// Check that a script function object looks correct.
private void CheckScriptFunction(String name, Object obj, int length)
{
Assert("CSF (" + name + ") (1)", obj is ScriptFunction);
ScriptFunction func = (obj as ScriptFunction);
AssertEquals("CSF (" + name + ") (2)",
"function " + name + "() {\n" +
" [native code]\n}",
func.ToString());
AssertEquals("CSF (" + name + ") (3)",
length, func.length);
}
void ProcessScriptFunctions(ProjectState state, IO.XmlStream s)
{
foreach (XmlNode n in s.Cursor.ChildNodes)
{
if (n.Name != "function")
{
continue;
}
s.SaveCursor(n);
var sc = new ScriptFunction(state, s);
s.RestoreCursor();
string name_str = sc.ToString();
if (state.scriptingInterface.Functions.Contains(name_str))
{
Debug.LogFile.WriteLine("Engine already contains a {0} named '{1}', skipping...", "script function", name_str);
continue;
}
try { ScriptFunctions.Add(name_str, sc); }
catch (ArgumentException) { Debug.LogFile.WriteLine(kDuplicateErrorStr, "script function definition", name_str); }
}
}
void ProcessScriptFunctions(ProjectState state, IO.XmlStream s)
{
foreach (XmlNode n in s.Cursor.ChildNodes)
{
if (n.Name != "function") continue;
s.SaveCursor(n);
var sc = new ScriptFunction(state, s);
s.RestoreCursor();
string name_str = sc.ToString();
if (state.scriptingInterface.Functions.Contains(name_str))
{
Debug.LogFile.WriteLine("Engine already contains a {0} named '{1}', skipping...", "script function", name_str);
continue;
}
try { ScriptFunctions.Add(name_str, sc); }
catch (ArgumentException) { Debug.LogFile.WriteLine(kDuplicateErrorStr, "script function definition", name_str); }
}
}
/// <summary>
/// Process a XML file containing CheApe definitions
/// </summary>
/// <param name="state"></param>
/// <param name="s"></param>
private void ProcessFile(ProjectState state, BlamLib.IO.XmlStream s)
{
int complexity = 1 +
PreprocessXmlNodeComplexity();
BlamVersion def_engine = BlamVersion.Unknown;
s.ReadAttribute("game", ref def_engine);
if (def_engine != state.Definition.Engine)
{
Debug.Assert.If(false, "CheApe definition '{0}' is for {1}. Expected a {2} definition.", s.FileName, def_engine, state.Definition.Engine);
}
else
{
string name_str;
foreach (XmlNode n in s.Cursor.ChildNodes)
{
switch (n.Name)
{
#region Enums
case "enums":
s.SaveCursor(n);
foreach (XmlNode n2 in s.Cursor.ChildNodes)
{
if (n2.Name != "Enum")
{
continue;
}
s.SaveCursor(n2);
StringList list = new StringList(state, s);
s.RestoreCursor();
name_str = list.ToString();
try { Enums.Add(name_str, list); }
catch (ArgumentException) { Debug.LogFile.WriteLine(kDuplicateErrorStr, "enum definition", name_str); }
}
s.RestoreCursor();
break;
#endregion
#region Flags
case "flags":
s.SaveCursor(n);
foreach (XmlNode n2 in s.Cursor.ChildNodes)
{
if (n2.Name != "Flag")
{
continue;
}
s.SaveCursor(n2);
StringList list = new StringList(state, s);
s.RestoreCursor();
name_str = list.ToString();
try { Flags.Add(name_str, list); }
catch (ArgumentException) { Debug.LogFile.WriteLine(kDuplicateErrorStr, "flag definition", name_str); }
}
s.RestoreCursor();
break;
#endregion
#region Tag References
case "references":
s.SaveCursor(n);
foreach (XmlNode n2 in s.Cursor.ChildNodes)
{
if (n2.Name != "Reference")
{
continue;
}
s.SaveCursor(n2);
TagReference tagref = new TagReference(state, s);
s.RestoreCursor();
