using System;
using System.Text;
-using System.Collections;
using System.Collections.Generic;
-using System.Reflection;
-using System.Reflection.Emit;
-using System.Diagnostics;
namespace Mono.CSharp
{
CurrentUsageVector.SetFieldAssigned (vi, name);
}
+#if DEBUG
public override string ToString ()
{
StringBuilder sb = new StringBuilder ();
sb.Append (")");
return sb.ToString ();
}
+#endif
public string Name {
get { return String.Format ("{0} ({1}:{2}:{3})", GetType (), id, Type, Location); }
public class FlowBranchingIterator : FlowBranchingBlock
{
- Iterator iterator;
- public FlowBranchingIterator (FlowBranching parent, Iterator iterator)
- : base (parent, BranchingType.Iterator, SiblingType.Block, null, iterator.Location)
+ readonly StateMachineInitializer iterator;
+
+ public FlowBranchingIterator (FlowBranching parent, StateMachineInitializer iterator)
+ : base (parent, BranchingType.Iterator, SiblingType.Block, iterator.Block, iterator.Location)
{
this.iterator = iterator;
}
{
UsageVector return_origins;
- public FlowBranchingToplevel (FlowBranching parent, ToplevelBlock stmt)
+ public FlowBranchingToplevel (FlowBranching parent, ParametersBlock stmt)
: base (parent, BranchingType.Toplevel, SiblingType.Conditional, stmt, stmt.loc)
{
}
protected override UsageVector Merge ()
{
for (UsageVector origin = return_origins; origin != null; origin = origin.Next)
- Block.Toplevel.CheckOutParameters (origin, origin.Location);
+ Block.ParametersBlock.CheckOutParameters (origin, origin.Location);
UsageVector vector = base.Merge ();
- Block.Toplevel.CheckOutParameters (vector, Block.loc);
+ Block.ParametersBlock.CheckOutParameters (vector, Block.loc);
// Note: we _do_not_ merge in the return origins
return vector;
}
// </summary>
public class TypeInfo
{
- public readonly Type Type;
+ public readonly TypeSpec Type;
// <summary>
// Total number of bits a variable of this type consumes in the flow vector.
public TypeInfo[] SubStructInfo;
readonly StructInfo struct_info;
- private static Dictionary<Type, TypeInfo> type_hash;
+ private static Dictionary<TypeSpec, TypeInfo> type_hash;
static TypeInfo ()
{
public static void Reset ()
{
- type_hash = new Dictionary<Type, TypeInfo> ();
- StructInfo.field_type_hash = new Dictionary<Type, StructInfo> ();
+ type_hash = new Dictionary<TypeSpec, TypeInfo> ();
+ StructInfo.field_type_hash = new Dictionary<TypeSpec, StructInfo> ();
}
- public static TypeInfo GetTypeInfo (Type type)
+ public static TypeInfo GetTypeInfo (TypeSpec type)
{
TypeInfo info;
if (type_hash.TryGetValue (type, out info))
return info;
}
- public static TypeInfo GetTypeInfo (TypeContainer tc)
- {
- TypeInfo info;
- if (type_hash.TryGetValue (tc.TypeBuilder, out info))
- return info;
-
- info = new TypeInfo (tc);
- type_hash.Add (tc.TypeBuilder, info);
- return info;
- }
-
- private TypeInfo (Type type)
+ private TypeInfo (TypeSpec type)
{
this.Type = type;
}
}
- private TypeInfo (TypeContainer tc)
- {
- this.Type = tc.TypeBuilder;
-
- struct_info = StructInfo.GetStructInfo (tc);
- if (struct_info != null) {
- Length = struct_info.Length;
- TotalLength = struct_info.TotalLength;
- SubStructInfo = struct_info.StructFields;
- IsStruct = true;
- } else {
- Length = 0;
- TotalLength = 1;
- IsStruct = false;
- }
- }
-
TypeInfo (StructInfo struct_info, int offset)
{
this.struct_info = struct_info;
bool ok = true;
FlowBranching branching = ec.CurrentBranching;
for (int i = 0; i < struct_info.Count; i++) {
- FieldInfo field = struct_info.Fields [i];
+ var field = struct_info.Fields [i];
+
+ // Fixed size buffers are not subject to definite assignment checking
+ if (field is FixedFieldSpec)
+ continue;
if (!branching.IsFieldAssigned (vi, field.Name)) {
- FieldBase fb = TypeManager.GetField (field);
- if (fb is Property.BackingField) {
