set { type = value; }
}
- public Location Location {
- get { return loc; }
+ public virtual bool IsSideEffectFree {
+ get {
+ return false;
+ }
}
- public virtual string GetSignatureForError ()
- {
- return type.GetDefinition ().GetSignatureForError ();
+ public Location Location {
+ get { return loc; }
}
public virtual bool IsNull {
}
}
+ //
+ // Returns true when the expression during Emit phase breaks stack
+ // by using await expression
+ //
+ public virtual bool ContainsEmitWithAwait ()
+ {
+ return false;
+ }
+
/// <summary>
/// Performs semantic analysis on the Expression
/// </summary>
// This is used if the expression should be resolved as a type or namespace name.
// the default implementation fails.
//
- public virtual FullNamedExpression ResolveAsTypeStep (IMemberContext rc, bool silent)
+ public virtual TypeSpec ResolveAsType (IMemberContext mc)
{
- if (!silent) {
- ResolveContext ec = new ResolveContext (rc);
- Expression e = Resolve (ec);
- if (e != null)
- e.Error_UnexpectedKind (ec, ResolveFlags.Type, loc);
- }
+ ResolveContext ec = new ResolveContext (mc);
+ Expression e = Resolve (ec);
+ if (e != null)
+ e.Error_UnexpectedKind (ec, ResolveFlags.Type, loc);
return null;
}
- //
- // This is used to resolve the expression as a type, a null
- // value will be returned if the expression is not a type
- // reference
- //
- public virtual TypeExpr ResolveAsTypeTerminal (IMemberContext ec , bool silent)
- {
- // FIXME: THIS IS TOO SLOW and it should not be needed either
- int errors = ec.Module.Compiler.Report.Errors;
-
- FullNamedExpression fne = ResolveAsTypeStep (ec, silent);
-
- if (fne == null)
- return null;
-
- TypeExpr te = fne as TypeExpr;
- if (te == null) {
- if (!silent && errors == ec.Module.Compiler.Report.Errors)
- fne.Error_UnexpectedKind (ec.Module.Compiler.Report, null, "type", loc);
- return null;
- }
-
- if (!te.type.IsAccessible (ec)) {
- ec.Module.Compiler.Report.SymbolRelatedToPreviousError (te.Type);
- ErrorIsInaccesible (ec, te.Type.GetSignatureForError (), loc);
- }
-
- te.loc = loc;
-
- var dep = te.type.GetMissingDependencies ();
- if (dep != null) {
- ImportedTypeDefinition.Error_MissingDependency (ec, dep, loc);
- }
-
- //
- // Obsolete checks cannot be done when resolving base context as they
- // require type dependecies to be set but we are just resolving them
- //
- if (!silent && !(ec is TypeContainer.BaseContext)) {
- ObsoleteAttribute obsolete_attr = te.Type.GetAttributeObsolete ();
- if (obsolete_attr != null && !ec.IsObsolete) {
- AttributeTester.Report_ObsoleteMessage (obsolete_attr, te.GetSignatureForError (), Location, ec.Module.Compiler.Report);
- }
- }
-
- return te;
- }
-
public static void ErrorIsInaccesible (IMemberContext rc, string member, Location loc)
{
rc.Module.Compiler.Report.Error (122, loc, "`{0}' is inaccessible due to its protection level", member);
}
}
- public void Error_TypeArgumentsCannotBeUsed (Report report, Location loc, MemberSpec member, int arity)
+ public void Error_TypeArgumentsCannotBeUsed (IMemberContext context, MemberSpec member, int arity, Location loc)
{
// Better message for possible generic expressions
if (member != null && (member.Kind & MemberKind.GenericMask) != 0) {
+ var report = context.Module.Compiler.Report;
report.SymbolRelatedToPreviousError (member);
if (member is TypeSpec)
member = ((TypeSpec) member).GetDefinition ();
name, member.GetSignatureForError ());
}
} else {
- Error_TypeArgumentsCannotBeUsed (report, ExprClassName, GetSignatureForError (), loc);
+ Error_TypeArgumentsCannotBeUsed (context, ExprClassName, GetSignatureForError (), loc);
}
}
- public void Error_TypeArgumentsCannotBeUsed (Report report, string exprType, string name, Location loc)
+ public void Error_TypeArgumentsCannotBeUsed (IMemberContext context, string exprType, string name, Location loc)
{
- report.Error (307, loc, "The {0} `{1}' cannot be used with type arguments",
+ context.Module.Compiler.Report.Error (307, loc, "The {0} `{1}' cannot be used with type arguments",
exprType, name);
}
}
}
}
+
+ public virtual string GetSignatureForError ()
+ {
+ return type.GetDefinition ().GetSignatureForError ();
+ }
/// <summary>
/// Resolves an expression and performs semantic analysis on it.
ec.Emit (OpCodes.Pop);
}
+ //
+ // Emits the expression into temporary field variable. The method
+ // should be used for await expressions only
+ //
+ public virtual Expression EmitToField (EmitContext ec)
+ {
+ //
+ // This is the await prepare Emit method. When emitting code like
+ // a + b we emit code like
+ //
+ // a.Emit ()
+ // b.Emit ()
+ // Opcodes.Add
+ //
+ // For await a + await b we have to interfere the flow to keep the
+ // stack clean because await yields from the expression. The emit
+ // then changes to
+ //
+ // a = a.EmitToField () // a is changed to temporary field access
+ // b = b.EmitToField ()
+ // a.Emit ()
+ // b.Emit ()
+ // Opcodes.Add
+ //
+ //
+ // The idea is to emit expression and leave the stack empty with
+ // result value still available.
