X-Git-Url: http://wien.tomnetworks.com/gitweb/?a=blobdiff_plain;f=mcs%2Fgmcs%2Fstatement.cs;h=69977e353094c7c7e8d904933c6246fbcb28a5fb;hb=60e8d68027b115d6b4c1df3e179bb0cd7b5ee171;hp=cef20f163e4568866142147172f5ca8640f29348;hpb=08702604737ebf51147c3dd1c4138ffce4155aa0;p=mono.git
diff --git a/mcs/gmcs/statement.cs b/mcs/gmcs/statement.cs
index cef20f163e4..69977e35309 100644
--- a/mcs/gmcs/statement.cs
+++ b/mcs/gmcs/statement.cs
@@ -139,11 +139,14 @@ namespace Mono.CSharp {
public override bool Resolve (EmitContext ec)
{
+ bool ok = true;
+
Report.Debug (1, "START IF BLOCK", loc);
expr = Expression.ResolveBoolean (ec, expr, loc);
if (expr == null){
- return false;
+ ok = false;
+ goto skip;
}
Assign ass = expr as Assign;
@@ -172,22 +175,22 @@ namespace Mono.CSharp {
if ((FalseStatement != null) &&
!FalseStatement.Resolve (ec))
- return false;
- }
+ return false;
+ }
return true;
}
-
+ skip:
ec.StartFlowBranching (FlowBranching.BranchingType.Conditional, loc);
- bool ok = TrueStatement.Resolve (ec);
+ ok &= TrueStatement.Resolve (ec);
is_true_ret = ec.CurrentBranching.CurrentUsageVector.Reachability.IsUnreachable;
ec.CurrentBranching.CreateSibling ();
- if ((FalseStatement != null) && !FalseStatement.Resolve (ec))
- ok = false;
+ if (FalseStatement != null)
+ ok &= FalseStatement.Resolve (ec);
ec.EndFlowBranching ();
@@ -346,12 +349,14 @@ namespace Mono.CSharp {
}
ec.StartFlowBranching (FlowBranching.BranchingType.Loop, loc);
+ if (!infinite)
+ ec.CurrentBranching.CreateSibling ();
if (!Statement.Resolve (ec))
ok = false;
- ec.CurrentBranching.Infinite = infinite;
- ec.EndFlowBranching ();
+ ec.CurrentBranching.Infinite = infinite;
+ ec.EndFlowBranching ();
return ok;
}
@@ -530,7 +535,8 @@ namespace Mono.CSharp {
public override bool Resolve (EmitContext ec)
{
- expr = expr.ResolveStatement (ec);
+ if (expr != null)
+ expr = expr.ResolveStatement (ec);
return expr != null;
}
@@ -561,8 +567,15 @@ namespace Mono.CSharp {
public override bool Resolve (EmitContext ec)
{
+ AnonymousContainer am = ec.CurrentAnonymousMethod;
+ if ((am != null) && am.IsIterator && ec.InIterator) {
+ Report.Error (1622, loc, "Cannot return a value from iterators. Use the yield return " +
+ "statement to return a value, or yield break to end the iteration");
+ return false;
+ }
+
if (ec.ReturnType == null){
- if (Expr != null){
+ if (Expr != null){
if (ec.CurrentAnonymousMethod != null){
Report.Error (1662, loc, String.Format (
"Anonymous method could not be converted to delegate " +
@@ -591,17 +604,12 @@ namespace Mono.CSharp {
}
}
- if (ec.InIterator){
- Error (-206, "Return statement not allowed inside iterators");
- return false;
- }
-
FlowBranching.UsageVector vector = ec.CurrentBranching.CurrentUsageVector;
if (ec.CurrentBranching.InTryOrCatch (true)) {
ec.CurrentBranching.AddFinallyVector (vector);
in_exc = true;
- } else if (ec.CurrentBranching.InFinally (true)) {
+ } else if (ec.InFinally) {
Error (157, "Control can not leave the body of the finally block");
return false;
} else
@@ -632,7 +640,6 @@ namespace Mono.CSharp {
public class Goto : Statement {
string target;
- Block block;
LabeledStatement label;
public override bool Resolve (EmitContext ec)
@@ -646,13 +653,13 @@ namespace Mono.CSharp {
label.AddUsageVector (ec.CurrentBranching.CurrentUsageVector);
ec.CurrentBranching.CurrentUsageVector.Goto ();
+ label.AddReference ();
return true;
}
- public Goto (Block parent_block, string label, Location l)
+ public Goto (string label, Location l)
{
- block = parent_block;
loc = l;
target = label;
}
@@ -675,6 +682,7 @@ namespace Mono.CSharp {
bool defined;
bool referenced;
Label label;
+ ILGenerator ig;
FlowBranching.UsageVector vectors;
@@ -687,6 +695,7 @@ namespace Mono.CSharp {
{
if (defined)
return label;
+ ig = ec.ig;
label = ec.ig.DefineLabel ();
defined = true;
@@ -716,16 +725,23 @@ namespace Mono.CSharp {
{
ec.CurrentBranching.Label (vectors);
- referenced = true;
-
return true;
}
protected override void DoEmit (EmitContext ec)
{
+ if (ig != null && ig != ec.ig) {
+ Report.Error (1632, "Control cannot leave body of anonymous method");
+ return;
+ }
LabelTarget (ec);
ec.ig.MarkLabel (label);
}
+
+ public void AddReference ()
+ {
+ referenced = true;
+ }
}
@@ -841,10 +857,10 @@ namespace Mono.CSharp {
}
Type t = expr.Type;
-
+
if ((t != TypeManager.exception_type) &&
- !t.IsSubclassOf (TypeManager.exception_type) &&
- !(expr is NullLiteral)) {
+ !TypeManager.IsSubclassOf (t, TypeManager.exception_type) &&
+ !(expr is NullLiteral)) {
Error (155,
"The type caught or thrown must be derived " +
"from System.Exception");
@@ -853,13 +869,13 @@ namespace Mono.CSharp {
return true;
}
- if (ec.CurrentBranching.InFinally (true)) {
- Error (724, "A throw statement with no argument is only allowed in a catch clause nested inside of the innermost catch clause");
+ if (!ec.InCatch) {
+ Error (156, "A throw statement with no arguments is not allowed outside of a catch clause");
return false;
}
- if (!ec.CurrentBranching.InCatch ()) {
- Error (156, "A throw statement with no argument is only allowed in a catch clause");
+ if (ec.InFinally) {
+ Error (724, "A throw statement with no argument is only allowed in a catch clause nested inside of the innermost catch clause");
return false;
}
return true;
@@ -891,13 +907,13 @@ namespace Mono.CSharp {
if (!ec.CurrentBranching.InLoop () && !ec.CurrentBranching.InSwitch ()){
Error (139, "No enclosing loop or switch to continue to");
return false;
- } else if (ec.CurrentBranching.InFinally (false)) {
+ } else if (ec.InFinally && ec.CurrentBranching.BreakCrossesTryCatchBoundary()) {
Error (157, "Control can not leave the body of the finally block");
return false;
} else if (ec.CurrentBranching.InTryOrCatch (false))
ec.CurrentBranching.AddFinallyVector (
ec.CurrentBranching.CurrentUsageVector);
- else if (ec.CurrentBranching.InLoop ())
+ else if (ec.CurrentBranching.InLoop () || ec.CurrentBranching.InSwitch ())
ec.CurrentBranching.AddBreakVector (
ec.CurrentBranching.CurrentUsageVector);
@@ -936,7 +952,7 @@ namespace Mono.CSharp {
if (!ec.CurrentBranching.InLoop () && !ec.CurrentBranching.InSwitch ()){
Error (139, "No enclosing loop to continue to");
return false;
- } else if (ec.CurrentBranching.InFinally (false)) {
+ } else if (ec.InFinally) {
Error (157, "Control can not leave the body of the finally block");
return false;
} else if (ec.CurrentBranching.InTryOrCatch (false))
@@ -989,11 +1005,19 @@ namespace Mono.CSharp {
Pinned = 4,
IsThis = 8,
Captured = 16,
- AddressTaken = 32
+ AddressTaken = 32,
+ CompilerGenerated = 64
}
- Flags flags;
+ public enum ReadOnlyContext: byte {
+ Using,
+ Foreach,
+ Fixed
+ }
+ Flags flags;
+ ReadOnlyContext ro_context;
+
public LocalInfo (Expression type, string name, Block block, Location l)
{
Type = type;
@@ -1087,6 +1111,16 @@ namespace Mono.CSharp {
}
}
+ public bool CompilerGenerated {
+ get {
+ return (flags & Flags.CompilerGenerated) != 0;
+ }
+
+ set {
+ flags |= Flags.CompilerGenerated;
+ }
+ }
+
public override string ToString ()
{
return String.Format ("LocalInfo ({0},{1},{2},{3})",
@@ -1106,9 +1140,28 @@ namespace Mono.CSharp {
get {
return (flags & Flags.ReadOnly) != 0;
}
- set {
- flags = value ? (flags | Flags.ReadOnly) : (unchecked (flags & ~Flags.ReadOnly));
+ }
+
+ public void SetReadOnlyContext (ReadOnlyContext context)
+ {
+ flags |= Flags.ReadOnly;
+ ro_context = context;
+ }
+
+ public string GetReadOnlyContext ()
+ {
+ if (!ReadOnly)
+ throw new InternalErrorException ("Variable is not readonly");
+
+ switch (ro_context) {
+ case ReadOnlyContext.Fixed:
+ return "fixed variable";
+ case ReadOnlyContext.Foreach:
+ return "foreach iteration variable";
+ case ReadOnlyContext.Using:
+ return "using variable";
}
+ throw new NotImplementedException ();
}
//
@@ -1153,6 +1206,8 @@ namespace Mono.CSharp {
public readonly Location StartLocation;
public Location EndLocation = Location.Null;
+ public readonly ToplevelBlock Toplevel;
+
[Flags]
public enum Flags {
Implicit = 1,
@@ -1217,7 +1272,7 @@ namespace Mono.CSharp {
// statements.
//
ArrayList children;
-
+
//
// Labels. (label, block) pairs.
//
@@ -1233,9 +1288,9 @@ namespace Mono.CSharp {
Hashtable constants;
//
- // The parameters for the block, this is only needed on the toplevel block really
- // TODO: move `parameters' into ToplevelBlock
- Parameters parameters;
+ // Temporary variables.
+ //
+ ArrayList temporary_variables;
//
// If this is a switch section, the enclosing switch block.
