// Copyright 2001, 2002, 2003 Ximian, Inc (http://www.ximian.com)
// Copyright 2004, 2005, 2006, 2007, 2008 Novell, Inc
//
+
using System;
using System.Threading;
-using System.Collections;
+using System.Collections.Generic;
using System.Reflection;
using System.Reflection.Emit;
using System.IO;
-using System.Globalization;
using System.Text;
+using System.Linq;
-namespace Mono.CSharp {
+namespace Mono.CSharp
+{
/// <summary>
/// Evaluator: provides an API to evaluate C# statements and
static string current_debug_name;
static int count;
static Thread invoke_thread;
-
- static ArrayList using_alias_list = new ArrayList ();
- internal static ArrayList using_list = new ArrayList ();
- static Hashtable fields = new Hashtable ();
- static Type interactive_base_class = typeof (InteractiveBase);
+ static Dictionary<string, Tuple<FieldSpec, FieldInfo>> fields = new Dictionary<string, Tuple<FieldSpec, FieldInfo>> ();
+
+ static TypeSpec interactive_base_class;
static Driver driver;
static bool inited;
- static CompilerContext ctx = new CompilerContext (new Report (new ConsoleReportPrinter ()));
+ static CompilerContext ctx;
+ static DynamicLoader loader;
+ static NamespaceEntry ns;
+
+ public static TextWriter MessageOutput = Console.Out;
/// <summary>
/// Optional initialization for the Evaluator.
InitAndGetStartupFiles (args);
}
+ internal static ReportPrinter SetPrinter (ReportPrinter report_printer)
+ {
+ return ctx.Report.SetPrinter (report_printer);
+ }
+
+ public static string [] InitAndGetStartupFiles (string [] args)
+ {
+ return InitAndGetStartupFiles (args, null);
+ }
/// <summary>
/// Optional initialization for the Evaluator.
///
/// This method return an array of strings that contains any
/// files that were specified in `args'.
+ ///
+ /// If the unknownOptionParser is not null, this function is invoked
+ /// with the current args array and the index of the option that is not
+ /// known. A value of true means that the value was processed, otherwise
+ /// it will be reported as an error
/// </remarks>
- public static string [] InitAndGetStartupFiles (string [] args)
+ public static string [] InitAndGetStartupFiles (string [] args, Func<string [], int, int> unknownOptionParser)
{
lock (evaluator_lock){
if (inited)
return new string [0];
-
- driver = Driver.Create (args, false, new ConsoleReportPrinter ());
- if (driver == null)
+
+ CompilerCallableEntryPoint.Reset ();
+ var r = new Report (new ConsoleReportPrinter ());
+ var cmd = new CommandLineParser (r);
+ if (unknownOptionParser != null)
+ cmd.UnknownOptionHandler += unknownOptionParser;
+
+ var settings = cmd.ParseArguments (args);
+
+ // TODO: Should use ReportPrinter with throw instead of this
+ if (settings == null || r.Errors > 0)
throw new Exception ("Failed to create compiler driver with the given arguments");
- RootContext.ToplevelTypes = new ModuleContainer (ctx, true);
-
- driver.ProcessDefaultConfig ();
+ ctx = new CompilerContext (settings, r) {
+ IsEvalutor = true
+ };
- ArrayList startup_files = new ArrayList ();
+ RootContext.ToplevelTypes = new ModuleContainer (ctx);
+
+ var startup_files = new List<string> ();
foreach (CompilationUnit file in Location.SourceFiles)
startup_files.Add (file.Path);
- CompilerCallableEntryPoint.Reset ();
- RootContext.ToplevelTypes = new ModuleContainer (ctx, true);
+ CompilerCallableEntryPoint.PartialReset ();
+
+ var importer = new ReflectionImporter (ctx.BuildinTypes);
+ loader = new DynamicLoader (importer, ctx);
+
+ RootContext.ToplevelTypes.SetDeclaringAssembly (new AssemblyDefinitionDynamic (RootContext.ToplevelTypes, "temp"));
+
+ loader.LoadReferences (RootContext.ToplevelTypes);
+ ctx.BuildinTypes.CheckDefinitions (RootContext.ToplevelTypes);
+ RootContext.ToplevelTypes.InitializePredefinedTypes ();
- driver.LoadReferences ();
- RootContext.EvalMode = true;
inited = true;
- return (string []) startup_files.ToArray (typeof (string));
+ return startup_files.ToArray ();
}
}
static void Reset ()
{
CompilerCallableEntryPoint.PartialReset ();
-
- //
- // PartialReset should not reset the core types, this is very redundant.