+ //
+ // Expressions should override this default implementation when
+ // optimized version can be provided (e.g. FieldExpr)
+ //
+ //
+ // We can optimize for side-effect free expressions, they can be
+ // emitted out of order
+ //
+ if (IsSideEffectFree)
+ return this;
+
+ bool needs_temporary = ContainsEmitWithAwait ();
+ if (!needs_temporary)
+ ec.EmitThis ();
+
+ // Emit original code
+ EmitToFieldSource (ec);
+
+ //
+ // Store the result to temporary field when we
+ // cannot load this directly
+ //
+ var field = ec.GetTemporaryField (type);
+ if (needs_temporary) {
+ //
+ // Create temporary local (we cannot load this before Emit)
+ //
+ var temp = ec.GetTemporaryLocal (type);
+ ec.Emit (OpCodes.Stloc, temp);
+
+ ec.EmitThis ();
+ ec.Emit (OpCodes.Ldloc, temp);
+ field.EmitAssignFromStack (ec);
+
+ ec.FreeTemporaryLocal (temp, type);
+ } else {
+ field.EmitAssignFromStack (ec);
+ }
+
+ return field;
+ }
+
+ protected virtual void EmitToFieldSource (EmitContext ec)
+ {
+ //
+ // Default implementation calls Emit method
+ //
+ Emit (ec);
+ }
+
+ protected static void EmitExpressionsList (EmitContext ec, List<Expression> expressions)
+ {
+ if (ec.HasSet (BuilderContext.Options.AsyncBody)) {
+ bool contains_await = false;
+
+ for (int i = 1; i < expressions.Count; ++i) {
+ if (expressions[i].ContainsEmitWithAwait ()) {
+ contains_await = true;
+ break;
+ }
+ }
+
+ if (contains_await) {
+ for (int i = 0; i < expressions.Count; ++i) {
+ expressions[i] = expressions[i].EmitToField (ec);
+ }
+ }
+ }
+
+ for (int i = 0; i < expressions.Count; ++i) {
+ expressions[i].Emit (ec);
+ }
+ }
+
/// <summary>
/// Protected constructor. Only derivate types should
/// be able to be created
return null;
}
- protected static MethodSpec ConstructorLookup (ResolveContext rc, TypeSpec type, ref Arguments args, Location loc)
+ public static MethodSpec ConstructorLookup (ResolveContext rc, TypeSpec type, ref Arguments args, Location loc)
{
var ctors = MemberCache.FindMembers (type, Constructor.ConstructorName, true);
if (ctors == null) {
}
var r = new OverloadResolver (ctors, OverloadResolver.Restrictions.NoBaseMembers, loc);
- return r.ResolveMember<MethodSpec> (rc, ref args);
+ var ctor = r.ResolveMember<MethodSpec> (rc, ref args);
+ if (ctor == null)
+ return null;
+
+ if ((ctor.Modifiers & Modifiers.PROTECTED) != 0 && !rc.HasSet (ResolveContext.Options.BaseInitializer)) {
+ MemberExpr.CheckProtectedMemberAccess (rc, ctor, ctor.DeclaringType, loc);
+ }
+
+ return ctor;
}
[Flags]
continue;
}
- if (non_method == null || member is MethodSpec) {
+ if (non_method == null || member is MethodSpec || non_method.IsNotCSharpCompatible) {
non_method = member;
- } else if (!errorMode) {
+ } else if (!errorMode && !member.IsNotCSharpCompatible) {
ambig_non_method = member;
}
}
}
}
+ public override bool ContainsEmitWithAwait ()
+ {
+ return child.ContainsEmitWithAwait ();
+ }
+
public override Expression CreateExpressionTree (ResolveContext ec)
{
Arguments args = new Arguments (2);
args.Add (new Argument (child.CreateExpressionTree (ec)));
- args.Add (new Argument (new TypeOf (new TypeExpression (type, loc), loc)));
+ args.Add (new Argument (new TypeOf (type, loc)));
if (type.IsPointer || child.Type.IsPointer)
Error_PointerInsideExpressionTree (ec);
{
Arguments args = Arguments.CreateForExpressionTree (ec, null,
child.CreateExpressionTree (ec),
- new TypeOf (new TypeExpression (type, loc), loc));
+ new TypeOf (type, loc));
if (type.IsPointer)
Error_PointerInsideExpressionTree (ec);
get { return child.IsOneInteger; }
}
+ public override bool IsSideEffectFree {
+ get {
+ return child.IsSideEffectFree;
+ }
+ }
+
public override bool IsZeroInteger {
get { return child.IsZeroInteger; }
}
}
}
+ public override bool IsSideEffectFree {
+ get {
+ return Child.IsSideEffectFree;
+ }
+ }
+
public override bool IsZeroInteger {
get { return Child.IsZeroInteger; }
}
this.loc = orig.Location;
}
+ public override bool ContainsEmitWithAwait ()
+ {
+ return stm.ContainsEmitWithAwait ();
+ }
+
public override Expression CreateExpressionTree (ResolveContext ec)
{
return orig_expr.CreateExpressionTree (ec);
#endregion
+ public override bool ContainsEmitWithAwait ()
+ {
+ return expr.ContainsEmitWithAwait ();
+ }
+
//
// Creates fully resolved expression switcher
//
this.loc = expr.Location;
}
- public override Expression CreateExpressionTree (ResolveContext ec)
+ public override bool ContainsEmitWithAwait ()
+ {
+ return expr.ContainsEmitWithAwait ();
+ }
+
+ public override Expression CreateExpressionTree (ResolveContext rc)
{
- return expr.CreateExpressionTree (ec);
+ return expr.CreateExpressionTree (rc);
}
public Expression Child {
get { return expr; }
}
- protected override Expression DoResolve (ResolveContext ec)
+ protected override Expression DoResolve (ResolveContext rc)
{
- expr = expr.Resolve (ec);
+ expr = expr.Resolve (rc);
if (expr != null) {
type = expr.Type;
eclass = expr.eclass;
this.expr = expr;
}
+ public Expression Expr {
+ get {
