public override ReturnCode Execute(
Interpreter interpreter,
IClientData clientData,
ArgumentList arguments,
ref Result result
)
{
ReturnCode code = ReturnCode.Ok;
if (interpreter != null)
{
if (arguments != null)
{
if (arguments.Count >= 2)
{
StringBuilder builder = null;
code = StringOps.AppendWithFormat(
interpreter, arguments[1], ArgumentList.GetRange(arguments, 2),
interpreter.CultureInfo, ref builder, ref result);
if (code == ReturnCode.Ok)
{
result = builder;
}
}
else
{
result = "wrong # args: should be \"format formatString ?arg ...?\"";
code = ReturnCode.Error;
}
}
else
{
result = "invalid argument list";
code = ReturnCode.Error;
}
}
else
{
result = "invalid interpreter";
code = ReturnCode.Error;
}
return(code);
}
///////////////////////////////////////////////////////////////////////
#region IExecute Members
public override ReturnCode Execute(
Interpreter interpreter,
IClientData clientData,
ArgumentList arguments,
ref Result result
)
{
ReturnCode code;
//
// NOTE: *WARNING* We do NOT actually support namespaces. This
// command exists for the sole purpose of improving source
// code compatibility with simple stand alone scripts that
// may simply wrap themselves in a "namespace eval" block,
// etc. Any other (more involved) use may not work at all
// or may cause undesired and/or unpredictable results.
//
if (interpreter != null)
{
if (arguments != null)
{
if (arguments.Count >= 2)
{
string subCommand = arguments[1];
bool tried = false;
code = ScriptOps.TryExecuteSubCommandFromEnsemble(
interpreter, this, clientData, arguments, true,
false, ref subCommand, ref tried, ref result);
if ((code == ReturnCode.Ok) && !tried)
{
switch (subCommand)
{
case "children":
{
if ((arguments.Count >= 2) && (arguments.Count <= 4))
{
string name = null;
if (arguments.Count >= 3)
{
name = arguments[2];
}
string pattern = null;
if (arguments.Count >= 4)
{
pattern = arguments[3];
}
IEnumerable <INamespace> children = NamespaceOps.Children(
interpreter, name, pattern, false, ref result);
if (children != null)
{
StringList list = new StringList();
foreach (INamespace child in children)
{
list.Add(child.QualifiedName);
}
result = list;
}
else
{
code = ReturnCode.Error;
}
}
else
{
result = "wrong # args: should be \"namespace children ?name? ?pattern?\"";
code = ReturnCode.Error;
}
break;
}
case "code":
{
if (arguments.Count == 3)
{
string text = arguments[2];
if (!NamespaceOps.IsSubCommand(interpreter, text, "inscope"))
{
INamespace currentNamespace = null;
code = interpreter.GetCurrentNamespaceViaResolvers(
null, LookupFlags.Default, ref currentNamespace,
ref result);
if (code == ReturnCode.Ok)
{
StringList list = new StringList();
list.Add(NamespaceOps.MakeAbsoluteName(
this.Name));
list.Add("inscope");
list.Add(NamespaceOps.MakeAbsoluteName(
currentNamespace.QualifiedName));
list.Add(text);
result = list;
}
}
else
{
result = text; /* COMPAT: Tcl. */
}
}
else
{
result = "wrong # args: should be \"namespace code script\"";
code = ReturnCode.Error;
}
break;
}
case "current":
{
if (arguments.Count == 2)
{
INamespace currentNamespace = null;
code = interpreter.GetCurrentNamespaceViaResolvers(
null, LookupFlags.Default, ref currentNamespace,
ref result);
if (code == ReturnCode.Ok)
{
if (currentNamespace != null)
{
result = currentNamespace.QualifiedName;
}
else
{
result = "current namespace is invalid";
code = ReturnCode.Error;
}
}
}
else
{
result = "wrong # args: should be \"namespace current\"";
code = ReturnCode.Error;
}
break;
}
case "delete":
{
if (arguments.Count >= 2)
{
for (int index = 2; index < arguments.Count; index++)
{
code = interpreter.DeleteNamespace(
VariableFlags.None, arguments[index], false,
ref result);
if (code != ReturnCode.Ok)
{
break;
}
}
if (code == ReturnCode.Ok)
{
result = String.Empty;
}
}
else
{
result = "wrong # args: should be \"namespace delete ?name name ...?\"";
code = ReturnCode.Error;
}
break;
}
