//
// Author:
// Miguel de Icaza (miguel@ximian.com)
+// Marek Safar (marek.safar@seznam.cz)
//
// (C) 2001, 2002, 2003 Ximian, Inc.
// (C) 2003, 2004 Novell, Inc.
op_name = oper_names [(int) Oper];
- mg = MemberLookup (ec, expr_type, op_name, MemberTypes.Method, AllBindingFlags, loc);
+ mg = MemberLookup (ec.ContainerType, expr_type, op_name, MemberTypes.Method, AllBindingFlags, loc);
if (mg != null) {
Expression e = StaticCallExpr.MakeSimpleCall (
throw new Exception ("This should be caught by Resolve");
case Operator.UnaryNegation:
- if (ec.CheckState) {
+ if (ec.CheckState && type != TypeManager.float_type && type != TypeManager.double_type) {
ig.Emit (OpCodes.Ldc_I4_0);
if (type == TypeManager.int64_type)
ig.Emit (OpCodes.Conv_U8);
else
op_name = "op_Decrement";
- mg = MemberLookup (ec, expr_type, op_name, MemberTypes.Method, AllBindingFlags, loc);
+ mg = MemberLookup (ec.ContainerType, expr_type, op_name, MemberTypes.Method, AllBindingFlags, loc);
if (mg != null) {
method = StaticCallExpr.MakeSimpleCall (
if (expr == null)
return null;
} else {
- expr.Error_UnexpectedKind (ec, "variable, indexer or property access", loc);
+ expr.Error_UnexpectedKind (ec.DeclContainer, "variable, indexer or property access", loc);
return null;
}
Error_CannotConvertType (etype, probe_type, loc);
return null;
- }
+ }
+
+ public override bool GetAttributableValue (out object value)
+ {
+ return expr.GetAttributableValue (out value);
+ }
}
/// <summary>
Constant c = expr as Constant;
if (c != null) {
- c = c.TryReduce (ec, type, loc);
- if (c != null)
- return c;
+ try {
+ c = c.TryReduce (ec, type, loc);
+ if (c != null)
+ return c;
+ }
+ catch (OverflowException) {
+ return null;
+ }
}
if (type.IsPointer && !ec.InUnsafe) {
string op = oper_names [(int) oper];
MethodGroupExpr union;
- left_operators = MemberLookup (ec, l, op, MemberTypes.Method, AllBindingFlags, loc);
+ left_operators = MemberLookup (ec.ContainerType, l, op, MemberTypes.Method, AllBindingFlags, loc);
if (r != l){
right_operators = MemberLookup (
- ec, r, op, MemberTypes.Method, AllBindingFlags, loc);
+ ec.ContainerType, r, op, MemberTypes.Method, AllBindingFlags, loc);
union = Invocation.MakeUnionSet (left_operators, right_operators, loc);
} else
union = (MethodGroupExpr) left_operators;
public override Expression DoResolve (EmitContext ec)
{
+ if (left == null)
+ return null;
+
if ((oper == Operator.Subtraction) && (left is ParenthesizedExpression)) {
left = ((ParenthesizedExpression) left).Expr;
left = left.Resolve (ec, ResolveFlags.VariableOrValue | ResolveFlags.Type);
if (rc is EnumConstant &&
lc != null && lc.IsZeroInteger)
return rc;
+ } else if (oper == Operator.LogicalAnd) {
+ if (rc != null && rc.IsDefaultValue && rc.Type == TypeManager.bool_type)
+ return rc;
+ if (lc != null && lc.IsDefaultValue && lc.Type == TypeManager.bool_type)
+ return lc;
}
if (rc != null && lc != null){
local_info = Block.GetLocalInfo (Name);
// is out param
- if (lvalue_right_side == EmptyExpression.Null)
+ if (lvalue_right_side == EmptyExpression.OutAccess)
local_info.Used = true;
is_readonly = local_info.ReadOnly;
VariableInfo variable_info = local_info.VariableInfo;
if (lvalue_right_side != null){
if (is_readonly){
- if (lvalue_right_side is LocalVariableReference || lvalue_right_side == EmptyExpression.Null)
+ if (lvalue_right_side is LocalVariableReference || lvalue_right_side == EmptyExpression.OutAccess)
Report.Error (1657, loc, "Cannot pass `{0}' as a ref or out argument because it is a `{1}'",
Name, local_info.GetReadOnlyContext ());
+ else if (lvalue_right_side == EmptyExpression.LValueMemberAccess)
+ Report.Error (1654, loc, "Cannot assign to members of `{0}' because it is a `{1}'",
+ Name, local_info.GetReadOnlyContext ());
else
Report.Error (1656, loc, "Cannot assign to `{0}' because it is a `{1}'",
Name, local_info.GetReadOnlyContext ());
/// representation.