+ return expr;
+ }
+ }
+
protected override void CloneTo (CloneContext clonectx, Expression t)
{
if (expr == null)
target.expr = expr.Clone (clonectx);
}
+ public override bool ContainsEmitWithAwait ()
+ {
+ return expr.ContainsEmitWithAwait ();
+ }
+
public override Expression CreateExpressionTree (ResolveContext ec)
{
throw new NotSupportedException ("ET");
throw new InternalErrorException ("Missing Resolve call");
}
- public Expression Expr {
- get { return expr; }
- }
}
//
return new SimpleName (Name, targs, loc);
}
- protected virtual void Error_TypeOrNamespaceNotFound (IMemberContext ec)
+ protected override Expression DoResolve (ResolveContext ec)
+ {
+ return SimpleNameResolve (ec, null, false);
+ }
+
+ public override Expression DoResolveLValue (ResolveContext ec, Expression right_side)
+ {
+ return SimpleNameResolve (ec, right_side, false);
+ }
+
+ protected virtual void Error_TypeOrNamespaceNotFound (IMemberContext ctx)
{
- if (ec.CurrentType != null) {
- if (ec.CurrentMemberDefinition != null) {
- MemberCore mc = ec.CurrentMemberDefinition.Parent.GetDefinition (Name);
+ if (ctx.CurrentType != null) {
+ if (ctx.CurrentMemberDefinition != null) {
+ MemberCore mc = ctx.CurrentMemberDefinition.Parent.GetDefinition (Name);
if (mc != null) {
- Error_UnexpectedKind (ec.Module.Compiler.Report, mc, "type", GetMemberType (mc), loc);
+ Error_UnexpectedKind (ctx.Module.Compiler.Report, mc, "type", GetMemberType (mc), loc);
return;
}
}
-
- /*
- // TODO MemberCache: Implement
-
- string ns = ec.CurrentType.Namespace;
- string fullname = (ns.Length > 0) ? ns + "." + Name : Name;
- foreach (Assembly a in GlobalRootNamespace.Instance.Assemblies) {
- var type = a.GetType (fullname);
- if (type != null) {
- ec.Compiler.Report.SymbolRelatedToPreviousError (type);
- Expression.ErrorIsInaccesible (loc, TypeManager.CSharpName (type), ec.Compiler.Report);
- return;
- }
- }
-
- if (ec.CurrentTypeDefinition != null) {
- TypeSpec t = ec.CurrentTypeDefinition.LookupAnyGeneric (Name);
- if (t != null) {
- Namespace.Error_InvalidNumberOfTypeArguments (ec.Compiler.Report, t, loc);
- return;
- }
- }
- */
}
- FullNamedExpression retval = ec.LookupNamespaceOrType (Name, -System.Math.Max (1, Arity), loc, true);
+ var retval = ctx.LookupNamespaceOrType (Name, Arity, LookupMode.IgnoreAccessibility, loc);
if (retval != null) {
- Error_TypeArgumentsCannotBeUsed (ec.Module.Compiler.Report, loc, retval.Type, Arity);
-/*
- var te = retval as TypeExpr;
- if (HasTypeArguments && te != null && !te.Type.IsGeneric)
- retval.Error_TypeArgumentsCannotBeUsed (ec.Compiler.Report, loc);
- else
- Namespace.Error_InvalidNumberOfTypeArguments (ec.Compiler.Report, retval.Type, loc);
-*/
+ ctx.Module.Compiler.Report.SymbolRelatedToPreviousError (retval.Type);
+ ErrorIsInaccesible (ctx, retval.GetSignatureForError (), loc);
return;
}
- NamespaceEntry.Error_NamespaceNotFound (loc, Name, ec.Module.Compiler.Report);
- }
-
- protected override Expression DoResolve (ResolveContext ec)
- {
- return SimpleNameResolve (ec, null, false);
- }
+ retval = ctx.LookupNamespaceOrType (Name, -System.Math.Max (1, Arity), LookupMode.Probing, loc);
+ if (retval != null) {
+ Error_TypeArgumentsCannotBeUsed (ctx, retval.Type, Arity, loc);
+ return;
+ }
- public override Expression DoResolveLValue (ResolveContext ec, Expression right_side)
- {
- return SimpleNameResolve (ec, right_side, false);
+ NamespaceContainer.Error_NamespaceNotFound (loc, Name, ctx.Module.Compiler.Report);
}
- public override FullNamedExpression ResolveAsTypeStep (IMemberContext ec, bool silent)
+ public override FullNamedExpression ResolveAsTypeOrNamespace (IMemberContext ec)
{
- int errors = ec.Module.Compiler.Report.Errors;
- FullNamedExpression fne = ec.LookupNamespaceOrType (Name, Arity, loc, /*ignore_cs0104=*/ false);
+ FullNamedExpression fne = ec.LookupNamespaceOrType (Name, Arity, LookupMode.Normal, loc);
if (fne != null) {
if (fne.Type != null && Arity > 0) {
if (HasTypeArguments) {
GenericTypeExpr ct = new GenericTypeExpr (fne.Type, targs, loc);
- return ct.ResolveAsTypeStep (ec, false);
+ if (ct.ResolveAsType (ec) == null)
+ return null;
+
+ return ct;
}
return new GenericOpenTypeExpr (fne.Type, loc);
ec.Module.PredefinedAttributes.Dynamic.GetSignatureForError ());
}
- return new DynamicTypeExpr (loc).ResolveAsTypeStep (ec, silent);
+ fne = new DynamicTypeExpr (loc);
+ fne.ResolveAsType (ec);
}
if (fne != null)
return fne;
- if (silent || errors != ec.Module.Compiler.Report.Errors)
- return null;
-
Error_TypeOrNamespaceNotFound (ec);
return null;
}
+ public bool IsPossibleTypeOrNamespace (IMemberContext mc)
+ {
+ return mc.LookupNamespaceOrType (Name, Arity, LookupMode.Probing, loc) != null;
+ }
+
public override Expression LookupNameExpression (ResolveContext rc, MemberLookupRestrictions restrictions)
{
int lookup_arity = Arity;
e = variable.CreateReferenceExpression (rc, loc);
if (e != null) {
if (Arity > 0)
- Error_TypeArgumentsCannotBeUsed (rc.Report, "variable", Name, loc);
