public object VisitTryStatement(TryStatementAst tryStatementAst)
{
var temps = new List<ParameterExpression>();
var tryBlockExprs = new List<Expression>();
var finallyBlockExprs = new List<Expression>();
// We must set $ExecutionContext.PropagateExceptionsToEnclosingStatementBlock = $true so we don't prompt
// if an exception is raised, and we must restore the previous value when leaving because we can't
// know if we're dynamically executing code guarded by a try/catch.
var oldActiveHandler = NewTemp(typeof(bool), "oldActiveHandler");
temps.Add(oldActiveHandler);
var handlerInScope = Expression.Property(_executionContextParameter,
CachedReflectionInfo.ExecutionContext_ExceptionHandlerInEnclosingStatementBlock);
tryBlockExprs.Add(Expression.Assign(oldActiveHandler, handlerInScope));
tryBlockExprs.Add(Expression.Assign(handlerInScope, ExpressionCache.Constant(true)));
finallyBlockExprs.Add(Expression.Assign(handlerInScope, oldActiveHandler));
CompileStatementListWithTraps(tryStatementAst.Body.Statements, tryStatementAst.Body.Traps, tryBlockExprs, temps);
var catches = new List<CatchBlock>();
if (tryStatementAst.CatchClauses.Count == 1 && tryStatementAst.CatchClauses[0].IsCatchAll)
{
// Generate:
// catch (RuntimeException rte)
// {
// oldrte = context.CurrentExceptionBeingHandled
// context.CurrentExceptionBeingHandled = rte
// oldDollarUnder = $_
// $_ = new ErrorRecord(rte.ErrorRecord, rte)
// try {
// user catch code
// } finally {
// $_ = oldDollarUnder
// context.CurrentExceptionBeingHandled = oldrte
// }
AutomaticVarSaver avs = new AutomaticVarSaver(this, SpecialVariables.UnderbarVarPath,
(int)AutomaticVariable.Underbar);
var rte = NewTemp(typeof(RuntimeException), "rte");
var oldrte = NewTemp(typeof(RuntimeException), "oldrte");
var errorRecord = Expression.New(CachedReflectionInfo.ErrorRecord__ctor,
Expression.Property(rte, CachedReflectionInfo.RuntimeException_ErrorRecord),
rte);
var catchExprs = new List<Expression>
{
Expression.Assign(oldrte, s_currentExceptionBeingHandled),
Expression.Assign(s_currentExceptionBeingHandled, rte),
avs.SaveAutomaticVar(),
avs.SetNewValue(errorRecord)
};
StatementBlockAst statementBlock = tryStatementAst.CatchClauses[0].Body;
CompileStatementListWithTraps(statementBlock.Statements, statementBlock.Traps, catchExprs, temps);
var tf = Expression.TryFinally(
Expression.Block(typeof(void), catchExprs),
Expression.Block(typeof(void),
avs.RestoreAutomaticVar(),
Expression.Assign(s_currentExceptionBeingHandled, oldrte)));
catches.Add(Expression.Catch(typeof(PipelineStoppedException), Expression.Rethrow()));
catches.Add(Expression.Catch(rte, Expression.Block(avs.GetTemps().Append(oldrte).ToArray(), tf)));
}
else if (tryStatementAst.CatchClauses.Count > 0)
{
// We can't generate a try/catch in quite the way one might expect for a few reasons:
// * At compile time, we may not have loaded the types that are being caught
// * We wrap exceptions in a RuntimeException so they can carry a position.
//
// Instead, we generate something like:
// try {}
// catch (RuntimeException re) {
// try
// {
// oldexception = context.CurrentExceptionBeingHandled
// context.CurrentExceptionBeingHandled = re
// old_ = $_
// $_ = re.ErrorRecord
// switch (ExceptionHandlingOps.FindMatchingHandler(re, types))
// {
// case 0:
// /* first handler */
// break;
// case 1:
// case 2:
// /* second handler (we do allow a single handler for multiple types) */
// break;
// default:
// /* no matching handler, but could be a trap or user might want prompting */
// /* will rethrow the exception if that's what we need to do */
// ExceptionHandlingOps.CheckActionPreference(functionContext, exception);
// }
// } finally {
// $_ = old_
// context.CurrentExceptionBeingHandled = oldexception
// }
// }
// Try to get the types at compile time. We could end up with nulls in this array, we'll handle
// that with runtime code.