- //
- if (!TypeManager.InitCoreTypes (ctx))
- throw new Exception ("Failed to InitCoreTypes");
- TypeManager.InitOptionalCoreTypes (ctx);
Location.AddFile (null, "{interactive}");
Location.Initialize ();
current_debug_name = "interactive" + (count++) + ".dll";
- if (Environment.GetEnvironmentVariable ("SAVE") != null){
- CodeGen.Init (current_debug_name, current_debug_name, false, ctx);
- } else
- CodeGen.InitDynamic (ctx, current_debug_name);
}
/// <summary>
/// base class and the static members that are
/// available to your evaluated code.
/// </remarks>
- static public Type InteractiveBaseClass {
+ static public TypeSpec InteractiveBaseClass {
get {
- return interactive_base_class;
+ if (interactive_base_class != null)
+ return interactive_base_class;
+
+ return loader.Importer.ImportType (typeof (InteractiveBase));
}
+ }
- set {
- if (value == null)
- throw new ArgumentNullException ();
+ public static void SetInteractiveBaseClass (Type type)
+ {
+ if (type == null)
+ throw new ArgumentNullException ();
- lock (evaluator_lock)
- interactive_base_class = value;
- }
+ if (!inited)
+ throw new Exception ("Evaluator has to be initiated before seting custom InteractiveBase class");
+
+ lock (evaluator_lock)
+ interactive_base_class = loader.Importer.ImportType (type);
}
/// <summary>
compiled = null;
return null;
}
-
+
lock (evaluator_lock){
if (!inited)
Init ();
-
+ else
+ ctx.Report.Printer.Reset ();
+
+ // RootContext.ToplevelTypes = new ModuleContainer (ctx);
+
bool partial_input;
CSharpParser parser = ParseString (ParseMode.Silent, input, out partial_input);
if (parser == null){
return null;
}
- object parser_result = parser.InteractiveResult;
-
- if (!(parser_result is Class)){
- int errors = ctx.Report.Errors;
-
- NamespaceEntry.VerifyAllUsing ();
- if (errors == ctx.Report.Errors)
- parser.CurrentNamespace.Extract (using_alias_list, using_list);
- }
-
- compiled = CompileBlock (parser_result as Class, parser.undo, ctx.Report);
+#if STATIC
+ throw new NotSupportedException ();
+#else
+ Class parser_result = parser.InteractiveResult;
+ compiled = CompileBlock (parser_result, parser.undo, ctx.Report);
+ return null;
+#endif
}
-
- return null;
}
/// <summary>
// Either null (on error) or the compiled method.
return compiled;
}
-
+
//
// Todo: Should we handle errors, or expect the calling code to setup
// the recording themselves?