+ Error_TypeArgumentsCannotBeUsed (rc, "variable", Name, loc);
return e;
}
// Stage 3: Lookup nested types, namespaces and type parameters in the context
//
if ((restrictions & MemberLookupRestrictions.InvocableOnly) == 0 && !variable_found) {
- e = ResolveAsTypeStep (rc, lookup_arity == 0 || !errorMode);
- if (e != null) {
+ if (IsPossibleTypeOrNamespace (rc)) {
if (variable != null) {
rc.Report.SymbolRelatedToPreviousError (variable.Location, Name);
rc.Report.Error (135, loc, "`{0}' conflicts with a declaration in a child block", Name);
}
- return e;
+ return ResolveAsTypeOrNamespace (rc);
}
}
if (variable_found) {
rc.Report.Error (841, loc, "A local variable `{0}' cannot be used before it is declared", Name);
} else {
+ if (Arity > 0) {
+ TypeParameter[] tparams = rc.CurrentTypeParameters;
+ if (tparams != null) {
+ foreach (var ctp in tparams) {
+ if (ctp.Name == Name) {
+ Error_TypeArgumentsCannotBeUsed (rc, "type parameter", Name, loc);
+ return null;
+ }
+ }
+ }
+
+ var ct = rc.CurrentType;
+ do {
+ if (ct.MemberDefinition.TypeParametersCount > 0) {
+ foreach (var ctp in ct.MemberDefinition.TypeParameters) {
+ if (ctp.Name == Name) {
+ Error_TypeArgumentsCannotBeUsed (rc, "type parameter", Name, loc);
+ return null;
+ }
+ }
+ }
+
+ ct = ct.DeclaringType;
+ } while (ct != null);
+ }
+
+ if ((restrictions & MemberLookupRestrictions.InvocableOnly) == 0) {
+ e = rc.LookupNamespaceOrType (Name, Arity, LookupMode.IgnoreAccessibility, loc);
+ if (e != null) {
+ rc.Report.SymbolRelatedToPreviousError (e.Type);
+ ErrorIsInaccesible (rc, e.GetSignatureForError (), loc);
+ return e;
+ }
+ }
+
+ e = rc.LookupNamespaceOrType (Name, -System.Math.Max (1, Arity), LookupMode.Probing, loc);
+ if (e != null) {
+ if (!(e is TypeExpr) || (restrictions & MemberLookupRestrictions.InvocableOnly) == 0 || !e.Type.IsDelegate) {
+ Error_TypeArgumentsCannotBeUsed (rc, e.Type, Arity, loc);
+ return e;
+ }
+ }
+
rc.Report.Error (103, loc, "The name `{0}' does not exist in the current context", Name);
}
- return null;
+ return ErrorExpression.Instance;
}
if (rc.Module.Evaluator != null) {
}
lookup_arity = 0;
- restrictions &= ~MemberLookupRestrictions.InvocableOnly;
errorMode = true;
}
}
// resolved to different type
}
+ public override bool ContainsEmitWithAwait ()
+ {
+ return false;
+ }
+
public override Expression CreateExpressionTree (ResolveContext ec)
{
throw new NotSupportedException ("ET");
}
- public override FullNamedExpression ResolveAsTypeStep (IMemberContext ec, bool silent)
+ public abstract FullNamedExpression ResolveAsTypeOrNamespace (IMemberContext mc);
+
+ //
+ // This is used to resolve the expression as a type, a null
+ // value will be returned if the expression is not a type
+ // reference
+ //
+ public override TypeSpec ResolveAsType (IMemberContext mc)
{
- return this;
+ FullNamedExpression fne = ResolveAsTypeOrNamespace (mc);
+
+ if (fne == null)
+ return null;
+
+ TypeExpr te = fne as TypeExpr;
+ if (te == null) {
+ fne.Error_UnexpectedKind (mc.Module.Compiler.Report, null, "type", loc);
+ return null;
+ }
+
+ te.loc = loc;
+
+ type = te.Type;
+
+ var dep = type.GetMissingDependencies ();
+ if (dep != null) {
+ ImportedTypeDefinition.Error_MissingDependency (mc, dep, loc);
+ }
+
+ //
+ // Obsolete checks cannot be done when resolving base context as they
+ // require type dependencies to be set but we are in process of resolving them
+ //
+ if (!(mc is TypeContainer.BaseContext)) {
+ ObsoleteAttribute obsolete_attr = type.GetAttributeObsolete ();
+ if (obsolete_attr != null && !mc.IsObsolete) {
+ AttributeTester.Report_ObsoleteMessage (obsolete_attr, te.GetSignatureForError (), Location, mc.Module.Compiler.Report);
+ }
+ }
+
+ return type;
}
+
public override void Emit (EmitContext ec)
{
throw new InternalErrorException ("FullNamedExpression `{0}' found in resolved tree",
/// <summary>
/// Expression that evaluates to a type
/// </summary>
- public abstract class TypeExpr : FullNamedExpression {
- public override FullNamedExpression ResolveAsTypeStep (IMemberContext ec, bool silent)
+ public abstract class TypeExpr : FullNamedExpression
+ {
+ public sealed override FullNamedExpression ResolveAsTypeOrNamespace (IMemberContext mc)
{
- TypeExpr t = DoResolveAsTypeStep (ec);
- if (t == null)
- return null;
-
- eclass = ExprClass.Type;
- return t;
+ ResolveAsType (mc);
+ return this;
}
- protected override Expression DoResolve (ResolveContext ec)
+ protected sealed override Expression DoResolve (ResolveContext ec)
{
- return ResolveAsTypeTerminal (ec, false);
+ ResolveAsType (ec);
+ return this;
}
- protected abstract TypeExpr DoResolveAsTypeStep (IMemberContext ec);
-
public override bool Equals (object obj)
{
TypeExpr tobj = obj as TypeExpr;
/// <summary>
/// Fully resolved Expression that already evaluated to a type
/// </summary>
- public class TypeExpression : TypeExpr {
+ public class TypeExpression : TypeExpr
+ {
public TypeExpression (TypeSpec t, Location l)
{
Type = t;
loc = l;
}
- protected override TypeExpr DoResolveAsTypeStep (IMemberContext ec)
