void ScanLine(YieldVMStat vm, int start, int stop)
{
int m = start;
while (m < stop)
{
ILNode node = vm.usefulList [m];
bool skipNode = false;
bool jumpped = false;
if (node is ILExpression) {
ILExpression expr = node as ILExpression;
if (expr.Code == ILCode.Switch) {
int pendingSwitchExprJumpLableIndex = -1;
bool isStateSwithPending = false;
int finalStatVal = 0;
if (expr.Arguments [0].Code == ILCode.Ldloc && expr.Arguments [0].Operand == vm.statILVariable) {
isStateSwithPending = true;
pendingSwitchExprJumpLableIndex = vm.localStat;
finalStatVal = vm.localStat;
} else if (expr.Arguments [0].Code == ILCode.Ldfld &&
GetFieldDefinition (expr.Arguments [0].Operand as FieldReference) == this.stateField) {
isStateSwithPending = true;
pendingSwitchExprJumpLableIndex = vm.fieldStat;
finalStatVal = vm.fieldStat;
} else if (expr.Arguments [0].Code == ILCode.Sub) {
ILExpression iLExpression10 = expr.Arguments [0];
if (iLExpression10.Arguments [0].Code == ILCode.Ldloc && iLExpression10.Arguments [0].Operand == vm.statILVariable) {
if (iLExpression10.Arguments [1].Code == ILCode.Ldc_I4) {
finalStatVal = vm.localStat;
pendingSwitchExprJumpLableIndex = vm.localStat - (int)iLExpression10.Arguments [1].Operand;
isStateSwithPending = true;
}
} else if (iLExpression10.Arguments [0].Code == ILCode.Ldfld &&
GetFieldDefinition (iLExpression10.Arguments [0].Operand as FieldReference) == this.stateField) {
if (iLExpression10.Arguments [1].Code == ILCode.Ldc_I4) {
finalStatVal = vm.fieldStat;
pendingSwitchExprJumpLableIndex = vm.fieldStat - (int)iLExpression10.Arguments [1].Operand;
isStateSwithPending = true;
}
}
}
if (isStateSwithPending) {
ILLabel jmpLabel = null;
ILLabel[] lbList = expr.Operand as ILLabel[];
if (pendingSwitchExprJumpLableIndex >= 0 &&
pendingSwitchExprJumpLableIndex < lbList.Length) {
jmpLabel = lbList [pendingSwitchExprJumpLableIndex];
} else {
if (m + 1 >= vm.usefulList.Count
|| !(vm.usefulList [m + 1] is ILExpression)
|| (vm.usefulList [m + 1] as ILExpression).Code != ILCode.Br) {
//impossible
throw new SymbolicAnalysisFailedException ();
}
ILExpression switchDefault = vm.usefulList [m + 1] as ILExpression;
jmpLabel = switchDefault.Operand as ILLabel;
}
//convert switch to jmp
if (pendingSwitchExprJumpLableIndex >= 0 &&
pendingSwitchExprJumpLableIndex < lbList.Length) {
bool addedJump = false;
if (expr == vm.firstStatSwitchExpr) {
addedJump = vm.addNewNode (new ILExpression (ILCode.Br, jmpLabel), m);
if (!addedJump && vm.fieldStatChangedPos.ContainsKey (finalStatVal)) {
int stateStartPos = vm.fieldStatChangedPos [finalStatVal];
addedJump = vm.addNewNode (new ILExpression (ILCode.Br, jmpLabel), stateStartPos);
}
vm.localStatChangedPos.Clear ();
} else {
if (vm.localStatChangedPos.ContainsKey (finalStatVal)) {
int stateStartPos = vm.localStatChangedPos [finalStatVal];
addedJump = vm.addNewNode (new ILExpression (ILCode.Br, jmpLabel), stateStartPos);
if (!addedJump)
{