int countTypes = 0;
for (int index = 0; index < tryStatementAst.CatchClauses.Count; index++)
{
var c = tryStatementAst.CatchClauses[index];
// If CatchTypes.Count is empty, we still want to count the catch all handler.
countTypes += Math.Max(c.CatchTypes.Count, 1);
}
var catchTypes = new Type[countTypes];
Expression catchTypesExpr = Expression.Constant(catchTypes);
var dynamicCatchTypes = new List<Expression>();
var cases = new List<SwitchCase>();
int handlerTypeIndex = 0;
int i = 0;
var exception = Expression.Parameter(typeof(RuntimeException));
for (int index = 0; index < tryStatementAst.CatchClauses.Count; index++)
{
var c = tryStatementAst.CatchClauses[index];
if (c.IsCatchAll)
{
catchTypes[i] = typeof(ExceptionHandlingOps.CatchAll);
}
else
{
for (int index1 = 0; index1 < c.CatchTypes.Count; index1++)
{
var ct = c.CatchTypes[index1];
catchTypes[i] = ct.TypeName.GetReflectionType();
if (catchTypes[i] == null)
{
// Type needs to be resolved at runtime, so we'll use code like:
//
// if (catchTypes[i] == null) catchTypes[i] = ResolveTypeName(ct.TypeName)
//
// We use a constant array, resolve just once (unless it fails) to prevent re-resolving
// each time it executes.
var indexExpr = Expression.ArrayAccess(catchTypesExpr, ExpressionCache.Constant(i));
dynamicCatchTypes.Add(
Expression.IfThen(
Expression.Equal(indexExpr, ExpressionCache.NullType),
Expression.Assign(
indexExpr,
Expression.Call(CachedReflectionInfo.TypeOps_ResolveTypeName,
Expression.Constant(ct.TypeName),
Expression.Constant(ct.Extent)))));
}
i += 1;
}
}
// Wrap the body in a void block so all cases have the same type.
var catchBody = Expression.Block(typeof(void), Compile(c.Body));
if (c.IsCatchAll)
{
cases.Add(Expression.SwitchCase(catchBody,
ExpressionCache.Constant(handlerTypeIndex)));
handlerTypeIndex += 1;
}
else
{
cases.Add(Expression.SwitchCase(catchBody,
Enumerable.Range(handlerTypeIndex,
handlerTypeIndex + c.CatchTypes.Count).Select(
ExpressionCache.Constant)));
handlerTypeIndex += c.CatchTypes.Count;
}
}
if (dynamicCatchTypes.Count > 0)
{
// This might be worth a strict-mode check - if there was a typo, the typo isn't discovered until
// the first time an exception is raised, which is rather unfortunate.
catchTypesExpr = Expression.Block(dynamicCatchTypes.Append(catchTypesExpr));
}
AutomaticVarSaver avs = new AutomaticVarSaver(this, SpecialVariables.UnderbarVarPath,
(int)AutomaticVariable.Underbar);
var swCond = Expression.Call(CachedReflectionInfo.ExceptionHandlingOps_FindMatchingHandler,
LocalVariablesParameter, exception, catchTypesExpr, _executionContextParameter);
var oldexception = NewTemp(typeof(RuntimeException), "oldrte");
var tf = Expression.TryFinally(
Expression.Block(
typeof(void),
Expression.Assign(oldexception, s_currentExceptionBeingHandled),
Expression.Assign(s_currentExceptionBeingHandled, exception),
avs.SaveAutomaticVar(),
// $_ is set in the call to ExceptionHandlingOps.FindMatchingHandler
Expression.Switch(
swCond,
Expression.Call(
CachedReflectionInfo.ExceptionHandlingOps_CheckActionPreference,
_functionContext, exception),
cases.ToArray())),
Expression.Block(
avs.RestoreAutomaticVar(),
Expression.Assign(s_currentExceptionBeingHandled, oldexception)));
catches.Add(Expression.Catch(typeof(PipelineStoppedException), Expression.Rethrow()));