@@ -1254,42 +1309,33 @@ namespace Mono.CSharp {
: this (parent, flags, Location.Null, Location.Null)
{ }
- public Block (Block parent, Flags flags, Parameters parameters)
- : this (parent, flags, parameters, Location.Null, Location.Null)
- { }
-
public Block (Block parent, Location start, Location end)
: this (parent, (Flags) 0, start, end)
{ }
- public Block (Block parent, Parameters parameters, Location start, Location end)
- : this (parent, (Flags) 0, parameters, start, end)
- { }
-
public Block (Block parent, Flags flags, Location start, Location end)
- : this (parent, flags, Parameters.EmptyReadOnlyParameters, start, end)
- { }
-
- public Block (Block parent, Flags flags, Parameters parameters,
- Location start, Location end)
{
if (parent != null)
parent.AddChild (this);
this.Parent = parent;
this.flags = flags;
- this.parameters = parameters;
this.StartLocation = start;
this.EndLocation = end;
this.loc = start;
this_id = id++;
statements = new ArrayList ();
+ if ((flags & Flags.IsToplevel) != 0)
+ Toplevel = (ToplevelBlock) this;
+ else
+ Toplevel = parent.Toplevel;
+
if (parent != null && Implicit) {
- if (parent.child_variable_names == null)
- parent.child_variable_names = new Hashtable();
+ if (parent.known_variables == null)
+ parent.known_variables = new Hashtable ();
// share with parent
- child_variable_names = parent.child_variable_names;
+ known_variables = parent.known_variables;
}
}
@@ -1436,30 +1482,54 @@ namespace Mono.CSharp {
}
}
- Hashtable child_variable_names;
+ Hashtable known_variables;
//
- // Marks a variable with name @name as being used in a child block.
+ // Marks a variable with name @name as being used in this or a child block.
// If a variable name has been used in a child block, it's illegal to
// declare a variable with the same name in the current block.
//
- public void AddChildVariableName (string name)
+ void AddKnownVariable (string name, LocalInfo info)
{
- if (child_variable_names == null)
- child_variable_names = new Hashtable ();
+ if (known_variables == null)
+ known_variables = new Hashtable ();
- child_variable_names [name] = null;
+ known_variables [name] = info;
}
- //
- // Checks whether a variable name has already been used in a child block.
- //
- public bool IsVariableNameUsedInChildBlock (string name)
+ LocalInfo GetKnownVariableInfo (string name)
+ {
+ if (known_variables == null)
+ return null;
+ return (LocalInfo) known_variables [name];
+ }
+
+ public bool CheckInvariantMeaningInBlock (string name, Expression e, Location loc)
{
- if (child_variable_names == null)
+ LocalInfo kvi = GetKnownVariableInfo (name);
+ if (kvi == null || kvi.Block == this)
+ return true;
+
+ if (known_variables != kvi.Block.known_variables) {
+ Report.SymbolRelatedToPreviousError (kvi.Location, name);
+ Report.Error (135, loc, "'{0}' has a different meaning in a child block", name);
return false;
+ }
+
+ //
+ // this block and kvi.Block are the same textual block.
+ // However, different variables are extant.
+ //
+ // Check if the variable is in scope in both blocks. We use
+ // an indirect check that depends on AddVariable doing its
+ // part in maintaining the invariant-meaning-in-block property.
+ //
+ if (e is LocalVariableReference || (e is Constant && GetLocalInfo (name) != null))
+ return true;
- return child_variable_names.Contains (name);
+ Report.SymbolRelatedToPreviousError (kvi.Location, name);
+ Report.Error (136, loc, "'{0}' has a different meaning later in the block", name);
+ return false;
}
//
@@ -1486,58 +1556,47 @@ namespace Mono.CSharp {
return this_variable;
}
- public LocalInfo AddVariable (Expression type, string name, Parameters pars, Location l)
+ public LocalInfo AddVariable (Expression type, string name, Location l)
{
if (variables == null)
variables = new Hashtable ();
LocalInfo vi = GetLocalInfo (name);
if (vi != null) {
- if (vi.Block != this)
- Report.Error (136, l, "A local variable named `" + name + "' " +
- "cannot be declared in this scope since it would " +
- "give a different meaning to `" + name + "', which " +
- "is already used in a `parent or current' scope to " +
- "denote something else");
+ Report.SymbolRelatedToPreviousError (vi.Location, name);
+ if (known_variables == vi.Block.known_variables)
+ Report.Error (128, l,
+ "A local variable '{0}' is already declared in this scope", name);
else
- Report.Error (128, l, "A local variable `" + name + "' is already " +
- "defined in this scope");
+ Report.Error (136, l,
+ "'{0}' hides the declaration of local variable '{0}' in a parent scope", name);
return null;
}
- if (IsVariableNameUsedInChildBlock (name)) {
- Report.Error (136, l, "A local variable named `" + name + "' " +
- "cannot be declared in this scope since it would " +
- "give a different meaning to `" + name + "', which " +
- "is already used in a `child' scope to denote something " +
- "else");
+ vi = GetKnownVariableInfo (name);
+ if (vi != null) {
+ Report.SymbolRelatedToPreviousError (vi.Location, name);
+ Report.Error (136, l,
+ "A child block already has a declaration of local variable '{0}':" +
+ " allowing this declaration would violate 'invariant meaning in a block'",
+ name);
return null;
}
- if (pars != null) {
- int idx;
- Parameter p = pars.GetParameterByName (name, out idx);
- if (p != null) {
- Report.Error (136, l, "A local variable named `" + name + "' " +
- "cannot be declared in this scope since it would " +
- "give a different meaning to `" + name + "', which " +
- "is already used in a `parent or current' scope to " +
- "denote something else");
- return null;
- }
+ int idx;
+ Parameter p = Toplevel.Parameters.GetParameterByName (name, out idx);
+ if (p != null) {
+ Report.SymbolRelatedToPreviousError (p.Location, name);
+ Report.Error (136, l, "'{0}' hides a method parameter", name);
+ return null;
}
vi = new LocalInfo (type, name, this, l);
variables.Add (name, vi);
- // Mark 'name' as "used by a child block" in every surrounding block
- Block cur = this;
- while (cur != null && cur.Implicit)
- cur = cur.Parent;
- if (cur != null)
- for (Block par = cur.Parent; par != null; par = par.Parent)
- par.AddChildVariableName (name);
+ for (Block b = this; b != null; b = b.Parent)
+ b.AddKnownVariable (name, vi);
if ((flags & Flags.VariablesInitialized) != 0)
throw new Exception ();
@@ -1546,9 +1605,9 @@ namespace Mono.CSharp {
return vi;
}
- public bool AddConstant (Expression type, string name, Expression value, Parameters pars, Location l)
+ public bool AddConstant (Expression type, string name, Expression value, Location l)
{
- if (AddVariable (type, name, pars, l) == null)
+ if (AddVariable (type, name, l) == null)
return false;
if (constants == null)
@@ -1558,6 +1617,22 @@ namespace Mono.CSharp {
return true;
}
+ static int next_temp_id = 0;
+
+ public LocalInfo AddTemporaryVariable (TypeExpr te, Location loc)
+ {
+ if (temporary_variables == null)
+ temporary_variables = new ArrayList ();
+
+ int id = ++next_temp_id;
+ string name = "$s_" + id.ToString ();
+
+ LocalInfo li = new LocalInfo (te, name, this, loc);
+ li.CompilerGenerated = true;
+ temporary_variables.Add (li);
+ return li;
+ }
+
public Hashtable Variables {
get {
return variables;
@@ -1610,78 +1685,6 @@ namespace Mono.CSharp {
return e != null;
}
- //
- // Returns a `ParameterReference' for the given name, or null if there
- // is no such parameter
- //
- public ParameterReference GetParameterReference (string name, Location loc)
- {
- Block b = this;
-
- do {
- Parameters pars = b.parameters;
-
- if (pars != null){
- Parameter par;
- int idx;
-
- par = pars.GetParameterByName (name, out idx);
- if (par != null){
- ParameterReference pr;
-
- pr = new ParameterReference (pars, this, idx, name, loc);
- return pr;
- }
- }
- b = b.Parent;
- } while (b != null);
- 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)
- {
- Block b = this;
- int toplevel_count = 0;
-
- do {
- if (this is ToplevelBlock)
- toplevel_count++;
-
- Parameters pars = b.parameters;
- if (pars != null){
- if (pars.GetParameterByName (name) != null)
- return true;
- return false;
- }
- if (toplevel_count > 0)
- return false;
- b = b.Parent;
- } while (b != null);
- return false;
- }
-
- //
- // Whether the `name' is a parameter reference
- //
- public bool IsParameterReference (string name)
- {
- Block b = this;
-
- do {
- Parameters pars = b.parameters;
-
- if (pars != null)
- if (pars.GetParameterByName (name) != null)
- return true;
- b = b.Parent;
- } while (b != null);
- return false;
- }
-
///
/// A list of labels that were not used within this block
///
@@ -1812,19 +1815,6 @@ namespace Mono.CSharp {
continue;
}
-#if false
- if (remap_locals)
- vi.FieldBuilder = ec.MapVariable (name, vi.VariableType);
- else if (vi.Pinned)
- //
- // This is needed to compile on both .NET 1.x and .NET 2.x
- // the later introduced `DeclareLocal (Type t, bool pinned)'
- //
- vi.LocalBuilder = TypeManager.DeclareLocalPinned (ig, vi.VariableType);
- else if (!vi.IsThis)
- vi.LocalBuilder = ig.DeclareLocal (vi.VariableType);
-#endif
-
if (constants == null)
continue;
@@ -1834,14 +1824,11 @@ namespace Mono.CSharp {
ec.CurrentBlock = this;
Expression e = cv.Resolve (ec);
- if (e == null)
- continue;
Constant ce = e as Constant;
if (ce == null){
Report.Error (133, vi.Location,
- "The expression being assigned to `" +
- name + "' must be constant (" + e + ")");
+ "The expression being assigned to '{0}' must be constant", name);
continue;
}
@@ -1876,7 +1863,6 @@ namespace Mono.CSharp {
if (variables != null){
bool have_captured_vars = ec.HaveCapturedVariables ();
- bool remap_locals = ec.RemapToProxy;
foreach (DictionaryEntry de in variables){
LocalInfo vi = (LocalInfo) de.Value;
@@ -1884,18 +1870,32 @@ namespace Mono.CSharp {
if (have_captured_vars && ec.IsCaptured (vi))
continue;
- if (remap_locals){
- vi.FieldBuilder = ec.MapVariable (vi.Name, vi.VariableType);
- } else {
- if (vi.Pinned)
- //
- // This is needed to compile on both .NET 1.x and .NET 2.x
- // the later introduced `DeclareLocal (Type t, bool pinned)'
- //
- vi.LocalBuilder = TypeManager.DeclareLocalPinned (ig, vi.VariableType);
- else if (!vi.IsThis)
- vi.LocalBuilder = ig.DeclareLocal (vi.VariableType);
- }
+ if (vi.Pinned)
+ //
+ // This is needed to compile on both .NET 1.x and .NET 2.x
+ // the later introduced `DeclareLocal (Type t, bool pinned)'
+ //
+ vi.LocalBuilder = TypeManager.DeclareLocalPinned (ig, vi.VariableType);
+ else if (!vi.IsThis)
+ vi.LocalBuilder = ig.DeclareLocal (vi.VariableType);
+ }
+ }
+
+ if (temporary_variables != null) {
+ AnonymousContainer am = ec.CurrentAnonymousMethod;
+ TypeBuilder scope = null;
+ if ((am != null) && am.IsIterator) {
+ scope = am.Scope.ScopeTypeBuilder;
+ if (scope == null)
+ throw new InternalErrorException ();
+ }
+ foreach (LocalInfo vi in temporary_variables) {
+ if (scope != null) {
+ if (vi.FieldBuilder == null)
+ vi.FieldBuilder = scope.DefineField (
+ vi.Name, vi.VariableType, FieldAttributes.Assembly);
+ } else
+ vi.LocalBuilder = ig.DeclareLocal (vi.VariableType);
}
}
@@ -1928,6 +1928,7 @@ namespace Mono.CSharp {
}
bool unreachable_shown;
+ bool unreachable;
public override bool Resolve (EmitContext ec)
{
@@ -1941,36 +1942,37 @@ namespace Mono.CSharp {
Report.Debug (4, "RESOLVE BLOCK", StartLocation, ec.CurrentBranching);
- bool unreachable = false;
-
+ //
+ // This flag is used to notate nested statements as unreachable from the beginning of this block.