name_str = tagref.ToString();
try { References.Add(name_str, tagref); }
catch (ArgumentException) { Debug.LogFile.WriteLine(kDuplicateErrorStr, "tag reference definition", name_str); }
}
s.RestoreCursor();
break;
#endregion
#region Tag Data
case "data":
s.SaveCursor(n);
foreach (XmlNode n2 in s.Cursor.ChildNodes)
{
if (n2.Name != "TagData")
{
continue;
}
s.SaveCursor(n2);
TagData tagdata = new TagData(state, s);
s.RestoreCursor();
name_str = tagdata.ToString();
try { Data.Add(name_str, tagdata); }
catch (ArgumentException) { Debug.LogFile.WriteLine(kDuplicateErrorStr, "tag data definition", name_str); }
}
s.RestoreCursor();
break;
#endregion
#region Script Functions
case "scriptFunctions":
if (state.scriptingInterface == null)
{
break;
}
s.SaveCursor(n);
foreach (XmlNode n2 in s.Cursor.ChildNodes)
{
if (n2.Name != "function")
{
continue;
}
s.SaveCursor(n2);
ScriptFunction sc = new ScriptFunction(state, s);
s.RestoreCursor();
name_str = sc.ToString();
if (state.scriptingInterface.Functions.Contains(name_str))
{
Debug.LogFile.WriteLine("Engine already contains a {0} named '{1}', skipping...", "script function", name_str);
continue;
}
try { ScriptFunctions.Add(name_str, sc); }
catch (ArgumentException) { Debug.LogFile.WriteLine(kDuplicateErrorStr, "script function definition", name_str); }
}
s.RestoreCursor();
break;
#endregion
#region Script Globals
case "scriptGlobals":
if (state.scriptingInterface == null)
{
break;
}
s.SaveCursor(n);
foreach (XmlNode n2 in s.Cursor.ChildNodes)
{
if (n2.Name != "global")
{
continue;
}
s.SaveCursor(n2);
ScriptGlobal sc = new ScriptGlobal(state, s);
s.RestoreCursor();
name_str = sc.ToString();
if (state.scriptingInterface.Globals.Contains(name_str))
{
Debug.LogFile.WriteLine("Engine already contains a {0} named '{1}', ignoring...", "script global", name_str);
continue;
}
try { ScriptGlobals.Add(name_str, sc); }
catch (ArgumentException) { Debug.LogFile.WriteLine(kDuplicateErrorStr, "script global definition", name_str); }
}
s.RestoreCursor();
break;
#endregion
#region Fix-ups
case "fixups":
s.SaveCursor(n);
foreach (XmlNode n2 in s.Cursor.ChildNodes)
{
if (n2.Name != "fixup")
{
continue;
}
s.SaveCursor(n2);
Fixup fu = new Fixup(state, s);
s.RestoreCursor();
name_str = fu.ToString();
try { Fixups.Add(name_str, fu); }
catch (ArgumentException) { Debug.LogFile.WriteLine(kDuplicateErrorStr, "fix-up definition", name_str); }
}
s.RestoreCursor();
break;
#endregion
default:
ProcessDefinition(n, state, s);
break;
}
}
}
}
/// <summary>
/// Process a XML file containing CheApe definitions
/// </summary>
/// <param name="state"></param>
/// <param name="s"></param>
private void ProcessFile(ProjectState state, BlamLib.IO.XmlStream s)
{
int complexity = 1 +
PreprocessXmlNodeComplexity();
BlamVersion def_engine = BlamVersion.Unknown;
s.ReadAttribute("game", ref def_engine);
if (def_engine != state.Definition.Engine)
{
Debug.Assert.If(false, "CheApe definition '{0}' is for {1}. Expected a {2} definition.", s.FileName, def_engine, state.Definition.Engine);
}
else
{
string name_str;
foreach (XmlNode n in s.Cursor.ChildNodes)
{
switch (n.Name)
{
#region Enums
case "enums":
s.SaveCursor(n);
foreach (XmlNode n2 in s.Cursor.ChildNodes)
{
if (n2.Name != "Enum") continue;
s.SaveCursor(n2);
StringList list = new StringList(state, s);
s.RestoreCursor();