catches.Add(Expression.Catch(exception, Expression.Block(avs.GetTemps().Append(oldexception).ToArray(), tf)));
}
if (tryStatementAst.Finally != null)
{
// Generate:
// oldIsStopping = ExceptionHandlingOps.SuspendStoppingPipeline(executionContext);
// try {
// user finally statements
// } finally {
// ExceptionHandlingOps.RestoreStoppingPipeline(executionContext, oldIsStopping);
// }
var oldIsStopping = NewTemp(typeof(bool), "oldIsStopping");
temps.Add(oldIsStopping);
finallyBlockExprs.Add(
Expression.Assign(oldIsStopping,
Expression.Call(CachedReflectionInfo.ExceptionHandlingOps_SuspendStoppingPipeline,
_executionContextParameter)));
var nestedFinallyExprs = new List<Expression>();
CompileStatementListWithTraps(tryStatementAst.Finally.Statements,
tryStatementAst.Finally.Traps, nestedFinallyExprs, temps);
if (nestedFinallyExprs.Count == 0)
{
nestedFinallyExprs.Add(ExpressionCache.Empty);
}
finallyBlockExprs.Add(Expression.Block(
Expression.TryFinally(
Expression.Block(nestedFinallyExprs),
Expression.Call(CachedReflectionInfo.ExceptionHandlingOps_RestoreStoppingPipeline,
_executionContextParameter,
oldIsStopping))));
}
// Our result must have void type, so make sure it does.
if (tryBlockExprs[tryBlockExprs.Count - 1].Type != typeof(void))
{
tryBlockExprs.Add(ExpressionCache.Empty);
}
if (catches.Count > 0)
{
return Expression.Block(
temps.ToArray(),
Expression.TryCatchFinally(
Expression.Block(tryBlockExprs),
Expression.Block(finallyBlockExprs),
catches.ToArray()));
}
return Expression.Block(
temps.ToArray(),
Expression.TryFinally(
Expression.Block(tryBlockExprs),
Expression.Block(finallyBlockExprs)));
}
private Expression GenerateIteratorStatement(VariablePath iteratorVariablePath,
Func<Expression> generateMoveNextUpdatePosition,
int iteratorTupleIndex,
LabeledStatementAst stmt,
Action<List<Expression>, Expression> generateBody)
{
// We convert:
// foreach ($x in $enumerable) {}
// Into:
// try
// {
// $oldforeach = $foreach
// $enumerable = condition
// $foreach = GetEnumerator $enumerable
// if ($foreach == $null && $enumerable != $null)
// {
// $foreach = (new object[] { $enumerable }).GetEnumerator()
// }
// if ($foreach != $null)
// {
// while ($foreach.MoveNext())
// {
// $x = $foreach.Current
// }
// }
// }
// finally
// {
// $foreach = $oldforeach
// }
// The translation for switch is similar.
var temps = new List<ParameterExpression>();
var exprs = new List<Expression>();
var avs = new AutomaticVarSaver(this, iteratorVariablePath, iteratorTupleIndex);
bool generatingForeach = stmt is ForEachStatementAst;
exprs.Add(avs.SaveAutomaticVar());
// $enumerable = condition
// $foreach/$switch = GetEnumerator $enumerable
var enumerable = NewTemp(typeof(object), "enumerable");
temps.Add(enumerable);
if (generatingForeach)
{
exprs.Add(UpdatePosition(stmt.Condition));
}
exprs.Add(
Expression.Assign(enumerable,
GetRangeEnumerator(stmt.Condition.GetPureExpression())
?? CaptureStatementResults(stmt.Condition, CaptureAstContext.Enumerable).Convert(typeof(object))));
var iteratorTemp = NewTemp(typeof(IEnumerator), iteratorVariablePath.UnqualifiedPath);
temps.Add(iteratorTemp);
exprs.Add(Expression.Assign(iteratorTemp,
DynamicExpression.Dynamic(PSEnumerableBinder.Get(), typeof(IEnumerator), enumerable)));
