceExpression) {
/// BlockContainer {
/// Block IL_0003(incoming: 1) {
/// call WriteLine(ldstr "using (null)")
/// leave IL_0003(nop)
/// }
/// }
/// }
///
bool TransformUsingVB(Block block, int i)
{
if (!(block.Instructions[i] is TryFinally tryFinally))
return false;
if (!(tryFinally.TryBlock is BlockContainer tryContainer && tryContainer.EntryPoint.Instructions.FirstOrDefault() is StLoc storeInst))
return false;
if (!(storeInst.Value.MatchLdNull() || CheckResourceType(storeInst.Variable.Type)))
return false;
if (storeInst.Variable.LoadInstructions.Any(ld => !ld.IsDescendantOf(tryFinally)))
return false;
if (storeInst.Variable.AddressInstructions.Any(la => !la.IsDescendantOf(tryFinally) || (la.IsDescendantOf(tryFinally.TryBlock) && !ILInlining.IsUsedAsThisPointerInCall(la))))
return false;
if (storeInst.Variable.StoreInstructions.OfType().Any(st => st != storeInst))
return false;
if (!(tryFinally.FinallyBlock is BlockContainer container) || !MatchDisposeBlock(container, storeInst.Variable, storeInst.Value.MatchLdNull()))
return false;
context.Step("UsingTransformVB", tryFinally);
storeInst.Variable.Kind = VariableKind.UsingLocal;
tryContainer.EntryPoint.Instructions.RemoveAt(0);
block.Instructions[i] = new UsingInstruction(storeInst.Variable, storeInst.Value, tryFinally.TryBlock);
return true;
}
bool CheckResourceType(IType type)
{
// non-generic IEnumerator does not implement IDisposable.
// This is a workaround for non-generic foreach.
if (type.IsKnownType(KnownTypeCode.IEnumerator))
return true;
if (NullableType.GetUnderlyingType(type).GetAllBaseTypes().Any(b => b.IsKnownType(KnownTypeCode.IDisposable)))
return true;
// General GetEnumerator-pattern?
if (!type.GetMethods(m => m.Name == "GetEnumerator" && m.TypeParameters.Count == 0 && m.Parameters.Count == 0).Any(m => ImplementsForeachPattern(m.ReturnType)))
return false;
return true;
}
bool ImplementsForeachPattern(IType type)
{
if (!type.GetMethods(m => m.Name == "MoveNext" && m.TypeParameters.Count == 0 && m.Parameters.Count == 0).Any(m => m.ReturnType.IsKnownType(KnownTypeCode.Boolean)))
return false;
if (!type.GetProperties(p => p.Name == "Current" && p.CanGet && !p.IsIndexer).Any())
return false;
return true;
}
bool MatchDisposeBlock(BlockContainer container, ILVariable objVar, bool usingNull)
{
var entryPoint = container.EntryPoint;
if (entryPoint.Instructions.Count < 2 || entryPoint.Instructions.Count > 3 || entryPoint.IncomingEdgeCount != 1)
return false;
int leaveIndex = entryPoint.Instructions.Count == 2 ? 1 : 2;
int checkIndex = entryPoint.Instructions.Count == 2 ? 0 : 1;
int castIndex = entryPoint.Instructions.Count == 3 ? 0 : -1;
bool isReference = objVar.Type.IsReferenceType != false;
if (castIndex > -1) {
if (!entryPoint.Instructions[castIndex].MatchStLoc(out var tempVar, out var isinst))
return false;
if (!isinst.MatchIsInst(out var load, out var disposableType) || !load.MatchLdLoc(objVar) || !disposableType.IsKnownType(KnownTypeCode.IDisposable))
return false;
if (tempVar.StoreCount != 1 || tempVar.LoadCount != 2)
return false;
objVar = tempVar;
isReference = true;
}
if (!entryPoint.Instructions[leaveIndex].MatchLeave(container, out var returnValue) || !returnValue.MatchNop())
return false;
CallVirt callVirt;
if (objVar.Type.IsKnownType(KnownTypeCode.NullableOfT)) {
if (!entryPoint.Instructions[checkIndex].MatchIfInstruction(out var condition, out var disposeInst))
return false;
if (!(NullableLiftingTransform.MatchHasValueCall(condition, out var v) && v == objVar))
return false;
if (!(disposeInst is Block disposeBlock) || disposeBlock.Instructions.Count != 1)
return false;
if (!(disposeBlock.Instructions[0] is CallVirt cv))
return false;
callVirt = cv;
if (callVirt.Method.FullName != "System.IDisposable.Dispose")
return false;
if (callVirt.Method.Parameters.Count > 0)
return false;
if (callVirt.Arguments.Count != 1)
return false;
var firstArg = cv.Arguments.FirstOrDefault();
if (!(firstArg.MatchUnboxAny(out var innerArg1, out var unboxType) && unboxType.IsKnownType(KnownTypeCode.IDisposable))) {
if (!firstArg.MatchAddressOf(out var innerArg2))
return false;
return NullableLiftingTransform.MatchGetValueOrDefault(innerArg2, objVar);
} else {
if (!(innerArg1.MatchBox(out firstArg, out var boxType) && boxType.IsKnownType(KnownTypeCode.NullableOfT) &&
NullableType.GetUnderlyingType(boxType).Equals(NullableType.GetUnderlyingType(objVar.Type))))
return false;
return firstArg.MatchLdLoc(objVar);
}
} else {
ILInstruction target;
if (isReference) {
// reference types have a null check.
if (!entryPoint.Instructions[checkIndex].MatchIfInstruction(out var condition, out var disposeInst))
return false;
if (!condition.MatchCompNotEquals(out var left, out var right) || !left.MatchLdLoc(objVar) || !right.MatchLdNull())
return false;
if (!(disposeInst is Block disposeBlock) || disposeBlock.Instructions.Count != 1)
return false;
if (!(disposeBlock.Instructions[0] is CallVirt cv))
return false;
target = cv.Arguments.FirstOrDefault();
if (target == null)
return false;
if (target.MatchBox(out var newTarget, out var type) && type.Equals(objVar.Type))
target = newTarget;
callVirt = cv;
} else {
if (!(entryPoint.Instructions[checkIndex] is CallVirt cv))
return false;
target = cv.Arguments.FirstOrDefault();
if (target == null)
return false;
callVirt = cv;
}
if (callVirt.Method.FullName != "System.IDisposable.Dispose")
return false;
if (callVirt.Method.Parameters.Count > 0)
return false;
if (callVirt.Arguments.Count != 1)
return false;
return target.MatchLdLocRef(objVar) || (usingNull && callVirt.Arguments[0].MatchLdNull());
}
}
}
}