if (!vm.addNewNode(new ILExpression(ILCode.Br, jmpLabel), m))
{
//throw new SymbolicAnalysisFailedException ();
}
}
}
}
} else {
vm.addNewNode (new ILExpression (ILCode.Br, jmpLabel), m );
}
vm.localStatChangedPos.Clear ();
vm.markingLocalChangePos = false;
m = vm.labelMaping [jmpLabel];
skipNode = true;
jumpped = true;
} else {
if (vm.markingLocalChangePos) {
vm.localStatChangedPos.Clear ();
vm.markingLocalChangePos = false;
}
List<int> jumplist = new List<int> ();
ILLabel[] lbList = expr.Operand as ILLabel[];
foreach (ILLabel tmp in lbList) {
jumplist.Add (vm.labelMaping [tmp]);
}
jumplist.Add (m + 1); // the default pos;
if (!vm.addNewNode(node, m))
return;
skipNode = true;
foreach (int tmp in jumplist) {
ScanLine (vm, tmp, vm.usefulList.Count);
}
return;
}
} else if (expr.Code == ILCode.Br || expr.Code == ILCode.Leave) {
ILLabel lb = expr.Operand as ILLabel;
if (lb == null) {
//impossible
throw new SymbolicAnalysisFailedException ();
}
int lbPos = vm.labelMaping [lb];
if (!vm.addNewNode(node, m))
return;
if (lbPos < m)
ScanLine (vm, lbPos, m);
else
ScanLine(vm, lbPos, vm.usefulList.Count);
return;
} else if (isFlowControlCode (expr.Code)) {
ILLabel lb = expr.Operand as ILLabel;
if (lb == null) {
//impossible
throw new SymbolicAnalysisFailedException ();
}
if (expr == vm.firstStatSwitchExpr) {
int testvalue = 0;
skipNode = true;
if ((expr.Arguments [0].Code == ILCode.Ldfld
&& GetFieldDefinition (expr.Arguments [0].Operand as FieldReference) == stateField)) {
testvalue = vm.fieldStat;
} else
testvalue = vm.localStat;
if (isMatchControlBr (expr.Code, testvalue)) {
vm.addNewNode (new ILExpression (ILCode.Br, lb), m);
m = vm.labelMaping [lb];
jumpped = true;
} else {
vm.addNewNode (new ILExpression (ILCode.Nop, null, new List<ILExpression>()), m);
Console.WriteLine ("not maching, should skip this and continue");
}
if (vm.markingLocalChangePos) {
vm.localStatChangedPos.Clear ();
vm.markingLocalChangePos = false;
}
} else {
if (vm.markingLocalChangePos) {
vm.localStatChangedPos.Clear ();
vm.markingLocalChangePos = false;
}
int lbPos = vm.labelMaping [lb];
if (!vm.addNewNode (node, m))
return;
if (lbPos < m) {
ScanLine (vm, lbPos, m);
ScanLine (vm, m + 1, vm.usefulList.Count);
} else {
ScanLine (vm, m + 1, lbPos);
ScanLine (vm, lbPos, vm.usefulList.Count);
}
return;
}
} else if (expr.Code == ILCode.Stloc) {
if (expr.Operand == vm.statILVariable) {
if (expr.Arguments [0].Code == ILCode.Ldc_I4) {
vm.localStat = (int)expr.Arguments [0].Operand;
vm.localStatChangedPos [vm.localStat] = m;
} else if (expr.Arguments [0].Code == ILCode.Ldfld
&& GetFieldDefinition (expr.Arguments [0].Operand as FieldReference) == stateField) {
vm.localStat = vm.fieldStat;
//mark the local state for use when we process jump
vm.localStatChangedPos.Clear ();
vm.markingLocalChangePos = true;
vm.localStatChangedPos.Add (vm.localStat, m);
} else {
throw new SymbolicAnalysisFailedException ();
}
skipNode = true;