+ // For the purposes of this resolution, it doesn't matter that the whole block is unreachable
+ // from the beginning of the function. The outer Resolve() that detected the unreachability is
+ // responsible for handling the situation.
+ //
int statement_count = statements.Count;
for (int ix = 0; ix < statement_count; ix++){
Statement s = (Statement) statements [ix];
-
- if (unreachable && !(s is LabeledStatement)) {
- if (s == EmptyStatement.Value)
- s.loc = EndLocation;
- if (!s.ResolveUnreachable (ec, !unreachable_shown))
- ok = false;
+ if (unreachable) {
+ if (s is Block)
+ ((Block) s).unreachable = true;
- if (s != EmptyStatement.Value)
+ if (!unreachable_shown && (RootContext.WarningLevel >= 2)) {
+ Report.Warning (
+ 162, loc, "Unreachable code detected");
unreachable_shown = true;
- else
- s.loc = Location.Null;
+ }
+ }
+ if (!s.Resolve (ec)) {
+ ok = false;
statements [ix] = EmptyStatement.Value;
continue;
}
- if (s.Resolve (ec) == false) {
- ok = false;
+ if (unreachable && !(s is LabeledStatement) && !(s is Block))
statements [ix] = EmptyStatement.Value;
- continue;
- }
num_statements = ix + 1;
-
if (s is LabeledStatement)
unreachable = false;
else
@@ -1980,7 +1982,6 @@ namespace Mono.CSharp {
Report.Debug (4, "RESOLVE BLOCK DONE", StartLocation,
ec.CurrentBranching, statement_count, num_statements);
-
FlowBranching.UsageVector vector = ec.DoEndFlowBranching ();
ec.CurrentBlock = prev_block;
@@ -2017,7 +2018,16 @@ namespace Mono.CSharp {
public override bool ResolveUnreachable (EmitContext ec, bool warn)
{
unreachable_shown = true;
- return base.ResolveUnreachable (ec, warn);
+ unreachable = true;
+
+ if (warn && (RootContext.WarningLevel >= 2))
+ Report.Warning (162, loc, "Unreachable code detected");
+
+ ec.StartFlowBranching (FlowBranching.BranchingType.Block, loc);
+ bool ok = Resolve (ec);
+ ec.KillFlowBranching ();
+
+ return ok;
}
protected override void DoEmit (EmitContext ec)
@@ -2028,7 +2038,7 @@ namespace Mono.CSharp {
// Check whether we are the last statement in a
// top-level block.
- if ((Parent == null) && (ix+1 == num_statements))
+ if (((Parent == null) || Implicit) && (ix+1 == num_statements) && !(s is Block))
ec.IsLastStatement = true;
else
ec.IsLastStatement = false;
@@ -2048,7 +2058,7 @@ namespace Mono.CSharp {
if (emit_debug_info) {
if (is_lexical_block)
- ec.ig.BeginScope ();
+ ec.BeginScope ();
if (variables != null) {
foreach (DictionaryEntry de in variables) {
@@ -2068,25 +2078,12 @@ namespace Mono.CSharp {
ec.Mark (EndLocation, true);
if (emit_debug_info && is_lexical_block)
- ec.ig.EndScope ();
+ ec.EndScope ();
ec.CurrentBlock = prev_block;
}
- public ToplevelBlock Toplevel {
- get {
- Block b = this;
- while (b.Parent != null){
- if ((b.flags & Flags.IsToplevel) != 0)
- break;
- b = b.Parent;
- }
-
- return (ToplevelBlock) b;
- }
- }
-
- //
+ //
// Returns true if we ar ea child of `b'.
//
public bool IsChildOf (Block b)
@@ -2100,6 +2097,11 @@ namespace Mono.CSharp {
} while (current != null);
return false;
}
+
+ public override string ToString ()
+ {
+ return String.Format ("{0} ({1}:{2})", GetType (),ID, StartLocation);
+ }
}
//
@@ -2115,13 +2117,17 @@ namespace Mono.CSharp {
// Pointer to the host of this anonymous method, or null
// if we are the topmost block
//
- public ToplevelBlock Container;
+ ToplevelBlock container;
CaptureContext capture_context;
+ FlowBranching top_level_branching;
Hashtable capture_contexts;
+ ArrayList children;
- static int did = 0;
-
+ //
+ // The parameters for the block.
+ //
+ public readonly Parameters Parameters;
public void RegisterCaptureContext (CaptureContext cc)
{
@@ -2139,38 +2145,61 @@ namespace Mono.CSharp {
cc.AdjustScopes ();
}
}
-
+
public CaptureContext ToplevelBlockCaptureContext {
get {
return capture_context;
}
}
-
+
+ public ToplevelBlock Container {
+ get {
+ return container;
+ }
+ }
+
+ protected void AddChild (ToplevelBlock block)
+ {
+ if (children == null)
+ children = new ArrayList ();
+
+ children.Add (block);
+ }
+
//
// Parent is only used by anonymous blocks to link back to their
// parents
//
public ToplevelBlock (ToplevelBlock container, Parameters parameters, Location start) :
- base (null, Flags.IsToplevel, parameters, start, Location.Null)
+ this (container, (Flags) 0, parameters, start)
{
- Container = container;
}
public ToplevelBlock (Parameters parameters, Location start) :
- base (null, Flags.IsToplevel, parameters, start, Location.Null)
+ this (null, (Flags) 0, parameters, start)
{
}
public ToplevelBlock (Flags flags, Parameters parameters, Location start) :
- base (null, flags | Flags.IsToplevel, parameters, start, Location.Null)
+ this (null, flags, parameters, start)
+ {
+ }
+
+ public ToplevelBlock (ToplevelBlock container, Flags flags, Parameters parameters, Location start) :
+ base (null, flags | Flags.IsToplevel, start, Location.Null)
{
+ Parameters = parameters == null ? Parameters.EmptyReadOnlyParameters : parameters;
+ this.container = container;
+
+ if (container != null)
+ container.AddChild (this);
}
- public ToplevelBlock (Location loc) : base (null, Flags.IsToplevel, loc, loc)
+ public ToplevelBlock (Location loc) : this (null, (Flags) 0, null, loc)
{
}
- public void SetHaveAnonymousMethods (Location loc, AnonymousMethod host)
+ public void SetHaveAnonymousMethods (Location loc, AnonymousContainer host)
{
if (capture_context == null)
capture_context = new CaptureContext (this, loc, host);
@@ -2181,44 +2210,123 @@ namespace Mono.CSharp {
return capture_context;
}
}
- }
-
- public class SwitchLabel {
- Expression label;
- object converted;
- public Location loc;
- Label il_label;
- bool il_label_set;
- Label il_label_code;
- bool il_label_code_set;
+ public FlowBranching TopLevelBranching {
+ get {
+ return top_level_branching;
+ }
+ }
//
- // if expr == null, then it is the default case.
+ // This is used if anonymous methods are used inside an iterator
+ // (see 2test-22.cs for an example).
//
- public SwitchLabel (Expression expr, Location l)
+ // The AnonymousMethod is created while parsing - at a time when we don't
+ // know yet that we're inside an iterator, so it's `Container' is initially
+ // null. Later on, when resolving the iterator, we need to move the
+ // anonymous method into that iterator.
+ //
+ public void ReParent (ToplevelBlock new_parent, AnonymousContainer new_host)
{
- label = expr;
- loc = l;
- }
+ foreach (ToplevelBlock block in children) {
+ if (block.CaptureContext == null)
+ continue;
- public Expression Label {
- get {
- return label;
+ block.container = new_parent;
+ block.CaptureContext.ReParent (new_parent, new_host);
}
}
- public object Converted {
- get {
- return converted;
+ //
+ // Returns a `ParameterReference' for the given name, or null if there
+ // is no such parameter
+ //
+ public ParameterReference GetParameterReference (string name, Location loc)
+ {
+ Parameter par;
+ int idx;
+
+ for (ToplevelBlock t = this; t != null; t = t.Container) {
+ Parameters pars = t.Parameters;
+ par = pars.GetParameterByName (name, out idx);
+ if (par != null)
+ return new ParameterReference (pars, this, idx, name, loc);
}
+ return null;
}
- public Label GetILLabel (EmitContext ec)
- {
- if (!il_label_set){
- il_label = ec.ig.DefineLabel ();
- il_label_set = true;
+ //
+ // 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;
+ }
+
+ public bool ResolveMeta (EmitContext ec, InternalParameters ip)
+ {
+ int errors = Report.Errors;
+
+ if (top_level_branching != null)
+ return true;
+
+ ResolveMeta (this, ec, ip);
+
+ top_level_branching = ec.StartFlowBranching (this);
+
+ return Report.Errors == errors;
+ }
+ }
+
+ public class SwitchLabel {
+ Expression label;
+ object converted;
+ public Location loc;
+
+ Label il_label;
+ bool il_label_set;
+ Label il_label_code;
+ bool il_label_code_set;
+
+ //
+ // if expr == null, then it is the default case.