/// </summary>
public class ParameterReference : Expression, IAssignMethod, IMemoryLocation, IVariable {
- Parameters pars;
- String name;
+ Parameter par;
+ string name;
int idx;
Block block;
VariableInfo vi;
- public Parameter.Modifier mod;
public bool is_ref, is_out, prepared;
public bool IsOut {
LocalTemporary temp;
- public ParameterReference (Parameters pars, Block block, int idx, string name, Location loc)
+ public ParameterReference (Parameter par, Block block, int idx, Location loc)
{
- this.pars = pars;
+ this.par = par;
+ this.name = par.Name;
this.block = block;
this.idx = idx;
- this.name = name;
this.loc = loc;
eclass = ExprClass.Variable;
}
- public ParameterReference (InternalParameters pars, Block block, int idx, Location loc)
- : this (pars.Parameters, block, idx, pars.ParameterName (idx), loc)
- { }
-
public VariableInfo VariableInfo {
get { return vi; }
}
public bool VerifyFixed ()
{
// A parameter is fixed if it's a value parameter (i.e., no modifier like out, ref, param).
- return mod == Parameter.Modifier.NONE;
+ return par.ModFlags == Parameter.Modifier.NONE;
}
public bool IsAssigned (EmitContext ec, Location loc)
return true;
Report.Error (269, loc,
- "Use of unassigned out parameter `{0}'", name);
+ "Use of unassigned out parameter `{0}'", par.Name);
return false;
}
protected void DoResolveBase (EmitContext ec)
{
- type = pars.GetParameterInfo (ec, idx, out mod);
+ if (!par.Resolve (ec)) {
+ //TODO:
+ }
+
+ type = par.ParameterType;
+ Parameter.Modifier mod = par.ModFlags;
is_ref = (mod & Parameter.Modifier.ISBYREF) != 0;
- is_out = (mod & Parameter.Modifier.OUT) != 0;
+ is_out = (mod & Parameter.Modifier.OUT) == Parameter.Modifier.OUT;
eclass = ExprClass.Variable;
if (is_out)
vi = block.ParameterMap [idx];
if (ec.CurrentAnonymousMethod != null){
- if (is_ref){
+ if (is_ref && !block.Toplevel.IsLocalParameter (name)){
Report.Error (1628, Location, "Cannot use ref or out parameter `{0}' inside an anonymous method block",
- name);
+ par.Name);
return;
}
ILGenerator ig = ec.ig;
int arg_idx = idx;
- if (ec.HaveCaptureInfo && ec.IsParameterCaptured (name)){
- if (leave_copy)
- throw new InternalErrorException ();
-
- ec.EmitParameter (name);
+ if (ec.HaveCaptureInfo && ec.IsParameterCaptured (name)){
+ ec.EmitParameter (name, leave_copy, prepared, ref temp);
return;
}
public void EmitAssign (EmitContext ec, Expression source, bool leave_copy, bool prepare_for_load)
{
+ prepared = prepare_for_load;
if (ec.HaveCaptureInfo && ec.IsParameterCaptured (name)){
- ec.EmitAssignParameter (name, source, leave_copy, prepare_for_load);
+ ec.EmitAssignParameter (name, source, leave_copy, prepare_for_load, ref temp);
return;
}
ILGenerator ig = ec.ig;
int arg_idx = idx;
- prepared = prepare_for_load;
+
if (!ec.MethodIsStatic)
arg_idx++;
}
}
+ public override string ToString ()
+ {
+ return "ParameterReference[" + name + "]";
+ }
}
/// <summary>
get {
switch (ArgType) {
case AType.Out:
- return Parameter.Modifier.OUT | Parameter.Modifier.ISBYREF;
+ return Parameter.Modifier.OUT;
case AType.Ref:
- return Parameter.Modifier.REF | Parameter.Modifier.ISBYREF;
+ return Parameter.Modifier.REF;
default:
return Parameter.Modifier.NONE;
return false;
}
+ int errors = Report.Errors;
Expr = Expr.DoResolveLValue (ec, Expr);
- if (Expr == null)
+ if (Expr == null && errors == Report.Errors)
Error_LValueRequired (loc);
} else if (ArgType == AType.Out) {
+ int errors = Report.Errors;
ec.InRefOutArgumentResolving = true;
- Expr = Expr.DoResolveLValue (ec, EmptyExpression.Null);
+ Expr = Expr.DoResolveLValue (ec, EmptyExpression.OutAccess);
ec.InRefOutArgumentResolving = false;
- if (Expr == null)
+ if (Expr == null && errors == Report.Errors)
Error_LValueRequired (loc);
}
else
}
}
}
-
- if (Expr.eclass != ExprClass.Variable){
- //
- // We just probe to match the CSC output
- //
- if (Expr.eclass == ExprClass.PropertyAccess ||
- Expr.eclass == ExprClass.IndexerAccess){
- Report.Error (206, loc, "A property or indexer `{0}' may not be passed as an out or ref parameter",
- Expr.GetSignatureForError ());
- } else {
- Error_LValueRequired (loc);
- }
- return false;
- }
return true;
}