- {
- return this;
- }
-
- public override TypeExpr ResolveAsTypeTerminal (IMemberContext ec, bool silent)
+ public sealed override TypeSpec ResolveAsType (IMemberContext ec)
{
- return this;
+ return type;
}
}
get;
}
- // TODO: Not needed
protected abstract TypeSpec DeclaringType {
get;
}
// Overload resulution works on virtual or non-virtual members only (no overrides). That
// means for base.member access we have to find the closest match after we found best candidate
//
- if ((method.Modifiers & (Modifiers.ABSTRACT | Modifiers.VIRTUAL | Modifiers.STATIC)) != Modifiers.STATIC) {
+ if ((method.Modifiers & (Modifiers.ABSTRACT | Modifiers.VIRTUAL | Modifiers.OVERRIDE)) != 0) {
//
// The method could already be what we are looking for
//
return;
if ((member.Modifiers & Modifiers.PROTECTED) != 0 && !(InstanceExpression is This)) {
- var ct = rc.CurrentType;
- var expr_type = InstanceExpression.Type;
- if (ct == expr_type)
- return;
+ CheckProtectedMemberAccess (rc, member, InstanceExpression.Type, loc);
+ }
+ }
- if ((member.Modifiers & Modifiers.INTERNAL) != 0 && member.DeclaringType.MemberDefinition.IsInternalAsPublic (ct.MemberDefinition.DeclaringAssembly))
- return;
+ public static void CheckProtectedMemberAccess<T> (ResolveContext rc, T member, TypeSpec qualifier, Location loc) where T : MemberSpec
+ {
+ var ct = rc.CurrentType;
+ if (ct == qualifier)
+ return;
- expr_type = expr_type.GetDefinition ();
- if (ct != expr_type && !IsSameOrBaseQualifier (ct, expr_type)) {
- rc.Report.SymbolRelatedToPreviousError (member);
- rc.Report.Error (1540, loc,
- "Cannot access protected member `{0}' via a qualifier of type `{1}'. The qualifier must be of type `{2}' or derived from it",
- member.GetSignatureForError (), expr_type.GetSignatureForError (), ct.GetSignatureForError ());
- }
+ if ((member.Modifiers & Modifiers.INTERNAL) != 0 && member.DeclaringType.MemberDefinition.IsInternalAsPublic (ct.MemberDefinition.DeclaringAssembly))
+ return;
+
+ qualifier = qualifier.GetDefinition ();
+ if (ct != qualifier && !IsSameOrBaseQualifier (ct, qualifier)) {
+ rc.Report.SymbolRelatedToPreviousError (member);
+ rc.Report.Error (1540, loc,
+ "Cannot access protected member `{0}' via a qualifier of type `{1}'. The qualifier must be of type `{2}' or derived from it",
+ member.GetSignatureForError (), qualifier.GetSignatureForError (), ct.GetSignatureForError ());
}
}
+ public override bool ContainsEmitWithAwait ()
+ {
+ return InstanceExpression != null && InstanceExpression.ContainsEmitWithAwait ();
+ }
+
static bool IsSameOrBaseQualifier (TypeSpec type, TypeSpec qtype)
{
do {
// a constant, field, property, local variable, or parameter with the same type as the meaning of E as a type-name
if (left is MemberExpr || left is VariableReference) {
- rc.Report.DisableReporting ();
- Expression identical_type = rc.LookupNamespaceOrType (name.Name, 0, loc, true) as TypeExpr;
- rc.Report.EnableReporting ();
+ var identical_type = rc.LookupNamespaceOrType (name.Name, 0, LookupMode.Probing, loc) as TypeExpr;
if (identical_type != null && identical_type.Type == left.Type)
return identical_type;
}
public virtual MemberExpr ResolveMemberAccess (ResolveContext ec, Expression left, SimpleName original)
{
- if (left != null && left.IsNull && TypeManager.IsReferenceType (left.Type)) {
+ if (left != null && left.IsNull && TypeSpec.IsReferenceType (left.Type)) {
ec.Report.Warning (1720, 1, left.Location,
"Expression will always cause a `{0}'", "System.NullReferenceException");
}
protected void EmitInstance (EmitContext ec, bool prepare_for_load)
{
TypeSpec instance_type = InstanceExpression.Type;
- if (TypeManager.IsValueType (instance_type)) {
+ if (TypeSpec.IsValueType (instance_type)) {
if (InstanceExpression is IMemoryLocation) {
- ((IMemoryLocation) InstanceExpression).AddressOf (ec, AddressOp.LoadStore);
+ ((IMemoryLocation) InstanceExpression).AddressOf (ec, AddressOp.Load);
} else {
LocalTemporary t = new LocalTemporary (instance_type);
InstanceExpression.Emit (ec);
t.Store (ec);
t.AddressOf (ec, AddressOp.Store);
+ t.Release (ec);
}
} else {
InstanceExpression.Emit (ec);
// Only to make verifier happy
- if (instance_type.IsGenericParameter && !(InstanceExpression is This) && TypeManager.IsReferenceType (instance_type))
+ if (instance_type.IsGenericParameter && !(InstanceExpression is This) && TypeSpec.IsReferenceType (instance_type))
ec.Emit (OpCodes.Box, instance_type);
}
public abstract void SetTypeArguments (ResolveContext ec, TypeArguments ta);
}
+ public class ExtensionMethodCandidates
+ {
+ NamespaceContainer container;
+ Namespace ns;
+ IList<MethodSpec> methods;
+
+ public ExtensionMethodCandidates (IList<MethodSpec> methods, NamespaceContainer nsContainer)
+ : this (methods, nsContainer, null)
+ {
+ }
+
+ public ExtensionMethodCandidates (IList<MethodSpec> methods, NamespaceContainer nsContainer, Namespace ns)
+ {
+ this.methods = methods;
+ this.container = nsContainer;
+ this.ns = ns;
+ }
+