+ //
+ public SwitchLabel (Expression expr, Location l)
+ {
+ label = expr;
+ loc = l;
+ }
+
+ public Expression Label {
+ get {
+ return label;
+ }
+ }
+
+ public object Converted {
+ get {
+ return converted;
+ }
+ }
+
+ public Label GetILLabel (EmitContext ec)
+ {
+ if (!il_label_set){
+ il_label = ec.ig.DefineLabel ();
+ il_label_set = true;
}
return il_label;
}
@@ -2295,11 +2403,11 @@ namespace Mono.CSharp {
//
// Computed
//
- bool got_default;
Label default_target;
Expression new_expr;
bool is_constant;
SwitchSection constant_section;
+ SwitchSection default_section;
//
// The types allowed to be implicitly cast from
@@ -2316,7 +2424,7 @@ namespace Mono.CSharp {
public bool GotDefault {
get {
- return got_default;
+ return default_section != null;
}
}
@@ -2421,8 +2529,6 @@ namespace Mono.CSharp {
bool error = false;
Elements = new Hashtable ();
- got_default = false;
-
if (TypeManager.IsEnumType (SwitchType)){
compare_type = TypeManager.EnumToUnderlying (SwitchType);
} else
@@ -2436,11 +2542,11 @@ namespace Mono.CSharp {
}
if (sl.Label == null){
- if (got_default){
+ if (default_section != null){
Report.Error (152, sl.loc, Error152, "default");
error = true;
}
- got_default = true;
+ default_section = ss;
continue;
}
@@ -2846,12 +2952,11 @@ namespace Mono.CSharp {
Label end_of_switch = ig.DefineLabel ();
Label next_test = ig.DefineLabel ();
Label null_target = ig.DefineLabel ();
- bool default_found = false;
bool first_test = true;
bool pending_goto_end = false;
+ bool null_marked = false;
bool null_found;
- bool default_at_end = false;
-
+
ig.Emit (OpCodes.Ldloc, val);
if (Elements.Contains (NullLiteral.Null)){
@@ -2862,17 +2967,22 @@ namespace Mono.CSharp {
ig.Emit (OpCodes.Ldloc, val);
ig.Emit (OpCodes.Call, TypeManager.string_isinterneted_string);
ig.Emit (OpCodes.Stloc, val);
-
+
int section_count = Sections.Count;
for (int section = 0; section < section_count; section++){
SwitchSection ss = (SwitchSection) Sections [section];
+
+ if (ss == default_section)
+ continue;
+
Label sec_begin = ig.DefineLabel ();
+ ig.Emit (OpCodes.Nop);
+
if (pending_goto_end)
ig.Emit (OpCodes.Br, end_of_switch);
int label_count = ss.Labels.Count;
- bool mark_default = false;
null_found = false;
for (int label = 0; label < label_count; label++){
SwitchLabel sl = (SwitchLabel) ss.Labels [label];
@@ -2885,12 +2995,7 @@ namespace Mono.CSharp {
//
// If we are the default target
//
- if (sl.Label == null){
- if (label+1 == label_count)
- default_at_end = true;
- mark_default = true;
- default_found = true;
- } else {
+ if (sl.Label != null){
object lit = sl.Converted;
if (lit is NullLiteral){
@@ -2914,24 +3019,24 @@ namespace Mono.CSharp {
}
}
}
- if (null_found)
+ if (null_found) {
ig.MarkLabel (null_target);
+ null_marked = true;
+ }
ig.MarkLabel (sec_begin);
foreach (SwitchLabel sl in ss.Labels)
ig.MarkLabel (sl.GetILLabelCode (ec));
- if (mark_default)
- ig.MarkLabel (default_target);
ss.Block.Emit (ec);
pending_goto_end = !ss.Block.HasRet;
first_test = false;
}
ig.MarkLabel (next_test);
- if (default_found){
- if (!default_at_end)
- ig.Emit (OpCodes.Br, default_target);
- } else
- ig.MarkLabel (default_target);
+ ig.MarkLabel (default_target);
+ if (!null_marked)
+ ig.MarkLabel (null_target);
+ if (default_section != null)
+ default_section.Block.Emit (ec);
ig.MarkLabel (end_of_switch);
}
@@ -2947,24 +3052,6 @@ namespace Mono.CSharp {
return null;
}
- bool ResolveConstantSwitch (EmitContext ec)
- {
- object key = ((Constant) new_expr).GetValue ();
- SwitchLabel label = (SwitchLabel) Elements [key];
-
- if (label == null)
- return true;
-
- constant_section = FindSection (label);
- if (constant_section == null)
- return true;
-
- if (constant_section.Block.Resolve (ec) != true)
- return false;
-
- return true;
- }
-
public override bool Resolve (EmitContext ec)
{
Expr = Expr.Resolve (ec);
@@ -2996,6 +3083,8 @@ namespace Mono.CSharp {
SwitchLabel label = (SwitchLabel) Elements [key];
constant_section = FindSection (label);
+ if (constant_section == null)
+ constant_section = default_section;
}
bool first = true;
@@ -3015,11 +3104,11 @@ namespace Mono.CSharp {
return false;
} else {
if (!ss.Block.Resolve (ec))
- return false;
+ return false;
}
}
- if (!got_default)
+ if (default_section == null)
ec.CurrentBranching.CreateSibling (
null, FlowBranching.SiblingType.SwitchSection);
@@ -3087,7 +3176,7 @@ namespace Mono.CSharp {
{
if (emit_finally)
ec.ig.BeginFinallyBlock ();
- else
+ else if (ec.InIterator)
ec.CurrentIterator.MarkFinally (ec, parent_vectors);
EmitFinally (ec);
}
@@ -3289,15 +3378,81 @@ namespace Mono.CSharp {
ArrayList declarators;
Statement statement;
Type expr_type;
- FixedData[] data;
+ Emitter[] data;
bool has_ret;
- struct FixedData {
- public bool is_object;
- public LocalInfo vi;
- public Expression expr;
- public Expression converted;
- }
+ abstract class Emitter
+ {
+ protected LocalInfo vi;
+ protected Expression converted;
+
+ protected Emitter (Expression expr, LocalInfo li)
+ {
+ converted = expr;
+ vi = li;
+ }
+
+ public abstract void Emit (EmitContext ec);
+ public abstract void EmitExit (ILGenerator ig);
+ }
+
+ class ExpressionEmitter: Emitter {
+ public ExpressionEmitter (Expression converted, LocalInfo li) :
+ base (converted, li)
+ {
+ }
+
+ public override void Emit (EmitContext ec) {
+ //
+ // Store pointer in pinned location
+ //
+ converted.Emit (ec);
+ ec.ig.Emit (OpCodes.Stloc, vi.LocalBuilder);
+ }
+
+ public override void EmitExit (ILGenerator ig)
+ {
+ ig.Emit (OpCodes.Ldc_I4_0);
+ ig.Emit (OpCodes.Conv_U);
+ ig.Emit (OpCodes.Stloc, vi.LocalBuilder);
+ }
+ }
+
+ class StringEmitter: Emitter {
+ LocalBuilder pinned_string;
+ Location loc;
+
+ public StringEmitter (Expression expr, LocalInfo li, Location loc):
+ base (expr, li)
+ {
+ this.loc = loc;
+ }
+
+ public override void Emit (EmitContext ec)
+ {
+ ILGenerator ig = ec.ig;
+ pinned_string = TypeManager.DeclareLocalPinned (ig, TypeManager.string_type);
+
+ converted.Emit (ec);
+ ig.Emit (OpCodes.Stloc, pinned_string);
+
+ Expression sptr = new StringPtr (pinned_string, loc);
+ converted = Convert.ImplicitConversionRequired (
+ ec, sptr, vi.VariableType, loc);
+
+ if (converted == null)
+ return;
+
+ converted.Emit (ec);
+ ig.Emit (OpCodes.Stloc, vi.LocalBuilder);
+ }
+
+ public override void EmitExit(ILGenerator ig)
+ {
+ ig.Emit (OpCodes.Ldnull);
+ ig.Emit (OpCodes.Stloc, pinned_string);
+ }
+ }
public Fixed (Expression type, ArrayList decls, Statement stmt, Location l)
{
@@ -3322,12 +3477,7 @@ namespace Mono.CSharp {
CheckObsolete (expr_type);
- if (ec.RemapToProxy){
- Report.Error (-210, loc, "Fixed statement not allowed in iterators");
- return false;
- }
-
- data = new FixedData [declarators.Count];
+ data = new Emitter [declarators.Count];
if (!expr_type.IsPointer){
Report.Error (209, loc, "Variables in a fixed statement must be pointers");
@@ -3340,7 +3490,7 @@ namespace Mono.CSharp {
Expression e = (Expression) p.Second;
vi.VariableInfo.SetAssigned (ec);
- vi.ReadOnly = true;
+ vi.SetReadOnlyContext (LocalInfo.ReadOnlyContext.Fixed);
//
// The rules for the possible declarators are pretty wise,
@@ -3384,10 +3534,7 @@ namespace Mono.CSharp {
if (!TypeManager.VerifyUnManaged (child.Type, loc))
return false;
- data [i].is_object = true;
- data [i].expr = e;
- data [i].converted = null;
- data [i].vi = vi;
+ data [i] = new ExpressionEmitter (e, vi);
i++;
continue;
@@ -3415,17 +3562,14 @@ namespace Mono.CSharp {
// and T* is implicitly convertible to the
// pointer type given in the fixed statement.
//
- ArrayPtr array_ptr = new ArrayPtr (e, loc);
+ ArrayPtr array_ptr = new ArrayPtr (e, array_type, loc);
Expression converted = Convert.ImplicitConversionRequired (
ec, array_ptr, vi.VariableType, loc);
if (converted == null)
return false;
- data [i].is_object = false;
- data [i].expr = e;
- data [i].converted = converted;
- data [i].vi = vi;
+ data [i] = new ExpressionEmitter (converted, vi);
i++;
continue;
@@ -3435,14 +3579,30 @@ namespace Mono.CSharp {
// Case 3: string
//
if (e.Type == TypeManager.string_type){
- data [i].is_object = false;
- data [i].expr = e;
- data [i].converted = null;
- data [i].vi = vi;
+ data [i] = new StringEmitter (e, vi, loc);
i++;
continue;
}
+ // Case 4: fixed buffer
+ FieldExpr fe = e as FieldExpr;
+ if (fe != null) {
+ IFixedBuffer ff = AttributeTester.GetFixedBuffer (fe.FieldInfo);
+ if (ff != null) {
+ Expression fixed_buffer_ptr = new FixedBufferPtr (fe, ff.ElementType, loc);
+
+ Expression converted = Convert.ImplicitConversionRequired (
+ ec, fixed_buffer_ptr, vi.VariableType, loc);
+ if (converted == null)
+ return false;
+
+ data [i] = new ExpressionEmitter (converted, vi);
+ i++;
+
+ continue;
+ }
+ }
+
//
// For other cases, flag a `this is already fixed expression'
//
@@ -3472,60 +3632,8 @@ namespace Mono.CSharp {
protected override void DoEmit (EmitContext ec)
{
- ILGenerator ig = ec.ig;
-
- LocalBuilder [] clear_list = new LocalBuilder [data.Length];
-
for (int i = 0; i < data.Length; i++) {
- LocalInfo vi = data [i].vi;
-
- //
- // Case 1: & object.