return !candidate_params && best_params;
}
- static bool IsOverride (MethodBase cand_method, MethodBase base_method)
+ internal static bool IsOverride (MethodBase cand_method, MethodBase base_method)
{
if (!IsAncestralType (base_method.DeclaringType, cand_method.DeclaringType))
return false;
return union;
}
- public static bool IsParamsMethodApplicable (EmitContext ec, MethodGroupExpr me,
+ public static bool IsParamsMethodApplicable (EmitContext ec,
ArrayList arguments, int arg_count,
- ref MethodBase candidate)
+ MethodBase candidate)
{
return IsParamsMethodApplicable (
- ec, me, arguments, arg_count, false, ref candidate) ||
+ ec, arguments, arg_count, candidate, false) ||
IsParamsMethodApplicable (
- ec, me, arguments, arg_count, true, ref candidate);
+ ec, arguments, arg_count, candidate, true);
}
- static bool IsParamsMethodApplicable (EmitContext ec, MethodGroupExpr me,
- ArrayList arguments, int arg_count,
- bool do_varargs, ref MethodBase candidate)
- {
- return IsParamsMethodApplicable (
- ec, arguments, arg_count, candidate, do_varargs);
- }
-
/// <summary>
/// Determines if the candidate method, if a params method, is applicable
/// in its expanded form to the given set of arguments
if (pd_count != arg_count)
return false;
} else {
- if (pd.ParameterModifier (count) != Parameter.Modifier.PARAMS)
+ if (!pd.HasParams)
return false;
}
Argument a = (Argument) arguments [i];
Parameter.Modifier a_mod = a.Modifier &
- (unchecked (~(Parameter.Modifier.OUT | Parameter.Modifier.REF)));
+ (unchecked (~(Parameter.Modifier.OUTMASK | Parameter.Modifier.REFMASK)));
Parameter.Modifier p_mod = pd.ParameterModifier (i) &
- (unchecked (~(Parameter.Modifier.OUT | Parameter.Modifier.REF)));
+ (unchecked (~(Parameter.Modifier.OUTMASK | Parameter.Modifier.REFMASK)));
if (a_mod == p_mod) {
if (!Convert.ImplicitConversionExists (ec,
a.Expr,
pd.ParameterType (i)))
- return false;
-
+ return false;
+
if ((a_mod & Parameter.Modifier.ISBYREF) != 0) {
Type pt = pd.ParameterType (i);
return true;
}
- public static bool IsApplicable (EmitContext ec, MethodGroupExpr me,
- ArrayList arguments, int arg_count,
- ref MethodBase candidate)
- {
- return IsApplicable (ec, arguments, arg_count, candidate);
- }
-
/// <summary>
/// Determines if the candidate method is applicable (section 14.4.2.1)
/// to the given set of arguments
/// </summary>
- static bool IsApplicable (EmitContext ec, ArrayList arguments, int arg_count,
- MethodBase candidate)
+ public static bool IsApplicable (EmitContext ec, ArrayList arguments, int arg_count,
+ MethodBase candidate)
{
ParameterData pd = TypeManager.GetParameterData (candidate);
Argument a = (Argument) arguments [i];
Parameter.Modifier a_mod = a.Modifier &
- unchecked (~(Parameter.Modifier.OUT | Parameter.Modifier.REF));
+ ~(Parameter.Modifier.OUTMASK | Parameter.Modifier.REFMASK);
+
Parameter.Modifier p_mod = pd.ParameterModifier (i) &
- unchecked (~(Parameter.Modifier.OUT | Parameter.Modifier.REF));
+ ~(Parameter.Modifier.OUTMASK | Parameter.Modifier.REFMASK | Parameter.Modifier.PARAMS);
- if (a_mod == p_mod ||
- (a_mod == Parameter.Modifier.NONE && p_mod == Parameter.Modifier.PARAMS)) {
- if (a_mod == Parameter.Modifier.NONE) {
- if (!Convert.ImplicitConversionExists (ec,
- a.Expr,
- pd.ParameterType (i)))
- return false;
- }
-
- if ((a_mod & Parameter.Modifier.ISBYREF) != 0) {
- Type pt = pd.ParameterType (i);
+ if (a_mod == p_mod) {
+ Type pt = pd.ParameterType (i);
- if (!pt.IsByRef)
- pt = TypeManager.GetReferenceType (pt);
-
- if (pt != a.Type)
+ if (a_mod == Parameter.Modifier.NONE) {
+ if (!Convert.ImplicitConversionExists (ec, a.Expr, pt))
return false;
+ continue;
}
+
+ if (pt != a.Type)
+ return false;
} else
return false;
}
return true;
}
- static private bool IsAncestralType (Type first_type, Type second_type)
+ static internal bool IsAncestralType (Type first_type, Type second_type)
{
return first_type != second_type &&
(second_type.IsSubclassOf (first_type) ||
MethodBase[] methods = me.Methods;
+ int nmethods = methods.Length;
+
+ if (!me.IsBase) {
+ //
+ // Methods marked 'override' don't take part in 'applicable_type'
+ // computation, nor in the actual overload resolution.