case "enable":
{
if ((arguments.Count >= 2) && (arguments.Count <= 4))
{
if (arguments.Count >= 3)
{
bool enabled = false;
code = Value.GetBoolean2(
arguments[2], ValueFlags.AnyBoolean,
interpreter.CultureInfo, ref enabled, ref result);
bool force = false;
if ((code == ReturnCode.Ok) && (arguments.Count >= 4))
{
code = Value.GetBoolean2(
arguments[3], ValueFlags.AnyBoolean,
interpreter.CultureInfo, ref force, ref result);
}
if (code == ReturnCode.Ok)
{
code = NamespaceOps.Enable(
interpreter, enabled, force, ref result);
}
}
if (code == ReturnCode.Ok)
{
result = interpreter.AreNamespacesEnabled();
}
}
else
{
result = "wrong # args: should be \"namespace enable ?enabled? ?force?\"";
code = ReturnCode.Error;
}
break;
}
case "eval":
{
if (arguments.Count >= 4)
{
string namespaceName = NamespaceOps.MapName(
interpreter, arguments[2]);
INamespace @namespace = NamespaceOps.Lookup(
interpreter, namespaceName, false, true,
ref result);
if (@namespace != null)
{
string name = StringList.MakeList("namespace eval", @namespace.QualifiedName);
ICallFrame frame = interpreter.NewNamespaceCallFrame(
name, CallFrameFlags.Evaluate | CallFrameFlags.UseNamespace,
arguments, @namespace, false);
interpreter.PushNamespaceCallFrame(frame);
if (arguments.Count == 4)
{
code = interpreter.EvaluateScript(arguments[3], ref result);
}
else
{
code = interpreter.EvaluateScript(arguments, 3, ref result);
}
if (code == ReturnCode.Error)
{
Engine.AddErrorInformation(interpreter, result,
String.Format("{0} (in namespace eval \"{1}\" script line {2})",
Environment.NewLine, NamespaceOps.MaybeQualifiedName(@namespace,
true), Interpreter.GetErrorLine(interpreter)));
}
/* IGNORED */
interpreter.PopNamespaceCallFrame(frame);
/* NO RESULT */
Engine.CleanupNamespacesOrComplain(interpreter);
}
else
{
code = ReturnCode.Error;
}
}
else
{
result = "wrong # args: should be \"namespace eval name arg ?arg ...?\"";
code = ReturnCode.Error;
}
break;
}
case "exists":
{
if (arguments.Count == 3)
{
result = ConversionOps.ToInt(NamespaceOps.Lookup(
interpreter, arguments[2], false, false) != null);
}
else
{
result = "wrong # args: should be \"namespace exists name\"";
code = ReturnCode.Error;
}
break;
}
case "export":
{
if (arguments.Count >= 2)
{
OptionDictionary options = new OptionDictionary(
new IOption[] {
new Option(null, OptionFlags.None, Index.Invalid, Index.Invalid, "-clear", null),
new Option(null, OptionFlags.None, Index.Invalid, Index.Invalid, Option.EndOfOptions, null)
});
int argumentIndex = Index.Invalid;
if (arguments.Count > 2)
{
code = interpreter.GetOptions(options, arguments, 0, 2, Index.Invalid, false, ref argumentIndex, ref result);
}
else
{
code = ReturnCode.Ok;
}
if (code == ReturnCode.Ok)
{
bool clear = false;
if (options.IsPresent("-clear"))
{
clear = true;
}
StringList patterns = new StringList();
if (argumentIndex != Index.Invalid)
{
patterns.AddObjects(ArgumentList.GetRange(arguments, argumentIndex));
}
code = NamespaceOps.Export(interpreter, null, patterns, clear, ref result);
}
}
else
{
result = "wrong # args: should be \"namespace export ?-clear? ?pattern pattern ...?\"";
code = ReturnCode.Error;
}
break;
}
case "forget":
{
if (arguments.Count >= 2)
{
if (arguments.Count >= 3)
{
code = NamespaceOps.Forget(interpreter,
new StringList(ArgumentList.GetRange(arguments, 2)),
ref result);
if (code == ReturnCode.Ok)
{
result = String.Empty;
}
}
else
{
result = String.Empty;
code = ReturnCode.Ok;
}
}
else
{
result = "wrong # args: should be \"namespace forget ?pattern pattern ...?\"";
code = ReturnCode.Error;
}
break;
}
case "import":
{
if (arguments.Count >= 2)
{
OptionDictionary options = new OptionDictionary(
new IOption[] {
new Option(null, OptionFlags.None, Index.Invalid, Index.Invalid, "-force", null),
new Option(null, OptionFlags.None, Index.Invalid, Index.Invalid, Option.EndOfOptions, null)
});
int argumentIndex = Index.Invalid;
