public ME3FaceFXAnimSet(IMEPackage Pcc, IExportEntry Entry)
{
pcc = Pcc;
export = Entry;
List<PropertyReader.Property> props = PropertyReader.getPropList(export);
int start = props[props.Count - 1].offend + 4;
SerializingContainer Container = new SerializingContainer(new MemoryStream(export.Data.Skip(start).ToArray()));
Container.isLoading = true;
Serialize(Container);
}
protected SObj(int idx, IMEPackage p)
{
pcc = p;
index = idx;
export = pcc.getExport(index);
comment = new SText(GetComment(), commentColor, false);
comment.X = 0;
comment.Y = 0 - comment.Height;
comment.Pickable = false;
this.AddChild(comment);
this.Pickable = true;
}
public static void WriteDelegateProperty(this Stream stream, IMEPackage pcc, string propName, int unk, NameReference value)
{
stream.WritePropHeader(pcc, propName, PropertyType.DelegateProperty, 12);
stream.WriteValueS32(unk);
stream.WriteValueS32(pcc.FindNameOrAdd(value.Name));
stream.WriteValueS32(value.count);
}
public static void WriteNoneProperty(this EndianWriter stream, IMEPackage pcc)
{
//Debug.WriteLine("Writing none property at 0x" + stream.Position.ToString("X6"));
stream.WriteNameReference("None", pcc);
}
public static void WriteStringProperty(this Stream stream, IMEPackage pcc, string propName, string value)
{
int strLen = value.Length + 1;
if (pcc.Game == MEGame.ME3)
{
stream.WritePropHeader(pcc, propName, PropertyType.StrProperty, (strLen * 2) + 4);
stream.WriteValueS32(-strLen);
stream.WriteStringUnicode(value);
}
else
{
stream.WritePropHeader(pcc, propName, PropertyType.StrProperty, strLen + 4);
stream.WriteValueS32(strLen);
stream.WriteStringASCII(value);
}
}
public SAction(int idx, float x, float y, IMEPackage p, GraphEditor grapheditor)
: base(idx, p, grapheditor)
{
GetVarLinks();
GetOutputLinks();
originalX = x;
originalY = y;
}
protected SBox(int idx, IMEPackage p, GraphEditor grapheditor)
: base(idx, p, grapheditor)
{
}
public static List<Property> ReadProp(IMEPackage pcc, byte[] raw, int start)
{
Property p;
PropertyValue v;
int sname;
List<Property> result = new List<Property>();
int pos = start;
if(raw.Length - pos < 8)
return result;
int name = (int)BitConverter.ToInt64(raw, pos);
if (!pcc.isName(name))
return result;
string t = pcc.getNameEntry(name);
p = new Property();
p.Name = name;
if (t == "None")
{
p.TypeVal = PropertyType.None;
p.offsetval = pos;
p.Size = 8;
p.Value = new PropertyValue();
p.raw = BitConverter.GetBytes((long)name);
p.offend = pos + 8;
result.Add(p);
return result;
}
int type = (int)BitConverter.ToInt64(raw, pos + 8);
p.Size = BitConverter.ToInt32(raw, pos + 16);
if (!pcc.isName(type) || p.Size < 0 || p.Size >= raw.Length)
return result;
string tp = pcc.getNameEntry(type);
switch (tp)
{
case "DelegateProperty":
p.TypeVal = PropertyType.DelegateProperty;
p.offsetval = pos + 24;
v = new PropertyValue();
v.IntValue = BitConverter.ToInt32(raw, pos + 28);
v.len = p.Size;
v.Array = new List<PropertyValue>();
pos += 24;
for (int i = 0; i < p.Size; i++)
{
PropertyValue v2 = new PropertyValue();
if(pos < raw.Length)
v2.IntValue = raw[pos];
v.Array.Add(v2);
pos++;
}
p.Value = v;
break;
case "ArrayProperty":
int count = BitConverter.ToInt32(raw, pos + 24);
p.TypeVal = PropertyType.ArrayProperty;
p.offsetval = pos + 24;
v = new PropertyValue();
v.IntValue = type;
v.len = p.Size - 4;
count = v.len;//TODO can be other objects too
v.Array = new List<PropertyValue>();
pos += 28;
for (int i = 0; i < count; i++)
{
PropertyValue v2 = new PropertyValue();
if(pos < raw.Length)
v2.IntValue = raw[pos];
v.Array.Add(v2);