// The code execution does not need to keep the compiler lock
//
object retval = typeof (NoValueSet);
-
+
try {
invoke_thread = System.Threading.Thread.CurrentThread;
invoking = true;
return null;
}
- Class parser_result = parser.InteractiveResult as Class;
-
- if (parser_result == null){
- if (CSharpParser.yacc_verbose_flag != 0)
- Console.WriteLine ("Do not know how to cope with !Class yet");
- return null;
- }
+ Class parser_result = parser.InteractiveResult;
try {
- RootContext.ResolveTree ();
+ var a = new AssemblyDefinitionDynamic (RootContext.ToplevelTypes, "temp");
+ a.Create (AppDomain.CurrentDomain, AssemblyBuilderAccess.Run);
+ RootContext.ToplevelTypes.SetDeclaringAssembly (a);
+ RootContext.ToplevelTypes.CreateType ();
+ RootContext.ToplevelTypes.Define ();
+
+ parser_result.CreateType ();
+ parser_result.Define ();
if (ctx.Report.Errors != 0)
return null;
- RootContext.PopulateTypes ();
- if (ctx.Report.Errors != 0)
- return null;
-
MethodOrOperator method = null;
foreach (MemberCore member in parser_result.Methods){
if (member.Name != "Host")
BlockContext bc = new BlockContext (method, method.Block, method.ReturnType);
try {
- method.Block.Resolve (null, bc, method.ParameterInfo, method);
+ method.Block.Resolve (null, bc, method);
} catch (CompletionResult cr){
prefix = cr.BaseText;
return cr.Result;
- }
+ }
} finally {
- parser.undo.ExecuteUndo ();
+ if (parser.undo != null)
+ parser.undo.ExecuteUndo ();
}
}
return null;
}
-
+
/// <summary>
/// Executes the given expression or statement.
/// </summary>
return result;
}
-
+
enum InputKind {
EOF,
StatementOrExpression,
partial_input = false;
Reset ();
queued_fields.Clear ();
+ Tokenizer.LocatedToken.Initialize ();
Stream s = new MemoryStream (Encoding.Default.GetBytes (input));
SeekableStreamReader seekable = new SeekableStreamReader (s, Encoding.Default);
}
seekable.Position = 0;
- CSharpParser parser = new CSharpParser (seekable, (CompilationUnit) Location.SourceFiles [0], ctx);
+ if (ns == null)
+ ns = new NamespaceEntry (RootContext.ToplevelTypes, null, Location.SourceFiles[0], null);
+
+ CSharpParser parser = new CSharpParser (seekable, Location.SourceFiles [0], RootContext.ToplevelTypes, ns);
if (kind == InputKind.StatementOrExpression){
parser.Lexer.putback_char = Tokenizer.EvalStatementParserCharacter;
- RootContext.StatementMode = true;
+ ctx.Settings.StatementMode = true;
} else {
- //
- // Do not activate EvalCompilationUnitParserCharacter until
- // I have figured out all the limitations to invoke methods
- // in the generated classes. See repl.txt
- //
- parser.Lexer.putback_char = Tokenizer.EvalUsingDeclarationsParserCharacter;
- //parser.Lexer.putback_char = Tokenizer.EvalCompilationUnitParserCharacter;
- RootContext.StatementMode = false;
+ parser.Lexer.putback_char = Tokenizer.EvalCompilationUnitParserCharacter;
+ ctx.Settings.StatementMode = false;
}
if (mode == ParseMode.GetCompletions)
parser.Lexer.CompleteOnEOF = true;
- bool disable_error_reporting;
+ ReportPrinter old_printer = null;
if ((mode == ParseMode.Silent || mode == ParseMode.GetCompletions) && CSharpParser.yacc_verbose_flag == 0)
- disable_error_reporting = true;
- else
- disable_error_reporting = false;
-
- if (disable_error_reporting)
- ctx.Report.DisableReporting ();
+ old_printer = SetPrinter (new StreamReportPrinter (TextWriter.Null));
+
try {
parser.parse ();
} finally {
if (mode != ParseMode.ReportErrors && parser.UnexpectedEOF)
partial_input = true;
- parser.undo.ExecuteUndo ();
+ if (parser.undo != null)
+ parser.undo.ExecuteUndo ();
+
parser = null;
}
- if (disable_error_reporting)
- ctx.Report.EnableReporting ();
+ if (old_printer != null)
+ SetPrinter (old_printer);
}
return parser;
}
// or reflection gets confused (it basically gets confused, and variables override each
// other).