// In a foreach, generate:
// if ($foreach == $null && $enumerable != $null)
// {
// $foreach = (new object[] { $enumerable }).GetEnumerator()
// }
// In a switch, generate:
// if ($switch == $null)
// {
// $switch = (new object[] { $enumerable }).GetEnumerator()
// }
var testNeedScalarToEnumerable =
generatingForeach
? Expression.AndAlso(
Expression.Equal(iteratorTemp, ExpressionCache.NullConstant),
Expression.NotEqual(enumerable, ExpressionCache.NullConstant))
: Expression.Equal(iteratorTemp, ExpressionCache.NullConstant);
var scalarToEnumerable =
Expression.Assign(iteratorTemp,
Expression.Call(Expression.NewArrayInit(typeof(object),
Expression.Convert(enumerable, typeof(object))),
CachedReflectionInfo.IEnumerable_GetEnumerator));
exprs.Add(Expression.IfThen(testNeedScalarToEnumerable, scalarToEnumerable));
exprs.Add(avs.SetNewValue(iteratorTemp));
var moveNext = Expression.Block(
generateMoveNextUpdatePosition(),
Expression.Call(iteratorTemp, CachedReflectionInfo.IEnumerator_MoveNext));
var loop = GenerateWhileLoop(stmt.Label,
() => moveNext,
(loopBody, breakTarget, continueTarget) => generateBody(loopBody, Expression.Property(iteratorTemp, CachedReflectionInfo.IEnumerator_Current)));
// With a foreach, the enumerator may never get assigned, in which case we skip the loop entirely.
// Generate that test.
// With a switch, the switch body is never skipped, so skip generating that test, and skip creating
// target block.
if (generatingForeach)
{
exprs.Add(Expression.IfThen(Expression.NotEqual(iteratorTemp, ExpressionCache.NullConstant), loop));
}
else
{
exprs.Add(loop);
}
return Expression.Block(
temps.Concat(avs.GetTemps()),
Expression.TryFinally(Expression.Block(exprs), avs.RestoreAutomaticVar()));
}
public object VisitSwitchStatement(SwitchStatementAst switchStatementAst)
{
var avs = new AutomaticVarSaver(this, SpecialVariables.UnderbarVarPath, (int)AutomaticVariable.Underbar);
var temps = new List<ParameterExpression>();
ParameterExpression skipDefault = null;
if (switchStatementAst.Default != null)
{
skipDefault = NewTemp(typeof(bool), "skipDefault");
temps.Add(skipDefault);
}
var switchBodyGenerator = GetSwitchBodyGenerator(switchStatementAst, avs, skipDefault);
if ((switchStatementAst.Flags & SwitchFlags.File) != 0)
{
// Generate:
//
// string path = SwitchOps.ResolveFilePath(cond.Extent, cond, context);
// StreamReader sr = null;
// try
// {
// sr = new StreamReader(path);
// string line;
// while ((line = sr.ReadLine()) != null)
// {
// $_ = line
// test clauses
// }
// }
// catch (FlowControlException) { throw; }
// catch (Exception exception)
// {
// CommandProcessorBase.CheckForSevereException(exception);
// // "The file could not be read:" + fne.Message
// throw InterpreterError.NewInterpreterExceptionWithInnerException(path, typeof(RuntimeException),
// cond.Extent, "FileReadError", ParserStrings.FileReadError, exception, exception.Message);
// }
// finally
// {
// if (sr != null) sr.Dispose();
// }
var exprs = new List<Expression>();
var path = NewTemp(typeof(string), "path");
temps.Add(path);
exprs.Add(UpdatePosition(switchStatementAst.Condition));
// We should not preserve the partial output if exception is thrown when evaluating the condition.