pos ++;
}
p.Value = v;
break;
case "StrProperty":
count = BitConverter.ToInt32(raw, pos + 24);
p.TypeVal = PropertyType.StrProperty;
p.offsetval = pos + 24;
v = new PropertyValue();
v.IntValue = type;
v.len = count;
pos += 28;
string s = "";
if (count < 0)
{
count *= -1;
for (int i = 1; i < count; i++)
{
s += (char)raw[pos];
pos += 2;
}
pos += 2;
}
else if (count > 0)
{
for (int i = 1; i < count; i++)
{
s += (char)raw[pos];
pos++;
}
pos++;
}
v.StringValue = s;
p.Value = v;
break;
case "StructProperty":
sname = BitConverter.ToInt32(raw, pos + 24);
p.TypeVal = PropertyType.StructProperty;
p.offsetval = pos + 24;
v = new PropertyValue();
v.IntValue = sname;
v.len = p.Size;
v.Array = new List<PropertyValue>();
pos += 32;
for (int i = 0; i < p.Size; i++)
{
PropertyValue v2 = new PropertyValue();
if (pos < raw.Length)
v2.IntValue = raw[pos];
v.Array.Add(v2);
pos++;
}
p.Value = v;
break;
case "BioMask4Property":
p.TypeVal = PropertyType.ByteProperty;
p.offsetval = pos + 24;
v = new PropertyValue();
v.len = p.Size;
pos += 24;
v.IntValue = raw[pos];
pos += p.Size;
p.Value = v;
break;
case "ByteProperty":
sname = BitConverter.ToInt32(raw, pos + 24);
p.TypeVal = PropertyType.ByteProperty;
v = new PropertyValue();
v.len = p.Size;
if (pcc.Game == MEGame.ME3)
{
p.offsetval = pos + 32;
v.StringValue = pcc.getNameEntry(sname);
pos += 32;
if (p.Size == 8)
{
v.IntValue = BitConverter.ToInt32(raw, pos);
}
else
{
v.IntValue = raw[pos];
}
pos += p.Size;
}
else
{
p.offsetval = pos + 24;
if (p.Size != 1)
{
v.StringValue = pcc.getNameEntry(sname);
v.IntValue = sname;
pos += 32;
}
else
{
v.StringValue = "";
v.IntValue = raw[pos + 24];
pos += 25;
}
}
p.Value = v;
break;
case "FloatProperty":
sname = BitConverter.ToInt32(raw, pos + 24);
p.TypeVal = PropertyType.FloatProperty;
p.offsetval = pos + 24;
v = new PropertyValue();
v.FloatValue = BitConverter.ToSingle(raw, pos + 24);
v.len = p.Size;
pos += 28;
p.Value = v;
break;
case "BoolProperty":
p = new Property();
p.Name = name;
p.TypeVal = PropertyType.BoolProperty;
p.offsetval = pos + 24;
v = new PropertyValue();
v.IntValue = raw[pos + 24];
if (pcc.Game == MEGame.ME3)
{
v.len = 1;
}
else
{
v.len = 4;
}
pos += v.len + 24;
p.Value = v;
break;
default:
p.TypeVal = getType(pcc,type);
p.offsetval = pos + 24;
p.Value = ReadValue(pcc, raw, pos + 24, type);
pos += p.Value.len + 24;
break;
}
p.raw = new byte[pos - start];
p.offend = pos;
if(pos < raw.Length)
for (int i = 0; i < pos - start; i++)
p.raw[i] = raw[start + i];
result.Add(p);
if(pos!=start) result.AddRange(ReadProp(pcc, raw, pos));
return result;
}
public static void ImportProperty(IMEPackage pcc, IMEPackage importpcc, Property p, string className, MemoryStream m, bool inStruct = false)
{
string name = importpcc.getNameEntry(p.Name);
int idxname = pcc.FindNameOrAdd(name);
m.Write(BitConverter.GetBytes(idxname), 0, 4);
m.Write(new byte[4], 0, 4);
if (name == "None")
return;
string type = importpcc.getNameEntry(BitConverter.ToInt32(p.raw, 8));
int idxtype = pcc.FindNameOrAdd(type);
m.Write(BitConverter.GetBytes(idxtype), 0, 4);
m.Write(new byte[4], 0, 4);
string name2;
int idxname2;
int size, count, pos;
List<Property> Props;
switch (type)
{
case "IntProperty":
case "FloatProperty":
case "ObjectProperty":
case "StringRefProperty":
m.Write(BitConverter.GetBytes(4), 0, 4);
m.Write(new byte[4], 0, 4);
m.Write(BitConverter.GetBytes(p.Value.IntValue), 0, 4);
break;
case "NameProperty":
m.Write(BitConverter.GetBytes(8), 0, 4);
m.Write(new byte[4], 0, 4);
m.Write(BitConverter.GetBytes(pcc.FindNameOrAdd(importpcc.getNameEntry(p.Value.IntValue))), 0, 4);