+ // However, they still need to be emitted instead of a base virtual method.
+ // So, we salt them away into the 'candidate_overrides' array.
+ //
+ // In case of reflected methods, we replace each overriding method with
+ // its corresponding base virtual method. This is to improve compatibility
+ // with non-C# libraries which change the visibility of overrides (#75636)
+ //
+ int j = 0;
+ for (int i = 0; i < methods.Length; ++i) {
+ MethodBase m = methods [i];
+ if (TypeManager.IsOverride (m)) {
+ if (candidate_overrides == null)
+ candidate_overrides = new ArrayList ();
+ candidate_overrides.Add (m);
+ m = TypeManager.TryGetBaseDefinition (m);
+ }
+ if (m != null)
+ methods [j++] = m;
+ }
+ nmethods = j;
+ }
+
+ int applicable_errors = Report.Errors;
+
//
// First we construct the set of applicable methods
//
bool is_sorted = true;
- for (int i = 0; i < methods.Length; i++){
+ for (int i = 0; i < nmethods; i++){
Type decl_type = methods [i].DeclaringType;
//
// If we have already found an applicable method
// we eliminate all base types (Section 14.5.5.1)
//
- if ((applicable_type != null) &&
- IsAncestralType (decl_type, applicable_type))
+ if (applicable_type != null && IsAncestralType (decl_type, applicable_type))
continue;
- //
- // Methods marked 'override' don't take part in 'applicable_type'
- // computation, nor in the actual overload resolution.
- // However, they still need to be emitted instead of a base virtual method.
- // We avoid doing the 'applicable' test here, since it'll anyway be applied
- // to the base virtual function, and IsOverride is much faster than IsApplicable.
- //
- if (!me.IsBase && TypeManager.IsOverride (methods [i])) {
- if (candidate_overrides == null)
- candidate_overrides = new ArrayList ();
- candidate_overrides.Add (methods [i]);
- continue;
- }
-
//
// Check if candidate is applicable (section 14.4.2.1)
// Is candidate applicable in normal form?
//
- bool is_applicable = IsApplicable (
- ec, me, Arguments, arg_count, ref methods [i]);
+ bool is_applicable = IsApplicable (ec, Arguments, arg_count, methods [i]);
- if (!is_applicable &&
- (IsParamsMethodApplicable (
- ec, me, Arguments, arg_count, ref methods [i]))) {
+ if (!is_applicable && IsParamsMethodApplicable (ec, Arguments, arg_count, methods [i])) {
MethodBase candidate = methods [i];
if (candidate_to_form == null)
candidate_to_form = new PtrHashtable ();
}
}
+ if (applicable_errors != Report.Errors)
+ return null;
+
int candidate_top = candidates.Count;
if (applicable_type == null) {
// return by providing info about the closest match
//
int errors = Report.Errors;
- for (int i = 0; i < methods.Length; ++i) {
+ for (int i = 0; i < nmethods; ++i) {
MethodBase c = (MethodBase) methods [i];
ParameterData pd = TypeManager.GetParameterData (c);
public static void Error_WrongNumArguments (Location loc, String name, int arg_count)
{
Report.Error (1501, loc, "No overload for method `{0}' takes `{1}' arguments",
- name, arg_count);
+ name, arg_count.ToString ());
}
static void Error_InvokeOnDelegate (Location loc)
Report.Error (1594, loc, "Delegate `{0}' has some invalid arguments",
TypeManager.CSharpName (delegate_type));
- string par_desc = expected_par.ParameterDesc (idx);
+ Parameter.Modifier mod = expected_par.ParameterModifier (idx);
- if (a.Modifier != expected_par.ParameterModifier (idx)) {
- if ((expected_par.ParameterModifier (idx) & (Parameter.Modifier.REF | Parameter.Modifier.OUT)) == 0)
+ string index = (idx + 1).ToString ();
+ if (mod != Parameter.Modifier.ARGLIST && mod != a.Modifier) {
+ if ((mod & (Parameter.Modifier.REF | Parameter.Modifier.OUT)) == 0)
Report.Error (1615, loc, "Argument `{0}' should not be passed with the `{1}' keyword",
- idx + 1, Parameter.GetModifierSignature (a.Modifier));
+ index, Parameter.GetModifierSignature (a.Modifier));
else
Report.Error (1620, loc, "Argument `{0}' must be passed with the `{1}' keyword",
- idx + 1, Parameter.GetModifierSignature (expected_par.ParameterModifier (idx)));
