return s;
}
+ public virtual Expression CreateExpressionTree (EmitContext ec)
+ {
+ Report.Error (834, loc, "A lambda expression with statement body cannot be converted to an expresion tree");
+ return null;
+ }
+
public Statement PerformClone ()
{
CloneContext clonectx = new CloneContext ();
bool is_true_ret;
- public If (Expression expr, Statement trueStatement, Location l)
+ public If (Expression expr, Statement true_statement, Location l)
{
this.expr = expr;
- TrueStatement = trueStatement;
+ TrueStatement = true_statement;
loc = l;
}
public If (Expression expr,
- Statement trueStatement,
- Statement falseStatement,
+ Statement true_statement,
+ Statement false_statement,
Location l)
{
this.expr = expr;
- TrueStatement = trueStatement;
- FalseStatement = falseStatement;
+ TrueStatement = true_statement;
+ FalseStatement = false_statement;
loc = l;
}
public Statement EmbeddedStatement;
bool infinite;
- public Do (Statement statement, Expression boolExpr, Location l)
+ public Do (Statement statement, Expression bool_expr, Location l)
{
- expr = boolExpr;
+ expr = bool_expr;
EmbeddedStatement = statement;
loc = l;
}
public Statement Statement;
bool infinite, empty;
- public While (Expression boolExpr, Statement statement, Location l)
+ public While (Expression bool_expr, Statement statement, Location l)
{
- this.expr = boolExpr;
+ this.expr = bool_expr;
Statement = statement;
loc = l;
}
public Statement Statement;
bool infinite, empty;
- public For (Statement initStatement,
+ public For (Statement init_statement,
Expression test,
Statement increment,
Statement statement,
Location l)
{
- InitStatement = initStatement;
+ InitStatement = init_statement;
Test = test;
Increment = increment;
Statement = statement;
/// Implements the return statement
/// </summary>
public class Return : Statement {
- Expression Expr;
+ protected Expression Expr;
bool unwind_protect;
public Return (Expression expr, Location l)
if (Expr == null) {
if (am != null) {
Report.Error (1662, loc,
- "Cannot convert `{0}' to delegate type `D' because some of the return types in the block are not implicitly convertible to the delegate return type",
+ "Cannot convert `{0}' to delegate type `{1}' because some of the return types in the block are not implicitly convertible to the delegate return type",
am.ContainerType, am.GetSignatureForError ());
}
return false;
{
Throw target = (Throw) t;
- target.expr = expr.Clone (clonectx);
+ if (expr != null)
+ target.expr = expr.Clone (clonectx);
}
}
public LocalInfo Clone (CloneContext clonectx)
{
- // Only this kind is created by the parser.
- return new LocalInfo (Type.Clone (clonectx), Name, clonectx.LookupBlock (Block), Location);
+ //
+ // Variables in anonymous block are not resolved yet
+ //
+ if (VariableType == null)
+ return new LocalInfo (Type.Clone (clonectx), Name, clonectx.LookupBlock (Block), Location);
+
+ //
+ // Variables in method block are resolved
+ //
+ LocalInfo li = new LocalInfo (null, Name, clonectx.LookupBlock (Block), Location);
+ li.VariableType = VariableType;
+ return li;
}
}
//
// Labels. (label, block) pairs.
//
- Hashtable labels;
+ HybridDictionary labels;
//
// Keeps track of (name, type) pairs
//
// Keeps track of constants
- Hashtable constants;
+ HybridDictionary constants;
//
// Temporary variables.
