public void ImplementMethod(MemberName name, TypeSpec ifaceType, MethodData method, bool clear_one, out MethodSpec ambiguousCandidate, ref bool optional)
{
InterfaceMethod(name, ifaceType, method, clear_one ? Operation.ClearOne : Operation.ClearAll, out ambiguousCandidate, ref optional);
}
/// <summary>
/// Whether the specified method is an interface method implementation
/// </summary>
public MethodSpec IsInterfaceMethod (MemberName name, TypeSpec ifaceType, MethodData method, out MethodSpec ambiguousCandidate, ref bool optional)
{
return InterfaceMethod (name, ifaceType, method, Operation.Lookup, out ambiguousCandidate, ref optional);
}
/// <remarks>
/// If a method in Type `t' (or null to look in all interfaces
/// and the base abstract class) with name `Name', return type `ret_type' and
/// arguments `args' implements an interface, this method will
/// return the MethodInfo that this method implements.
///
/// If `name' is null, we operate solely on the method's signature. This is for
/// instance used when implementing indexers.
///
/// The `Operation op' controls whether to lookup, clear the pending bit, or clear
/// all the methods with the given signature.
///
/// The `MethodInfo need_proxy' is used when we're implementing an interface's
/// indexer in a class. If the new indexer's IndexerName does not match the one
/// that was used in the interface, then we always need to create a proxy for it.
///
/// </remarks>
public MethodSpec InterfaceMethod (MemberName name, TypeSpec iType, MethodData method, Operation op, out MethodSpec ambiguousCandidate, ref bool optional)
{
ambiguousCandidate = null;
if (pending_implementations == null)
return null;
TypeSpec ret_type = method.method.ReturnType;
ParametersCompiled args = method.method.ParameterInfo;
bool is_indexer = method.method is Indexer.SetIndexerMethod || method.method is Indexer.GetIndexerMethod;
MethodSpec m;
foreach (TypeAndMethods tm in pending_implementations){
if (!(iType == null || tm.type == iType))
continue;
int method_count = tm.methods.Count;
for (int i = 0; i < method_count; i++){
m = tm.methods [i];
if (m == null)
continue;
if (is_indexer) {
if (!m.IsAccessor || m.Parameters.IsEmpty)
continue;
} else {
if (name.Name != m.Name)
continue;
if (m.Arity != name.Arity)
continue;
}
if (!TypeSpecComparer.Override.IsEqual (m.Parameters, args))
continue;
if (!TypeSpecComparer.Override.IsEqual (m.ReturnType, ret_type)) {
tm.found[i] = method;
continue;
}
//
// `need_proxy' is not null when we're implementing an
// interface indexer and this is Clear(One/All) operation.
//
// If `name' is null, then we do a match solely based on the
// signature and not on the name (this is done in the Lookup
// for an interface indexer).
//
if (op != Operation.Lookup) {
if (m.IsAccessor != method.method.IsAccessor)
continue;
// If `t != null', then this is an explicitly interface
// implementation and we can always clear the method.
// `need_proxy' is not null if we're implementing an
// interface indexer. In this case, we need to create
// a proxy if the implementation's IndexerName doesn't
// match the IndexerName in the interface.
if (m.DeclaringType.IsInterface && iType == null && name.Name != m.Name) { // TODO: This is very expensive comparison
tm.need_proxy[i] = method.method.Spec;
} else {
tm.methods[i] = null;
}
} else {
tm.found [i] = method;
optional = tm.optional;
}
if (op == Operation.Lookup && name.ExplicitInterface != null && ambiguousCandidate == null) {
ambiguousCandidate = m;
continue;
}
//
// Lookups and ClearOne return
//
if (op != Operation.ClearAll)
return m;
}
// If a specific type was requested, we can stop now.