var cond = DynamicExpression.Dynamic(PSToStringBinder.Get(), typeof(string),
CaptureStatementResults(switchStatementAst.Condition, CaptureAstContext.AssignmentWithoutResultPreservation),
_executionContextParameter);
exprs.Add(
Expression.Assign(
path,
Expression.Call(CachedReflectionInfo.SwitchOps_ResolveFilePath,
Expression.Constant(switchStatementAst.Condition.Extent),
cond,
_executionContextParameter)));
var tryBodyExprs = new List<Expression>();
var streamReader = NewTemp(typeof(StreamReader), "streamReader");
var line = NewTemp(typeof(string), "line");
temps.Add(streamReader);
temps.Add(line);
tryBodyExprs.Add(
Expression.Assign(streamReader,
Expression.New(CachedReflectionInfo.StreamReader_ctor, path)));
var loopTest =
Expression.NotEqual(
Expression.Assign(line,
Expression.Call(streamReader, CachedReflectionInfo.StreamReader_ReadLine)).Cast(typeof(object)),
ExpressionCache.NullConstant);
tryBodyExprs.Add(avs.SaveAutomaticVar());
tryBodyExprs.Add(GenerateWhileLoop(switchStatementAst.Label,
() => loopTest,
(loopBody, breakTarget, continueTarget) => switchBodyGenerator(loopBody, line)));
var tryBlock = Expression.Block(tryBodyExprs);
var finallyBlock = Expression.Block(
Expression.IfThen(
Expression.NotEqual(streamReader, ExpressionCache.NullConstant),
Expression.Call(streamReader.Cast(typeof(IDisposable)), CachedReflectionInfo.IDisposable_Dispose)),
avs.RestoreAutomaticVar());
var exception = NewTemp(typeof(Exception), "exception");
var catchAllBlock = Expression.Block(
tryBlock.Type,
Expression.Call(CachedReflectionInfo.CommandProcessorBase_CheckForSevereException, exception),
ThrowRuntimeErrorWithInnerException("FileReadError",
ParserStrings.FileReadError,
exception,
Expression.Property(exception, CachedReflectionInfo.Exception_Message)));
exprs.Add(Expression.TryCatchFinally(
tryBlock, finallyBlock,
new[]
{
Expression.Catch(typeof(FlowControlException), Expression.Rethrow(tryBlock.Type)),
Expression.Catch(exception, catchAllBlock)
}));
return Expression.Block(temps.Concat(avs.GetTemps()), exprs);
}
// We convert:
// switch ($enumerable) {}
// Into:
// $switch = GetEnumerator $enumerable
// if ($switch == $null)
// {
// $switch = (new object[] { $enumerable }).GetEnumerator()
// }
// REVIEW: should we consider this form of switch a loop for the purposes of deciding
// to compile or not? I have a feeling the loop form is uncommon and compiling isn't worth it.
var tryStmt = Expression.TryFinally(
Expression.Block(
avs.SaveAutomaticVar(),
GenerateIteratorStatement(SpecialVariables.switchVarPath, () => UpdatePosition(switchStatementAst.Condition), _switchTupleIndex,
switchStatementAst, switchBodyGenerator)
),
avs.RestoreAutomaticVar());
return Expression.Block(temps.Concat(avs.GetTemps()), tryStmt);
}
private Expression GenerateIteratorStatement(VariablePath iteratorVariablePath, Func<Expression> generateMoveNextUpdatePosition, int iteratorTupleIndex, LabeledStatementAst stmt, Action<List<Expression>, Expression> generateBody)
{
List<ParameterExpression> first = new List<ParameterExpression>();
List<Expression> expressions = new List<Expression>();
AutomaticVarSaver saver = new AutomaticVarSaver(this, iteratorVariablePath, iteratorTupleIndex);
bool flag = stmt is ForEachStatementAst;
expressions.Add(saver.SaveAutomaticVar());
ParameterExpression item = this.NewTemp(typeof(object), "enumerable");
first.Add(item);
if (flag)
{
expressions.Add(this.UpdatePosition(stmt.Condition));
}
expressions.Add(Expression.Assign(item, this.GetRangeEnumerator(stmt.Condition.GetPureExpression()) ?? this.CaptureStatementResults(stmt.Condition, CaptureAstContext.Enumerable, null).Convert(typeof(object))));
ParameterExpression iteratorTemp = this.NewTemp(typeof(IEnumerator), iteratorVariablePath.UnqualifiedPath);