- //
- if (data [i].is_object) {
- //
- // Store pointer in pinned location
- //
- data [i].expr.Emit (ec);
- ig.Emit (OpCodes.Stloc, vi.LocalBuilder);
- clear_list [i] = vi.LocalBuilder;
- continue;
- }
-
- //
- // Case 2: Array
- //
- if (data [i].expr.Type.IsArray){
- //
- // Store pointer in pinned location
- //
- data [i].converted.Emit (ec);
-
- ig.Emit (OpCodes.Stloc, vi.LocalBuilder);
- clear_list [i] = vi.LocalBuilder;
- continue;
- }
-
- //
- // Case 3: string
- //
- if (data [i].expr.Type == TypeManager.string_type){
- LocalBuilder pinned_string = TypeManager.DeclareLocalPinned (ig, TypeManager.string_type);
- clear_list [i] = pinned_string;
-
- data [i].expr.Emit (ec);
- ig.Emit (OpCodes.Stloc, pinned_string);
-
- Expression sptr = new StringPtr (pinned_string, loc);
- Expression converted = Convert.ImplicitConversionRequired (
- ec, sptr, vi.VariableType, loc);
-
- if (converted == null)
- continue;
-
- converted.Emit (ec);
- ig.Emit (OpCodes.Stloc, vi.LocalBuilder);
- }
+ data [i].Emit (ec);
}
statement.Emit (ec);
@@ -3533,18 +3641,13 @@ namespace Mono.CSharp {
if (has_ret)
return;
+ ILGenerator ig = ec.ig;
+
//
// Clear the pinned variable
//
for (int i = 0; i < data.Length; i++) {
- if (data [i].is_object || data [i].expr.Type.IsArray) {
- ig.Emit (OpCodes.Ldc_I4_0);
- ig.Emit (OpCodes.Conv_U);
- ig.Emit (OpCodes.Stloc, clear_list [i]);
- } else if (data [i].expr.Type == TypeManager.string_type){
- ig.Emit (OpCodes.Ldnull);
- ig.Emit (OpCodes.Stloc, clear_list [i]);
- }
+ data [i].EmitExit (ig);
}
}
}
@@ -3582,23 +3685,30 @@ namespace Mono.CSharp {
public override bool Resolve (EmitContext ec)
{
- if (type_expr != null) {
- TypeExpr te = type_expr.ResolveAsTypeTerminal (ec);
- if (te == null)
- return false;
+ bool was_catch = ec.InCatch;
+ ec.InCatch = true;
+ try {
+ if (type_expr != null) {
+ TypeExpr te = type_expr.ResolveAsTypeTerminal (ec);
+ if (te == null)
+ return false;
- type = te.Type;
+ type = te.ResolveType (ec);
- CheckObsolete (type);
+ CheckObsolete (type);
- if (type != TypeManager.exception_type && !type.IsSubclassOf (TypeManager.exception_type)){
- Error (155, "The type caught or thrown must be derived from System.Exception");
- return false;
- }
- } else
- type = null;
+ if (type != TypeManager.exception_type && !type.IsSubclassOf (TypeManager.exception_type)){
+ Error (155, "The type caught or thrown must be derived from System.Exception");
+ return false;
+ }
+ } else
+ type = null;
- return Block.Resolve (ec);
+ return Block.Resolve (ec);
+ }
+ finally {
+ ec.InCatch = was_catch;
+ }
}
}
@@ -3693,13 +3803,21 @@ namespace Mono.CSharp {
Fini, FlowBranching.SiblingType.Finally);
Report.Debug (1, "STARTED SIBLING FOR FINALLY", ec.CurrentBranching, vector);
-
+ bool was_finally = ec.InFinally;
+ ec.InFinally = true;
if (!Fini.Resolve (ec))
ok = false;
+ ec.InFinally = was_finally;
+
+ if (!ec.InIterator)
+ need_exc_block = true;
}
- ResolveFinally (branching);
- need_exc_block |= emit_finally;
+ if (ec.InIterator) {
+ ResolveFinally (branching);
+ need_exc_block |= emit_finally;
+ } else
+ emit_finally = Fini != null;
FlowBranching.Reachability reachability = ec.EndFlowBranching ();
@@ -3757,8 +3875,14 @@ namespace Mono.CSharp {
public override void EmitFinally (EmitContext ec)
{
- if (Fini != null){
+ if (Fini != null)
Fini.Emit (ec);
+ }
+
+ public bool HasCatch
+ {
+ get {
+ return General != null || Specific.Count > 0;
}
}
}
@@ -3852,11 +3976,11 @@ namespace Mono.CSharp {
bool ResolveExpression (EmitContext ec)
{
if (!TypeManager.ImplementsInterface (expr_type, TypeManager.idisposable_type)){
- conv = Convert.ImplicitConversionRequired (
- ec, expr, TypeManager.idisposable_type, loc);
-
- if (conv == null)
+ if (Convert.ImplicitConversion (ec, expr, TypeManager.idisposable_type, loc) == null) {
+ Report.Error (1674, loc, "'{0}': type used in a using statement must be implicitly convertible to 'System.IDisposable'",
+ TypeManager.CSharpName (expr_type));
return false;
+ }
}
return true;
@@ -4064,16 +4188,13 @@ namespace Mono.CSharp {
///
/// Implementation of the foreach C# statement
///
- public class Foreach : ExceptionStatement {
+ public class Foreach : Statement {
Expression type;
Expression variable;
Expression expr;
Statement statement;
- ForeachHelperMethods hm;
- Expression empty, conv;
- Type array_type, element_type;
- Type var_type;
- VariableStorage enumerator;
+ ArrayForeach array;
+ CollectionForeach collection;
public Foreach (Expression type, LocalVariableReference var, Expression expr,
Statement stmt, Location l)
@@ -4099,8 +4220,8 @@ namespace Mono.CSharp {
TypeExpr texpr = type.ResolveAsTypeTerminal (ec);
if (texpr == null)
return false;
-
- var_type = texpr.Type;
+
+ Type var_type = texpr.Type;
//
// We need an instance variable. Not sure this is the best
@@ -4111,629 +4232,666 @@ namespace Mono.CSharp {
//
if (!(expr.eclass == ExprClass.Variable || expr.eclass == ExprClass.Value ||
expr.eclass == ExprClass.PropertyAccess || expr.eclass == ExprClass.IndexerAccess)){
- error1579 (expr.Type);
+ CollectionForeach.error1579 (expr.Type, loc);
return false;
}
if (expr.Type.IsArray) {
- array_type = expr.Type;
- element_type = TypeManager.GetElementType (array_type);
-
- empty = new EmptyExpression (element_type);
+ array = new ArrayForeach (var_type, variable, expr, statement, loc);
+ return array.Resolve (ec);
} else {
- hm = ProbeCollectionType (ec, expr.Type);
- if (hm == null){
- error1579 (expr.Type);
- return false;
- }
-
- array_type = expr.Type;
- element_type = hm.element_type;
-
- empty = new EmptyExpression (hm.element_type);
+ collection = new CollectionForeach (
+ var_type, variable, expr, statement, loc);
+ return collection.Resolve (ec);
}
+ }
- bool ok = true;
+ protected override void DoEmit (EmitContext ec)
+ {
+ ILGenerator ig = ec.ig;
+
+ Label old_begin = ec.LoopBegin, old_end = ec.LoopEnd;
+ ec.LoopBegin = ig.DefineLabel ();
+ ec.LoopEnd = ig.DefineLabel ();
- ec.StartFlowBranching (FlowBranching.BranchingType.Loop, loc);
- ec.CurrentBranching.CreateSibling ();
+ if (collection != null)
+ collection.Emit (ec);
+ else
+ array.Emit (ec);
+
+ ec.LoopBegin = old_begin;
+ ec.LoopEnd = old_end;
+ }
- //
- //
- // FIXME: maybe we can apply the same trick we do in the
- // array handling to avoid creating empty and conv in some cases.
- //
- // Although it is not as important in this case, as the type
- // will not likely be object (what the enumerator will return).
- //
- conv = Convert.ExplicitConversion (ec, empty, var_type, loc);
- if (conv == null)
- ok = false;
+ protected class TemporaryVariable : Expression, IMemoryLocation
+ {
+ LocalInfo li;
- variable = variable.ResolveLValue (ec, empty);
- if (variable == null)
- ok = false;
+ public TemporaryVariable (Type type, Location loc)
+ {
+ this.type = type;
+ this.loc = loc;
+ eclass = ExprClass.Value;
+ }
- bool disposable = (hm != null) && hm.is_disposable;
- FlowBranchingException branching = null;
- if (disposable)
- branching = ec.StartFlowBranching (this);
+ public override Expression DoResolve (EmitContext ec)
+ {
+ if (li != null)
+ return this;
- if (!statement.Resolve (ec))
- ok = false;
+ TypeExpr te = new TypeExpression (type, loc);
+ li = ec.CurrentBlock.AddTemporaryVariable (te, loc);
+ if (!li.Resolve (ec))
+ return null;
- if (disposable) {
- ResolveFinally (branching);
- ec.EndFlowBranching ();
- } else
- emit_finally = true;
+ AnonymousContainer am = ec.CurrentAnonymousMethod;
+ if ((am != null) && am.IsIterator)
+ ec.CaptureVariable (li);
- ec.EndFlowBranching ();
+ return this;
+ }
- return ok;
- }
-
- //
- // Retrieves a `public bool MoveNext ()' method from the Type `t'
- //
- static MethodInfo FetchMethodMoveNext (Type t)
- {
- MemberList move_next_list;
-
- move_next_list = TypeContainer.FindMembers (
- t, MemberTypes.Method,
- BindingFlags.Public | BindingFlags.Instance,
- Type.FilterName, "MoveNext");
- if (move_next_list.Count == 0)
- return null;
+ public override void Emit (EmitContext ec)
+ {
+ ILGenerator ig = ec.ig;
- foreach (MemberInfo m in move_next_list){
- MethodInfo mi = (MethodInfo) m;
- Type [] args;
-
- args = TypeManager.GetArgumentTypes (mi);
- if (args != null && args.Length == 0){
- if (TypeManager.TypeToCoreType (mi.ReturnType) == TypeManager.bool_type)
- return mi;
+ if (li.FieldBuilder != null) {
+ ig.Emit (OpCodes.Ldarg_0);
+ ig.Emit (OpCodes.Ldfld, li.FieldBuilder);
+ } else {
+ ig.Emit (OpCodes.Ldloc, li.LocalBuilder);
}
}
- return null;
- }
-
- //
- // Retrieves a `public T get_Current ()' method from the Type `t'
- //
- static MethodInfo FetchMethodGetCurrent (Type t)
- {
- MemberList get_current_list;
-
- get_current_list = TypeContainer.FindMembers (
- t, MemberTypes.Method,
- BindingFlags.Public | BindingFlags.Instance,
- Type.FilterName, "get_Current");
- if (get_current_list.Count == 0)
- return null;
- foreach (MemberInfo m in get_current_list){
- MethodInfo mi = (MethodInfo) m;
- Type [] args;
+ public void EmitLoadAddress (EmitContext ec)
+ {
+ ILGenerator ig = ec.ig;
- args = TypeManager.GetArgumentTypes (mi);
- if (args != null && args.Length == 0)
- return mi;
+ if (li.FieldBuilder != null) {
+ ig.Emit (OpCodes.Ldarg_0);
+ ig.Emit (OpCodes.Ldflda, li.FieldBuilder);
+ } else {
+ ig.Emit (OpCodes.Ldloca, li.LocalBuilder);
+ }
}
- return null;
- }
- //
- // Retrieves a `public void Dispose ()' method from the Type `t'
- //
- static MethodInfo FetchMethodDispose (Type t)
- {
- MemberList dispose_list;
-
- dispose_list = TypeContainer.FindMembers (
- t, MemberTypes.Method,
- BindingFlags.Public | BindingFlags.Instance,
- Type.FilterName, "Dispose");
- if (dispose_list.Count == 0)