+ public NamespaceContainer Container {
+ get {
+ return container;
+ }
+ }
+
+ public bool HasUninspectedMembers { get; set; }
+
+ public Namespace Namespace {
+ get {
+ return ns;
+ }
+ }
+
+ public IList<MethodSpec> Methods {
+ get {
+ return methods;
+ }
+ }
+ }
+
//
// Represents a group of extension method candidates for whole namespace
//
class ExtensionMethodGroupExpr : MethodGroupExpr, OverloadResolver.IErrorHandler
{
- NamespaceEntry namespace_entry;
+ ExtensionMethodCandidates candidates;
public readonly Expression ExtensionExpression;
- public ExtensionMethodGroupExpr (IList<MethodSpec> list, NamespaceEntry n, Expression extensionExpr, Location l)
- : base (list.Cast<MemberSpec>().ToList (), extensionExpr.Type, l)
+ public ExtensionMethodGroupExpr (ExtensionMethodCandidates candidates, Expression extensionExpr, Location loc)
+ : base (candidates.Methods.Cast<MemberSpec>().ToList (), extensionExpr.Type, loc)
{
- this.namespace_entry = n;
+ this.candidates = candidates;
this.ExtensionExpression = extensionExpr;
}
get { return true; }
}
+ //
+ // For extension methodgroup we are not looking for base members but parent
+ // namespace extension methods
+ //
public override IList<MemberSpec> GetBaseMembers (TypeSpec baseType)
{
- if (namespace_entry == null)
+ // TODO: candidates are null only when doing error reporting, that's
+ // incorrect. We have to discover same extension methods in error mode
+ if (candidates == null)
return null;
+ int arity = type_arguments == null ? 0 : type_arguments.Count;
+
//
- // For extension methodgroup we are not looking for base members but parent
- // namespace extension methods
+ // Here we try to resume the search for extension method at the point
+ // where the last bunch of candidates was found. It's more tricky than
+ // it seems as we have to check both namespace containers and namespace
+ // in correct order.
//
- int arity = type_arguments == null ? 0 : type_arguments.Count;
- var found = namespace_entry.LookupExtensionMethod (DeclaringType, Name, arity, ref namespace_entry);
- if (found == null)
+ // Consider:
+ //
+ // namespace A {
+ // using N1;
+ // namespace B.C.D {
+ // <our first search found candidates in A.B.C.D
+ // }
+ // }
+ //
+ // In the example above namespace A.B.C.D, A.B.C and A.B have to be
+ // checked before we hit A.N1 using
+ //
+ if (candidates.Namespace == null) {
+ Namespace scope;
+ var methods = candidates.Container.NS.LookupExtensionMethod (candidates.Container, ExtensionExpression.Type, Name, arity, out scope);
+ if (methods != null) {
+ candidates = new ExtensionMethodCandidates (null, candidates.Container, scope);
+ return methods.Cast<MemberSpec> ().ToList ();
+ }
+ }
+
+ var ns_container = candidates.HasUninspectedMembers ? candidates.Container : candidates.Container.Parent;
+ if (ns_container == null)
+ return null;
+
+ candidates = ns_container.LookupExtensionMethod (ExtensionExpression.Type, Name, arity);
+ if (candidates == null)
return null;
- return found.Cast<MemberSpec> ().ToList ();
+ return candidates.Methods.Cast<MemberSpec> ().ToList ();
}
public override MethodGroupExpr LookupExtensionMethod (ResolveContext rc)
public void EmitCall (EmitContext ec, Arguments arguments)
{
- Invocation.EmitCall (ec, InstanceExpression, best_candidate, arguments, loc);
+ var call = new CallEmitter ();
+ call.InstanceExpression = InstanceExpression;
+ call.Emit (ec, best_candidate, arguments, loc);
}
public override void Error_ValueCannotBeConverted (ResolveContext ec, Location loc, TypeSpec target, bool expl)
return null;
int arity = type_arguments == null ? 0 : type_arguments.Count;
- NamespaceEntry methods_scope = null;
- var methods = rc.LookupExtensionMethod (InstanceExpression.Type, Methods[0].Name, arity, ref methods_scope);
+ var methods = rc.LookupExtensionMethod (InstanceExpression.Type, Methods[0].Name, arity);
if (methods == null)
return null;
- var emg = new ExtensionMethodGroupExpr (methods, methods_scope, InstanceExpression, loc);
+ var emg = new ExtensionMethodGroupExpr (methods, InstanceExpression, loc);
emg.SetTypeArguments (rc, type_arguments);
return emg;
}
//
// With identical parameter lists
//
- if (!TypeSpecComparer.Equals (p_m.Parameters.Types,q_m.Parameters.Types))
+ if (!TypeSpecComparer.Equals (p_m.Parameters.Types, q_m.Parameters.Types))
return 0;
p = p_m.ReturnType;
if (q.Kind == MemberKind.Void) {
return p.Kind != MemberKind.Void ? 1: 0;
}
+
+ //
+ // When anonymous method is an asynchronous, and P has a return type Task<Y1>, and Q has a return type Task<Y2>
+ // better conversion is performed between underlying types Y1 and Y2
+ //
+ if (p.IsGenericTask || q.IsGenericTask) {
+ if (p.IsGenericTask != q.IsGenericTask) {
+ return 0;
+ }
+
+ var async_am = a.Expr as AnonymousMethodExpression;
+ if (async_am == null || !async_am.IsAsync)
+ return 0;
+
+ q = q.TypeArguments[0];
+ p = p.TypeArguments[0];
+ }
+
+ //
+ // The parameters are identicial and return type is not void, use better type conversion