if (tm.type == iType)
break;
}
m = ambiguousCandidate;
ambiguousCandidate = null;
return m;
}
public virtual MethodBuilder Define (DeclSpace parent)
{
parameters.Resolve (this);
method_data = new MethodData (method, method.ModFlags,
method.flags | MethodAttributes.HideBySig | MethodAttributes.SpecialName, this);
if (!method_data.Define (parent, method.GetFullName (MemberName), Report))
return null;
MethodBuilder mb = method_data.MethodBuilder;
ParameterInfo.ApplyAttributes (mb);
Spec = new MethodSpec (MemberKind.Method, parent.PartialContainer.Definition, this, ReturnType, mb, ParameterInfo, method.ModFlags);
Spec.IsAccessor = true;
return mb;
}
public virtual MethodBuilder Define (TypeContainer parent)
{
// Fill in already resolved event type to speed things up and
// avoid confusing duplicate errors
((Parameter) parameters.FixedParameters[0]).Type = method.member_type;
parameters.Types = new TypeSpec[] { method.member_type };
method_data = new MethodData (method, method.ModFlags,
method.flags | MethodAttributes.HideBySig | MethodAttributes.SpecialName, this);
if (!method_data.Define (parent.PartialContainer, method.GetFullName (MemberName)))
return null;
method_data.DefineMethodBuilder (parent.PartialContainer, ParameterInfo);
if (Compiler.Settings.WriteMetadataOnly)
block = null;
Spec = new MethodSpec (MemberKind.Method, parent.PartialContainer.Definition, this, ReturnType, ParameterInfo, method.ModFlags);
Spec.IsAccessor = true;
return method_data.MethodBuilder;
}
/// <summary>
/// Whether the specified method is an interface method implementation
/// </summary>
public MethodSpec IsInterfaceMethod(MemberName name, TypeSpec ifaceType, MethodData method)
{
return InterfaceMethod (name, ifaceType, method, Operation.Lookup);
}
public override void Define (TypeContainer parent)
{
base.Define (parent);
Spec = new MethodSpec (MemberKind.Method, parent.PartialContainer.Definition, this, ReturnType, ParameterInfo, ModFlags);
method_data = new MethodData (method, ModFlags, flags, this);
method_data.Define (parent.PartialContainer, method.GetFullName (MemberName));
}
public virtual MethodBuilder Define (DeclSpace parent)
{
method_data = new MethodData (method, method.ModFlags,
method.flags | MethodAttributes.HideBySig | MethodAttributes.SpecialName, this);
if (!method_data.Define (parent, method.GetFullName (MemberName), Report))
return null;
MethodBuilder mb = method_data.MethodBuilder;
ParameterInfo.ApplyAttributes (mb);
return mb;
}
/// <summary>
/// Whether the specified method is an interface method implementation
/// </summary>
public MethodInfo IsInterfaceMethod (string name, Type ifaceType, MethodData method)
{
return InterfaceMethod (name, ifaceType, method, Operation.Lookup);
}
public override void Emit ()
{
if ((ModFlags & Modifiers.COMPILER_GENERATED) != 0 && !Parent.IsCompilerGenerated)
PredefinedAttributes.Get.CompilerGenerated.EmitAttribute (MethodBuilder);
if ((ModFlags & Modifiers.DEBUGGER_HIDDEN) != 0)
PredefinedAttributes.Get.DebuggerHidden.EmitAttribute (MethodBuilder);
if (TypeManager.IsDynamicType (ReturnType)) {
return_attributes = new ReturnParameter (MethodBuilder, Location);
return_attributes.EmitPredefined (PredefinedAttributes.Get.Dynamic, Location);
}
if (OptAttributes != null)
OptAttributes.Emit ();
if (declarative_security != null) {
foreach (DictionaryEntry de in declarative_security) {
MethodBuilder.AddDeclarativeSecurity ((SecurityAction)de.Key, (PermissionSet)de.Value);
}
}
if (MethodData != null)
MethodData.Emit (Parent);
base.Emit ();
Block = null;
MethodData = null;
}
public override MethodBuilder Define (DeclSpace parent)
{
parameters.Resolve (this);
base.Define (parent);
if (IsDummy)
return null;
method_data = new MethodData (method, ModFlags, flags, this);
if (!method_data.Define (parent, method.GetFullName (MemberName), Report))
return null;
return method_data.MethodBuilder;
}
public override bool Define ()
{
if (!base.Define ())
return false;
if (!CheckBase ())
return false;
if (block != null && block.IsIterator && !(Parent is IteratorStorey)) {
//
// Current method is turned into automatically generated
// wrapper which creates an instance of iterator
//
Iterator.CreateIterator (this, Parent.PartialContainer, ModFlags, Compiler);
ModFlags |= Modifiers.DEBUGGER_HIDDEN;
}
if (IsPartialDefinition) {
caching_flags &= ~Flags.Excluded_Undetected;
caching_flags |= Flags.Excluded;
// Add to member cache only when a partial method implementation is not there
if ((caching_flags & Flags.MethodOverloadsExist) == 0) {
MethodBase mb = new PartialMethodDefinitionInfo (this);
Parent.MemberCache.AddMember (mb, this);
TypeManager.AddMethod (mb, this);
}
return true;
}
MethodData = new MethodData (
this, ModFlags, flags, this, MethodBuilder, GenericMethod, base_method);
if (!MethodData.Define (Parent.PartialContainer, GetFullName (MemberName), Report))
return false;
MethodBuilder = MethodData.MethodBuilder;
if (TypeManager.IsGenericMethod (MethodBuilder))
Parent.MemberCache.AddGenericMember (MethodBuilder, this);
Parent.MemberCache.AddMember (MethodBuilder, this);
return true;
}
/// <summary>
/// Verifies that any pending abstract methods or interface methods
/// were implemented.