- return null;
+ public void Store (EmitContext ec, Expression right_side)
+ {
+ if (li.FieldBuilder != null)
+ ec.ig.Emit (OpCodes.Ldarg_0);
- foreach (MemberInfo m in dispose_list){
- MethodInfo mi = (MethodInfo) m;
- Type [] args;
-
- args = TypeManager.GetArgumentTypes (mi);
- if (args != null && args.Length == 0){
- if (mi.ReturnType == TypeManager.void_type)
- return mi;
+ right_side.Emit (ec);
+ if (li.FieldBuilder != null) {
+ ec.ig.Emit (OpCodes.Stfld, li.FieldBuilder);
+ } else {
+ ec.ig.Emit (OpCodes.Stloc, li.LocalBuilder);
}
}
- return null;
+
+ public void EmitThis (EmitContext ec)
+ {
+ if (li.FieldBuilder != null) {
+ ec.ig.Emit (OpCodes.Ldarg_0);
+ }
+ }
+
+ public void EmitStore (ILGenerator ig)
+ {
+ if (li.FieldBuilder != null)
+ ig.Emit (OpCodes.Stfld, li.FieldBuilder);
+ else
+ ig.Emit (OpCodes.Stloc, li.LocalBuilder);
+ }
+
+ public void AddressOf (EmitContext ec, AddressOp mode)
+ {
+ EmitLoadAddress (ec);
+ }
}
- //
- // This struct records the helper methods used by the Foreach construct
- //
- class ForeachHelperMethods {
- public EmitContext ec;
- public MethodInfo get_enumerator;
- public MethodInfo move_next;
- public MethodInfo get_current;
- public Type element_type;
- public Type enumerator_type;
- public bool is_disposable;
-
- public ForeachHelperMethods (EmitContext ec)
+ protected class ArrayCounter : TemporaryVariable
+ {
+ public ArrayCounter (Location loc)
+ : base (TypeManager.int32_type, loc)
+ { }
+
+ public void Initialize (EmitContext ec)
{
- this.ec = ec;
- this.element_type = TypeManager.object_type;
- this.enumerator_type = TypeManager.ienumerator_type;
- this.is_disposable = true;
+ EmitThis (ec);
+ ec.ig.Emit (OpCodes.Ldc_I4_0);
+ EmitStore (ec.ig);
+ }
+
+ public void Increment (EmitContext ec)
+ {
+ EmitThis (ec);
+ Emit (ec);
+ ec.ig.Emit (OpCodes.Ldc_I4_1);
+ ec.ig.Emit (OpCodes.Add);
+ EmitStore (ec.ig);
}
}
-
- static bool GetEnumeratorFilter (MemberInfo m, object criteria)
+
+ protected class ArrayForeach : Statement
{
- if (m == null)
- return false;
+ Expression variable, expr, conv;
+ Statement statement;
+ Type array_type;
+ Type var_type;
+ TemporaryVariable[] lengths;
+ ArrayCounter[] counter;
+ int rank;
- if (!(m is MethodInfo))
- return false;
-
- if (m.Name != "GetEnumerator")
- return false;
+ TemporaryVariable copy;
+ Expression access;
- MethodInfo mi = (MethodInfo) m;
- Type [] args = TypeManager.GetArgumentTypes (mi);
- if (args != null){
- if (args.Length != 0)
- return false;
+ public ArrayForeach (Type var_type, Expression var,
+ Expression expr, Statement stmt, Location l)
+ {
+ this.var_type = var_type;
+ this.variable = var;
+ this.expr = expr;
+ statement = stmt;
+ loc = l;
}
- ForeachHelperMethods hm = (ForeachHelperMethods) criteria;
- // Check whether GetEnumerator is public
- if ((mi.Attributes & MethodAttributes.Public) != MethodAttributes.Public)
- return false;
+ public override bool Resolve (EmitContext ec)
+ {
+ array_type = expr.Type;
+ rank = array_type.GetArrayRank ();
- if ((mi.ReturnType == TypeManager.ienumerator_type) && (mi.DeclaringType == TypeManager.string_type))
- //
- // Apply the same optimization as MS: skip the GetEnumerator
- // returning an IEnumerator, and use the one returning a
- // CharEnumerator instead. This allows us to avoid the
- // try-finally block and the boxing.
- //
- return false;
+ copy = new TemporaryVariable (array_type, loc);
+ copy.Resolve (ec);
- //
- // Ok, we can access it, now make sure that we can do something
- // with this `GetEnumerator'
- //
+ counter = new ArrayCounter [rank];
+ lengths = new TemporaryVariable [rank];
- Type return_type = mi.ReturnType;
- if (mi.ReturnType == TypeManager.ienumerator_type ||
- TypeManager.ienumerator_type.IsAssignableFrom (return_type) ||
- (!RootContext.StdLib && TypeManager.ImplementsInterface (return_type, TypeManager.ienumerator_type))) {
-
- //
- // If it is not an interface, lets try to find the methods ourselves.
- // For example, if we have:
- // public class Foo : IEnumerator { public bool MoveNext () {} public int Current { get {}}}
- // We can avoid the iface call. This is a runtime perf boost.
- // even bigger if we have a ValueType, because we avoid the cost
- // of boxing.
- //
- // We have to make sure that both methods exist for us to take
- // this path. If one of the methods does not exist, we will just
- // use the interface. Sadly, this complex if statement is the only
- // way I could do this without a goto
- //
-
- if (return_type.IsInterface ||
- (hm.move_next = FetchMethodMoveNext (return_type)) == null ||
- (hm.get_current = FetchMethodGetCurrent (return_type)) == null) {
-
- hm.move_next = TypeManager.bool_movenext_void;
- hm.get_current = TypeManager.object_getcurrent_void;
- return true;
- }
+ ArrayList list = new ArrayList ();
+ for (int i = 0; i < rank; i++) {
+ counter [i] = new ArrayCounter (loc);
+ counter [i].Resolve (ec);
- } else {
+ lengths [i] = new TemporaryVariable (TypeManager.int32_type, loc);
+ lengths [i].Resolve (ec);
- //
- // Ok, so they dont return an IEnumerable, we will have to
- // find if they support the GetEnumerator pattern.
- //
-
- hm.move_next = FetchMethodMoveNext (return_type);
- if (hm.move_next == null)
+ list.Add (counter [i]);
+ }
+
+ access = new ElementAccess (copy, list, loc).Resolve (ec);
+ if (access == null)
return false;
-
- hm.get_current = FetchMethodGetCurrent (return_type);
- if (hm.get_current == null)
+
+ conv = Convert.ExplicitConversion (ec, access, var_type, loc);
+ if (conv == null)
return false;
+
+ bool ok = true;
+
+ ec.StartFlowBranching (FlowBranching.BranchingType.Loop, loc);
+ ec.CurrentBranching.CreateSibling ();
+
+ variable = variable.ResolveLValue (ec, conv);
+ if (variable == null)
+ ok = false;
+
+ if (!statement.Resolve (ec))
+ ok = false;
+
+ ec.EndFlowBranching ();
+
+ return ok;
}
-
- hm.element_type = hm.get_current.ReturnType;
- hm.enumerator_type = return_type;
- hm.is_disposable = !hm.enumerator_type.IsSealed ||
- TypeManager.ImplementsInterface (
- hm.enumerator_type, TypeManager.idisposable_type);
- return true;
- }
-
- ///
- /// This filter is used to find the GetEnumerator method
- /// on which IEnumerator operates
- ///
- static MemberFilter FilterEnumerator;
-
- static Foreach ()
- {
- FilterEnumerator = new MemberFilter (GetEnumeratorFilter);
- }
+ protected override void DoEmit (EmitContext ec)
+ {
+ ILGenerator ig = ec.ig;
- void error1579 (Type t)
- {
- Report.Error (1579, loc,
- "foreach statement cannot operate on variables of type `" +
- t.FullName + "' because that class does not provide a " +
- " GetEnumerator method or it is inaccessible");
- }
+ copy.Store (ec, expr);
- static bool TryType (Type t, ForeachHelperMethods hm)
- {
- MemberList mi;
-
- mi = TypeContainer.FindMembers (t, MemberTypes.Method,
- BindingFlags.Public | BindingFlags.NonPublic |
- BindingFlags.Instance | BindingFlags.DeclaredOnly,
- FilterEnumerator, hm);
+ Label[] test = new Label [rank];
+ Label[] loop = new Label [rank];
- if (mi.Count == 0)
- return false;
+ for (int i = 0; i < rank; i++) {
+ test [i] = ig.DefineLabel ();
+ loop [i] = ig.DefineLabel ();
+
+ lengths [i].EmitThis (ec);
+ ((ArrayAccess) access).EmitGetLength (ec, i);
+ lengths [i].EmitStore (ig);
+ }
+
+ for (int i = 0; i < rank; i++) {
+ counter [i].Initialize (ec);
+
+ ig.Emit (OpCodes.Br, test [i]);
+ ig.MarkLabel (loop [i]);
+ }
+
+ ((IAssignMethod) variable).EmitAssign (ec, conv, false, false);
+
+ statement.Emit (ec);
- hm.get_enumerator = (MethodInfo) mi [0];
- return true;
+ ig.MarkLabel (ec.LoopBegin);
+
+ for (int i = rank - 1; i >= 0; i--){
+ counter [i].Increment (ec);
+
+ ig.MarkLabel (test [i]);
+ counter [i].Emit (ec);
+ lengths [i].Emit (ec);
+ ig.Emit (OpCodes.Blt, loop [i]);
+ }
+
+ ig.MarkLabel (ec.LoopEnd);
+ }
}
-
- //
- // Looks for a usable GetEnumerator in the Type, and if found returns
- // the three methods that participate: GetEnumerator, MoveNext and get_Current
- //
- ForeachHelperMethods ProbeCollectionType (EmitContext ec, Type t)
+
+ protected class CollectionForeach : ExceptionStatement
{
- ForeachHelperMethods hm = new ForeachHelperMethods (ec);
+ Expression variable, expr;
+ Statement statement;
- for (Type tt = t; tt != null && tt != TypeManager.object_type;){
- if (TryType (tt, hm))
- return hm;
- tt = tt.BaseType;
- }
+ TemporaryVariable enumerator;
+ Expression init;
+ Statement loop;
- //
- // Now try to find the method in the interfaces
- //
- while (t != null){
- Type [] ifaces = t.GetInterfaces ();
+ MethodGroupExpr get_enumerator;
+ PropertyExpr get_current;
+ MethodInfo move_next;
+ Type var_type, enumerator_type;
+ bool is_disposable;
+
+ public CollectionForeach (Type var_type, Expression var,
+ Expression expr, Statement stmt, Location l)
+ {
+ this.var_type = var_type;
+ this.variable = var;
+ this.expr = expr;
+ statement = stmt;
+ loc = l;
+ }
- foreach (Type i in ifaces){
- if (TryType (i, hm))
- return hm;
+ bool GetEnumeratorFilter (EmitContext ec, MethodInfo mi)
+ {
+ Type [] args = TypeManager.GetArgumentTypes (mi);
+ if (args != null){
+ if (args.Length != 0)
+ return false;
}
-
+
+ if (TypeManager.IsOverride (mi))
+ return false;
+
+ // Check whether GetEnumerator is public
+ if ((mi.Attributes & MethodAttributes.Public) != MethodAttributes.Public)
+ return false;
+
+ if ((mi.ReturnType == TypeManager.ienumerator_type) && (mi.DeclaringType == TypeManager.string_type))
+ //
+ // Apply the same optimization as MS: skip the GetEnumerator
+ // returning an IEnumerator, and use the one returning a
+ // CharEnumerator instead. This allows us to avoid the
+ // try-finally block and the boxing.
