private static string getTypeName(string readerName, Type type)
{
string typeName;
if (type != null)
{
typeName = type.Name;
Type[] genericArgs = type.GetGenericArguments();
if (genericArgs.Length != 0)
{
typeName += "[";
for (int i = 0; i < genericArgs.Length; i++)
{
typeName += "[";
typeName += genericArgs[i].FullName;
typeName += ", ";
typeName += genericArgs[i].Assembly.GetName().Name;
typeName += "]";
if (i != genericArgs.Length - 1)
{
typeName += ",";
}
}
typeName += "]";
}
}
else
{
typeName = readerName;
FmbHelper.Log("Input type name: " + typeName);
if (typeName.Contains("Readers"))
{
//FmbHelper.Log("debug warning: " + typeName + " contains \"Readers\". In case of failure, debug.");
typeName = typeName.Replace("Readers", "Riidars");
}
if (typeName.Contains("[["))
{
//generic instantiated type
typeName = typeName.Substring(typeName.LastIndexOf(".", typeName.IndexOf("Reader")) + 1);
typeName = typeName.Replace("Reader", "");
}
else if (typeName.Contains("`"))
{
//generic type
typeName = typeName.Substring(typeName.LastIndexOf(".") + 1);
typeName = typeName.Replace("Reader", "");
}
else if (typeName.Contains("Reader"))
{
//xna reader
typeName = typeName.Substring(0, typeName.LastIndexOf("Reader"));
typeName = typeName.Substring(typeName.LastIndexOf(".") + 1);
}
FmbHelper.Log("Got type name: " + typeName);
}
return(typeName);
}
public static string GenerateHandlerSource(StreamReader sr, string typeName, Type type, string handlerName, string @namespace)
{
if (type == null)
{
type = FmbHelper.FindType(typeName);
}
if (type == null)
{
FmbHelper.Log("Type not found for handler to generate: " + typeName);
}
string tab = @namespace == null ? "" : "\t";
string usings = "using FmbLib;\nusing System;\nusing System.IO;\n";
StringBuilder readerBuilder = new StringBuilder();
StringBuilder writerBuilder = new StringBuilder();
string readerObjectConstruction = typeName + " obj = new " + typeName + "();\n";
string writerObjectCast = typeName + " obj = (" + typeName + ") obj_;\n";
bool usingsComplete = false;
string line;
while ((line = sr.ReadLine()) != null)
{
if (line.StartsWith("##"))
{
continue;
}
line = line.Trim();
if (line.Length == 0)
{
continue;
}
if (line.StartsWith("#if "))
{
line = line.Substring(4);
bool not = line.StartsWith("!");
if (not)
{
line = line.Substring(1);
}
if (line == "XNA")
{
line = "FmbUtil.IsXNA";
}
else if (line == "UNITY")
{
line = "FmbUtil.IsUNITY";
}
else if (line == "FEZENGINE")
{
line = "FmbUtil.IsFEZENGINE";
}
else if (line == "TEST")
{
line = "FmbUtil.IsTEST";
}
FmbHelper.AppendTo(tab, readerBuilder, writerBuilder);
FmbHelper.AppendTo("\t\t", readerBuilder, writerBuilder);
FmbHelper.AppendTo("if (", readerBuilder, writerBuilder);
if (not)
{
FmbHelper.AppendTo("!", readerBuilder, writerBuilder);
}
FmbHelper.AppendTo(line, readerBuilder, writerBuilder);
FmbHelper.AppendTo(") {\n", readerBuilder, writerBuilder);
continue;
}
if (line == ("#endif"))
{
FmbHelper.AppendTo(tab, readerBuilder, writerBuilder);
FmbHelper.AppendTo("\t\t}\n", readerBuilder, writerBuilder);
continue;
}
if (!usingsComplete && line.StartsWith("using "))
{
line = line.Substring(6, line.Length - 6 - 1);
for (int i = 0; i < NamespaceRemap.Count; i++)
{
line = line.Replace(NamespaceRemap[i].Key, NamespaceRemap[i].Value);
}
line = "using " + line + ";\n";
if (!usings.Contains(line))
{
usings += line;
}
continue;
}
usingsComplete = true;
if (line.StartsWith("#rc ") || line.StartsWith("#wc "))
{
bool read = !line.StartsWith("#wc ");
line = line.Substring(4);
if (read)
{
readerObjectConstruction = line + "\n";
}
else
{
writerObjectCast = line + "\n";
}
continue;
}
if (!line.Contains(" ") || line.StartsWith("#r ") || line.StartsWith("#w "))
{
bool read = !line.StartsWith("#w ");
if (line.StartsWith("#"))
{
line = line.Substring(3);
}
bool isMethod = type != null && type.GetMethod(line) != null;
StringBuilder lineBuilder = read ? readerBuilder : writerBuilder;
lineBuilder.Append(tab).Append("\t\t");
if (isMethod)
{
lineBuilder.Append("obj.");
}
lineBuilder.Append(line);
if (isMethod)
{
lineBuilder.Append("();");
}
lineBuilder.AppendLine();
continue;
}
FmbHelper.AppendTo(tab, readerBuilder, writerBuilder);
FmbHelper.AppendTo("\t\t", readerBuilder, writerBuilder);