- return;
+ index, Parameter.GetModifierSignature (mod));
+ } else {
+ Report.Error (1503, loc, "Argument {0}: Cannot convert from `{1}' to `{2}'",
+ index, Argument.FullDesc (a), expected_par.ParameterDesc (idx));
}
-
- Report.Error (1503, loc,
- String.Format ("Argument {0}: Cannot convert from `{1}' to `{2}'",
- idx + 1, Argument.FullDesc (a), par_desc));
}
public static bool VerifyArgumentsCompat (EmitContext ec, ArrayList Arguments,
if (pm == Parameter.Modifier.PARAMS){
if ((pm & ~Parameter.Modifier.PARAMS) != a.Modifier) {
if (!may_fail)
- Error_InvalidArguments (
- loc, j, method, delegate_type,
- a, pd);
+ Error_InvalidArguments (loc, j, method, delegate_type, a, pd);
return false;
}
if (chose_params_expanded)
parameter_type = TypeManager.GetElementType (parameter_type);
- } else if (pm == Parameter.Modifier.ARGLIST){
+ } else if (pm == Parameter.Modifier.ARGLIST) {
+ if (!(a.Expr is Arglist)) {
+ if (!may_fail)
+ Error_InvalidArguments (loc, j, method, delegate_type, a, pd);
+ return false;
+ }
continue;
} else {
//
//
if (pd.ParameterModifier (j) != a.Modifier){
if (!may_fail)
- Error_InvalidArguments (
- loc, j, method, delegate_type,
- a, pd);
+ Error_InvalidArguments (loc, j, method, delegate_type, a, pd);
return false;
}
}
return true;
}
+ private bool resolved = false;
public override Expression DoResolve (EmitContext ec)
{
+ if (resolved)
+ return this.method == null ? null : this;
+
+ resolved = true;
//
// First, resolve the expression that is used to
// trigger the invocation
}
MethodGroupExpr mg = (MethodGroupExpr) expr;
- method = OverloadResolve (ec, mg, Arguments, false, loc);
+ MethodBase method = OverloadResolve (ec, mg, Arguments, false, loc);
if (method == null)
return null;
mg.InstanceExpression.CheckMarshallByRefAccess (ec.ContainerType);
eclass = ExprClass.Value;
+ this.method = method;
return this;
}
/// <summary>
/// This checks the ConditionalAttribute on the method
/// </summary>
- static bool IsMethodExcluded (MethodBase method, EmitContext ec)
+ static bool IsMethodExcluded (MethodBase method)
{
if (method.IsConstructor)
return false;
IMethodData md = TypeManager.GetMethod (method);
if (md != null)
- return md.IsExcluded (ec);
+ return md.IsExcluded ();
// For some methods (generated by delegate class) GetMethod returns null
// because they are not included in builder_to_method table
method = TypeManager.void_array_copyto_array_int;
}
- if (ec.TestObsoleteMethodUsage) {
+ if (!ec.IsInObsoleteScope) {
//
// This checks ObsoleteAttribute on the method and on the declaring type
//
}
}
- if (IsMethodExcluded (method, ec))
+ if (IsMethodExcluded (method))
return;
if (!is_static){
return null;
}
+ //
+ // Checks whether the type is an interface that has the
+ // [ComImport, CoClass] attributes and must be treated
+ // specially
+ //
+ public Expression CheckComImport (EmitContext ec)
+ {
+ if (!type.IsInterface)
+ return null;
+
+ //
+ // Turn the call into:
+ // (the-interface-stated) (new class-referenced-in-coclassattribute ())
+ //
+ Type real_class = AttributeTester.GetCoClassAttribute (type);
+ if (real_class == null)
+ return null;
+
+ New proxy = new New (new TypeExpression (real_class, loc), Arguments, loc);
+ Cast cast = new Cast (new TypeExpression (type, loc), proxy, loc);
+ return cast.Resolve (ec);
+ }
+
public override Expression DoResolve (EmitContext ec)
{
//
}
if (type.IsInterface || type.IsAbstract){
+ RequestedType = CheckComImport (ec);
+ if (RequestedType != null)
+ return RequestedType;
+
Report.SymbolRelatedToPreviousError (type);
Report.Error (144, loc, "Cannot create an instance of the abstract class or interface `{0}'", TypeManager.CSharpName (type));
return null;
MethodGroupExpr mg = ml as MethodGroupExpr;
if (mg == null) {
- ml.Error_UnexpectedKind (ec, "method group", loc);
+ ml.Error_UnexpectedKind (ec.DeclContainer, "method group", loc);
return null;
}
method = Invocation.OverloadResolve (ec, mg, Arguments, false, loc);
if (method == null) {