+ //
+ return false;
+
//
- // Since TypeBuilder.GetInterfaces only returns the interface
- // types for this type, we have to keep looping, but once
- // we hit a non-TypeBuilder (ie, a Type), then we know we are
- // done, because it returns all the types
+ // Ok, we can access it, now make sure that we can do something
+ // with this `GetEnumerator'
//
- if ((t is TypeBuilder))
- t = t.BaseType;
- else
- break;
- }
-
- return null;
- }
- //
- // FIXME: possible optimization.
- // We might be able to avoid creating `empty' if the type is the sam
- //
- bool EmitCollectionForeach (EmitContext ec)
- {
- ILGenerator ig = ec.ig;
+ Type return_type = mi.ReturnType;
+ if (mi.ReturnType == TypeManager.ienumerator_type ||
+ TypeManager.ienumerator_type.IsAssignableFrom (return_type) ||
+ (!RootContext.StdLib && TypeManager.ImplementsInterface (return_type, TypeManager.ienumerator_type))) {
+ //
+ // If it is not an interface, lets try to find the methods ourselves.
+ // For example, if we have:
+ // public class Foo : IEnumerator { public bool MoveNext () {} public int Current { get {}}}
+ // We can avoid the iface call. This is a runtime perf boost.
+ // even bigger if we have a ValueType, because we avoid the cost
+ // of boxing.
+ //
+ // We have to make sure that both methods exist for us to take
+ // this path. If one of the methods does not exist, we will just
+ // use the interface. Sadly, this complex if statement is the only
+ // way I could do this without a goto
+ //
- enumerator = new VariableStorage (ec, hm.enumerator_type);
- enumerator.EmitThis (ig);
- //
- // Instantiate the enumerator
- //
- if (expr.Type.IsValueType){
- IMemoryLocation ml = expr as IMemoryLocation;
- // Load the address of the value type.
- if (ml == null) {
- // This happens if, for example, you have a property
- // returning a struct which is IEnumerable
- LocalBuilder t = ec.GetTemporaryLocal (expr.Type);
- expr.Emit(ec);
- ig.Emit (OpCodes.Stloc, t);
- ig.Emit (OpCodes.Ldloca, t);
- ec.FreeTemporaryLocal (t, expr.Type);
- } else {
- ml.AddressOf (ec, AddressOp.Load);
+ if (return_type.IsInterface ||
+ !FetchMoveNext (ec, return_type) ||
+ !FetchGetCurrent (ec, return_type)) {
+ move_next = TypeManager.bool_movenext_void;
+ get_current = new PropertyExpr (
+ ec, TypeManager.ienumerator_getcurrent, loc);
+ return true;
}
-
- // Emit the call.
- if (hm.get_enumerator.DeclaringType.IsValueType) {
- // the method is declared on the value type
- ig.Emit (OpCodes.Call, hm.get_enumerator);
} else {
- // it is an interface method, so we must box
- ig.Emit (OpCodes.Box, expr.Type);
- ig.Emit (OpCodes.Callvirt, hm.get_enumerator);
+ //
+ // Ok, so they dont return an IEnumerable, we will have to
+ // find if they support the GetEnumerator pattern.
+ //
+
+ if (!FetchMoveNext (ec, return_type))
+ return false;
+
+ if (!FetchGetCurrent (ec, return_type))
+ return false;
}
- } else {
- expr.Emit (ec);
- ig.Emit (OpCodes.Callvirt, hm.get_enumerator);
+
+ enumerator_type = return_type;
+ is_disposable = !enumerator_type.IsSealed ||
+ TypeManager.ImplementsInterface (
+ enumerator_type, TypeManager.idisposable_type);
+
+ return true;
}
- enumerator.EmitStore (ig);
//
- // Protect the code in a try/finalize block, so that
- // if the beast implement IDisposable, we get rid of it
+ // Retrieves a `public bool MoveNext ()' method from the Type `t'
//
- if (hm.is_disposable && emit_finally)
- ig.BeginExceptionBlock ();
-
- Label end_try = ig.DefineLabel ();
-
- ig.MarkLabel (ec.LoopBegin);
-
- enumerator.EmitCall (ig, hm.move_next);
-
- ig.Emit (OpCodes.Brfalse, end_try);
+ bool FetchMoveNext (EmitContext ec, Type t)
+ {
+ MemberList move_next_list;
- if (ec.InIterator)
- ig.Emit (OpCodes.Ldarg_0);
-
- enumerator.EmitCall (ig, hm.get_current);
+ move_next_list = TypeContainer.FindMembers (
+ t, MemberTypes.Method,
+ BindingFlags.Public | BindingFlags.Instance,
+ Type.FilterName, "MoveNext");
+ if (move_next_list.Count == 0)
+ return false;
- if (ec.InIterator){
- conv.Emit (ec);
- ig.Emit (OpCodes.Stfld, ((LocalVariableReference) variable).local_info.FieldBuilder);
- } else
- ((IAssignMethod)variable).EmitAssign (ec, conv, false, false);
+ foreach (MemberInfo m in move_next_list){
+ MethodInfo mi = (MethodInfo) m;
+ Type [] args;
- statement.Emit (ec);
- ig.Emit (OpCodes.Br, ec.LoopBegin);
- ig.MarkLabel (end_try);
-
- // The runtime provides this for us.
- // ig.Emit (OpCodes.Leave, end);
+ args = TypeManager.GetArgumentTypes (mi);
+ if ((args != null) && (args.Length == 0) &&
+ TypeManager.TypeToCoreType (mi.ReturnType) == TypeManager.bool_type) {
+ move_next = mi;
+ return true;
+ }
+ }
+ return false;
+ }
+
//
- // Now the finally block
+ // Retrieves a `public T get_Current ()' method from the Type `t'
//
- if (hm.is_disposable) {
- DoEmitFinally (ec);
- if (emit_finally)
- ig.EndExceptionBlock ();
+ bool FetchGetCurrent (EmitContext ec, Type t)
+ {
+ PropertyExpr pe = Expression.MemberLookup (
+ ec, t, "Current", MemberTypes.Property,
+ Expression.AllBindingFlags, loc) as PropertyExpr;
+ if (pe == null)
+ return false;
+
+ get_current = pe;
+ return true;
}
- ig.MarkLabel (ec.LoopEnd);
- return false;
- }
+ //
+ // Retrieves a `public void Dispose ()' method from the Type `t'
+ //
+ static MethodInfo FetchMethodDispose (Type t)
+ {
+ MemberList dispose_list;
- public override void EmitFinally (EmitContext ec)
- {
- ILGenerator ig = ec.ig;
+ dispose_list = TypeContainer.FindMembers (
+ t, MemberTypes.Method,
+ BindingFlags.Public | BindingFlags.Instance,
+ Type.FilterName, "Dispose");
+ if (dispose_list.Count == 0)
+ return null;
- if (hm.enumerator_type.IsValueType) {
- enumerator.EmitThis (ig);
+ foreach (MemberInfo m in dispose_list){
+ MethodInfo mi = (MethodInfo) m;
+ Type [] args;
- MethodInfo mi = FetchMethodDispose (hm.enumerator_type);
- if (mi != null) {
- enumerator.EmitLoadAddress (ig);
- ig.Emit (OpCodes.Call, mi);
- } else {
- enumerator.EmitLoad (ig);
- ig.Emit (OpCodes.Box, hm.enumerator_type);
- ig.Emit (OpCodes.Callvirt, TypeManager.void_dispose_void);
+ args = TypeManager.GetArgumentTypes (mi);
+ if (args != null && args.Length == 0){
+ if (mi.ReturnType == TypeManager.void_type)
+ return mi;
+ }
}
- } else {
- Label call_dispose = ig.DefineLabel ();
+ return null;
+ }
- enumerator.EmitThis (ig);
- enumerator.EmitLoad (ig);
- ig.Emit (OpCodes.Isinst, TypeManager.idisposable_type);
- ig.Emit (OpCodes.Dup);
- ig.Emit (OpCodes.Brtrue_S, call_dispose);
- ig.Emit (OpCodes.Pop);
+ static public void error1579 (Type t, Location loc)
+ {
+ Report.Error (1579, loc, "foreach statement cannot operate on " +
+ "variables of type `{0}' because that class does " +
+ "not provide a GetEnumerator method or it is " +
+ "inaccessible", t.FullName);
+ }
- Label end_finally = ig.DefineLabel ();
- ig.Emit (OpCodes.Br, end_finally);
+ bool TryType (EmitContext ec, Type t)
+ {
+ MethodGroupExpr mg = Expression.MemberLookup (
+ ec, t, "GetEnumerator", MemberTypes.Method,
+ Expression.AllBindingFlags, loc) as MethodGroupExpr;
+ if (mg == null)
+ return false;
- ig.MarkLabel (call_dispose);
- ig.Emit (OpCodes.Callvirt, TypeManager.void_dispose_void);
- ig.MarkLabel (end_finally);
+ foreach (MethodBase mb in mg.Methods) {
+ if (!GetEnumeratorFilter (ec, (MethodInfo) mb))
+ continue;
- if (emit_finally)
- ig.Emit (OpCodes.Endfinally);
- }
- }
+ MethodInfo[] mi = new MethodInfo[] { (MethodInfo) mb };
+ get_enumerator = new MethodGroupExpr (mi, loc);
- //
- // FIXME: possible optimization.