} else if (expr.Operand == vm.diposeFlagILVariable) {
if (expr.Arguments [0].Code != ILCode.Ldc_I4) {
throw new SymbolicAnalysisFailedException ();
}
vm.localDisposeFlag = (int)expr.Arguments [0].Operand;
skipNode = true;
} else if (expr.Operand == returnVariable) {
if (expr.Arguments [0].Code != ILCode.Ldc_I4) {
throw new SymbolicAnalysisFailedException ();
}
vm.localReturnValue = (int)expr.Arguments [0].Operand;
skipNode = true;
}
} else if (expr.Code == ILCode.Stfld) {
if (expr.Arguments [0].MatchThis ()) {
if (YieldReturnDecompiler.GetFieldDefinition (expr.Operand as FieldReference) == this.stateField) {
if (expr.Arguments [1].Code != ILCode.Ldc_I4) {
throw new SymbolicAnalysisFailedException ();
}
vm.fieldStat = (int)expr.Arguments [1].Operand;
skipNode = true;
} else if (YieldReturnDecompiler.GetFieldDefinition (expr.Operand as FieldReference) == this.currentField) {
//state should change
vm.addNewNode (new ILExpression (ILCode.YieldReturn, null, expr.Arguments [1]), m);
if (m + 1 < vm.usefulList.Count) {
ILExpression nextExpr = vm.usefulList [m + 1] as ILExpression;
if (
nextExpr.Code == ILCode.Stfld
&& YieldReturnDecompiler.GetFieldDefinition (nextExpr.Operand as FieldReference) == this.stateField) {
vm.fieldStat = (int)nextExpr.Arguments [1].Operand;
vm.fieldStatChangedPos [vm.fieldStat] = m + 1;
} else {
throw new SymbolicAnalysisFailedException ();
}
} else {
throw new SymbolicAnalysisFailedException ();
}
skipNode = true;
return;
}
}
} else if (expr.Code == ILCode.Ret) {
if (expr.Arguments [0].Code == ILCode.Ldloc &&
expr.Arguments [0].Operand == returnVariable) {
if (vm.localReturnValue == 0) {
skipNode = true;
vm.addNewNode (new ILExpression (ILCode.YieldBreak, null), m);
} else {
//todo nothing.
skipNode = true;
vm.addNewNode (new ILExpression (ILCode.Ret, null, new List<ILExpression> ()), m);
}
} else if (expr.Arguments [0].Code == ILCode.Ldc_I4) {
int retval = (int)expr.Arguments [0].Operand;
if (retval == 0) {
skipNode = true;
vm.addNewNode (new ILExpression (ILCode.YieldBreak, null), m);
} else {
//todo nothing.
skipNode = true;
vm.addNewNode (new ILExpression (ILCode.Ret, null, new List<ILExpression> ()), m);
}
} else {
throw new SymbolicAnalysisFailedException ();
}
}
}
if (!skipNode) {
if(!vm.addNewNode(node,m))
{
return;
}
}
if (!jumpped) {
m++;
}
}
}
void AnalyzeMoveNext2()
{
ILBlock ilMethod = CreateILAst(moveNextMethod);
ILExpression lastReturnArg;
if (!ilMethod.Body.Last().Match(ILCode.Ret, out lastReturnArg))
throw new SymbolicAnalysisFailedException();
if (ilMethod.Body.Count == 6 || ilMethod.Body.Count == 5) {
Console.WriteLine ("Debug Pos" + ilMethod.ToString ());
}
// ILVariable stateVar=null;
// ILVariable diposeFlagVar=null;
ILLabel lastLabel = null;
//can once to retrive pc , current , pc's local, usage ILNode
YieldVMStat vm = new YieldVMStat();
for (int i = 0; i < ilMethod.Body.Count; i++) {
ILNode node = ilMethod.Body [i];
if (node is ILExpression) {