/// </summary>
public bool VerifyPendingMethods()
{
int top = pending_implementations.Length;
bool errors = false;
int i;
for (i = 0; i < top; i++)
{
TypeSpec type = pending_implementations [i].type;
bool base_implements_type = type.IsInterface &&
container.BaseType != null &&
container.BaseType.ImplementsInterface(type, false);
for (int j = 0; j < pending_implementations [i].methods.Count; ++j)
{
var mi = pending_implementations[i].methods[j];
if (mi == null)
{
continue;
}
if (type.IsInterface)
{
var need_proxy =
pending_implementations [i].need_proxy [j];
if (need_proxy != null)
{
DefineProxy(type, need_proxy, mi);
continue;
}
if (pending_implementations [i].optional)
{
continue;
}
MethodSpec candidate = null;
if (base_implements_type || BaseImplements(type, mi, out candidate))
{
continue;
}
if (candidate == null)
{
MethodData md = pending_implementations [i].found [j];
if (md != null)
{
candidate = md.method.Spec;
}
}
Report.SymbolRelatedToPreviousError(mi);
if (candidate != null)
{
Report.SymbolRelatedToPreviousError(candidate);
if (candidate.IsStatic)
{
Report.Error(736, container.Location,
"`{0}' does not implement interface member `{1}' and the best implementing candidate `{2}' is static",
container.GetSignatureForError(), mi.GetSignatureForError(), candidate.GetSignatureForError());
}
else if ((candidate.Modifiers & Modifiers.PUBLIC) == 0)
{
Report.Error(737, container.Location,
"`{0}' does not implement interface member `{1}' and the best implementing candidate `{2}' in not public",
container.GetSignatureForError(), mi.GetSignatureForError(), candidate.GetSignatureForError());
}
else
{
Report.Error(738, container.Location,
"`{0}' does not implement interface member `{1}' and the best implementing candidate `{2}' return type `{3}' does not match interface member return type `{4}'",
container.GetSignatureForError(), mi.GetSignatureForError(), candidate.GetSignatureForError(),
candidate.ReturnType.GetSignatureForError(), mi.ReturnType.GetSignatureForError());
}
}
else
{
Report.Error(535, container.Location, "`{0}' does not implement interface member `{1}'",
container.GetSignatureForError(), mi.GetSignatureForError());
}
}
else
{
Report.SymbolRelatedToPreviousError(mi);
Report.Error(534, container.Location, "`{0}' does not implement inherited abstract member `{1}'",
container.GetSignatureForError(), mi.GetSignatureForError());
}
errors = true;
}
}
return(errors);
}
/// <remarks>
/// If a method in Type `t' (or null to look in all interfaces
/// and the base abstract class) with name `Name', return type `ret_type' and
/// arguments `args' implements an interface, this method will
/// return the MethodInfo that this method implements.
///
/// If `name' is null, we operate solely on the method's signature. This is for
/// instance used when implementing indexers.
///
/// The `Operation op' controls whether to lookup, clear the pending bit, or clear
/// all the methods with the given signature.
///
/// The `MethodInfo need_proxy' is used when we're implementing an interface's
/// indexer in a class. If the new indexer's IndexerName does not match the one
/// that was used in the interface, then we always need to create a proxy for it.
///
/// </remarks>
public MethodSpec InterfaceMethod(MemberName name, TypeSpec iType, MethodData method, Operation op, out MethodSpec ambiguousCandidate, ref bool optional)
{
ambiguousCandidate = null;
if (pending_implementations == null)
{
return(null);
}
TypeSpec ret_type = method.method.ReturnType;
ParametersCompiled args = method.method.ParameterInfo;
bool is_indexer = method.method is Indexer.SetIndexerMethod || method.method is Indexer.GetIndexerMethod;
MethodSpec m;
foreach (TypeAndMethods tm in pending_implementations)
{
if (!(iType == null || tm.type == iType))
{
continue;
}
int method_count = tm.methods.Count;
for (int i = 0; i < method_count; i++)
{
m = tm.methods [i];
if (m == null)
{
continue;
}
if (is_indexer)
{
if (!m.IsAccessor || m.Parameters.IsEmpty)
{
continue;
}
}
else
{
if (name.Name != m.Name)
{
continue;
}
if (m.Arity != name.Arity)
{
continue;
}
}
if (!TypeSpecComparer.Override.IsEqual(m.Parameters, args))
{
continue;
}
if (!TypeSpecComparer.Override.IsEqual(m.ReturnType, ret_type))
{
tm.found[i] = method;
continue;
}
//
// `need_proxy' is not null when we're implementing an
// interface indexer and this is Clear(One/All) operation.
//
// If `name' is null, then we do a match solely based on the
// signature and not on the name (this is done in the Lookup
// for an interface indexer).
//
if (op != Operation.Lookup)
{
if (m.IsAccessor != method.method.IsAccessor)
{
continue;
}
// If `t != null', then this is an explicitly interface
// implementation and we can always clear the method.