if (arguments.Count > 2)
{
code = interpreter.GetOptions(options, arguments, 0, 2, Index.Invalid, false, ref argumentIndex, ref result);
}
else
{
code = ReturnCode.Ok;
}
if (code == ReturnCode.Ok)
{
bool force = false;
if (options.IsPresent("-force"))
{
force = true;
}
StringList patterns = new StringList();
if (argumentIndex != Index.Invalid)
{
patterns.AddObjects(ArgumentList.GetRange(arguments, argumentIndex));
}
code = NamespaceOps.Import(interpreter, patterns, force, ref result);
}
}
else
{
result = "wrong # args: should be \"namespace import ?-force? ?pattern pattern ...?\"";
code = ReturnCode.Error;
}
break;
}
case "info":
{
if (arguments.Count == 3)
{
code = NamespaceOps.InfoSubCommand(
interpreter, arguments[2], ref result);
}
else
{
result = "wrong # args: should be \"namespace info name\"";
code = ReturnCode.Error;
}
break;
}
case "inscope":
{
if (arguments.Count >= 4)
{
string namespaceName = NamespaceOps.MapName(
interpreter, arguments[2]);
INamespace @namespace = NamespaceOps.Lookup(
interpreter, namespaceName, false, false,
ref result);
if (@namespace != null)
{
if (arguments.Count > 4)
{
IScriptLocation location = null;
#if DEBUGGER && BREAKPOINTS
code = ScriptOps.GetLocation(
interpreter, arguments, 3, ref location,
ref result);
if (code == ReturnCode.Ok)
#endif
{
string name = StringList.MakeList("namespace inscope", @namespace.QualifiedName);
ICallFrame frame = interpreter.NewNamespaceCallFrame(
name, CallFrameFlags.InScope | CallFrameFlags.UseNamespace,
arguments, @namespace, false);
interpreter.PushNamespaceCallFrame(frame);
StringList list = new StringList(arguments, 4);
code = interpreter.EvaluateScript(
ListOps.Concat(arguments[3], list.ToString()),
location, ref result);
if (code == ReturnCode.Error)
{
Engine.AddErrorInformation(interpreter, result,
String.Format("{0} (in namespace inscope \"{1}\" script line {2})",
Environment.NewLine, NamespaceOps.MaybeQualifiedName(@namespace,
true), Interpreter.GetErrorLine(interpreter)));
}
/* IGNORED */
interpreter.PopNamespaceCallFrame(frame);
/* NO RESULT */
Engine.CleanupNamespacesOrComplain(interpreter);
}
}
else
{
string name = StringList.MakeList("namespace inscope", @namespace.QualifiedName);
ICallFrame frame = interpreter.NewNamespaceCallFrame(
name, CallFrameFlags.InScope | CallFrameFlags.UseNamespace,
arguments, @namespace, false);
interpreter.PushNamespaceCallFrame(frame);
code = interpreter.EvaluateScript(arguments[3], ref result);
if (code == ReturnCode.Error)
{
Engine.AddErrorInformation(interpreter, result,
String.Format("{0} (in namespace inscope \"{1}\" script line {2})",
Environment.NewLine, NamespaceOps.MaybeQualifiedName(@namespace,
true), Interpreter.GetErrorLine(interpreter)));
}
/* IGNORED */
interpreter.PopNamespaceCallFrame(frame);
/* NO RESULT */
Engine.CleanupNamespacesOrComplain(interpreter);
}
}
else
{
code = ReturnCode.Error;
}
}
else
{
result = "wrong # args: should be \"namespace inscope name arg ?arg...?\"";
code = ReturnCode.Error;
}
break;
}
case "mappings":
{
if (arguments.Count == 2)
{
lock (interpreter.SyncRoot) /* TRANSACTIONAL */
{
StringDictionary namespaceMappings = interpreter.NamespaceMappings;
if (namespaceMappings != null)
{
result = namespaceMappings.KeysAndValuesToString(null, false);
code = ReturnCode.Ok;
}
else
{
result = "namespace mappings not available";
code = ReturnCode.Error;
}
}
}
else
{
result = "wrong # args: should be \"namespace mappings\"";
code = ReturnCode.Error;
}
break;
}
case "name":
{
if (arguments.Count == 3)
{
string name = arguments[2];
if (!NamespaceOps.IsQualifiedName(name))
{
result = NamespaceOps.MakeQualifiedName(interpreter, name, true);
code = ReturnCode.Ok;
}
else
{
result = "only non-qualified names are allowed";
code = ReturnCode.Error;
}
}
else
{
result = "wrong # args: should be \"namespace name name\"";
code = ReturnCode.Error;
}
break;
}
case "origin":
{
if (arguments.Count == 3)