//
Block switch_block;
+ // TODO: merge with scope_initializers
ExpressionStatement scope_init;
+ ArrayList scope_initializers;
ArrayList anonymous_children;
this.EndLocation = end;
this.loc = start;
this_id = id++;
- statements = new ArrayList ();
+ statements = new ArrayList (4);
}
public Block CreateSwitchBlock (Location start)
void AddChild (Block b)
{
if (children == null)
- children = new ArrayList ();
+ children = new ArrayList (1);
children.Add (b);
}
Toplevel.CheckError158 (name, target.loc);
if (labels == null)
- labels = new Hashtable ();
+ labels = new HybridDictionary();
labels.Add (name, target);
return true;
if (vi != null) {
Report.SymbolRelatedToPreviousError (vi.Location, name);
if (Explicit == vi.Block.Explicit)
- Report.Error (128, l,
- "A local variable named `{0}' is already defined in this scope", name);
+ Error_AlreadyDeclared (l, name, null);
else
Error_AlreadyDeclared (l, name, "parent");
return null;
Report.SymbolRelatedToPreviousError (pi.Location, name);
Error_AlreadyDeclared (loc, name,
pi.Block == Toplevel ? "method argument" : "parent or current");
+ return null;
}
+
+ if (Toplevel.GenericMethod != null) {
+ foreach (TypeParameter tp in Toplevel.GenericMethod.CurrentTypeParameters) {
+ if (tp.Name == name) {
+ Report.SymbolRelatedToPreviousError (tp);
+ Error_AlreadyDeclaredTypeParameter (loc, name);
+ return null;
+ }
+ }
+ }
IKnownVariable kvi = Explicit.GetKnownVariable (name);
if (kvi != null) {
}
vi = new LocalInfo (type, name, this, l);
- Variables.Add (name, vi);
- Explicit.AddKnownVariable (name, vi);
+ AddVariable (vi);
if ((flags & Flags.VariablesInitialized) != 0)
throw new InternalErrorException ("block has already been resolved");
return vi;
}
+
+ protected virtual void AddVariable (LocalInfo li)
+ {
+ Variables.Add (li.Name, li);
+ Explicit.AddKnownVariable (li.Name, li);
+ }
- protected static void Error_AlreadyDeclared (Location loc, string var, string reason)
+ protected virtual void Error_AlreadyDeclared (Location loc, string var, string reason)
{
+ if (reason == null) {
+ Error_AlreadyDeclared (loc, var);
+ return;
+ }
+
Report.Error (136, loc, "A local variable named `{0}' cannot be declared " +
"in this scope because it would give a different meaning " +
"to `{0}', which is already used in a `{1}' scope " +
"to denote something else", var, reason);
}
+ protected virtual void Error_AlreadyDeclared (Location loc, string name)
+ {
+ Report.Error (128, loc,
+ "A local variable named `{0}' is already defined in this scope", name);
+ }
+
+ protected virtual void Error_AlreadyDeclaredTypeParameter (Location loc, string name)
+ {
+ GenericMethod.Error_ParameterNameCollision (loc, name, "local variable");
+ }
+
public bool AddConstant (Expression type, string name, Expression value, Location l)
{
if (AddVariable (type, name, l) == null)
return false;
if (constants == null)
- constants = new Hashtable ();
+ constants = new HybridDictionary();
constants.Add (name, value);
}
return null;
}
+
+ //
+ // It should be used by expressions which require to
+ // register a statement during resolve process.
+ //
+ public void AddScopeStatement (StatementExpression s)
+ {
+ if (scope_initializers == null)
+ scope_initializers = new ArrayList ();
+
+ scope_initializers.Add (s);
+ }
public void AddStatement (Statement s)
{
LocalInfo vi = (LocalInfo) de.Value;
Type variable_type = vi.VariableType;
- if (variable_type == null)
+ if (variable_type == null) {
+ if (vi.Type is VarExpr)
+ Report.Error (822, vi.Type.Location, "An implicitly typed local variable cannot be a constant");
+
continue;
+ }
Expression cv = (Expression) constants [name];
if (cv == null)
}
if (temporary_variables != null) {
- foreach (LocalInfo vi in temporary_variables)
- vi.ResolveVariable (ec);
+ for (int i = 0; i < temporary_variables.Count; i++)
+ ((LocalInfo)temporary_variables[i]).ResolveVariable(ec);
}
if (children != null){
- foreach (Block b in children)
- b.EmitMeta (ec);
+ for (int i = 0; i < children.Count; i++)
+ ((Block)children[i]).EmitMeta(ec);
}
}
//
if (!s.Resolve (ec)) {
+ ok = false;
if (ec.IsInProbingMode)
- return false;
+ break;
- ok = false;
statements [ix] = EmptyStatement.Value;
continue;
}
Report.Debug (4, "RESOLVE BLOCK DONE", StartLocation,
ec.CurrentBranching, statement_count, num_statements);
- if (!ok)
- return false;
-
while (ec.CurrentBranching is FlowBranchingLabeled)
ec.EndFlowBranching ();
ec.Mark (StartLocation, true);
if (scope_init != null)
scope_init.EmitStatement (ec);
+ if (scope_initializers != null) {
+ foreach (StatementExpression s in scope_initializers)
+ s.Emit (ec);
+ }
+
DoEmit (ec);
ec.Mark (EndLocation, true);
this.Explicit = this;
}
- Hashtable known_variables;
+ HybridDictionary known_variables;
// <summary>
// Marks a variable with name @name as being used in this or a child block.