if (almostMatchedMembers.Count != 0)
- MemberLookupFailed (ec, type, type, ".ctor", null, true, loc);
+ MemberLookupFailed (ec.ContainerType, type, type, ".ctor", null, true, loc);
return null;
}
{
if (specified_dims) {
Argument a = (Argument) arguments [idx];
-
+
if (!a.Resolve (ec, loc))
return false;
-
- if (!(a.Expr is Constant)) {
- Error (150, "A constant value is expected");
+
+ Constant c = a.Expr as Constant;
+ if (c != null) {
+ c = c.ToType (TypeManager.int32_type, a.Expr.Location);
+ }
+
+ if (c == null) {
+ Report.Error (150, a.Expr.Location, "A constant value is expected");
return false;
}
-
- int value = (int) ((Constant) a.Expr).GetValue ();
+
+ int value = (int) c.GetValue ();
if (value != probe.Count) {
Error_IncorrectArrayInitializer ();
public bool ValidateInitializers (EmitContext ec, Type array_type)
{
if (initializers == null) {
- if (expect_initializers)
- return false;
- else
- return true;
+ return !expect_initializers;
}
if (underlying_type == null)
array_data = new ArrayList ();
bounds = new Hashtable ();
- bool ret;
-
if (arguments != null) {
- ret = CheckIndices (ec, initializers, 0, true);
- return ret;
+ return CheckIndices (ec, initializers, 0, true);
} else {
arguments = new ArrayList ();
- ret = CheckIndices (ec, initializers, 0, false);
-
- if (!ret)
+ if (!CheckIndices (ec, initializers, 0, false))
return false;
UpdateIndices (ec);
return false;
}
- return ret;
+ return true;
}
}
if (array_type_expr == null)
return false;
- type = array_type_expr.ResolveType (ec);
-
- if (!type.IsArray) {
- Error (622, "Can only use array initializer expressions to assign to array types. Try using a new expression instead.");
- return false;
- }
+ type = array_type_expr.ResolveType (ec);
underlying_type = TypeManager.GetElementType (type);
dimensions = type.GetArrayRank ();
if (is_builtin_type) {
Expression ml;
- ml = MemberLookup (ec, type, ".ctor", MemberTypes.Constructor,
+ ml = MemberLookup (ec.ContainerType, type, ".ctor", MemberTypes.Constructor,
AllBindingFlags, loc);
if (!(ml is MethodGroupExpr)) {
- ml.Error_UnexpectedKind (ec, "method group", loc);
+ ml.Error_UnexpectedKind (ec.DeclContainer, "method group", loc);
return null;
}
}
}
- public object EncodeAsAttribute ()
+ public override bool GetAttributableValue (out object value)
{
if (!is_one_dimensional){
- Report.Error (-211, Location, "attribute can not encode multi-dimensional arrays");
- return null;
+// Report.Error (-211, Location, "attribute can not encode multi-dimensional arrays");
+ return base.GetAttributableValue (out value);
}
- if (array_data == null){
- Report.Error (-212, Location, "array should be initialized when passing it to an attribute");
- return null;
+ if (array_data == null) {
+ Constant c = (Constant)((Argument)arguments [0]).Expr;
+ if (c.IsDefaultValue) {
+ value = new object [0];
+ return true;
+ }
+// Report.Error (-212, Location, "array should be initialized when passing it to an attribute");
+ return base.GetAttributableValue (out value);
}
object [] ret = new object [array_data.Count];
- int i = 0;
- foreach (Expression e in array_data){
- object v;
-
- if (e is NullLiteral)
- v = null;
- else {
- if (!Attribute.GetAttributeArgumentExpression (e, Location, array_element_type, out v))
- return null;
+ for (int i = 0; i < ret.Length; ++i)
+ {
+ if (!((Expression)array_data [i]).GetAttributableValue (out ret [i])) {
+ value = null;
+ return false;
}
- ret [i++] = v;
}
- return ret;
+ value = ret;
+ return true;
}
}
ILGenerator ig = ec.ig;
if (ec.TypeContainer is Struct){
- ec.EmitThis ();
+ ec.EmitThis (false);
source.Emit (ec);
- if (leave_copy)
+
+ LocalTemporary t = null;
+ if (leave_copy) {
+ t = new LocalTemporary (ec, type);
ec.ig.Emit (OpCodes.Dup);
+ t.Store (ec);
+ }
+
ig.Emit (OpCodes.Stobj, type);
+
+ if (leave_copy)
+ t.Emit (ec);
} else {
throw new Exception ("how did you get here");
}
{
ILGenerator ig = ec.ig;
- ec.EmitThis ();
+ ec.EmitThis (false);
if (ec.TypeContainer is Struct)
ig.Emit (OpCodes.Ldobj, type);