name_str = list.ToString();
try { Enums.Add(name_str, list); }
catch (ArgumentException) { Debug.LogFile.WriteLine(kDuplicateErrorStr, "enum definition", name_str); }
}
s.RestoreCursor();
break;
#endregion
#region Flags
case "flags":
s.SaveCursor(n);
foreach (XmlNode n2 in s.Cursor.ChildNodes)
{
if (n2.Name != "Flag") continue;
s.SaveCursor(n2);
StringList list = new StringList(state, s);
s.RestoreCursor();
name_str = list.ToString();
try { Flags.Add(name_str, list); }
catch (ArgumentException) { Debug.LogFile.WriteLine(kDuplicateErrorStr, "flag definition", name_str); }
}
s.RestoreCursor();
break;
#endregion
#region Tag References
case "references":
s.SaveCursor(n);
foreach (XmlNode n2 in s.Cursor.ChildNodes)
{
if (n2.Name != "Reference") continue;
s.SaveCursor(n2);
TagReference tagref = new TagReference(state, s);
s.RestoreCursor();
name_str = tagref.ToString();
try { References.Add(name_str, tagref); }
catch (ArgumentException) { Debug.LogFile.WriteLine(kDuplicateErrorStr, "tag reference definition", name_str); }
}
s.RestoreCursor();
break;
#endregion
#region Tag Data
case "data":
s.SaveCursor(n);
foreach (XmlNode n2 in s.Cursor.ChildNodes)
{
if (n2.Name != "TagData") continue;
s.SaveCursor(n2);
TagData tagdata = new TagData(state, s);
s.RestoreCursor();
name_str = tagdata.ToString();
try { Data.Add(name_str, tagdata); }
catch (ArgumentException) { Debug.LogFile.WriteLine(kDuplicateErrorStr, "tag data definition", name_str); }
}
s.RestoreCursor();
break;
#endregion
#region Script Functions
case "scriptFunctions":
if (state.scriptingInterface == null) break;
s.SaveCursor(n);
foreach (XmlNode n2 in s.Cursor.ChildNodes)
{
if (n2.Name != "function") continue;
s.SaveCursor(n2);
ScriptFunction sc = new ScriptFunction(state, s);
s.RestoreCursor();
name_str = sc.ToString();
if (state.scriptingInterface.Functions.Contains(name_str))
{
Debug.LogFile.WriteLine("Engine already contains a {0} named '{1}', skipping...", "script function", name_str);
continue;
}
try { ScriptFunctions.Add(name_str, sc); }
catch (ArgumentException) { Debug.LogFile.WriteLine(kDuplicateErrorStr, "script function definition", name_str); }
}
s.RestoreCursor();
break;
#endregion
#region Script Globals
case "scriptGlobals":
if (state.scriptingInterface == null) break;
s.SaveCursor(n);
foreach (XmlNode n2 in s.Cursor.ChildNodes)
{
if (n2.Name != "global") continue;
s.SaveCursor(n2);
ScriptGlobal sc = new ScriptGlobal(state, s);
s.RestoreCursor();
name_str = sc.ToString();
if (state.scriptingInterface.Globals.Contains(name_str))
{
Debug.LogFile.WriteLine("Engine already contains a {0} named '{1}', ignoring...", "script global", name_str);
continue;
}
try { ScriptGlobals.Add(name_str, sc); }
catch (ArgumentException) { Debug.LogFile.WriteLine(kDuplicateErrorStr, "script global definition", name_str); }
}
s.RestoreCursor();
break;
#endregion
#region Fix-ups
case "fixups":
s.SaveCursor(n);
foreach (XmlNode n2 in s.Cursor.ChildNodes)
{
if (n2.Name != "fixup") continue;
s.SaveCursor(n2);
Fixup fu = new Fixup(state, s);
s.RestoreCursor();
name_str = fu.ToString();
try { Fixups.Add(name_str, fu); }
catch (ArgumentException) { Debug.LogFile.WriteLine(kDuplicateErrorStr, "fix-up definition", name_str); }
}
s.RestoreCursor();
break;
#endregion
default:
ProcessDefinition(n, state, s);
break;
}
}
}
}