internal void AddKnownVariable (string name, IKnownVariable info)
{
if (known_variables == null)
- known_variables = new Hashtable ();
+ known_variables = new HybridDictionary();
known_variables [name] = info;
return true;
}
+ public virtual Expression GetTransparentIdentifier (string name)
+ {
+ return null;
+ }
+
void ProcessParameters ()
{
int n = parameters.Count;
return root_scope;
}
+ public override Expression CreateExpressionTree (EmitContext ec)
+ {
+ return ((Statement) statements [0]).CreateExpressionTree (ec);
+ }
+
public void CreateIteratorHost (RootScopeInfo root)
{
Report.Debug (64, "CREATE ITERATOR HOST", this, root, Parent, root_scope);
return null;
}
- //
- // Whether the parameter named `name' is local to this block,
- // or false, if the parameter belongs to an encompassing block.
- //
- public bool IsLocalParameter (string name)
- {
- return Parameters.GetParameterByName (name) != null;
- }
-
- //
- // Whether the `name' is a parameter reference
- //
- public bool IsParameterReference (string name)
- {
- for (ToplevelBlock t = this; t != null; t = t.Container) {
- if (t.IsLocalParameter (name))
- return true;
- }
- return false;
- }
-
LocalInfo this_variable = null;
// <summary>
public override void EmitMeta (EmitContext ec)
{
+ // Avoid declaring an IL variable for this_variable since it is not accessed
+ // from the generated IL
+ if (this_variable != null)
+ Variables.Remove ("this");
base.EmitMeta (ec);
parameters.ResolveVariable (this);
}
converted = NullStringCase;
return true;
}
-
+
c = c.ImplicitConversionRequired (required_type, loc);
if (c == null)
return false;
return true;
}
- public void Erorr_AlreadyOccurs (Type switchType, SwitchLabel collisionWith)
+ public void Erorr_AlreadyOccurs (Type switch_type, SwitchLabel collision_with)
{
string label;
if (converted == null)
label = "default";
else if (converted == NullStringCase)
label = "null";
- else if (TypeManager.IsEnumType (switchType))
- label = TypeManager.CSharpEnumValue (switchType, converted);
+ else if (TypeManager.IsEnumType (switch_type))
+ label = TypeManager.CSharpEnumValue (switch_type, converted);
else
label = converted.ToString ();
- Report.SymbolRelatedToPreviousError (collisionWith.loc, null);
+ Report.SymbolRelatedToPreviousError (collision_with.loc, null);
Report.Error (152, loc, "The label `case {0}:' already occurs in this switch statement", label);
}
// structure used to hold blocks of keys while calculating table switch
class KeyBlock : IComparable
{
- public KeyBlock (long _nFirst)
+ public KeyBlock (long _first)
{
- nFirst = nLast = _nFirst;
+ first = last = _first;
}
- public long nFirst;
- public long nLast;
- public ArrayList rgKeys = null;
+ public long first;
+ public long last;
+ public ArrayList element_keys = null;
// how many items are in the bucket
public int Size = 1;
public int Length
{
- get { return (int) (nLast - nFirst + 1); }
+ get { return (int) (last - first + 1); }
}
- public static long TotalLength (KeyBlock kbFirst, KeyBlock kbLast)
+ public static long TotalLength (KeyBlock kb_first, KeyBlock kb_last)
{
- return kbLast.nLast - kbFirst.nFirst + 1;
+ return kb_last.last - kb_first.first + 1;
}
public int CompareTo (object obj)