+ // on return type to determine better one
+ //
} else {
if (argument_type == p)
return 1;
//
// Deploy custom error reporting for lambda methods. When probing lambda methods
// keep all errors reported in separate set and once we are done and no best
- // candidate found, this set is used to report more details about what was wrong
+ // candidate was found, this set is used to report more details about what was wrong
// with lambda body
//
if (argument.Expr.Type == InternalType.AnonymousMethod) {
}
}
+ //
+ // Use implicit conversion in all modes to return same candidates when the expression
+ // is used as argument or delegate conversion
+ //
if (!Convert.ImplicitConversionExists (ec, argument.Expr, parameter)) {
if (lambda_conv_msgs != null) {
lambda_conv_msgs.EndSession ();
else
ec.Report.Error (1620, loc, "Argument `#{0}' is missing `{1}' modifier",
index, Parameter.GetModifierSignature (mod));
- } else {
+ } else if (a.Expr != ErrorExpression.Instance) {
string p1 = a.GetSignatureForError ();
string p2 = TypeManager.CSharpName (paramType);
if (ta_count != best_candidate.Arity && (ta_count > 0 || ((IParametersMember) best_candidate).Parameters.IsEmpty)) {
var mg = new MethodGroupExpr (new [] { best_candidate }, best_candidate.DeclaringType, loc);
- mg.Error_TypeArgumentsCannotBeUsed (rc.Report, loc, best_candidate, ta_count);
+ mg.Error_TypeArgumentsCannotBeUsed (rc, best_candidate, ta_count, loc);
return;
}
public override void SetTypeArguments (ResolveContext ec, TypeArguments ta)
{
- Error_TypeArgumentsCannotBeUsed (ec.Report, "constant", GetSignatureForError (), loc);
+ Error_TypeArgumentsCannotBeUsed (ec, "constant", GetSignatureForError (), loc);
}
}
- /// <summary>
- /// Fully resolved expression that evaluates to a Field
- /// </summary>
- public class FieldExpr : MemberExpr, IDynamicAssign, IMemoryLocation, IVariableReference {
+ //
+ // Fully resolved expression that references a Field
+ //
+ public class FieldExpr : MemberExpr, IDynamicAssign, IMemoryLocation, IVariableReference
+ {
protected FieldSpec spec;
VariableInfo variable_info;
public bool IsMarshalByRefAccess (ResolveContext rc)
{
// Checks possible ldflda of field access expression
- return !spec.IsStatic && TypeManager.IsValueType (spec.MemberType) && !(InstanceExpression is This) &&
+ return !spec.IsStatic && TypeSpec.IsValueType (spec.MemberType) && !(InstanceExpression is This) &&
rc.Module.PredefinedTypes.MarshalByRefObject.Define () &&
TypeSpec.IsBaseClass (spec.DeclaringType, rc.Module.PredefinedTypes.MarshalByRefObject.TypeSpec, false);
}
} else if (var != null && var.IsHoisted) {
AnonymousMethodExpression.Error_AddressOfCapturedVar (ec, var, loc);
}
-
+
return new FixedBufferPtr (this, fb.ElementType, loc).Resolve (ec);
}
}
}
- public void EmitAssign (EmitContext ec, Expression source, bool leave_copy, bool prepare_for_load)
+ public void EmitAssign (EmitContext ec, Expression source, bool leave_copy, bool isCompound)
{
- prepared = prepare_for_load && !(source is DynamicExpressionStatement);
- if (IsInstance)
+ bool has_await_source = ec.HasSet (BuilderContext.Options.AsyncBody) && source.ContainsEmitWithAwait ();
+ if (isCompound && !(source is DynamicExpressionStatement)) {
+ if (has_await_source) {
+ if (IsInstance)
+ InstanceExpression = InstanceExpression.EmitToField (ec);
+ } else {
+ prepared = true;
+ }
+ }
+
+ if (IsInstance) {
+ if (has_await_source)
+ source = source.EmitToField (ec);
+
EmitInstance (ec, prepared);
+ }
source.Emit (ec);
+
if (leave_copy) {
ec.Emit (OpCodes.Dup);
if (!IsStatic) {
}
}
+ //
+ // Emits store to field with prepared values on stack
+ //
+ public void EmitAssignFromStack (EmitContext ec)
+ {
+ if (IsStatic) {
+ ec.Emit (OpCodes.Stsfld, spec);
+ } else {
+ ec.Emit (OpCodes.Stfld, spec);
+ }
+ }
+
public override void Emit (EmitContext ec)
{
Emit (ec, false);
} else
need_copy = false;
- if (need_copy){
- LocalBuilder local;
+ if (need_copy) {
Emit (ec);
- local = ec.DeclareLocal (type, false);
- ec.Emit (OpCodes.Stloc, local);
- ec.Emit (OpCodes.Ldloca, local);
+ var temp = ec.GetTemporaryLocal (type);
+ ec.Emit (OpCodes.Stloc, temp);
+ ec.Emit (OpCodes.Ldloca, temp);
+ ec.FreeTemporaryLocal (temp, type);
return;
}
public override void SetTypeArguments (ResolveContext ec, TypeArguments ta)
{
- Error_TypeArgumentsCannotBeUsed (ec.Report, "field", GetSignatureForError (), loc);
+ Error_TypeArgumentsCannotBeUsed (ec, "field", GetSignatureForError (), loc);
}
}
- /// <summary>
- /// Expression that evaluates to a Property. The Assign class
- /// might set the `Value' expression if we are in an assignment.
- ///
- /// This is not an LValue because we need to re-write the expression, we
- /// can not take data from the stack and store it.
- /// </summary>
- class PropertyExpr : PropertyOrIndexerExpr<PropertySpec>
+ //
+ // Expression that evaluates to a Property.
+ //
+ // This is not an LValue because we need to re-write the expression. We
+ // can not take data from the stack and store it.