+ if (field.MemberDefinition is Property.BackingField) {
ec.Report.Error (843, loc,
- "An automatically implemented property `{0}' must be fully assigned before control leaves the constructor. Consider calling default contructor",
- fb.GetSignatureForError ());
+ "An automatically implemented property `{0}' must be fully assigned before control leaves the constructor. Consider calling the default struct contructor from a constructor initializer",
+ field.GetSignatureForError ());
} else {
ec.Report.Error (171, loc,
"Field `{0}' must be fully assigned before control leaves the constructor",
- TypeManager.GetFullNameSignature (field));
+ field.GetSignatureForError ());
}
ok = false;
}
}
class StructInfo {
- public readonly Type Type;
- public readonly FieldInfo[] Fields;
+ public readonly TypeSpec Type;
+ public readonly FieldSpec[] Fields;
public readonly TypeInfo[] StructFields;
public readonly int Count;
public readonly int CountPublic;
public readonly int TotalLength;
public readonly bool HasStructFields;
- public static Dictionary<Type, StructInfo> field_type_hash;
+ public static Dictionary<TypeSpec, StructInfo> field_type_hash;
private Dictionary<string, TypeInfo> struct_field_hash;
private Dictionary<string, int> field_hash;
// Private constructor. To save memory usage, we only need to create one instance
// of this class per struct type.
- private StructInfo (Type type)
+ private StructInfo (TypeSpec type)
{
this.Type = type;
field_type_hash.Add (type, this);
- if (TypeManager.IsBeingCompiled (type)) {
- TypeContainer tc = TypeManager.LookupTypeContainer (TypeManager.DropGenericTypeArguments (type));
+ TypeContainer tc = type.MemberDefinition as TypeContainer;
- ArrayList public_fields = new ArrayList ();
- ArrayList non_public_fields = new ArrayList ();
+ var public_fields = new List<FieldSpec> ();
+ var non_public_fields = new List<FieldSpec> ();
- //
- // TODO: tc != null is needed because FixedBuffers are not cached
- //
- if (tc != null) {
+ if (tc != null) {
var fields = tc.Fields;
if (fields != null) {
if ((field.ModFlags & Modifiers.STATIC) != 0)
continue;
if ((field.ModFlags & Modifiers.PUBLIC) != 0)
- public_fields.Add (field.FieldBuilder);
+ public_fields.Add (field.Spec);
else
- non_public_fields.Add (field.FieldBuilder);
+ non_public_fields.Add (field.Spec);
}
}
- }
-
- CountPublic = public_fields.Count;
- CountNonPublic = non_public_fields.Count;
- Count = CountPublic + CountNonPublic;
+ }
- Fields = new FieldInfo [Count];
- public_fields.CopyTo (Fields, 0);
- non_public_fields.CopyTo (Fields, CountPublic);
- } else if (type is GenericTypeParameterBuilder) {
- CountPublic = CountNonPublic = Count = 0;
+ CountPublic = public_fields.Count;
+ CountNonPublic = non_public_fields.Count;
+ Count = CountPublic + CountNonPublic;
- Fields = new FieldInfo [0];
- } else {
- FieldInfo[] public_fields = type.GetFields (
- BindingFlags.Instance|BindingFlags.Public);
- FieldInfo[] non_public_fields = type.GetFields (
- BindingFlags.Instance|BindingFlags.NonPublic);
-
- CountPublic = public_fields.Length;
- CountNonPublic = non_public_fields.Length;
- Count = CountPublic + CountNonPublic;
-
- Fields = new FieldInfo [Count];
- public_fields.CopyTo (Fields, 0);
- non_public_fields.CopyTo (Fields, CountPublic);
- }
+ Fields = new FieldSpec[Count];
+ public_fields.CopyTo (Fields, 0);
+ non_public_fields.CopyTo (Fields, CountPublic);
struct_field_hash = new Dictionary<string, TypeInfo> ();
field_hash = new Dictionary<string, int> ();
InTransit = true;
for (int i = 0; i < Count; i++) {
- FieldInfo field = (FieldInfo) Fields [i];
+ var field = Fields [i];
- sinfo [i] = GetStructInfo (field.FieldType);
+ sinfo [i] = GetStructInfo (field.MemberType);
if (sinfo [i] == null)
field_hash.Add (field.Name, ++Length);
else if (sinfo [i].InTransit) {