{
int nLength = Length;
int nLengthOther = kb.Length;
if (nLengthOther == nLength)
- return (int) (kb.nFirst - nFirst);
+ return (int) (kb.first - first);
return nLength - nLengthOther;
}
}
/// <returns></returns>
void TableSwitchEmit (EmitContext ec, LocalBuilder val)
{
- int cElements = Elements.Count;
- object [] rgKeys = new object [cElements];
- Elements.Keys.CopyTo (rgKeys, 0);
- Array.Sort (rgKeys);
+ int element_count = Elements.Count;
+ object [] element_keys = new object [element_count];
+ Elements.Keys.CopyTo (element_keys, 0);
+ Array.Sort (element_keys);
// initialize the block list with one element per key
- ArrayList rgKeyBlocks = new ArrayList ();
- foreach (object key in rgKeys)
- rgKeyBlocks.Add (new KeyBlock (System.Convert.ToInt64 (key)));
+ ArrayList key_blocks = new ArrayList ();
+ foreach (object key in element_keys)
+ key_blocks.Add (new KeyBlock (System.Convert.ToInt64 (key)));
- KeyBlock kbCurr;
+ KeyBlock current_kb;
// iteratively merge the blocks while they are at least half full
// there's probably a really cool way to do this with a tree...
- while (rgKeyBlocks.Count > 1)
+ while (key_blocks.Count > 1)
{
- ArrayList rgKeyBlocksNew = new ArrayList ();
- kbCurr = (KeyBlock) rgKeyBlocks [0];
- for (int ikb = 1; ikb < rgKeyBlocks.Count; ikb++)
+ ArrayList key_blocks_new = new ArrayList ();
+ current_kb = (KeyBlock) key_blocks [0];
+ for (int ikb = 1; ikb < key_blocks.Count; ikb++)
{
- KeyBlock kb = (KeyBlock) rgKeyBlocks [ikb];
- if ((kbCurr.Size + kb.Size) * 2 >= KeyBlock.TotalLength (kbCurr, kb))
+ KeyBlock kb = (KeyBlock) key_blocks [ikb];
+ if ((current_kb.Size + kb.Size) * 2 >= KeyBlock.TotalLength (current_kb, kb))
{
// merge blocks
- kbCurr.nLast = kb.nLast;
- kbCurr.Size += kb.Size;
+ current_kb.last = kb.last;
+ current_kb.Size += kb.Size;
}
else
{
// start a new block
- rgKeyBlocksNew.Add (kbCurr);
- kbCurr = kb;
+ key_blocks_new.Add (current_kb);
+ current_kb = kb;
}
}
- rgKeyBlocksNew.Add (kbCurr);
- if (rgKeyBlocks.Count == rgKeyBlocksNew.Count)
+ key_blocks_new.Add (current_kb);
+ if (key_blocks.Count == key_blocks_new.Count)
break;
- rgKeyBlocks = rgKeyBlocksNew;
+ key_blocks = key_blocks_new;
}
// initialize the key lists
- foreach (KeyBlock kb in rgKeyBlocks)
- kb.rgKeys = new ArrayList ();
+ foreach (KeyBlock kb in key_blocks)
+ kb.element_keys = new ArrayList ();
// fill the key lists
int iBlockCurr = 0;
- if (rgKeyBlocks.Count > 0) {
- kbCurr = (KeyBlock) rgKeyBlocks [0];
- foreach (object key in rgKeys)
+ if (key_blocks.Count > 0) {
+ current_kb = (KeyBlock) key_blocks [0];
+ foreach (object key in element_keys)
{
- bool fNextBlock = (key is UInt64) ? (ulong) key > (ulong) kbCurr.nLast :
- System.Convert.ToInt64 (key) > kbCurr.nLast;
- if (fNextBlock)
- kbCurr = (KeyBlock) rgKeyBlocks [++iBlockCurr];
- kbCurr.rgKeys.Add (key);
+ bool next_block = (key is UInt64) ? (ulong) key > (ulong) current_kb.last :
+ System.Convert.ToInt64 (key) > current_kb.last;
+ if (next_block)
+ current_kb = (KeyBlock) key_blocks [++iBlockCurr];
+ current_kb.element_keys.Add (key);
}
}
// sort the blocks so we can tackle the largest ones first
- rgKeyBlocks.Sort ();
+ key_blocks.Sort ();
// okay now we can start...