// `need_proxy' is not null if we're implementing an
// interface indexer. In this case, we need to create
// a proxy if the implementation's IndexerName doesn't
// match the IndexerName in the interface.
if (m.DeclaringType.IsInterface && iType == null && name.Name != m.Name) // TODO: This is very expensive comparison
{
tm.need_proxy[i] = method.method.Spec;
}
else
{
tm.methods[i] = null;
}
}
else
{
tm.found [i] = method;
optional = tm.optional;
}
if (op == Operation.Lookup && name.ExplicitInterface != null && ambiguousCandidate == null)
{
ambiguousCandidate = m;
continue;
}
//
// Lookups and ClearOne return
//
if (op != Operation.ClearAll)
{
return(m);
}
}
// If a specific type was requested, we can stop now.
if (tm.type == iType)
{
break;
}
}
m = ambiguousCandidate;
ambiguousCandidate = null;
return(m);
}
public override void Emit()
{
if ((ModFlags & Modifiers.COMPILER_GENERATED) != 0 && !Parent.IsCompilerGenerated)
PredefinedAttributes.Get.CompilerGenerated.EmitAttribute (MethodBuilder);
if ((ModFlags & Modifiers.DEBUGGER_HIDDEN) != 0)
PredefinedAttributes.Get.DebuggerHidden.EmitAttribute (MethodBuilder);
if (ReturnType == InternalType.Dynamic) {
return_attributes = new ReturnParameter (this, MethodBuilder, Location);
PredefinedAttributes.Get.Dynamic.EmitAttribute (return_attributes.Builder);
} else {
var trans_flags = TypeManager.HasDynamicTypeUsed (ReturnType);
if (trans_flags != null) {
var pa = PredefinedAttributes.Get.DynamicTransform;
if (pa.Constructor != null || pa.ResolveConstructor (Location, ArrayContainer.MakeType (TypeManager.bool_type))) {
return_attributes = new ReturnParameter (this, MethodBuilder, Location);
return_attributes.Builder.SetCustomAttribute (
new CustomAttributeBuilder (pa.Constructor, new object [] { trans_flags }));
}
}
}
if (OptAttributes != null)
OptAttributes.Emit ();
if (declarative_security != null) {
foreach (var de in declarative_security) {
MethodBuilder.AddDeclarativeSecurity (de.Key, de.Value);
}
}
if (MethodData != null)
MethodData.Emit (Parent);
base.Emit ();
Block = null;
MethodData = null;
}
/// <remarks>
/// If a method in Type `t' (or null to look in all interfaces
/// and the base abstract class) with name `Name', return type `ret_type' and
/// arguments `args' implements an interface, this method will
/// return the MethodInfo that this method implements.
///
/// If `name' is null, we operate solely on the method's signature. This is for
/// instance used when implementing indexers.
///
/// The `Operation op' controls whether to lookup, clear the pending bit, or clear
/// all the methods with the given signature.
///
/// The `MethodInfo need_proxy' is used when we're implementing an interface's
/// indexer in a class. If the new indexer's IndexerName does not match the one
/// that was used in the interface, then we always need to create a proxy for it.
///
/// </remarks>
public MethodInfo InterfaceMethod (string name, Type iType, MethodData method, Operation op)
{
if (pending_implementations == null)
return null;
Type ret_type = method.method.ReturnType;
ParametersCompiled args = method.method.ParameterInfo;
int arg_len = args.Count;
bool is_indexer = method.method is Indexer.SetIndexerMethod || method.method is Indexer.GetIndexerMethod;
foreach (TypeAndMethods tm in pending_implementations){
if (!(iType == null || tm.type == iType))
continue;
int method_count = tm.methods.Length;
MethodInfo m;
for (int i = 0; i < method_count; i++){
m = tm.methods [i];
if (m == null)
continue;
//
// Check if we have the same parameters
//
if (tm.args [i] == null && arg_len != 0)
continue;
if (tm.args [i] != null && tm.args [i].Length != arg_len)
continue;
string mname = TypeManager.GetMethodName (m);
//
// `need_proxy' is not null when we're implementing an
// interface indexer and this is Clear(One/All) operation.
//
// If `name' is null, then we do a match solely based on the
// signature and not on the name (this is done in the Lookup
// for an interface indexer).
//
if (is_indexer) {
IMethodData md = TypeManager.GetMethod (m);
if (md != null) {
if (!(md is Indexer.SetIndexerMethod || md is Indexer.GetIndexerMethod))
continue;
} else {
if (TypeManager.GetPropertyFromAccessor (m) == null)
continue;
}
} else if (name != mname) {
continue;
}
int j;
for (j = 0; j < arg_len; j++) {
if (!TypeManager.IsEqual (tm.args [i][j], args.Types [j]))
break;
if (tm.mods [i][j] == args.FixedParameters [j].ModFlags)
continue;
// The modifiers are different, but if one of them
// is a PARAMS modifier, and the other isn't, ignore
// the difference.
if (tm.mods [i][j] != Parameter.Modifier.PARAMS &&
args.FixedParameters [j].ModFlags != Parameter.Modifier.PARAMS)
break;
}
if (j != arg_len)
continue;
Type rt = TypeManager.TypeToCoreType (m.ReturnType);
if (!TypeManager.IsEqual (ret_type, rt) &&
!(ret_type == null && rt == TypeManager.void_type) &&
!(rt == null && ret_type == TypeManager.void_type)) {
tm.found [i] = method;
continue;
}
if (op != Operation.Lookup) {
// If `t != null', then this is an explicitly interface
// implementation and we can always clear the method.
