internal override MSA.Expression /*!*/ Transform(AstGenerator /*!*/ gen)
{
ScopeBuilder scope = DefineLocals(gen.CurrentScope);
// define hidden parameters and RHS-placeholders (#1..#n will be used as RHS of a parallel assignment):
MSA.ParameterExpression blockParameter, selfParameter;
var parameters = DefineParameters(out selfParameter, out blockParameter);
MSA.ParameterExpression scopeVariable = scope.DefineHiddenVariable("#scope", typeof(RubyBlockScope));
MSA.LabelTarget redoLabel = Ast.Label();
gen.EnterBlockDefinition(
scope,
blockParameter,
selfParameter,
scopeVariable,
redoLabel
);
MSA.Expression paramInit = MakeParametersInitialization(gen, parameters);
MSA.ParameterExpression blockUnwinder, filterVariable;
MSA.Expression traceCall, traceReturn;
if (gen.TraceEnabled)
{
int firstStatementLine = _body.Count > 0 ? _body.First.Location.Start.Line : Location.End.Line;
int lastStatementLine = _body.Count > 0 ? _body.Last.Location.End.Line : Location.End.Line;
traceCall = Methods.TraceBlockCall.OpCall(scopeVariable, blockParameter, gen.SourcePathConstant, AstUtils.Constant(firstStatementLine));
traceReturn = Methods.TraceBlockReturn.OpCall(scopeVariable, blockParameter, gen.SourcePathConstant, AstUtils.Constant(lastStatementLine));
}
else
{
traceCall = traceReturn = Ast.Empty();
}
MSA.Expression body = AstUtils.Try(
paramInit,
traceCall,
Ast.Label(redoLabel),
AstUtils.Try(
gen.TransformStatements(_body, ResultOperation.Return)
).Catch(blockUnwinder = Ast.Parameter(typeof(BlockUnwinder), "#u"),
// redo:
AstUtils.IfThen(Ast.Field(blockUnwinder, BlockUnwinder.IsRedoField), Ast.Goto(redoLabel)),
// next:
gen.Return(Ast.Field(blockUnwinder, BlockUnwinder.ReturnValueField))
)
).Filter(filterVariable = Ast.Parameter(typeof(Exception), "#e"),
Methods.FilterBlockException.OpCall(scopeVariable, filterVariable)
).Finally(
traceReturn,
Ast.Empty()
);
body = gen.AddReturnTarget(
scope.CreateScope(
scopeVariable,
Methods.CreateBlockScope.OpCall(new AstExpressions {
scope.MakeLocalsStorage(),
scope.GetVariableNamesExpression(),
blockParameter,
selfParameter,
EnterInterpretedFrameExpression.Instance
}),
body
)
);
gen.LeaveBlockDefinition();
int parameterCount = _parameters.LeftValues.Count;
var attributes = _parameters.GetBlockSignatureAttributes();
var dispatcher = Ast.Constant(
BlockDispatcher.Create(parameterCount, attributes, gen.SourcePath, Location.Start.Line), typeof(BlockDispatcher)
);
return(Ast.Coalesce(
Methods.InstantiateBlock.OpCall(gen.CurrentScopeVariable, gen.CurrentSelfVariable, dispatcher),
Methods.DefineBlock.OpCall(gen.CurrentScopeVariable, gen.CurrentSelfVariable, dispatcher,
BlockDispatcher.CreateLambda(
body,
RubyStackTraceBuilder.EncodeMethodName(gen.CurrentMethod.MethodName, gen.SourcePath, Location, gen.DebugMode),
parameters,
parameterCount,
attributes
)
)
));
}
internal override MSA.Expression /*!*/ Transform(AstGenerator /*!*/ gen)
{
MSA.Expression parentScope = gen.CurrentScopeVariable;
ScopeBuilder scope = new ScopeBuilder();
// define hidden parameters and RHS-placeholders (#1..#n will be used as RHS of a parallel assignment):
MSA.Expression blockParameter, selfParameter;
MSA.ParameterExpression[] parameters = DefineParameters(out selfParameter, out blockParameter);
MSA.Expression scopeVariable = scope.DefineHiddenVariable("#scope", typeof(RubyBlockScope));
MSA.LabelTarget redoLabel = Ast.Label();
gen.EnterBlockDefinition(
scope,
blockParameter,
selfParameter,
scopeVariable,
redoLabel
);
if (_definedScope != null)
{
_definedScope.TransformLocals(scope);
}
MSA.Expression paramInit = MakeParametersInitialization(gen, parameters);
MSA.ParameterExpression blockUnwinder = scope.DefineHiddenVariable("#unwinder", typeof(BlockUnwinder));
MSA.Expression loop = AstFactory.Infinite(null, redoLabel,
AstUtils.Try(
gen.TransformStatements(_body, ResultOperation.Return)
).Catch(blockUnwinder,
// redo:
AstUtils.IfThen(Ast.Field(blockUnwinder, BlockUnwinder.IsRedoField), Ast.Continue(redoLabel)),
// next:
gen.Return(Ast.Field(blockUnwinder, BlockUnwinder.ReturnValueField))
)
);
if (gen.TraceEnabled)
{
int firstStatementLine = _body.Count > 0 ? _body[0].Location.Start.Line : Location.End.Line;
int lastStatementLine = _body.Count > 0 ? _body[_body.Count - 1].Location.End.Line : Location.End.Line;
loop = Ast.TryFinally(
Ast.Block(
Methods.TraceBlockCall.OpCall(scopeVariable, blockParameter, Ast.Convert(Ast.Constant(gen.SourceUnit.Path), typeof(string)), Ast.Constant(firstStatementLine)),
loop
),
Methods.TraceBlockReturn.OpCall(scopeVariable, blockParameter, Ast.Convert(Ast.Constant(gen.SourceUnit.Path), typeof(string)), Ast.Constant(lastStatementLine))
);
}
MSA.Expression body = Ast.Block(
Ast.Assign(scopeVariable,
Methods.CreateBlockScope.OpCall(scope.VisibleVariables(), parentScope, blockParameter, selfParameter)
),
paramInit,
loop,
Ast.Empty()
);
body = gen.AddReturnTarget(scope.CreateScope(body));
gen.LeaveBlockDefinition();
int parameterCount = _parameters.LeftValues.Count;
var attributes = _parameters.GetBlockSignatureAttributes();
return(Methods.DefineBlock.OpCall(
gen.CurrentScopeVariable,
gen.CurrentRfcVariable,
gen.CurrentSelfVariable,
Ast.Lambda(
BlockDispatcher.GetDelegateType(parameterCount, attributes),
body,
gen.EncodeMethodName(gen.CurrentMethod.MethodName, Location),
new ReadOnlyCollection <MSA.ParameterExpression>(parameters)
),
Ast.Constant(parameterCount),
Ast.Constant(attributes)
));
}