int indexSplit = line.IndexOf(" ");
string var = line.Substring(0, indexSplit);
string binaryType = line.Substring(indexSplit + 1);
readerBuilder.Append("obj.").Append(var).Append(" = ");
if (binaryType.StartsWith("Object<"))
{
readerBuilder.Append("FmbUtil.Read").Append(binaryType).Append("(reader, xnb);");
}
else if (GeneratedTypeHandlerSpecialTypes.Contains(binaryType))
{
readerBuilder.Append("FmbUtil.ReadObject<").Append(binaryType).Append(">(reader, xnb, false);");
}
else
{
readerBuilder.Append("reader.Read").Append(binaryType).Append("();");
}
readerBuilder.AppendLine();
if (binaryType.StartsWith("Object<"))
{
writerBuilder.Append("FmbUtil.WriteObject(writer, obj.").Append(var);
}
else if (GeneratedTypeHandlerSpecialTypes.Contains(binaryType))
{
writerBuilder.Append("FmbUtil.GetTypeHandler<").Append(binaryType).Append(">().Write(writer, obj.").Append(var);
}
else
{
writerBuilder.Append("writer.Write(obj.").Append(var);
}
writerBuilder.Append(");\n");
}
StringBuilder builder = new StringBuilder()
.AppendLine(usings);
if (@namespace != null)
{
builder.Append("namespace ").Append(@namespace).AppendLine(" {");
}
builder.Append(tab).Append("public class ").Append(handlerName).Append(" : TypeHandler<").Append(typeName).AppendLine("> {")
.AppendLine()
.Append(tab).AppendLine("\tpublic override object Read(BinaryReader reader, bool xnb) {")
.Append(tab).Append("\t\t").AppendLine(readerObjectConstruction)
.AppendLine(readerBuilder.ToString())
.Append(tab).AppendLine("\t\treturn obj;")
.Append(tab).AppendLine("\t}")
.AppendLine()
.Append(tab).AppendLine("\tpublic override void Write(BinaryWriter writer, object obj_) {")
.Append(tab).Append("\t\t").AppendLine(writerObjectCast)
.Append(writerBuilder.ToString())
.Append(tab).AppendLine("\t}")
.Append(tab).AppendLine("}");
if (@namespace != null)
{
builder.AppendLine("}");
}
return(builder.ToString());
}
private static TypeHandler getHandler(string readerName, Type type)
{
string typeName = getTypeName(readerName, type);
string handlerName;
//TODO check if enum, ...
if (type == null)
{
type = FmbHelper.FindType(typeName);
}
if (type == null && typeName.Contains("[["))
{
type = FmbHelper.FindType(typeName.Substring(0, typeName.IndexOf("[[")));
}
if (type != null && type.IsEnum)
{
return(FmbHelper.GetGenericTypeHandler(typeof(EnumHandler <>), type));
}
if (type != null && type.IsArray)
{
return(FmbHelper.GetGenericTypeHandler(typeof(ArrayHandler <>), type.GetElementType()));
}
//FmbHelper.Log("Getting TypeHandler for " + typeName);
Type[] types = Assembly.GetExecutingAssembly().GetTypes();
//FmbHelper.Log("typeName: " + typeName);
if (typeName.Contains("[[") || (type != null && type.IsGenericType))
{
int length = typeName.IndexOf("[[");
if (length < 0)
{
length = typeName.Length;
}
handlerName = typeName.Substring(0, typeName.IndexOf("`")) + "Handler" + typeName.Substring(typeName.IndexOf("`"), length - typeName.IndexOf("`"));
List <Type> genericParams = FmbHelper.GetGenericParamTypes(typeName);
for (int i = 0; i < types.Length; i++)
{
string typeName_ = getTypeName(types[i].Name, null);
if (typeName_ == handlerName && types[i].GetGenericArguments().Length == genericParams.Count)
{
return((TypeHandler)types[i].MakeGenericType(genericParams.ToArray()).GetConstructor(new Type[0]).Invoke(new object[0]));
}
}
return(null);
}
handlerName = typeName + "Handler";
for (int i = 0; i < types.Length; i++)
{
if (getTypeName(types[i].Name, null) == handlerName)
{
//FmbHelper.Log("Found " + types[i].Name);
return((TypeHandler)types[i].GetConstructor(new Type[0]).Invoke(new object[0]));
}
}
return(null);
}
public static TypeHandler GenerateHandler(string readerName, Type type)
{
TypeHandler handler = null;
string typeName = getTypeName(readerName, type);
if (type == null)
{
type = FmbHelper.FindType(typeName);
}
FmbHelper.Log("Generating TypeHandler for " + typeName);
Assembly assembly = Assembly.GetExecutingAssembly();
if (ManifestResourceNames == null)
{
ManifestResourceNames = assembly.GetManifestResourceNames();
}
string path = null;
string comparisonReader = typeName + "Reader.txt";
string comparisonHandler = typeName + "Handler.txt";
for (int i = 0; i < ManifestResourceNames.Length; i++)