ILGenerator ig = ec.ig;
- Label lblEnd = ig.DefineLabel (); // at the end ;-)
- Label lblDefault = ig.DefineLabel ();
+ Label lbl_end = ig.DefineLabel (); // at the end ;-)
+ Label lbl_default = ig.DefineLabel ();
- Type typeKeys = null;
- if (rgKeys.Length > 0)
- typeKeys = rgKeys [0].GetType (); // used for conversions
+ Type type_keys = null;
+ if (element_keys.Length > 0)
+ type_keys = element_keys [0].GetType (); // used for conversions
Type compare_type;
else
compare_type = SwitchType;
- for (int iBlock = rgKeyBlocks.Count - 1; iBlock >= 0; --iBlock)
+ for (int iBlock = key_blocks.Count - 1; iBlock >= 0; --iBlock)
{
- KeyBlock kb = ((KeyBlock) rgKeyBlocks [iBlock]);
- lblDefault = (iBlock == 0) ? DefaultTarget : ig.DefineLabel ();
+ KeyBlock kb = ((KeyBlock) key_blocks [iBlock]);
+ lbl_default = (iBlock == 0) ? DefaultTarget : ig.DefineLabel ();
if (kb.Length <= 2)
{
- foreach (object key in kb.rgKeys)
+ foreach (object key in kb.element_keys)
{
ig.Emit (OpCodes.Ldloc, val);
EmitObjectInteger (ig, key);
// check block range (could be > 2^31)
ig.Emit (OpCodes.Ldloc, val);
- EmitObjectInteger (ig, System.Convert.ChangeType (kb.nFirst, typeKeys));
- ig.Emit (OpCodes.Blt, lblDefault);
+ EmitObjectInteger (ig, System.Convert.ChangeType (kb.first, type_keys));
+ ig.Emit (OpCodes.Blt, lbl_default);
ig.Emit (OpCodes.Ldloc, val);
- EmitObjectInteger (ig, System.Convert.ChangeType (kb.nLast, typeKeys));
- ig.Emit (OpCodes.Bgt, lblDefault);
+ EmitObjectInteger (ig, System.Convert.ChangeType (kb.last, type_keys));
+ ig.Emit (OpCodes.Bgt, lbl_default);
// normalize range
ig.Emit (OpCodes.Ldloc, val);
- if (kb.nFirst != 0)
+ if (kb.first != 0)
{
- EmitObjectInteger (ig, System.Convert.ChangeType (kb.nFirst, typeKeys));
+ EmitObjectInteger (ig, System.Convert.ChangeType (kb.first, type_keys));
ig.Emit (OpCodes.Sub);
}
ig.Emit (OpCodes.Conv_I4); // assumes < 2^31 labels!