- // We might be able to avoid creating `empty' if the type is the sam
- //
- bool EmitArrayForeach (EmitContext ec)
- {
- int rank = array_type.GetArrayRank ();
- ILGenerator ig = ec.ig;
-
- VariableStorage copy = new VariableStorage (ec, array_type);
-
- //
- // Make our copy of the array
- //
- copy.EmitThis (ig);
- expr.Emit (ec);
- copy.EmitStore (ig);
-
- if (rank == 1){
- VariableStorage counter = new VariableStorage (ec,TypeManager.int32_type);
+ if (t != expr.Type) {
+ expr = Convert.ExplicitConversion (
+ ec, expr, t, loc);
+ if (expr == null)
+ throw new InternalErrorException ();
+ }
- Label loop, test;
+ get_enumerator.InstanceExpression = expr;
+ get_enumerator.IsBase = t != expr.Type;
- counter.EmitThis (ig);
- ig.Emit (OpCodes.Ldc_I4_0);
- counter.EmitStore (ig);
- test = ig.DefineLabel ();
- ig.Emit (OpCodes.Br, test);
+ return true;
+ }
- loop = ig.DefineLabel ();
- ig.MarkLabel (loop);
+ return false;
+ }
- if (ec.InIterator)
- ig.Emit (OpCodes.Ldarg_0);
-
- copy.EmitThis (ig);
- copy.EmitLoad (ig);
- counter.EmitThis (ig);
- counter.EmitLoad (ig);
+ bool ProbeCollectionType (EmitContext ec, Type t)
+ {
+ for (Type tt = t; tt != null && tt != TypeManager.object_type;){
+ if (TryType (ec, tt))
+ return true;
+ tt = tt.BaseType;
+ }
//
- // Load the value, we load the value using the underlying type,
- // then we use the variable.EmitAssign to load using the proper cast.
+ // Now try to find the method in the interfaces
//
- ArrayAccess.EmitLoadOpcode (ig, element_type);
- if (ec.InIterator){
- conv.Emit (ec);
- ig.Emit (OpCodes.Stfld, ((LocalVariableReference) variable).local_info.FieldBuilder);
- } else
- ((IAssignMethod)variable).EmitAssign (ec, conv, false, false);
-
- statement.Emit (ec);
+ while (t != null){
+ Type [] ifaces = t.GetInterfaces ();
- ig.MarkLabel (ec.LoopBegin);
- counter.EmitThis (ig);
- counter.EmitThis (ig);
- counter.EmitLoad (ig);
- ig.Emit (OpCodes.Ldc_I4_1);
- ig.Emit (OpCodes.Add);
- counter.EmitStore (ig);
-
- ig.MarkLabel (test);
- counter.EmitThis (ig);
- counter.EmitLoad (ig);
- copy.EmitThis (ig);
- copy.EmitLoad (ig);
- ig.Emit (OpCodes.Ldlen);
- ig.Emit (OpCodes.Conv_I4);
- ig.Emit (OpCodes.Blt, loop);
- } else {
- VariableStorage [] dim_len = new VariableStorage [rank];
- VariableStorage [] dim_count = new VariableStorage [rank];
- Label [] loop = new Label [rank];
- Label [] test = new Label [rank];
- int dim;
+ foreach (Type i in ifaces){
+ if (TryType (ec, i))
+ return true;
+ }
- for (dim = 0; dim < rank; dim++){
- dim_len [dim] = new VariableStorage (ec, TypeManager.int32_type);
- dim_count [dim] = new VariableStorage (ec, TypeManager.int32_type);
- test [dim] = ig.DefineLabel ();
- loop [dim] = ig.DefineLabel ();
- }
-
- for (dim = 0; dim < rank; dim++){
- dim_len [dim].EmitThis (ig);
- copy.EmitThis (ig);
- copy.EmitLoad (ig);
- IntLiteral.EmitInt (ig, dim);
- ig.Emit (OpCodes.Callvirt, TypeManager.int_getlength_int);
- dim_len [dim].EmitStore (ig);
-
+ //
+ // Since TypeBuilder.GetInterfaces only returns the interface
+ // types for this type, we have to keep looping, but once
+ // we hit a non-TypeBuilder (ie, a Type), then we know we are
+ // done, because it returns all the types
+ //
+ if ((t is TypeBuilder))
+ t = t.BaseType;
+ else
+ break;
}
- for (dim = 0; dim < rank; dim++){
- dim_count [dim].EmitThis (ig);
- ig.Emit (OpCodes.Ldc_I4_0);
- dim_count [dim].EmitStore (ig);
- ig.Emit (OpCodes.Br, test [dim]);
- ig.MarkLabel (loop [dim]);
+ return false;
+ }
+
+ public override bool Resolve (EmitContext ec)
+ {
+ enumerator_type = TypeManager.ienumerator_type;
+ is_disposable = true;
+
+ if (!ProbeCollectionType (ec, expr.Type)) {
+ error1579 (expr.Type, loc);
+ return false;
}
- if (ec.InIterator)
- ig.Emit (OpCodes.Ldarg_0);
-
- copy.EmitThis (ig);
- copy.EmitLoad (ig);
- for (dim = 0; dim < rank; dim++){
- dim_count [dim].EmitThis (ig);
- dim_count [dim].EmitLoad (ig);
+ enumerator = new TemporaryVariable (enumerator_type, loc);
+ enumerator.Resolve (ec);
+
+ init = new Invocation (get_enumerator, new ArrayList (), loc);
+ init = init.Resolve (ec);
+ if (init == null)
+ return false;
+
+ Expression move_next_expr;
+ {
+ MemberInfo[] mi = new MemberInfo[] { move_next };
+ MethodGroupExpr mg = new MethodGroupExpr (mi, loc);
+ mg.InstanceExpression = enumerator;
+
+ move_next_expr = new Invocation (mg, new ArrayList (), loc);
}
+ get_current.InstanceExpression = enumerator;
+
+ Statement block = new CollectionForeachStatement (
+ var_type, variable, get_current, statement, loc);
+
+ loop = new While (move_next_expr, block, loc);
+
+ bool ok = true;
+
+ ec.StartFlowBranching (FlowBranching.BranchingType.Loop, loc);
+ ec.CurrentBranching.CreateSibling ();
+
+ FlowBranchingException branching = null;
+ if (is_disposable)
+ branching = ec.StartFlowBranching (this);
+
+ if (!loop.Resolve (ec))
+ ok = false;
+
+ if (is_disposable) {
+ ResolveFinally (branching);
+ ec.EndFlowBranching ();
+ } else
+ emit_finally = true;
+
+ ec.EndFlowBranching ();
+
+ return ok;
+ }
+
+ protected override void DoEmit (EmitContext ec)
+ {
+ ILGenerator ig = ec.ig;
+
+ enumerator.Store (ec, init);
+
//
- // FIXME: Maybe we can cache the computation of `get'?
+ // Protect the code in a try/finalize block, so that
+ // if the beast implement IDisposable, we get rid of it
//
- Type [] args = new Type [rank];
- MethodInfo get;
-
- for (int i = 0; i < rank; i++)
- args [i] = TypeManager.int32_type;
-
- ModuleBuilder mb = CodeGen.Module.Builder;
- get = mb.GetArrayMethod (
- array_type, "Get",
- CallingConventions.HasThis| CallingConventions.Standard,
- var_type, args);
- ig.Emit (OpCodes.Call, get);
- if (ec.InIterator){
- conv.Emit (ec);
- ig.Emit (OpCodes.Stfld, ((LocalVariableReference) variable).local_info.FieldBuilder);
- } else
- ((IAssignMethod)variable).EmitAssign (ec, conv, false, false);
- statement.Emit (ec);
- ig.MarkLabel (ec.LoopBegin);
- for (dim = rank - 1; dim >= 0; dim--){
- dim_count [dim].EmitThis (ig);
- dim_count [dim].EmitThis (ig);
- dim_count [dim].EmitLoad (ig);
- ig.Emit (OpCodes.Ldc_I4_1);
- ig.Emit (OpCodes.Add);
- dim_count [dim].EmitStore (ig);
-
- ig.MarkLabel (test [dim]);
- dim_count [dim].EmitThis (ig);
- dim_count [dim].EmitLoad (ig);
- dim_len [dim].EmitThis (ig);
- dim_len [dim].EmitLoad (ig);
- ig.Emit (OpCodes.Blt, loop [dim]);
+ if (is_disposable && emit_finally)
+ ig.BeginExceptionBlock ();
+
+ loop.Emit (ec);
+
+ //
+ // Now the finally block
+ //
+ if (is_disposable) {
+ DoEmitFinally (ec);
+ if (emit_finally)
+ ig.EndExceptionBlock ();
+ }
+ }
+
+
+ public override void EmitFinally (EmitContext ec)
+ {
+ ILGenerator ig = ec.ig;
+
+ if (enumerator_type.IsValueType) {
+ enumerator.Emit (ec);
+
+ MethodInfo mi = FetchMethodDispose (enumerator_type);
+ if (mi != null) {
+ enumerator.EmitLoadAddress (ec);
+ ig.Emit (OpCodes.Call, mi);
+ } else {
+ enumerator.Emit (ec);
+ ig.Emit (OpCodes.Box, enumerator_type);
+ ig.Emit (OpCodes.Callvirt, TypeManager.void_dispose_void);
+ }
+ } else {
+ Label call_dispose = ig.DefineLabel ();
+
+ enumerator.Emit (ec);
+ ig.Emit (OpCodes.Isinst, TypeManager.idisposable_type);
+ ig.Emit (OpCodes.Dup);
+ ig.Emit (OpCodes.Brtrue_S, call_dispose);
+ ig.Emit (OpCodes.Pop);
+
+ Label end_finally = ig.DefineLabel ();
+ ig.Emit (OpCodes.Br, end_finally);
+
+ ig.MarkLabel (call_dispose);
+ ig.Emit (OpCodes.Callvirt, TypeManager.void_dispose_void);
+ ig.MarkLabel (end_finally);
}
}
- ig.MarkLabel (ec.LoopEnd);
-
- return false;
}
-
- protected override void DoEmit (EmitContext ec)
+
+ protected class CollectionForeachStatement : Statement
{
- ILGenerator ig = ec.ig;
-
- Label old_begin = ec.LoopBegin, old_end = ec.LoopEnd;
- ec.LoopBegin = ig.DefineLabel ();
- ec.LoopEnd = ig.DefineLabel ();
-
- if (hm != null)
- EmitCollectionForeach (ec);
- else
- EmitArrayForeach (ec);
-
- ec.LoopBegin = old_begin;
- ec.LoopEnd = old_end;
+ Type type;
+ Expression variable, current, conv;
+ Statement statement;
+ Assign assign;
+
+ public CollectionForeachStatement (Type type, Expression variable,
+ Expression current, Statement statement,
+ Location loc)
+ {
+ this.type = type;
+ this.variable = variable;
+ this.current = current;
+ this.statement = statement;
+ this.loc = loc;
+ }
+
+ public override bool Resolve (EmitContext ec)
+ {
+ current = current.Resolve (ec);
+ if (current == null)
+ return false;
+
+ conv = Convert.ExplicitConversion (ec, current, type, loc);
+ if (conv == null)
+ return false;
+
+ assign = new Assign (variable, conv, loc);
+ if (assign.Resolve (ec) == null)
+ return false;
+
+ if (!statement.Resolve (ec))
+ return false;
+
+ return true;
+ }
+
+ protected override void DoEmit (EmitContext ec)
+ {
+ assign.EmitStatement (ec);
+ statement.Emit (ec);
+ }
}
}
}