ILExpression expr = node as ILExpression;
switch (expr.Code) {
case ILCode.Stloc:
//if arments is stateField;
//set statelocal = local;
if (vm.statILVariable == null && expr.Arguments [0].Code == ILCode.Ldfld
&& GetFieldDefinition (expr.Arguments [0].Operand as FieldReference) == stateField) {
vm.statILVariable = expr.Operand as ILVariable;
}
break;
case ILCode.Ret:
//find out the return Jump Lable and stat
ILExpression retArg = expr.Arguments [0] as ILExpression;
if (retArg.Code == ILCode.Ldloc) {
// a) the compiler uses a variable for returns (in debug builds, or when there are try-finally blocks)
returnVariable = (ILVariable)lastReturnArg.Operand;
returnLabel = ilMethod.Body.ElementAtOrDefault (ilMethod.Body.Count - 2) as ILLabel;
if (returnLabel == null)
throw new SymbolicAnalysisFailedException ();
} else {
// b) the compiler directly returns constants
if (retArg.Code != ILCode.Ldc_I4) {
throw new SymbolicAnalysisFailedException ();
}
if ((int)retArg.Operand == 0) {
returnFalseLabel = lastLabel;
} else {
returnTrueLabel = lastLabel;
}
}
break;
}
vm.usefulList.Add (expr);
}
else if (node is ILTryCatchBlock) {
ILTryCatchBlock tryBlock = node as ILTryCatchBlock;
//check if a state try
//finally block is not null, contains dispose , fault block is null, catch block.count==0
//exand it to usageList
bool isStateTry = false;
if (tryBlock.FaultBlock == null && tryBlock.CatchBlocks.Count == 0 && tryBlock.FinallyBlock != null) {
foreach (var tn in tryBlock.FinallyBlock.Body) {
if (tn is ILExpression && (tn as ILExpression).Code ==ILCode.Callvirt )
{
ILExpression tnexp = (tn as ILExpression);
if ( (tnexp.Operand as MethodReference).Name=="Dispose"
&& tnexp.Arguments.Count==1
&& tnexp.Arguments [0] is ILExpression
) {
ILExpression disposeArg = tnexp.Arguments [0];
if (disposeArg.Arguments.Count==1 && disposeArg.Arguments [0].MatchThis ()) {
isStateTry = true;
}
}
}
}
}
if (isStateTry) {
foreach (ILNode blkNode in tryBlock.TryBlock.Body) {
vm.usefulList.Add (blkNode);
}
foreach (ILNode blkNode in tryBlock.FinallyBlock.Body) {
if (blkNode is ILExpression) {
ILExpression blkExpr = blkNode as ILExpression;
if (blkExpr.Code == ILCode.Stloc && vm.diposeFlagILVariable == null && blkExpr.Operand != vm.statILVariable && blkExpr.Arguments [0].Code == ILCode.Ldc_I4) {
vm.diposeFlagILVariable = blkExpr.Operand as ILVariable;
}
}
}
} else {
if (tryBlock.TryBlock != null) {
foreach (ILNode blkNode in tryBlock.TryBlock.Body) {
vm.usefulList.Add (blkNode);
vm.tryBlockMapping [vm.usefulList.Count - 1] = new ILTryCatchBlockInfo(){blk=tryBlock,nodelistRef=tryBlock.TryBlock.Body};
}
tryBlock.TryBlock.Body.Clear ();
}
if (tryBlock.FinallyBlock != null) {
foreach (ILNode blkNode in tryBlock.FinallyBlock.Body) {
vm.usefulList.Add (blkNode);
vm.tryBlockMapping [vm.usefulList.Count - 1] = new ILTryCatchBlockInfo(){blk=tryBlock,nodelistRef=tryBlock.FinallyBlock.Body};
}
tryBlock.FinallyBlock.Body.Clear ();
}
if (tryBlock.CatchBlocks.Count != 0) {