{
code = NamespaceOps.Origin(interpreter, null, arguments[2], ref result);
}
else
{
result = "wrong # args: should be \"namespace origin name\"";
code = ReturnCode.Error;
}
break;
}
case "parent":
{
if ((arguments.Count == 2) || (arguments.Count == 3))
{
code = NamespaceOps.Parent(
interpreter, (arguments.Count == 3) ? arguments[2] : null,
ref result);
}
else
{
result = "wrong # args: should be \"namespace parent ?name?\"";
code = ReturnCode.Error;
}
break;
}
case "qualifiers":
{
if (arguments.Count == 3)
{
string qualifiers = null;
string tail = null;
code = NamespaceOps.SplitName(
arguments[2], ref qualifiers, ref tail, ref result);
if (code == ReturnCode.Ok)
{
result = qualifiers;
}
}
else
{
result = "wrong # args: should be \"namespace qualifiers string\"";
code = ReturnCode.Error;
}
break;
}
case "rename":
{
if (arguments.Count == 4)
{
code = interpreter.RenameNamespace(
arguments[2], arguments[3], RenameGlobalOk,
RenameInUseOk, ref result);
}
else
{
result = "wrong # args: should be \"namespace rename oldName newName\"";
code = ReturnCode.Error;
}
break;
}
case "tail":
{
if (arguments.Count == 3)
{
string qualifiers = null;
string tail = null;
code = NamespaceOps.SplitName(
arguments[2], ref qualifiers, ref tail, ref result);
if (code == ReturnCode.Ok)
{
result = tail;
}
}
else
{
result = "wrong # args: should be \"namespace tail string\"";
code = ReturnCode.Error;
}
break;
}
case "unknown":
{
if ((arguments.Count == 2) || (arguments.Count == 3))
{
INamespace currentNamespace = null;
code = interpreter.GetCurrentNamespaceViaResolvers(
null, LookupFlags.Default, ref currentNamespace,
ref result);
if (code == ReturnCode.Ok)
{
if (currentNamespace != null)
{
if (arguments.Count == 3)
{
string unknown = StringOps.NullIfEmpty(arguments[2]);
if (String.IsNullOrEmpty(unknown) &&
NamespaceOps.IsGlobal(interpreter, currentNamespace))
{
currentNamespace.Unknown = interpreter.GlobalUnknown;
}
else
{
currentNamespace.Unknown = unknown;
}
result = unknown;
}
else
{
result = currentNamespace.Unknown;
}
}
else
{
if (arguments.Count == 3)
{
string unknown = StringOps.NullIfEmpty(arguments[2]);
if (String.IsNullOrEmpty(unknown))
{
interpreter.GlobalUnknown = TclVars.Unknown;
}
else
{
interpreter.GlobalUnknown = unknown;
}
result = unknown;
}
else
{
result = interpreter.GlobalUnknown;
}
}
}
}
else
{
result = "wrong # args: should be \"namespace unknown ?script?\"";
code = ReturnCode.Error;
}
break;
}
case "which":
{
if (arguments.Count >= 2)
{
OptionDictionary options = new OptionDictionary(
new IOption[] {
new Option(null, OptionFlags.None, Index.Invalid, Index.Invalid, "-command", null),
new Option(null, OptionFlags.None, Index.Invalid, Index.Invalid, "-variable", null),
new Option(null, OptionFlags.None, Index.Invalid, Index.Invalid, Option.EndOfOptions, null)
});
int argumentIndex = Index.Invalid;
if (arguments.Count > 2)
{
code = interpreter.GetOptions(options, arguments, 0, 2, Index.Invalid, OptionBehaviorFlags.LastIsNonOption, false, ref argumentIndex, ref result);
}
else
{
code = ReturnCode.Ok;
}
if (code == ReturnCode.Ok)
{
if ((argumentIndex != Index.Invalid) &&
((argumentIndex + 1) == arguments.Count))
{
string name = arguments[argumentIndex];
bool isCommand = false;
if (options.IsPresent("-command"))
{
isCommand = true;
}
bool isVariable = false;
if (options.IsPresent("-variable"))
{
isVariable = true;
}
if (!isCommand || !isVariable)
{
NamespaceFlags flags = NamespaceFlags.None;
if (isCommand)
{
flags |= NamespaceFlags.Command;
}
else if (isVariable)
{
flags |= NamespaceFlags.Variable;
}
else
{
flags |= NamespaceFlags.Command;
}
code = NamespaceOps.Which(interpreter, null, name, flags, ref result);
}
else
{
result = "wrong # args: should be \"namespace which ?-command? ?-variable? name\"";
code = ReturnCode.Error;
}
}
else
{
if ((argumentIndex != Index.Invalid) &&
Option.LooksLikeOption(arguments[argumentIndex]))