//
- static ArrayList queued_fields = new ArrayList ();
+ static List<Field> queued_fields = new List<Field> ();
//static ArrayList types = new ArrayList ();
static volatile bool invoking;
-
+#if !STATIC
static CompiledMethod CompileBlock (Class host, Undo undo, Report Report)
{
- RootContext.ResolveTree ();
- if (Report.Errors != 0){
- undo.ExecuteUndo ();
- return null;
+ AssemblyDefinitionDynamic assembly;
+ AssemblyBuilderAccess access;
+
+ if (Environment.GetEnvironmentVariable ("SAVE") != null) {
+ access = AssemblyBuilderAccess.RunAndSave;
+ assembly = new AssemblyDefinitionDynamic (RootContext.ToplevelTypes, current_debug_name, current_debug_name);
+ assembly.Importer = loader.Importer;
+ } else {
+#if NET_4_0
+ access = AssemblyBuilderAccess.RunAndCollect;
+#else
+ access = AssemblyBuilderAccess.Run;
+#endif
+ assembly = new AssemblyDefinitionDynamic (RootContext.ToplevelTypes, current_debug_name);
}
-
- RootContext.PopulateTypes ();
+
+ assembly.Create (AppDomain.CurrentDomain, access);
+
+ if (host != null) {
+ host.CreateType ();
+ host.Define ();
+ }
+
+ RootContext.ToplevelTypes.CreateType ();
+ RootContext.ToplevelTypes.Define ();
if (Report.Errors != 0){
- undo.ExecuteUndo ();
+ if (undo != null)
+ undo.ExecuteUndo ();
+
return null;
}
if (mb == null)
throw new Exception ("Internal error: did not find the method builder for the generated method");
+
+ host.EmitType ();
}
- RootContext.EmitCode ();
- if (Report.Errors != 0)
+ RootContext.ToplevelTypes.Emit ();
+ if (Report.Errors != 0){
+ if (undo != null)
+ undo.ExecuteUndo ();
return null;
-
- RootContext.CloseTypes ();
+ }
- if (Environment.GetEnvironmentVariable ("SAVE") != null)
- CodeGen.Save (current_debug_name, false, Report);
+ RootContext.ToplevelTypes.CloseType ();
+ if (host != null)
+ host.CloseType ();
+
+ if (access == AssemblyBuilderAccess.RunAndSave)
+ assembly.Save ();
if (host == null)
return null;
// Unlike Mono, .NET requires that the MethodInfo is fetched, it cant
// work from MethodBuilders. Retarded, I know.
//
- Type tt = CodeGen.Assembly.Builder.GetType (tb.Name);
+ var tt = assembly.Builder.GetType (tb.Name);
MethodInfo mi = tt.GetMethod (mb.Name);
// Pull the FieldInfos from the type, and keep track of them
foreach (Field field in queued_fields){
FieldInfo fi = tt.GetField (field.Name);
-
- FieldInfo old = (FieldInfo) fields [field.Name];
+
+ Tuple<FieldSpec, FieldInfo> old;
// If a previous value was set, nullify it, so that we do
// not leak memory
- if (old != null){
- if (TypeManager.IsStruct (old.FieldType)){
+ if (fields.TryGetValue (field.Name, out old)) {
+ if (old.Item1.MemberType.IsStruct) {
//
// TODO: Clear fields for structs
//
} else {
try {
- old.SetValue (null, null);
+ old.Item2.SetValue (null, null);
} catch {
}
}
+
+ fields [field.Name] = Tuple.Create (field.Spec, fi);
+ } else {
+ fields.Add (field.Name, Tuple.Create (field.Spec, fi));
}
-
- fields [field.Name] = fi;
}
- //types.Add (tb);
-
queued_fields.Clear ();
return (CompiledMethod) System.Delegate.CreateDelegate (typeof (CompiledMethod), mi);
}
-
- static internal void LoadAliases (NamespaceEntry ns)
- {
- ns.Populate (using_alias_list, using_list);
- }
-
+#endif
+
/// <summary>
/// A sentinel value used to indicate that no value was
/// was set by the compiled function. This is used to
public class NoValueSet {
}
- static internal FieldInfo LookupField (string name)