// `need_proxy' is not null if we're implementing an
// interface indexer. In this case, we need to create
// a proxy if the implementation's IndexerName doesn't
// match the IndexerName in the interface.
if (iType == null && name != mname)
tm.need_proxy [i] = method.MethodBuilder;
else
tm.methods [i] = null;
} else {
tm.found [i] = method;
}
//
// Lookups and ClearOne return
//
if (op != Operation.ClearAll)
return m;
}
// If a specific type was requested, we can stop now.
if (tm.type == iType)
return null;
}
return null;
}
public void ImplementMethod(MemberName name, TypeSpec ifaceType, MethodData method, bool clear_one)
{
InterfaceMethod (name, ifaceType, method, clear_one ? Operation.ClearOne : Operation.ClearAll);
}
//
// Creates the type
//
public override bool Define (TypeContainer parent)
{
if (!DoDefine (parent))
return false;
if (!CheckBase (parent))
return false;
CallingConventions cc = GetCallingConvention (parent is Class);
MethodData = new MethodData (this, null, MemberType, ParameterTypes,
ParameterInfo, cc, OptAttributes,
ModFlags, flags, true);
if (!MethodData.Define (parent))
return false;
MethodBuilder = MethodData.MethodBuilder;
//
// This is used to track the Entry Point,
//
if (Name == "Main" &&
((ModFlags & Modifiers.STATIC) != 0) &&
(RootContext.MainClass == null ||
RootContext.MainClass == parent.TypeBuilder.FullName)){
if (IsEntryPoint (MethodBuilder, ParameterInfo)) {
if (RootContext.EntryPoint == null) {
RootContext.EntryPoint = MethodBuilder;
RootContext.EntryPointLocation = Location;
} else {
DuplicateEntryPoint (RootContext.EntryPoint, RootContext.EntryPointLocation);
DuplicateEntryPoint (MethodBuilder, Location);
}
} else
Report28(MethodBuilder);
}
return true;
}
public override void Emit ()
{
if ((ModFlags & Modifiers.COMPILER_GENERATED) != 0 && !Parent.IsCompilerGenerated)
Compiler.PredefinedAttributes.CompilerGenerated.EmitAttribute (MethodBuilder);
if ((ModFlags & Modifiers.DEBUGGER_HIDDEN) != 0)
Compiler.PredefinedAttributes.DebuggerHidden.EmitAttribute (MethodBuilder);
if (ReturnType == InternalType.Dynamic) {
return_attributes = new ReturnParameter (this, MethodBuilder, Location);
Compiler.PredefinedAttributes.Dynamic.EmitAttribute (return_attributes.Builder);
} else if (ReturnType.HasDynamicElement) {
return_attributes = new ReturnParameter (this, MethodBuilder, Location);
Compiler.PredefinedAttributes.Dynamic.EmitAttribute (return_attributes.Builder, ReturnType);
}
if (OptAttributes != null)
OptAttributes.Emit ();
if (declarative_security != null) {
foreach (var de in declarative_security) {
MethodBuilder.AddDeclarativeSecurity (de.Key, de.Value);
}
}
if (MethodData != null)
MethodData.Emit (Parent);
base.Emit ();
Block = null;
MethodData = null;
}
public override bool Define (TypeContainer parent)
{
if (!DoDefine (parent))
return false;
if (!CheckBase (parent))
return false;
flags |= MethodAttributes.HideBySig | MethodAttributes.SpecialName;
if (Get != null) {
Type [] parameters = TypeManager.NoTypes;
InternalParameters ip = new InternalParameters (
parent, Parameters.EmptyReadOnlyParameters);
GetData = new MethodData (this, "get", MemberType,
parameters, ip, CallingConventions.Standard,
Get.OptAttributes, ModFlags, flags, false);
if (!GetData.Define (parent))
return false;
GetBuilder = GetData.MethodBuilder;
}
if (Set != null) {
Type [] parameters = new Type [1];
parameters [0] = MemberType;
Parameter [] parms = new Parameter [1];
parms [0] = new Parameter (Type, "value", Parameter.Modifier.NONE, null);
InternalParameters ip = new InternalParameters (
parent, new Parameters (parms, null, Location));
SetData = new MethodData (this, "set", TypeManager.void_type,
parameters, ip, CallingConventions.Standard,
Set.OptAttributes, ModFlags, flags, false);
if (!SetData.Define (parent))
return false;
SetBuilder = SetData.MethodBuilder;
SetBuilder.DefineParameter (1, ParameterAttributes.None, "value");
}
// FIXME - PropertyAttributes.HasDefault ?