{
result = OptionDictionary.BadOption(options, arguments[argumentIndex]);
}
else
{
result = "wrong # args: should be \"namespace which ?-command? ?-variable? name\"";
}
code = ReturnCode.Error;
}
}
}
else
{
result = "wrong # args: should be \"namespace which ?-command? ?-variable? name\"";
code = ReturnCode.Error;
}
break;
}
default:
{
result = ScriptOps.BadSubCommand(
interpreter, null, null, subCommand, this, null, null);
code = ReturnCode.Error;
break;
}
}
}
}
else
{
result = "wrong # args: should be \"namespace subcommand ?arg ...?\"";
code = ReturnCode.Error;
}
}
else
{
result = "invalid argument list";
code = ReturnCode.Error;
}
}
else
{
result = "invalid interpreter";
code = ReturnCode.Error;
}
return(code);
}
///////////////////////////////////////////////////////////////////////
#region IExecute Members
public override ReturnCode Execute(
Interpreter interpreter,
IClientData clientData,
ArgumentList arguments,
ref Result result
)
{
if (interpreter == null)
{
result = "invalid interpreter";
return(ReturnCode.Error);
}
if (arguments == null)
{
result = "invalid argument list";
return(ReturnCode.Error);
}
if (arguments.Count < 2)
{
result = "wrong # args: should be \"invoke ?level? cmd ?arg ...?\"";
return(ReturnCode.Error);
}
ReturnCode code;
int currentLevel = 0;
code = interpreter.GetInfoLevel(
CallFrameOps.InfoLevelSubCommand, ref currentLevel,
ref result);
if (code != ReturnCode.Ok)
{
return(code);
}
bool mark = false;
bool absolute = false;
bool super = false;
int level = 0;
ICallFrame currentFrame = null;
ICallFrame otherFrame = null;
FrameResult frameResult = interpreter.GetCallFrame(
arguments[1], ref mark, ref absolute, ref super,
ref level, ref currentFrame, ref otherFrame,
ref result);
if (frameResult == FrameResult.Invalid)
{
return(ReturnCode.Error);
}
int argumentIndex = ((int)frameResult + 1);
//
// BUGFIX: The argument count needs to be checked again here.
//
if (argumentIndex >= arguments.Count)
{
result = "wrong # args: should be \"invoke ?level? cmd ?arg ...?\"";
return(ReturnCode.Error);
}
if (mark)
{
code = CallFrameOps.MarkMatching(
interpreter.CallStack, interpreter.CurrentFrame,
absolute, level, CallFrameFlags.Variables,
CallFrameFlags.Invisible | CallFrameFlags.NoVariables,
CallFrameFlags.Invisible, false, false, true,
ref result);
}
if (code == ReturnCode.Ok)
{
try
{
string name = StringList.MakeList("invoke", arguments[1],
arguments[argumentIndex]);
ICallFrame newFrame = interpreter.NewUplevelCallFrame(
name, currentLevel, CallFrameFlags.None, mark,
currentFrame, otherFrame);
ICallFrame savedFrame = null;
interpreter.PushUplevelCallFrame(
currentFrame, newFrame, true, ref savedFrame);
code = interpreter.Invoke(
arguments[argumentIndex], clientData,
ArgumentList.GetRange(arguments, argumentIndex),
ref result);
if (code == ReturnCode.Error)
{
Engine.AddErrorInformation(interpreter, result,
String.Format("{0} (\"invoke\" body line {1})",
Environment.NewLine, Interpreter.GetErrorLine(interpreter)));
}
//
// NOTE: Pop the original call frame that we pushed above and
// any intervening scope call frames that may be leftover
// (i.e. they were not explicitly closed).
//
/* IGNORED */
interpreter.PopUplevelCallFrame(
currentFrame, newFrame, ref savedFrame);
}
finally
{
if (mark)
{
//
// NOTE: We should not get an error at this point from
// unmarking the call frames; however, if we do get
// one, we need to complain loudly about it because
// that means the interpreter state has probably been
// corrupted somehow.
//
ReturnCode markCode;
Result markResult = null;
markCode = CallFrameOps.MarkMatching(
interpreter.CallStack, interpreter.CurrentFrame,
absolute, level, CallFrameFlags.Variables,
CallFrameFlags.NoVariables, CallFrameFlags.Invisible,
false, false, false, ref markResult);
if (markCode != ReturnCode.Ok)
{
DebugOps.Complain(interpreter, markCode, markResult);
}
}
}
}
return(code);
}