+ static internal Tuple<FieldSpec, FieldInfo> LookupField (string name)
{
- FieldInfo fi = (FieldInfo) fields [name];
-
+ Tuple<FieldSpec, FieldInfo> fi;
+ fields.TryGetValue (name, out fi);
return fi;
}
static public string GetUsing ()
{
lock (evaluator_lock){
+ if (ns == null)
+ return null;
+
StringBuilder sb = new StringBuilder ();
-
- foreach (object x in using_alias_list)
- sb.Append (String.Format ("using {0};\n", x));
-
- foreach (object x in using_list)
- sb.Append (String.Format ("using {0};\n", x));
+ // TODO:
+ //foreach (object x in ns.using_alias_list)
+ // sb.AppendFormat ("using {0};\n", x);
+
+ foreach (var ue in ns.Usings) {
+ sb.AppendFormat ("using {0};", ue.ToString ());
+ sb.Append (Environment.NewLine);
+ }
return sb.ToString ();
}
}
- static internal ICollection GetUsingList ()
+ static internal ICollection<string> GetUsingList ()
{
- ArrayList res = new ArrayList (using_list.Count);
- foreach (object ue in using_list)
+ var res = new List<string> ();
+
+ foreach (var ue in ns.Usings)
res.Add (ue.ToString ());
return res;
}
static internal string [] GetVarNames ()
{
lock (evaluator_lock){
- return (string []) new ArrayList (fields.Keys).ToArray (typeof (string));
+ return new List<string> (fields.Keys).ToArray ();
}
}
lock (evaluator_lock){
StringBuilder sb = new StringBuilder ();
- foreach (DictionaryEntry de in fields){
- FieldInfo fi = LookupField ((string) de.Key);
- object value = null;
- bool error = false;
-
+ foreach (var de in fields){
+ var fi = LookupField (de.Key);
+ object value;
try {
- if (value == null)
- value = "null";
- value = fi.GetValue (null);
+ value = fi.Item2.GetValue (null);
if (value is string)
value = Quote ((string)value);
} catch {
- error = true;
+ value = "<error reading value>";
}
-
- if (error)
- sb.Append (String.Format ("{0} {1} <error reading value>", TypeManager.CSharpName(fi.FieldType), de.Key));
- else
- sb.Append (String.Format ("{0} {1} = {2}", TypeManager.CSharpName(fi.FieldType), de.Key, value));
+
+ sb.AppendFormat ("{0} {1} = {2}", fi.Item1.MemberType.GetSignatureForError (), de.Key, value);
+ sb.AppendLine ();
}
return sb.ToString ();
static public void LoadAssembly (string file)
{
lock (evaluator_lock){
- driver.LoadAssembly (file, false);
- GlobalRootNamespace.Instance.ComputeNamespaces (ctx);
+ var a = loader.LoadAssemblyFile (file);
+ if (a != null)
+ loader.Importer.ImportAssembly (a, RootContext.ToplevelTypes.GlobalRootNamespace);
}
}
static public void ReferenceAssembly (Assembly a)
{
lock (evaluator_lock){
- GlobalRootNamespace.Instance.AddAssemblyReference (a);
- GlobalRootNamespace.Instance.ComputeNamespaces (ctx);
+ loader.Importer.ImportAssembly (a, RootContext.ToplevelTypes.GlobalRootNamespace);
}
}
-
+
+ /// <summary>
+ /// If true, turns type expressions into valid expressions
+ /// and calls the describe method on it
+ /// </summary>
+ public static bool DescribeTypeExpressions;
}
return DateTime.Now - start;
}
-#if !SMCS_SOURCE
+#if !STATIC
/// <summary>
/// Loads the assemblies from a package
/// </summary>
}
#endif
+#if !STATIC
/// <summary>
/// Loads the assembly
/// </summary>
{
Evaluator.LoadAssembly (assembly);
}
+
+ static public void print (string obj)
+ {
+ Output.WriteLine (obj);
+ }
+
+ static public void print (string fmt, params object [] args)
+ {
+ Output.WriteLine (fmt, args);
+ }
+#endif
/// <summary>
/// Returns a list of available static methods.