PropertyAttributes prop_attr =
PropertyAttributes.RTSpecialName |
PropertyAttributes.SpecialName;
if (!IsExplicitImpl){
PropertyBuilder = parent.TypeBuilder.DefineProperty (
Name, prop_attr, MemberType, null);
if (Get != null)
PropertyBuilder.SetGetMethod (GetBuilder);
if (Set != null)
PropertyBuilder.SetSetMethod (SetBuilder);
//
// HACK for the reasons exposed above
//
if (!TypeManager.RegisterProperty (PropertyBuilder, GetBuilder, SetBuilder)) {
Report.Error (
111, Location,
"Class `" + parent.Name +
"' already contains a definition for the property `" +
Name + "'");
return false;
}
}
return true;
}
public override bool Define ()
{
if (!base.Define ())
return false;
if (!CheckBase ())
return false;
MemberKind kind;
if (this is Operator)
kind = MemberKind.Operator;
else if (this is Destructor)
kind = MemberKind.Destructor;
else
kind = MemberKind.Method;
if (IsPartialDefinition) {
caching_flags &= ~Flags.Excluded_Undetected;
caching_flags |= Flags.Excluded;
// Add to member cache only when a partial method implementation has not been found yet
if ((caching_flags & Flags.PartialDefinitionExists) == 0) {
// MethodBase mb = new PartialMethodDefinitionInfo (this);
spec = new MethodSpec (kind, Parent.Definition, this, ReturnType, null, parameters, ModFlags);
if (MemberName.Arity > 0) {
spec.IsGeneric = true;
// TODO: Have to move DefineMethod after Define (ideally to Emit)
throw new NotImplementedException ("Generic partial methods");
}
Parent.MemberCache.AddMember (spec);
}
return true;
}
MethodData = new MethodData (
this, ModFlags, flags, this, MethodBuilder, base_method);
if (!MethodData.Define (Parent.PartialContainer, GetFullName (MemberName)))
return false;
MethodBuilder = MethodData.MethodBuilder;
spec = new MethodSpec (kind, Parent.Definition, this, ReturnType, MethodBuilder, parameters, ModFlags);
if (MemberName.Arity > 0)
spec.IsGeneric = true;
Parent.MemberCache.AddMember (this, MethodBuilder.Name, spec);
return true;
}
public override bool Define (TypeContainer parent)
{
EventAttributes e_attr = EventAttributes.RTSpecialName | EventAttributes.SpecialName;
if (!DoDefine (parent))
return false;
if (init != null && ((ModFlags & Modifiers.ABSTRACT) != 0)){
Report.Error (74, Location, "'" + parent.Name + "." + Name +
"': abstract event can not have an initializer");
return false;
}
if (!MemberType.IsSubclassOf (TypeManager.delegate_type)) {
Report.Error (66, Location, "'" + parent.Name + "." + Name +
"' : event must be of a delegate type");
return false;
}
Type [] parameter_types = new Type [1];
parameter_types [0] = MemberType;
Parameter [] parms = new Parameter [1];
parms [0] = new Parameter (Type, "value", Parameter.Modifier.NONE, null);
InternalParameters ip = new InternalParameters (
parent, new Parameters (parms, null, Location));
if (!CheckBase (parent))
return false;
//
// Now define the accessors
//
AddData = new MethodData (this, "add", TypeManager.void_type,
parameter_types, ip, CallingConventions.Standard,
(Add != null) ? Add.OptAttributes : null,
ModFlags, flags, false);
if (!AddData.Define (parent))
return false;
AddBuilder = AddData.MethodBuilder;
AddBuilder.DefineParameter (1, ParameterAttributes.None, "value");
RemoveData = new MethodData (this, "remove", TypeManager.void_type,
parameter_types, ip, CallingConventions.Standard,
(Remove != null) ? Remove.OptAttributes : null,
ModFlags, flags, false);
if (!RemoveData.Define (parent))
return false;
RemoveBuilder = RemoveData.MethodBuilder;
RemoveBuilder.DefineParameter (1, ParameterAttributes.None, "value");
if (!IsExplicitImpl){
EventBuilder = new MyEventBuilder (this,
parent.TypeBuilder, Name, e_attr, MemberType);
if (Add == null && Remove == null) {
FieldBuilder = parent.TypeBuilder.DefineField (
Name, MemberType,
FieldAttributes.Private | ((ModFlags & Modifiers.STATIC) != 0 ? FieldAttributes.Static : 0));
TypeManager.RegisterPrivateFieldOfEvent (
(EventInfo) EventBuilder, FieldBuilder);
TypeManager.RegisterFieldBase (FieldBuilder, this);
}
EventBuilder.SetAddOnMethod (AddBuilder);