}
public void AddressOf (EmitContext ec, AddressOp mode)
{
- ec.EmitThis ();
+ ec.EmitThis (true);
// FIMXE
// FIGURE OUT WHY LDARG_S does not work
/// Implements the typeof operator
/// </summary>
public class TypeOf : Expression {
- public Expression QueriedType;
+ readonly Expression QueriedType;
protected Type typearg;
public TypeOf (Expression queried_type, Location l)
ec.ig.Emit (OpCodes.Call, TypeManager.system_type_get_type_from_handle);
}
- public Type TypeArg {
- get { return typearg; }
+ public override bool GetAttributableValue (out object value)
+ {
+ value = typearg;
+ return true;
}
}
loc = l;
}
- public override FullNamedExpression ResolveAsTypeStep (EmitContext ec, bool silent)
+ public override FullNamedExpression ResolveAsTypeStep (IResolveContext ec, bool silent)
{
if (alias == "global")
return new MemberAccess (RootNamespace.Global, identifier, loc).ResolveAsTypeStep (ec, silent);
int errors = Report.Errors;
- FullNamedExpression fne = ec.DeclSpace.NamespaceEntry.LookupAlias (alias);
+ FullNamedExpression fne = ec.DeclContainer.NamespaceEntry.LookupAlias (alias);
if (fne == null) {
if (errors == Report.Errors)
Report.Error (432, loc, "Alias `{0}' not found", alias);
fne = RootNamespace.Global;
} else {
int errors = Report.Errors;
- fne = ec.DeclSpace.NamespaceEntry.LookupAlias (alias);
+ fne = ec.DeclContainer.NamespaceEntry.LookupAlias (alias);
if (fne == null) {
if (errors == Report.Errors)
Report.Error (432, loc, "Alias `{0}' not found", alias);
if (new_expr is Namespace) {
Namespace ns = (Namespace) new_expr;
- FullNamedExpression retval = ns.Lookup (ec.DeclSpace, Identifier, loc);
+ FullNamedExpression retval = ns.Lookup (ec.DeclContainer, Identifier, loc);
if (retval == null)
Report.Error (234, loc, "The type or namespace name `{0}' does not exist in the namespace `{1}'. Are you missing an assembly reference?",
Identifier, ns.FullName);
Error (23, "The `.' operator can not be applied to pointer operands (" +
TypeManager.CSharpName (expr_type) + ")");
return null;
+ } else if (expr_type == TypeManager.void_type) {
+ Error (23, "The `.' operator can not be applied to operands of type 'void'");
+ return null;
+ } else if (expr_type == TypeManager.anonymous_method_type){
+ Error (23, "The `.' operator can not be applied to anonymous methods");
}
+
Expression member_lookup;
member_lookup = MemberLookupFinal (ec, expr_type, expr_type, Identifier, loc);
return DoResolve (ec, right_side);
}
- public override FullNamedExpression ResolveAsTypeStep (EmitContext ec, bool silent)
+ public override FullNamedExpression ResolveAsTypeStep (IResolveContext ec, bool silent)
{
return ResolveNamespaceOrType (ec, silent);
}
- public FullNamedExpression ResolveNamespaceOrType (EmitContext ec, bool silent)
+ public FullNamedExpression ResolveNamespaceOrType (IResolveContext rc, bool silent)
{
- FullNamedExpression new_expr = expr.ResolveAsTypeStep (ec, silent);
+ FullNamedExpression new_expr = expr.ResolveAsTypeStep (rc, silent);
- if (new_expr == null) {
- Report.Error (234, "No such name or typespace {0}", expr);
+ if (new_expr == null)
return null;
- }
if (new_expr is Namespace) {
Namespace ns = (Namespace) new_expr;
- FullNamedExpression retval = ns.Lookup (ec.DeclSpace, Identifier, loc);
+ FullNamedExpression retval = ns.Lookup (rc.DeclContainer, Identifier, loc);
if (!silent && retval == null)
Report.Error (234, loc, "The type or namespace name `{0}' does not exist in the namespace `{1}'. Are you missing an assembly reference?",
Identifier, ns.FullName);
return null;
}
- Expression member_lookup = MemberLookup (ec, expr_type, expr_type, Identifier, loc);
+ Expression member_lookup = MemberLookup (rc.DeclContainer.TypeBuilder, expr_type, expr_type, Identifier, loc);
if (member_lookup == null) {
int errors = Report.Errors;
- MemberLookupFailed (ec, expr_type, expr_type, Identifier, null, false, loc);
+ MemberLookupFailed (rc.DeclContainer.TypeBuilder, expr_type, expr_type, Identifier, null, false, loc);