first.Add(iteratorTemp);
expressions.Add(Expression.Assign(iteratorTemp, Expression.Dynamic(PSEnumerableBinder.Get(), typeof(IEnumerator), item)));
BinaryExpression test = flag ? Expression.AndAlso(Expression.Equal(iteratorTemp, ExpressionCache.NullConstant), Expression.NotEqual(item, ExpressionCache.NullConstant)) : Expression.Equal(iteratorTemp, ExpressionCache.NullConstant);
BinaryExpression ifTrue = Expression.Assign(iteratorTemp, Expression.Call(Expression.NewArrayInit(typeof(object), new Expression[] { Expression.Convert(item, typeof(object)) }), CachedReflectionInfo.IEnumerable_GetEnumerator));
expressions.Add(Expression.IfThen(test, ifTrue));
expressions.Add(saver.SetNewValue(iteratorTemp));
BlockExpression moveNext = Expression.Block(generateMoveNextUpdatePosition(), Expression.Call(iteratorTemp, CachedReflectionInfo.IEnumerator_MoveNext));
Expression expression4 = this.GenerateWhileLoop(stmt.Label, () => moveNext, delegate (List<Expression> loopBody, LabelTarget breakTarget, LabelTarget continueTarget) {
generateBody(loopBody, Expression.Property(iteratorTemp, CachedReflectionInfo.IEnumerator_Current));
}, null);
if (flag)
{
expressions.Add(Expression.IfThen(Expression.NotEqual(iteratorTemp, ExpressionCache.NullConstant), expression4));
}
else
{
expressions.Add(expression4);
}
return Expression.Block(first.Concat<ParameterExpression>(saver.GetTemps()), new Expression[] { Expression.TryFinally(Expression.Block(expressions), saver.RestoreAutomaticVar()) });
}
public object VisitTryStatement(TryStatementAst tryStatementAst)
{
List<ParameterExpression> temps = new List<ParameterExpression>();
List<Expression> exprs = new List<Expression>();
List<Expression> expressions = new List<Expression>();
ParameterExpression item = this.NewTemp(typeof(bool), "oldActiveHandler");
temps.Add(item);
MemberExpression right = Expression.Property(_executionContextParameter, CachedReflectionInfo.ExecutionContext_ExceptionHandlerInEnclosingStatementBlock);
exprs.Add(Expression.Assign(item, right));
exprs.Add(Expression.Assign(right, ExpressionCache.Constant(true)));
expressions.Add(Expression.Assign(right, item));
this.CompileStatementListWithTraps(tryStatementAst.Body.Statements, tryStatementAst.Body.Traps, exprs, temps);
List<CatchBlock> source = new List<CatchBlock>();
if ((tryStatementAst.CatchClauses.Count == 1) && tryStatementAst.CatchClauses[0].IsCatchAll)
{
AutomaticVarSaver saver = new AutomaticVarSaver(this, SpecialVariables.UnderbarVarPath, 0);
ParameterExpression expression = this.NewTemp(typeof(RuntimeException), "rte");
ParameterExpression left = this.NewTemp(typeof(RuntimeException), "oldrte");
NewExpression newValue = Expression.New(CachedReflectionInfo.ErrorRecord__ctor, new Expression[] { Expression.Property(expression, CachedReflectionInfo.RuntimeException_ErrorRecord), expression });
List<Expression> list5 = new List<Expression> {
Expression.Assign(left, _currentExceptionBeingHandled),
Expression.Assign(_currentExceptionBeingHandled, expression),
saver.SaveAutomaticVar(),
saver.SetNewValue(newValue)
};
StatementBlockAst body = tryStatementAst.CatchClauses[0].Body;
this.CompileStatementListWithTraps(body.Statements, body.Traps, list5, temps);
TryExpression expression6 = Expression.TryFinally(Expression.Block(typeof(void), list5), Expression.Block(typeof(void), new Expression[] { saver.RestoreAutomaticVar(), Expression.Assign(_currentExceptionBeingHandled, left) }));
source.Add(Expression.Catch(typeof(PipelineStoppedException), Expression.Rethrow()));
source.Add(Expression.Catch(expression, Expression.Block(saver.GetTemps().Append<ParameterExpression>(left).ToArray<ParameterExpression>(), new Expression[] { expression6 })));
}
else if (tryStatementAst.CatchClauses.Any<CatchClauseAst>())