EventBuilder.SetRemoveOnMethod (RemoveBuilder);
if (!TypeManager.RegisterEvent (EventBuilder, AddBuilder, RemoveBuilder)) {
Report.Error (111, Location,
"Class `" + parent.Name +
"' already contains a definition for the event `" +
Name + "'");
return false;
}
}
return true;
}
public override MethodBuilder Define (DeclSpace parent)
{
parameters.Resolve (this);
base.Define (parent);
Spec = new MethodSpec (MemberKind.Method, parent.PartialContainer.Definition, this, ReturnType, null, ParameterInfo, ModFlags);
method_data = new MethodData (method, ModFlags, flags, this);
if (!method_data.Define (parent, method.GetFullName (MemberName), Report))
return null;
Spec.SetMetaInfo (method_data.MethodBuilder);
return method_data.MethodBuilder;
}
public override bool Define (TypeContainer parent)
{
PropertyAttributes prop_attr =
PropertyAttributes.RTSpecialName |
PropertyAttributes.SpecialName;
if (!DoDefine (parent))
return false;
IndexerName = Attribute.ScanForIndexerName (ec, OptAttributes);
if (IndexerName == null)
IndexerName = "Item";
else if (IsExplicitImpl)
Report.Error (592, Location,
"Attribute 'IndexerName' is not valid on this declaration " +
"type. It is valid on `property' declarations only.");
ShortName = IndexerName;
if (IsExplicitImpl) {
InterfaceIndexerName = TypeManager.IndexerPropertyName (InterfaceType);
Name = InterfaceType.FullName + "." + IndexerName;
} else {
InterfaceIndexerName = IndexerName;
Name = ShortName;
}
if (!CheckBase (parent))
return false;
flags |= MethodAttributes.HideBySig | MethodAttributes.SpecialName;
if (Get != null){
InternalParameters ip = new InternalParameters (parent, Parameters);
GetData = new MethodData (this, "get", MemberType,
ParameterTypes, ip, CallingConventions.Standard,
Get.OptAttributes, ModFlags, flags, false);
if (!GetData.Define (parent))
return false;
GetBuilder = GetData.MethodBuilder;
}
if (Set != null){
int top = ParameterTypes.Length;
Type [] set_pars = new Type [top + 1];
ParameterTypes.CopyTo (set_pars, 0);
set_pars [top] = MemberType;
Parameter [] fixed_parms = Parameters.FixedParameters;
if (fixed_parms == null){
throw new Exception ("We currently do not support only array arguments in an indexer");
// BUG BUG BUG BUG BUG BUG BUG BUG BUG BUG
// BUG BUG BUG BUG BUG BUG BUG BUG BUG BUG
//
// Here is the problem: the `value' parameter has
// to come *after* the array parameter in the declaration
// like this:
// X (object [] x, Type value)
// .param [0]
//
// BUG BUG BUG BUG BUG BUG BUG BUG BUG BUG
// BUG BUG BUG BUG BUG BUG BUG BUG BUG BUG
}
Parameter [] tmp = new Parameter [fixed_parms.Length + 1];
fixed_parms.CopyTo (tmp, 0);
tmp [fixed_parms.Length] = new Parameter (
Type, "value", Parameter.Modifier.NONE, null);
Parameters set_formal_params = new Parameters (tmp, null, Location);
InternalParameters ip = new InternalParameters (parent, set_formal_params);
SetData = new MethodData (this, "set", TypeManager.void_type,
set_pars, ip, CallingConventions.Standard,
Set.OptAttributes, ModFlags, flags, false);
if (!SetData.Define (parent))
return false;
SetBuilder = SetData.MethodBuilder;
}
//
// Now name the parameters
//
Parameter [] p = Parameters.FixedParameters;
if (p != null) {
int i;
for (i = 0; i < p.Length; ++i) {
if (Get != null)
GetBuilder.DefineParameter (
i + 1, p [i].Attributes, p [i].Name);
if (Set != null)
SetBuilder.DefineParameter (
i + 1, p [i].Attributes, p [i].Name);
}
if (Set != null)
SetBuilder.DefineParameter (
i + 1, ParameterAttributes.None, "value");
if (i != ParameterTypes.Length) {
Parameter array_param = Parameters.ArrayParameter;
SetBuilder.DefineParameter (
i + 1, array_param.Attributes, array_param.Name);
}
}
if (GetData != null)
IsImplementing = GetData.IsImplementing;
else if (SetData != null)
IsImplementing = SetData.IsImplementing;
//
// Define the PropertyBuilder if one of the following conditions are met:
// a) we're not implementing an interface indexer.
// b) the indexer has a different IndexerName and this is no
// explicit interface implementation.