/// </summary>
static public string help {
get {
- return "Static methods:\n"+
- " Describe(obj) - Describes the object's type\n" +
- " LoadPackage (pkg); - Loads the given Package (like -pkg:FILE)\n" +
- " LoadAssembly (ass) - Loads the given assembly (like -r:ASS)\n" +
- " ShowVars (); - Shows defined local variables.\n" +
- " ShowUsing (); - Show active using decltions.\n" +
- " Prompt - The prompt used by the C# shell\n" +
- " ContinuationPrompt - The prompt for partial input\n" +
- " Time(() -> { }) - Times the specified code\n" +
- " quit;\n" +
- " help;\n";
+ return "Static methods:\n" +
+ " Describe (object) - Describes the object's type\n" +
+ " LoadPackage (package); - Loads the given Package (like -pkg:FILE)\n" +
+ " LoadAssembly (assembly) - Loads the given assembly (like -r:ASSEMBLY)\n" +
+ " ShowVars (); - Shows defined local variables.\n" +
+ " ShowUsing (); - Show active using declarations.\n" +
+ " Prompt - The prompt used by the C# shell\n" +
+ " ContinuationPrompt - The prompt for partial input\n" +
+ " Time(() -> { }) - Times the specified code\n" +
+ " print (obj) - Shorthand for Console.WriteLine\n" +
+ " quit; - You'll never believe it - this quits the repl!\n" +
+ " help; - This help text\n";
}
}
static public object quit {
get {
QuitRequested = true;
- return null;
+
+ // To avoid print null at the exit
+ return typeof (Evaluator.NoValueSet);
}
}
static public string Describe (object x)
{
if (x == null)
- return "";
-
- Type t = x as Type;
- if (t == null)
- t = x.GetType ();
+ return "<null>";
+
+ var type = x as Type ?? x.GetType ();
StringWriter sw = new StringWriter ();
- new Outline (t, sw, true, false, false).OutlineType ();
+ new Outline (type, sw, true, false, false).OutlineType ();
return sw.ToString ();
}
#endif
}
- //
- // A local variable reference that will create a Field in a
- // Class with the resolved type. This is necessary so we can
- // support "var" as a field type in a class declaration.