{
int num = 0;
foreach (CatchClauseAst ast2 in tryStatementAst.CatchClauses)
{
num += Math.Max(ast2.CatchTypes.Count, 1);
}
Type[] typeArray = new Type[num];
Expression array = Expression.Constant(typeArray);
List<Expression> list7 = new List<Expression>();
List<SwitchCase> list8 = new List<SwitchCase>();
int i = 0;
int index = 0;
ParameterExpression expression8 = Expression.Parameter(typeof(RuntimeException));
foreach (CatchClauseAst ast3 in tryStatementAst.CatchClauses)
{
if (ast3.IsCatchAll)
{
typeArray[index] = typeof(ExceptionHandlingOps.CatchAll);
}
else
{
foreach (TypeConstraintAst ast4 in ast3.CatchTypes)
{
typeArray[index] = ast4.TypeName.GetReflectionType();
if (typeArray[index] == null)
{
IndexExpression expression9 = Expression.ArrayAccess(array, new Expression[] { ExpressionCache.Constant(index) });
list7.Add(Expression.IfThen(Expression.Equal(expression9, ExpressionCache.NullType), Expression.Assign(expression9, Expression.Call(CachedReflectionInfo.TypeOps_ResolveTypeName, Expression.Constant(ast4.TypeName)))));
}
index++;
}
}
BlockExpression expression10 = Expression.Block(typeof(void), new Expression[] { this.Compile(ast3.Body) });
if (ast3.IsCatchAll)
{
list8.Add(Expression.SwitchCase(expression10, new Expression[] { ExpressionCache.Constant(i) }));
i++;
}
else
{
list8.Add(Expression.SwitchCase(expression10, Enumerable.Range(i, i + ast3.CatchTypes.Count).Select<int, Expression>(new Func<int, Expression>(ExpressionCache.Constant))));
i += ast3.CatchTypes.Count;
}
}
if (list7.Any<Expression>())
{
array = Expression.Block(list7.Append<Expression>(array));
}
AutomaticVarSaver saver2 = new AutomaticVarSaver(this, SpecialVariables.UnderbarVarPath, 0);
MethodCallExpression switchValue = Expression.Call(CachedReflectionInfo.ExceptionHandlingOps_FindMatchingHandler, this.LocalVariablesParameter, expression8, array, _executionContextParameter);
ParameterExpression expression12 = this.NewTemp(typeof(RuntimeException), "oldrte");
TryExpression expression13 = Expression.TryFinally(Expression.Block(typeof(void), new Expression[] { Expression.Assign(expression12, _currentExceptionBeingHandled), Expression.Assign(_currentExceptionBeingHandled, expression8), saver2.SaveAutomaticVar(), Expression.Switch(switchValue, Expression.Call(CachedReflectionInfo.ExceptionHandlingOps_CheckActionPreference, _functionContext, expression8), list8.ToArray()) }), Expression.Block(saver2.RestoreAutomaticVar(), Expression.Assign(_currentExceptionBeingHandled, expression12)));
source.Add(Expression.Catch(typeof(PipelineStoppedException), Expression.Rethrow()));
source.Add(Expression.Catch(expression8, Expression.Block(saver2.GetTemps().Append<ParameterExpression>(expression12).ToArray<ParameterExpression>(), new Expression[] { expression13 })));
}
if (tryStatementAst.Finally != null)
{
ParameterExpression expression14 = this.NewTemp(typeof(bool), "oldIsStopping");
temps.Add(expression14);
expressions.Add(Expression.Assign(expression14, Expression.Call(CachedReflectionInfo.ExceptionHandlingOps_SuspendStoppingPipeline, _executionContextParameter)));
List<Expression> list9 = new List<Expression>();
this.CompileStatementListWithTraps(tryStatementAst.Finally.Statements, tryStatementAst.Finally.Traps, list9, temps);
if (!list9.Any<Expression>())
{
list9.Add(ExpressionCache.Empty);
}
expressions.Add(Expression.Block(new Expression[] { Expression.TryFinally(Expression.Block(list9), Expression.Call(CachedReflectionInfo.ExceptionHandlingOps_RestoreStoppingPipeline, _executionContextParameter, expression14)) }));
}
if (!exprs.Last<Expression>().Type.Equals(typeof(void)))
{
exprs.Add(ExpressionCache.Empty);
}
if (source.Any<CatchBlock>())
{