//
if (!IsExplicitImpl) {
PropertyBuilder = parent.TypeBuilder.DefineProperty (
IndexerName, prop_attr, MemberType, ParameterTypes);
if (GetData != null)
PropertyBuilder.SetGetMethod (GetBuilder);
if (SetData != null)
PropertyBuilder.SetSetMethod (SetBuilder);
TypeManager.RegisterIndexer (PropertyBuilder, GetBuilder, SetBuilder,
ParameterTypes);
}
return true;
}
public override MethodBuilder Define (TypeContainer parent)
{
parameters.Resolve (this);
base.Define (parent);
Spec = new MethodSpec (MemberKind.Method, parent.PartialContainer.Definition, this, ReturnType, ParameterInfo, ModFlags);
method_data = new MethodData (method, ModFlags, flags, this);
if (!method_data.Define (parent.PartialContainer, method.GetFullName (MemberName)))
return null;
method_data.DefineMethodBuilder (parent.PartialContainer, ParameterInfo);
return method_data.MethodBuilder;
}
public override void Emit ()
{
if ((ModFlags & Modifiers.COMPILER_GENERATED) != 0 && !Parent.IsCompilerGenerated)
Module.PredefinedAttributes.CompilerGenerated.EmitAttribute (MethodBuilder);
if ((ModFlags & Modifiers.DEBUGGER_HIDDEN) != 0)
Module.PredefinedAttributes.DebuggerHidden.EmitAttribute (MethodBuilder);
if (ReturnType.BuiltinType == BuiltinTypeSpec.Type.Dynamic) {
return_attributes = new ReturnParameter (this, MethodBuilder, Location);
Module.PredefinedAttributes.Dynamic.EmitAttribute (return_attributes.Builder);
} else if (ReturnType.HasDynamicElement) {
return_attributes = new ReturnParameter (this, MethodBuilder, Location);
Module.PredefinedAttributes.Dynamic.EmitAttribute (return_attributes.Builder, ReturnType, Location);
}
if (OptAttributes != null)
OptAttributes.Emit ();
if (declarative_security != null) {
foreach (var de in declarative_security) {
#if STATIC
MethodBuilder.__AddDeclarativeSecurity (de);
#else
MethodBuilder.AddDeclarativeSecurity (de.Key, de.Value);
#endif
}
}
if (type_expr != null)
ConstraintChecker.Check (this, member_type, type_expr.Location);
base.Emit ();
if (MethodData != null)
MethodData.Emit (Parent);
Block = null;
MethodData = null;
}
public void ImplementMethod (MemberName name, TypeSpec ifaceType, MethodData method, bool clear_one, out MethodSpec ambiguousCandidate, ref bool optional)
{
InterfaceMethod (name, ifaceType, method, clear_one ? Operation.ClearOne : Operation.ClearAll, out ambiguousCandidate, ref optional);
}
public virtual MethodBuilder Define (DeclSpace parent)
{
// Fill in already resolved event type to speed things up and
// avoid confusing duplicate errors
((Parameter) parameters.FixedParameters[0]).Type = method.member_type;
parameters.Types = new TypeSpec[] { method.member_type };
method_data = new MethodData (method, method.ModFlags,
method.flags | MethodAttributes.HideBySig | MethodAttributes.SpecialName, this);
if (!method_data.Define (parent, method.GetFullName (MemberName), Report))
return null;
MethodBuilder mb = method_data.MethodBuilder;
Spec = new MethodSpec (MemberKind.Method, parent.PartialContainer.Definition, this, ReturnType, mb, ParameterInfo, method.ModFlags);
Spec.IsAccessor = true;
return mb;
}
public override bool Define ()
{
if (!base.Define ())
return false;
if (!CheckBase ())
return false;
MemberKind kind;
if (this is Operator)
kind = MemberKind.Operator;
else if (this is Destructor)
kind = MemberKind.Destructor;
else
kind = MemberKind.Method;
string explicit_name;
if (IsPartialDefinition) {
caching_flags &= ~Flags.Excluded_Undetected;
caching_flags |= Flags.Excluded;
// Add to member cache only when a partial method implementation has not been found yet
if ((caching_flags & Flags.PartialDefinitionExists) != 0)
return true;
if (IsExplicitImpl)
return true;
explicit_name = null;
} else {
MethodData = new MethodData (this, ModFlags, flags, this, base_method);
if (!MethodData.Define (Parent.PartialContainer, GetFullName (MemberName)))
return false;
explicit_name = MethodData.MetadataName;
}
spec = new MethodSpec (kind, Parent.Definition, this, ReturnType, parameters, ModFlags);
if (MemberName.Arity > 0)
spec.IsGeneric = true;
Parent.MemberCache.AddMember (this, explicit_name, spec);
return true;
}
/// <summary>
/// Whether the specified method is an interface method implementation
/// </summary>
public MethodSpec IsInterfaceMethod(MemberName name, TypeSpec ifaceType, MethodData method, out MethodSpec ambiguousCandidate, ref bool optional)
{
return(InterfaceMethod(name, ifaceType, method, Operation.Lookup, out ambiguousCandidate, ref optional));
}