{
if (
ManifestResourceNames[i].EndsWith(comparisonReader) ||
ManifestResourceNames[i].EndsWith(comparisonHandler)
)
{
path = ManifestResourceNames[i];
break;
}
}
FmbHelper.Log("Generating TypeHandler<" + typeName + "> from " + path);
string source;
using (Stream s = assembly.GetManifestResourceStream(path)) {
if (s == null)
{
FmbHelper.Log("Resource cannot be loaded.");
return(null);
}
using (StreamReader sr = new StreamReader(s)) {
source = GenerateHandlerSource(sr, typeName, type);
}
}
CompilerParameters parameters = new CompilerParameters();
parameters.GenerateInMemory = true;
parameters.CompilerOptions = "/optimize";
AssemblyName[] references = assembly.GetReferencedAssemblies();
for (int i = 0; i < references.Length; i++)
{
parameters.ReferencedAssemblies.Add(references[i].Name);
}
parameters.ReferencedAssemblies.Add(assembly.Location);
for (int i = 0; i < GeneratedTypeHandlerAssemblies.Count; i++)
{
string reference = GeneratedTypeHandlerAssemblies[i];
if (parameters.ReferencedAssemblies.Contains(reference))
{
continue;
}
parameters.ReferencedAssemblies.Add(reference);
}
using (CSharpCodeProvider provider = new CSharpCodeProvider()) {
try {
CompilerResults results = provider.CompileAssemblyFromSource(parameters, source);
if (results.Errors.HasErrors)
{
FmbHelper.Log("Errors while generating TypeHandler:");
foreach (CompilerError error in results.Errors)
{
FmbHelper.Log(error.ToString());
}
FmbHelper.Log("GeneratedTypeHandler source:");
FmbHelper.Log(source);
FmbHelper.Log("Referenced assemblies:");
for (int i = 0; i < parameters.ReferencedAssemblies.Count; i++)
{
FmbHelper.Log(parameters.ReferencedAssemblies[i]);
}
}
else
{
Type compiledType = results.CompiledAssembly.GetType("JIT" + typeName + "Handler");
handler = (TypeHandler)compiledType.GetConstructor(new Type[0]).Invoke(new object[0]);
}
} catch (Exception e) {
FmbHelper.Log("Error while generating TypeHandler:");
FmbHelper.Log(e.ToString());
FmbHelper.Log("GeneratedTypeHandler source:");
FmbHelper.Log(source);
FmbHelper.Log("Referenced assemblies:");
for (int i = 0; i < parameters.ReferencedAssemblies.Count; i++)
{
FmbHelper.Log(parameters.ReferencedAssemblies[i]);
}
}
}
return(handler);
}
private static Type FindType_(string name, bool remappedNamespace)
{
Type type_ = null;
if (CacheTypes.TryGetValue(name, out type_))
{
return(type_);
}
if (CachePrefoundTypes.TryGetValue(name, out type_))
{
CacheTypes[name] = type_;
return(type_);
}
Assembly[] assemblies = AppDomain.CurrentDomain.GetAssemblies();
List <Assembly> delayedAssemblies = new List <Assembly>();
foreach (Assembly assembly in assemblies)
{
if (assembly.GetName().Name.EndsWith(".mm") || BlacklistedAssemblies.Contains(assembly.GetName().Name))
{
delayedAssemblies.Add(assembly);
continue;
}
try {
Type[] types = assembly.GetTypes();
foreach (Type type in types)
{
if ((type.Name == name && type.FullName.EndsWith("." + name)) || name == type.FullName)
{
CacheTypes[name] = type;
return(type);
}
CachePrefoundTypes[type.FullName] = CachePrefoundTypes[type.Name] = type;
}
} catch (ReflectionTypeLoadException e) {
FmbHelper.Log("Failed searching a type in XmlHelper's FindType.");
FmbHelper.Log("Assembly: " + assembly.GetName().Name);
FmbHelper.Log(e.Message);
foreach (Exception le in e.LoaderExceptions)
{
FmbHelper.Log(le.Message);
}
}
}
foreach (Assembly assembly in delayedAssemblies)
{
try {
Type[] types = assembly.GetTypes();
foreach (Type type in types)
{
if ((type.Name == name && type.FullName.EndsWith("." + name)) || name == type.FullName)
{
CacheTypes[name] = type;
return(type);
}
}
} catch (ReflectionTypeLoadException e) {
FmbHelper.Log("Failed searching a type in XmlHelper's FindType.");
FmbHelper.Log("Assembly: " + assembly.GetName().Name);
FmbHelper.Log(e.Message);
foreach (Exception le in e.LoaderExceptions)
{
FmbHelper.Log(le.Message);
}
}
}
if (!remappedNamespace)
{
string oldname = name;
for (int i = 0; i < FmbUtil.NamespaceRemap.Count; i++)
{
name = name.Replace(FmbUtil.NamespaceRemap[i].Key, FmbUtil.NamespaceRemap[i].Value);
}
Type foundType = FindType_(name, true);
CacheTypes[oldname] = foundType;
return(foundType);
}
else
{
CacheTypes[name] = null;
return(null);
}
}