- RootContext.ToplevelTypes.Compiler.Report.Error (523, String.Format (
- "Struct member `{0}.{1}' of type `{2}' causes " +
- "a cycle in the structure layout",
- type, field.Name, sinfo [i].Type));
sinfo [i] = null;
return;
}
TotalLength = Length + 1;
for (int i = 0; i < Count; i++) {
- FieldInfo field = (FieldInfo) Fields [i];
+ var field = Fields [i];
if (sinfo [i] == null)
continue;
return null;
}
- public static StructInfo GetStructInfo (Type type)
+ public static StructInfo GetStructInfo (TypeSpec type)
{
- if (!TypeManager.IsValueType (type) || TypeManager.IsEnumType (type) ||
- TypeManager.IsBuiltinType (type))
- return null;
-
- if (TypeManager.IsGenericParameter (type))
+ if (!type.IsStruct || type.BuiltinType > 0)
return null;
StructInfo info;
return new StructInfo (type);
}
-
- public static StructInfo GetStructInfo (TypeContainer tc)
- {
- StructInfo info;
- if (field_type_hash.TryGetValue (tc.TypeBuilder, out info))
- return info;
-
- return new StructInfo (tc.TypeBuilder);
- }
}
}
// </summary>
public readonly bool IsParameter;
- public readonly LocalInfo LocalInfo;
+ public readonly LocalVariable LocalInfo;
readonly VariableInfo Parent;
VariableInfo[] sub_info;
get { return is_ever_assigned; }
}
- protected VariableInfo (string name, Type type, int offset)
+ protected VariableInfo (string name, TypeSpec type, int offset)
{
this.Name = name;
this.Offset = offset;
sub_info = new VariableInfo [0];
}
- public VariableInfo (LocalInfo local_info, int offset)
- : this (local_info.Name, local_info.VariableType, offset)
+ public VariableInfo (LocalVariable local_info, int offset)
+ : this (local_info.Name, local_info.Type, offset)
{
this.LocalInfo = local_info;
this.IsParameter = false;
public bool IsAssigned (ResolveContext ec)
{
return !ec.DoFlowAnalysis ||
- ec.OmitStructFlowAnalysis && TypeInfo.IsStruct ||
+ (ec.OmitStructFlowAnalysis && TypeInfo.Type.IsStruct) ||
ec.CurrentBranching.IsAssigned (this);
}
// Invariant: vector == null || shared == null
// i.e., at most one of 'vector' and 'shared' can be non-null. They can both be null -- that means all-ones
// The object in 'shared' cannot be modified, while 'vector' can be freely modified
- BitArray vector, shared;
+ System.Collections.BitArray vector, shared;
MyBitVector ()
{
- shared = new BitArray (0, false);
+ shared = new System.Collections.BitArray (0, false);
}
public MyBitVector (MyBitVector InheritsFrom, int Count)
this.Count = Count;
}
- BitArray MakeShared (int new_count)
+ System.Collections.BitArray MakeShared (int new_count)
{
// Post-condition: vector == null
if (Count == 0 || new_vector.Count == 0)
return this;
- BitArray o = new_vector.vector != null ? new_vector.vector : new_vector.shared;
+ var o = new_vector.vector != null ? new_vector.vector : new_vector.shared;
if (o == null) {
int n = new_vector.Count;
if (Count == 0)
return this;
- BitArray o = new_vector.vector != null ? new_vector.vector : new_vector.shared;
+ var o = new_vector.vector != null ? new_vector.vector : new_vector.shared;
if (o == null) {
for (int i = new_vector.Count; i < Count; ++i)
public void SetRange (int offset, int length)
{
if (offset > Count || offset + length > Count)
- throw new ArgumentOutOfRangeException ();
+ throw new ArgumentOutOfRangeException ("flow-analysis");
if (shared == null && vector == null)
return;
{
// Post-condition: vector != null
if (shared == null) {
- vector = new BitArray (Count, true);
+ vector = new System.Collections.BitArray (Count, true);
return;
}
- vector = new BitArray (shared);
+ vector = new System.Collections.BitArray (shared);
if (Count != vector.Count)
vector.Length = Count;
shared = null;
StringBuilder Dump (StringBuilder sb)
{
- BitArray dump = vector == null ? shared : vector;
+ var dump = vector == null ? shared : vector;
if (dump == null)
return sb.Append ("/");
if (dump == shared)