{
// normalize range
ig.Emit (OpCodes.Ldloc, val);
- int nFirst = (int) kb.nFirst;
- if (nFirst > 0)
+ int first = (int) kb.first;
+ if (first > 0)
{
- IntConstant.EmitInt (ig, nFirst);
+ IntConstant.EmitInt (ig, first);
ig.Emit (OpCodes.Sub);
}
- else if (nFirst < 0)
+ else if (first < 0)
{
- IntConstant.EmitInt (ig, -nFirst);
+ IntConstant.EmitInt (ig, -first);
ig.Emit (OpCodes.Add);
}
}
// first, build the list of labels for the switch
int iKey = 0;
int cJumps = kb.Length;
- Label [] rgLabels = new Label [cJumps];
+ Label [] switch_labels = new Label [cJumps];
for (int iJump = 0; iJump < cJumps; iJump++)
{
- object key = kb.rgKeys [iKey];
- if (System.Convert.ToInt64 (key) == kb.nFirst + iJump)
+ object key = kb.element_keys [iKey];
+ if (System.Convert.ToInt64 (key) == kb.first + iJump)
{
SwitchLabel sl = (SwitchLabel) Elements [key];
- rgLabels [iJump] = sl.GetILLabel (ec);
+ switch_labels [iJump] = sl.GetILLabel (ec);
iKey++;
}
else
- rgLabels [iJump] = lblDefault;
+ switch_labels [iJump] = lbl_default;
}
// emit the switch opcode
- ig.Emit (OpCodes.Switch, rgLabels);
+ ig.Emit (OpCodes.Switch, switch_labels);
}
// mark the default for this block
if (iBlock != 0)
- ig.MarkLabel (lblDefault);
+ ig.MarkLabel (lbl_default);
}
// TODO: find the default case and emit it here,
// make sure to mark other labels in the default section
// the last default just goes to the end
- ig.Emit (OpCodes.Br, lblDefault);
+ ig.Emit (OpCodes.Br, lbl_default);
// now emit the code for the sections
- bool fFoundDefault = false;
- bool fFoundNull = false;
+ bool found_default = false;
+ bool found_null = false;
foreach (SwitchSection ss in Sections)
{
foreach (SwitchLabel sl in ss.Labels)
if (sl.Converted == SwitchLabel.NullStringCase)
- fFoundNull = true;
+ found_null = true;
}
foreach (SwitchSection ss in Sections)
if (sl.Converted == SwitchLabel.NullStringCase)
ig.MarkLabel (null_target);
else if (sl.Label == null) {
- ig.MarkLabel (lblDefault);
- fFoundDefault = true;
- if (!fFoundNull)
+ ig.MarkLabel (lbl_default);
+ found_default = true;
+ if (!found_null)
ig.MarkLabel (null_target);
}
}
ss.Block.Emit (ec);
}
- if (!fFoundDefault) {
- ig.MarkLabel (lblDefault);
- if (HaveUnwrap && !fFoundNull) {
+ if (!found_default) {
+ ig.MarkLabel (lbl_default);
+ if (HaveUnwrap && !found_null) {
ig.MarkLabel (null_target);
}
}
- ig.MarkLabel (lblEnd);
+ ig.MarkLabel (lbl_end);
}
//
// This simple emit switch works, but does not take advantage of the
SwitchType = new_expr.Type;
if (RootContext.Version == LanguageVersion.ISO_1 && SwitchType == TypeManager.bool_type) {
- Report.FeatureIsNotISO1 (loc, "switch expression of boolean type");
+ Report.FeatureIsNotAvailable (loc, "switch expression of boolean type");
return false;
}
}
bool first = true;
+ bool ok = true;
foreach (SwitchSection ss in Sections){
if (!first)
ec.CurrentBranching.CreateSibling (
// one single section - mark all the others as
// unreachable.