+ //
+ sealed class PropertyExpr : PropertyOrIndexerExpr<PropertySpec>
{
public PropertyExpr (PropertySpec spec, Location l)
: base (l)
#region Properties
+ protected override Arguments Arguments {
+ get {
+ return null;
+ }
+ set {
+ }
+ }
+
protected override TypeSpec DeclaringType {
get {
return best_candidate.DeclaringType;
// Special case: length of single dimension array property is turned into ldlen
//
if (IsSingleDimensionalArrayLength ()) {
- if (!prepared)
- EmitInstance (ec, false);
+ EmitInstance (ec, false);
ec.Emit (OpCodes.Ldlen);
ec.Emit (OpCodes.Conv_I4);
return;
}
- Invocation.EmitCall (ec, InstanceExpression, Getter, null, loc, prepared, false);
-
- if (leave_copy) {
- ec.Emit (OpCodes.Dup);
- if (!IsStatic) {
- temp = new LocalTemporary (this.Type);
- temp.Store (ec);
- }
- }
+ base.Emit (ec, leave_copy);
}
- public override void EmitAssign (EmitContext ec, Expression source, bool leave_copy, bool prepare_for_load)
+ public override void EmitAssign (EmitContext ec, Expression source, bool leave_copy, bool isCompound)
{
Arguments args;
+ LocalTemporary await_source_arg = null;
- if (prepare_for_load && !(source is DynamicExpressionStatement)) {
- args = new Arguments (0);
- prepared = true;
+ if (isCompound && !(source is DynamicExpressionStatement)) {
+ emitting_compound_assignment = true;
source.Emit (ec);
-
- if (leave_copy) {
- ec.Emit (OpCodes.Dup);
- if (!IsStatic) {
+
+ if (has_await_arguments) {
+ await_source_arg = new LocalTemporary (Type);
+ await_source_arg.Store (ec);
+
+ args = new Arguments (1);
+ args.Add (new Argument (await_source_arg));
+
+ if (leave_copy) {
+ temp = await_source_arg;
+ }
+
+ has_await_arguments = false;
+ } else {
+ args = null;
+
+ if (leave_copy) {
+ ec.Emit (OpCodes.Dup);
temp = new LocalTemporary (this.Type);
temp.Store (ec);
}
}
}
- Invocation.EmitCall (ec, InstanceExpression, Setter, args, loc, false, prepared);
-
+ emitting_compound_assignment = false;
+
+ var call = new CallEmitter ();
+ call.InstanceExpression = InstanceExpression;
+ if (args == null)
+ call.InstanceExpressionOnStack = true;
+
+ call.Emit (ec, Setter, args, loc);
+
if (temp != null) {
temp.Emit (ec);
temp.Release (ec);
}
+
+ if (await_source_arg != null) {
+ await_source_arg.Release (ec);
+ }
}
protected override Expression OverloadResolve (ResolveContext rc, Expression right_side)
{
eclass = ExprClass.PropertyAccess;
- if (best_candidate.IsNotRealProperty) {
+ if (best_candidate.IsNotCSharpCompatible) {
Error_PropertyNotValid (rc);
}
public override void SetTypeArguments (ResolveContext ec, TypeArguments ta)
{
- Error_TypeArgumentsCannotBeUsed (ec.Report, "property", GetSignatureForError (), loc);
+ Error_TypeArgumentsCannotBeUsed (ec, "property", GetSignatureForError (), loc);
}
}
protected T best_candidate;
protected LocalTemporary temp;
- protected bool prepared;
+ protected bool emitting_compound_assignment;
+ protected bool has_await_arguments;
protected PropertyOrIndexerExpr (Location l)
{
#region Properties
+ protected abstract Arguments Arguments { get; set; }
+
public MethodSpec Getter {
get {
return getter;
//
// Implements the IAssignMethod interface for assignments
//
- public abstract void Emit (EmitContext ec, bool leave_copy);
- public abstract void EmitAssign (EmitContext ec, Expression source, bool leave_copy, bool prepare_for_load);
+ public virtual void Emit (EmitContext ec, bool leave_copy)
+ {
+ var call = new CallEmitter ();
+ call.InstanceExpression = InstanceExpression;
+ if (has_await_arguments)
+ call.HasAwaitArguments = true;
+ else
+ call.DuplicateArguments = emitting_compound_assignment;
+
+ call.Emit (ec, Getter, Arguments, loc);
+
+ if (call.HasAwaitArguments) {
+ InstanceExpression = call.InstanceExpression;
+ Arguments = call.EmittedArguments;
+ has_await_arguments = true;
+ }
+
+ if (leave_copy) {
+ ec.Emit (OpCodes.Dup);
+ temp = new LocalTemporary (Type);
+ temp.Store (ec);
+ }
+ }
+
+ public abstract void EmitAssign (EmitContext ec, Expression source, bool leave_copy, bool isCompound);
public override void Emit (EmitContext ec)
{
Emit (ec, false);
}
+ protected override void EmitToFieldSource (EmitContext ec)
+ {
+ has_await_arguments = true;
+ Emit (ec, false);
+ }
+
public abstract SLE.Expression MakeAssignExpression (BuilderContext ctx, Expression source);
protected abstract Expression OverloadResolve (ResolveContext rc, Expression right_side);
throw new NotImplementedException ();
}
- public void EmitAssign (EmitContext ec, Expression source, bool leave_copy, bool prepare_for_load)
+ public void EmitAssign (EmitContext ec, Expression source, bool leave_copy, bool isCompound)
{
- if (leave_copy || !prepare_for_load)
+ if (leave_copy || !isCompound)
throw new NotImplementedException ("EventExpr::EmitAssign");
Arguments args = new Arguments (1);
args.Add (new Argument (source));
- Invocation.EmitCall (ec, InstanceExpression, op, args, loc);
+
+ var call = new CallEmitter ();
+ call.InstanceExpression = InstanceExpression;
+ call.Emit (ec, op, args, loc);
}
#endregion
public override void SetTypeArguments (ResolveContext ec, TypeArguments ta)
{
- Error_TypeArgumentsCannotBeUsed (ec.Report, "event", GetSignatureForError (), loc);
+ Error_TypeArgumentsCannotBeUsed (ec, "event", GetSignatureForError (), loc);
}
}