- //
- // We allow LocalVariableReferece to do the heavy lifting, and
- // then we insert the field with the resolved type
- //
- public class LocalVariableReferenceWithClassSideEffect : LocalVariableReference {
- TypeContainer container;
- string name;
-
- public LocalVariableReferenceWithClassSideEffect (TypeContainer container, string name, Block current_block, string local_variable_id, LocalInfo li, Location loc)
- : base (current_block, local_variable_id, loc, li, false)
+ class HoistedEvaluatorVariable : HoistedVariable
+ {
+ public HoistedEvaluatorVariable (Field field)
+ : base (null, field)
{
- this.container = container;
- this.name = name;
}
- public override bool Equals (object obj)
+ public override void EmitSymbolInfo ()
{
- LocalVariableReferenceWithClassSideEffect lvr = obj as LocalVariableReferenceWithClassSideEffect;
- if (lvr == null)
- return false;
-
- if (lvr.name != name || lvr.container != container)
- return false;
-
- return base.Equals (obj);
}
- public override int GetHashCode ()
+ protected override FieldExpr GetFieldExpression (EmitContext ec)
{
- return name.GetHashCode ();
- }
-
- override public Expression DoResolveLValue (ResolveContext ec, Expression right_side)
- {
- Expression ret = base.DoResolveLValue (ec, right_side);
- if (ret == null)
- return null;
-
- Field f = new Field (container, new TypeExpression (ret.Type, Location),
- Modifiers.PUBLIC | Modifiers.STATIC,
- new MemberName (name, Location), null);
- container.AddField (f);
- if (f.Define ())
- Evaluator.QueueField (f);
-
- return ret;
+ return new FieldExpr (field, field.Location);
}
}
{
}
- public override Expression DoResolve (ResolveContext ec)
+ protected override Expression DoResolve (ResolveContext ec)
{
CloneContext cc = new CloneContext ();
Expression clone = source.Clone (cc);
- clone = clone.Resolve (ec);
- if (clone == null)
- return null;
-
+ //
+ // A useful feature for the REPL: if we can resolve the expression
+ // as a type, Describe the type;
+ //
+ if (Evaluator.DescribeTypeExpressions){
+ var old_printer = Evaluator.SetPrinter (new StreamReportPrinter (TextWriter.Null));
+ clone = clone.Resolve (ec);
+ if (clone == null){
+ clone = source.Clone (cc);
+ clone = clone.Resolve (ec, ResolveFlags.Type);
+ if (clone == null){
+ Evaluator.SetPrinter (old_printer);
+ clone = source.Clone (cc);
+ clone = clone.Resolve (ec);
+ return null;
+ }
+
+ Arguments args = new Arguments (1);
+ args.Add (new Argument (new TypeOf ((TypeExpr) clone, Location)));
+ source = new Invocation (new SimpleName ("Describe", Location), args).Resolve (ec);
+ }
+ Evaluator.SetPrinter (old_printer);
+ } else {
+ clone = clone.Resolve (ec);
+ if (clone == null)
+ return null;
+ }
+
// This means its really a statement.
- if (clone.Type == TypeManager.void_type){
- source = source.Resolve (ec);
- target = null;
- type = TypeManager.void_type;
- eclass = ExprClass.Value;
- return this;
+ if (clone.Type == TypeManager.void_type || clone is DynamicInvocation || clone is Assign) {
+ return clone;
}
return base.DoResolve (ec);
}
-
- public override void Emit (EmitContext ec)
- {
- if (target == null)
- source.Emit (ec);
- else
- base.Emit (ec);
- }
-
- public override void EmitStatement (EmitContext ec)
- {
- if (target == null)
- source.Emit (ec);
- else
- base.EmitStatement (ec);
- }
}
- public class Undo {
- ArrayList undo_types;
+ public class Undo
+ {
+ List<Action> undo_actions;
public Undo ()
{
- undo_types = new ArrayList ();
}
public void AddTypeContainer (TypeContainer current_container, TypeContainer tc)
Console.Error.WriteLine ("Internal error: inserting container into itself");
return;
}
-
- if (undo_types == null)
- undo_types = new ArrayList ();
- undo_types.Add (new Pair (current_container, tc));
+
+ if (undo_actions == null)
+ undo_actions = new List<Action> ();
+
+ var existing = current_container.Types.FirstOrDefault (l => l.MemberName.Basename == tc.MemberName.Basename);
+ if (existing != null) {
+ current_container.RemoveTypeContainer (existing);
+ undo_actions.Add (() => current_container.AddTypeContainer (existing));
+ }
+
+ undo_actions.Add (() => current_container.RemoveTypeContainer (tc));
}
public void ExecuteUndo ()
{
- if (undo_types == null)
+ if (undo_actions == null)
return;
- foreach (Pair p in undo_types){
- TypeContainer current_container = (TypeContainer) p.First;
-
- current_container.RemoveTypeContainer ((TypeContainer) p.Second);
+ foreach (var p in undo_actions){
+ p ();
}
- undo_types = null;
+
+ undo_actions = null;
}
}
}
-