if (!silent && errors == Report.Errors) {
Report.Error (426, loc, "The nested type `{0}' does not exist in the type `{1}'",
}
if (!(member_lookup is TypeExpr)) {
- new_expr.Error_UnexpectedKind (ec, "type", loc);
+ new_expr.Error_UnexpectedKind (rc.DeclContainer, "type", loc);
return null;
}
- member_lookup = member_lookup.Resolve (ec, ResolveFlags.Type);
+ member_lookup = member_lookup.ResolveAsTypeTerminal (rc, silent);
return (member_lookup as TypeExpr);
}
Report.Error (1708, loc, "Fixed size buffers can only be accessed through locals or fields");
return null;
}
-// TODO: not sure whether it is correct
-// if (!ec.InFixedInitializer) {
-// Error (1666, "You cannot use fixed sized buffers contained in unfixed expressions. Try using the fixed statement");
-// return null;
-// }
+ if (!ec.InFixedInitializer && ec.ContainerType.IsValueType) {
+ Error (1666, "You cannot use fixed size buffers contained in unfixed expressions. Try using the fixed statement");
+ return null;
+ }
return MakePointerAccess (ec, ff.ElementType);
}
}
Type t = ea.Expr.Type;
if (t.GetArrayRank () != ea.Arguments.Count){
Report.Error (22, ea.Location, "Wrong number of indexes `{0}' inside [], expected `{1}'",
- ea.Arguments.Count, t.GetArrayRank ());
+ ea.Arguments.Count.ToString (), t.GetArrayRank ().ToString ());
return null;
}
public override Expression DoResolveLValue (EmitContext ec, Expression right_side)
{
+ if (right_side == EmptyExpression.OutAccess) {
+ Report.Error (206, loc, "A property or indexer `{0}' may not be passed as an out or ref parameter",
+ GetSignatureForError ());
+ return null;
+ }
+
+ // if the indexer returns a value type, and we try to set a field in it
+ if (right_side == EmptyExpression.LValueMemberAccess) {
+ Report.Error (1612, loc, "Cannot modify the return value of `{0}' because it is not a variable",
+ GetSignatureForError ());
+ return null;
+ }
+
ArrayList AllSetters = new ArrayList();
if (!CommonResolve (ec))
return null;
{
Emit (ec, false);
}
+
+ public override string GetSignatureForError ()
+ {
+ // FIXME: print the argument list of the indexer
+ return instance_expr.GetSignatureForError () + ".this[...]";
+ }
}
/// <summary>
return null;
}
- member_lookup = MemberLookup (ec, ec.ContainerType, null, base_type, member,
+ member_lookup = MemberLookup (ec.ContainerType, null, base_type, member,
AllMemberTypes, AllBindingFlags, loc);
if (member_lookup == null) {
- MemberLookupFailed (ec, base_type, base_type, member, null, true, loc);
+ MemberLookupFailed (ec.ContainerType, base_type, base_type, member, null, true, loc);
return null;
}
public class EmptyExpression : Expression {
public static readonly EmptyExpression Null = new EmptyExpression ();
+ public static readonly EmptyExpression OutAccess = new EmptyExpression ();
+ public static readonly EmptyExpression LValueMemberAccess = new EmptyExpression ();
+
static EmptyExpression temp = new EmptyExpression ();
public static EmptyExpression Grab ()
{
loc = l;
}
- public override TypeExpr DoResolveAsTypeStep (EmitContext ec)
+ public override TypeExpr DoResolveAsTypeStep (IResolveContext ec)
{
TypeExpr lexpr = left.ResolveAsTypeTerminal (ec, false);
if (lexpr == null)
return null;
- bool old = ec.TestObsoleteMethodUsage;
- ec.TestObsoleteMethodUsage = false;
Type ltype = lexpr.ResolveType (ec);
- ec.TestObsoleteMethodUsage = old;
-
if ((ltype == TypeManager.void_type) && (dim != "*")) {
Report.Error (1547, Location,
"Keyword 'void' cannot be used in this context");
throw new InternalErrorException ("Couldn't create computed type " + ltype + dim);
}
- if (!ec.InUnsafe && type.IsPointer){
+ if (type.IsPointer && !ec.IsInUnsafeScope){
UnsafeError (loc);
return null;
}
}
public override string Name {
- get {
- return left + dim;
- }
+ get { return left + dim; }
}
public override string FullName {
- get {
- return type.FullName;
- }
+ get { return type.FullName; }
+ }
+
+ public override string GetSignatureForError ()
+ {
+ return left.GetSignatureForError () + dim;
}
}