ec.CurrentBranching.CurrentUsageVector.Goto ();
- if (!ss.Block.ResolveUnreachable (ec, true))
- return false;
+ if (!ss.Block.ResolveUnreachable (ec, true)) {
+ ok = false;
+ }
} else {
if (!ss.Block.Resolve (ec))
- return false;
+ ok = false;
}
}
Report.Debug (1, "END OF SWITCH BLOCK", loc, ec.CurrentBranching);
- return true;
+ return ok;
}
protected override void DoEmit (EmitContext ec)
return false;
}
- TypeExpr texpr = type.ResolveAsTypeTerminal (ec, false);
- if (texpr == null)
+ TypeExpr texpr = type.ResolveAsContextualType (ec, false);
+ if (texpr == null) {
+ if (type is VarExpr)
+ Report.Error (821, type.Location, "A fixed statement cannot use an implicitly typed local variable");
+
return false;
+ }
expr_type = texpr.Type;
ec, array_ptr, vi.VariableType, loc);
if (converted == null)
return false;
+
+ //
+ // fixed (T* e_ptr = (e == null || e.Length == 0) ? null : converted [0])
+ //
+ converted = new Conditional (new Binary (Binary.Operator.LogicalOr,
+ new Binary (Binary.Operator.Equality, e, new NullConstant (loc)),
+ new Binary (Binary.Operator.Equality, new MemberAccess (e, "Length"), new IntConstant (0, loc))),
+ NullPointer.Null,
+ converted);
+
+ converted = converted.Resolve (ec);
data [i] = new ExpressionEmitter (converted, vi);
i++;
Fixed target = (Fixed) t;
target.type = type.Clone (clonectx);
- target.declarators = new ArrayList ();
- foreach (LocalInfo var in declarators)
- target.declarators.Add (clonectx.LookupVariable (var));
+ target.declarators = new ArrayList (declarators.Count);
+ foreach (Pair p in declarators) {
+ LocalInfo vi = (LocalInfo) p.First;
+ Expression e = (Expression) p.Second;
+
+ target.declarators.Add (
+ new Pair (clonectx.LookupVariable (vi), e.Clone (clonectx)));
+ }
+
target.statement = statement.Clone (clonectx);
}
}
Report.Debug (1, "START OF CATCH BLOCKS", vector);
- Type[] prevCatches = new Type [Specific.Count];
+ Type[] prev_catches = new Type [Specific.Count];
int last_index = 0;
foreach (Catch c in Specific){
ec.CurrentBranching.CreateSibling (
if (!c.Resolve (ec))
return false;
- Type resolvedType = c.CatchType;
+ Type resolved_type = c.CatchType;
for (int ii = 0; ii < last_index; ++ii) {
- if (resolvedType == prevCatches [ii] || resolvedType.IsSubclassOf (prevCatches [ii])) {
- Report.Error (160, c.loc, "A previous catch clause already catches all exceptions of this or a super type `{0}'", prevCatches [ii].FullName);
+ if (resolved_type == prev_catches [ii] || resolved_type.IsSubclassOf (prev_catches [ii])) {
+ Report.Error (160, c.loc, "A previous catch clause already catches all exceptions of this or a super type `{0}'", prev_catches [ii].FullName);
return false;
}
}
- prevCatches [last_index++] = resolvedType;
+ prev_catches [last_index++] = resolved_type;
need_exc_block = true;
}
{
Using target = (Using) t;
- if (expression_or_block is Expression)
+ if (expression_or_block is Expression) {
target.expression_or_block = ((Expression) expression_or_block).Clone (clonectx);
- else
- target.expression_or_block = ((Statement) expression_or_block).Clone (clonectx);
+ } else {
+ DictionaryEntry de = (DictionaryEntry) expression_or_block;
+ ArrayList var_list = (ArrayList) de.Value;
+ ArrayList target_var_list = new ArrayList (var_list.Count);
+
+ foreach (DictionaryEntry de_variable in var_list)
+ target_var_list.Add (new DictionaryEntry (
+ ((Expression) de_variable.Key).Clone (clonectx),
+ ((Expression) de_variable.Value).Clone (clonectx)));
+
+ target.expression_or_block = new DictionaryEntry (
+ ((Expression) de.Key).Clone (clonectx),
+ target_var_list);
+ }
target.Statement = Statement.Clone (clonectx);
}
if (expr == null)
return false;
- if (expr.Type == TypeManager.null_type) {
+ if (expr.IsNull) {
Report.Error (186, loc, "Use of null is not valid in this context");
return false;
}