foreach (ILTryCatchBlock.CatchBlock blk in tryBlock.CatchBlocks) {
foreach (ILNode blkNode in blk.Body) {
vm.usefulList.Add (blkNode);
vm.tryBlockMapping [vm.usefulList.Count - 1] = new ILTryCatchBlockInfo () {
blk = tryBlock,
nodelistRef = blk.Body
};
}
blk.Body.Clear ();
}
}
if (tryBlock.FaultBlock != null) {
foreach (ILNode blkNode in tryBlock.FaultBlock.Body) {
vm.usefulList.Add (blkNode);
vm.tryBlockMapping [vm.usefulList.Count - 1] = new ILTryCatchBlockInfo(){blk=tryBlock,nodelistRef=tryBlock.FaultBlock.Body};
}
tryBlock.FaultBlock.Body.Clear ();
}
}
} else if (node is ILLabel) {
lastLabel = node as ILLabel;
vm.usefulList.Add (node);
}
else {
//add it to usageList
vm.usefulList.Add (node);
}
}
//make all the lable and get first case swith
//
bool expectedSwitchFollowBr = false;
for (int i = 0; i < vm.usefulList.Count; i++) {
ILNode node = vm.usefulList [i];
if (node is ILExpression) {
ILExpression expr = node as ILExpression;
if (expr.Code == ILCode.Switch
&& vm.firstStatSwitchExpr == null
&& expr.Arguments.Count == 1) {
if ((expr.Arguments [0].Code == ILCode.Ldloc
&& expr.Arguments [0].Operand == vm.statILVariable)
||
(expr.Arguments [0].Code == ILCode.Ldfld
&& GetFieldDefinition (expr.Arguments [0].Operand as FieldReference) == stateField)) {
foreach (ILLabel lb in (expr.Operand as ILLabel[])) {
vm.fistStateSwitchLabelList.Add (lb);
}
vm.firstStatSwitchExpr = expr;
expectedSwitchFollowBr = true;
}
} else if (isFlowControlCode (expr.Code) && expr.Arguments.Count>0 && expr.Arguments[0].Operand==vm.statILVariable) {
ILLabel lb = expr.Operand as ILLabel;
vm.fistStateSwitchLabelList.Add (lb);
vm.firstStatSwitchExpr = expr;
}
else if (expr.Code == ILCode.Br && expectedSwitchFollowBr) {
expectedSwitchFollowBr = false;
if (initPCValue < 0) {
vm.fistStateSwitchLabelList.Insert (0, expr.Operand as ILLabel);
} else {
vm.fistStateSwitchLabelList.Add (expr.Operand as ILLabel);
}
}
} else if (node is ILTryCatchBlock) {
}
else if (node is ILLabel) {
vm.labelMaping [(node as ILLabel)] = i;
}
}
int scanTimes = vm.fistStateSwitchLabelList.Count;
if (initPCValue == 0)
scanTimes -= 1;
//scan all first swith stat
//
for(int i=0; i<scanTimes;i++)
{
vm.resetStatVariable ();
if(initPCValue==0 )
{
vm.fieldStat=i;
}
else
{
if(i==0)
{
vm.fieldStat=initPCValue;
}
else
{
vm.fieldStat =i-1;
}
}
vm.scanningStat = vm.fieldStat;
ScanLine (vm,0,vm.usefulList.Count);
if(vm.fieldStatChangedPos.Count==0 && i==0 && i<scanTimes && initPCValue<0)
{
Console.WriteLine("A compiler bug? .fieldStatChangedPos.Count==0 && i==0 && i<scanTimes && initPCValue<0 at method: " + moveNextMethod.FullName + "\n:" + vm.outputNewBody());
vm.clearCreatedNodes();
}
}
// vm.fieldStat=initPCValue;
// ScanLine (vm, 0);
createdBody = vm.outputNewBody ();
if (ilMethod.Body.Count == 6 || ilMethod.Body.Count == 5) {
Console.WriteLine ("xxxx size " + createdBody.Count);
}
Console.WriteLine ("create size " + createdBody.Count);
}