return Expression.Block(temps.ToArray(), new Expression[] { Expression.TryCatchFinally(Expression.Block(exprs), Expression.Block(expressions), source.ToArray()) });
}
return Expression.Block(temps.ToArray(), new Expression[] { Expression.TryFinally(Expression.Block(exprs), Expression.Block(expressions)) });
}
public object VisitSwitchStatement(SwitchStatementAst switchStatementAst)
{
AutomaticVarSaver avs = new AutomaticVarSaver(this, SpecialVariables.UnderbarVarPath, 0);
List<ParameterExpression> first = new List<ParameterExpression>();
ParameterExpression item = null;
if (switchStatementAst.Default != null)
{
item = this.NewTemp(typeof(bool), "skipDefault");
first.Add(item);
}
Action<List<Expression>, Expression> switchBodyGenerator = this.GetSwitchBodyGenerator(switchStatementAst, avs, item);
if ((switchStatementAst.Flags & SwitchFlags.File) != SwitchFlags.None)
{
List<Expression> expressions = new List<Expression>();
ParameterExpression expression2 = this.NewTemp(typeof(string), "path");
first.Add(expression2);
expressions.Add(this.UpdatePosition(switchStatementAst.Condition));
DynamicExpression expression3 = Expression.Dynamic(PSToStringBinder.Get(), typeof(string), this.CaptureStatementResults(switchStatementAst.Condition, CaptureAstContext.Assignment, null), _executionContextParameter);
expressions.Add(Expression.Assign(expression2, Expression.Call(CachedReflectionInfo.SwitchOps_ResolveFilePath, Expression.Constant(switchStatementAst.Condition.Extent), expression3, _executionContextParameter)));
List<Expression> list3 = new List<Expression>();
ParameterExpression expression4 = this.NewTemp(typeof(StreamReader), "streamReader");
ParameterExpression line = this.NewTemp(typeof(string), "line");
first.Add(expression4);
first.Add(line);
list3.Add(Expression.Assign(expression4, Expression.New(CachedReflectionInfo.StreamReader_ctor, new Expression[] { expression2 })));
BinaryExpression loopTest = Expression.NotEqual(Expression.Assign(line, Expression.Call(expression4, CachedReflectionInfo.StreamReader_ReadLine)).Cast(typeof(object)), ExpressionCache.NullConstant);
list3.Add(avs.SaveAutomaticVar());
list3.Add(this.GenerateWhileLoop(switchStatementAst.Label, () => loopTest, delegate (List<Expression> loopBody, LabelTarget breakTarget, LabelTarget continueTarget) {
switchBodyGenerator(loopBody, line);
}, null));
BlockExpression body = Expression.Block(list3);
BlockExpression @finally = Expression.Block(Expression.IfThen(Expression.NotEqual(expression4, ExpressionCache.NullConstant), Expression.Call(expression4.Cast(typeof(IDisposable)), CachedReflectionInfo.IDisposable_Dispose)), avs.RestoreAutomaticVar());
ParameterExpression expression7 = this.NewTemp(typeof(Exception), "exception");
BlockExpression expression8 = Expression.Block(body.Type, new Expression[] { Expression.Call(CachedReflectionInfo.CommandProcessorBase_CheckForSevereException, expression7), ThrowRuntimeErrorWithInnerException("FileReadError", ParserStrings.FileReadError, expression7, new Expression[] { Expression.Property(expression7, CachedReflectionInfo.Exception_Message) }) });
expressions.Add(Expression.TryCatchFinally(body, @finally, new CatchBlock[] { Expression.Catch(typeof(FlowControlException), Expression.Rethrow(body.Type)), Expression.Catch(expression7, expression8) }));
return Expression.Block(first.Concat<ParameterExpression>(avs.GetTemps()), expressions);
}
TryExpression expression9 = Expression.TryFinally(Expression.Block(avs.SaveAutomaticVar(), this.GenerateIteratorStatement(SpecialVariables.switchVarPath, () => this.UpdatePosition(switchStatementAst.Condition), this._switchTupleIndex, switchStatementAst, switchBodyGenerator)), avs.RestoreAutomaticVar());
return Expression.Block(first.Concat<ParameterExpression>(avs.GetTemps()), new Expression[] { expression9 });
}