//preserve index or whatever the second part of a namereference is
m.Write(p.raw, 28, 4);
break;
case "BoolProperty":
m.Write(new byte[8], 0, 8);
m.WriteByte((byte)p.Value.IntValue);
if (pcc.Game != MEGame.ME3)
{
m.Write(new byte[3], 0, 3);
}
break;
case "BioMask4Property":
m.Write(BitConverter.GetBytes(p.Size), 0, 4);
m.Write(new byte[4], 0, 4);
m.WriteByte((byte)p.Value.IntValue);
break;
case "ByteProperty":
m.Write(BitConverter.GetBytes(p.Size), 0, 4);
m.Write(new byte[4], 0, 4);
if (pcc.Game == MEGame.ME3)
{
name2 = importpcc.getNameEntry(BitConverter.ToInt32(p.raw, 24));
idxname2 = pcc.FindNameOrAdd(name2);
m.Write(BitConverter.GetBytes(idxname2), 0, 4);
m.Write(new byte[4], 0, 4);
}
if (p.Size != 1)
{
m.Write(BitConverter.GetBytes(pcc.FindNameOrAdd(importpcc.getNameEntry(p.Value.IntValue))), 0, 4);
m.Write(new byte[4], 0, 4);
}
else
{
m.WriteByte(Convert.ToByte(p.Value.IntValue));
}
break;
case "DelegateProperty":
size = BitConverter.ToInt32(p.raw, 16);
if (size == 0xC)
{
name2 = importpcc.getNameEntry(BitConverter.ToInt32(p.raw, 28));
idxname2 = pcc.FindNameOrAdd(name2);
m.Write(BitConverter.GetBytes(0xC), 0, 4);
m.Write(new byte[4], 0, 4);
m.Write(new byte[4], 0, 4);
m.Write(BitConverter.GetBytes(idxname2), 0, 4);
m.Write(new byte[4], 0, 4);
}
else
{
m.Write(BitConverter.GetBytes(size), 0, 4);
m.Write(new byte[4], 0, 4);
for (int i = 0; i < size; i++)
m.WriteByte(p.raw[24 + i]);
}
break;
case "StrProperty":
name2 = p.Value.StringValue + '\0';
if (p.Value.len < 0)
{
m.Write(BitConverter.GetBytes(4 + name2.Length * 2), 0, 4);
m.Write(new byte[4], 0, 4);
m.Write(BitConverter.GetBytes(-name2.Length), 0, 4);
foreach (char c in name2)
{
m.WriteByte((byte)c);
m.WriteByte(0);
}
}
else
{
m.Write(BitConverter.GetBytes(4 + name2.Length), 0, 4);
m.Write(new byte[4], 0, 4);
m.Write(BitConverter.GetBytes(name2.Length), 0, 4);
foreach (char c in name2)
{
m.WriteByte((byte)c);
}
}
break;
case "StructProperty":
size = BitConverter.ToInt32(p.raw, 16);
name2 = importpcc.getNameEntry(BitConverter.ToInt32(p.raw, 24));
idxname2 = pcc.FindNameOrAdd(name2);
pos = 32;
Props = new List<Property>();
try
{
Props = ReadProp(importpcc, p.raw, pos);
}
catch (Exception)
{
}
m.Write(BitConverter.GetBytes(size), 0, 4);
m.Write(new byte[4], 0, 4);
m.Write(BitConverter.GetBytes(idxname2), 0, 4);
m.Write(new byte[4], 0, 4);
if (Props.Count == 0 || Props[0].TypeVal == PropertyType.Unknown)
{
for (int i = 0; i < size; i++)
m.WriteByte(p.raw[32 + i]);
}
else
{
foreach (Property pp in Props)
ImportProperty(pcc, importpcc, pp, className, m, inStruct);
}
break;
case "ArrayProperty":
size = BitConverter.ToInt32(p.raw, 16);
count = BitConverter.ToInt32(p.raw, 24);
PropertyInfo info = ME3UnrealObjectInfo.getPropertyInfo(className, name, inStruct);
ArrayType arrayType = ME3UnrealObjectInfo.getArrayType(info);
pos = 28;
List<Property> AllProps = new List<Property>();
if (arrayType == ArrayType.Struct)
{
for (int i = 0; i < count; i++)
{
Props = new List<Property>();
try
{
Props = ReadProp(importpcc, p.raw, pos);
}
catch (Exception)
{
}
AllProps.AddRange(Props);
if (Props.Count != 0)
{
pos = Props[Props.Count - 1].offend;
}
}
}
m.Write(BitConverter.GetBytes(size), 0, 4);
m.Write(new byte[4], 0, 4);
m.Write(BitConverter.GetBytes(count), 0, 4);
if (AllProps.Count != 0 && (info == null || !ME3UnrealObjectInfo.isImmutable(info.reference)))
{
foreach (Property pp in AllProps)
ImportProperty(pcc, importpcc, pp, className, m, inStruct);
}
else if (arrayType == ArrayType.Name)
{
for (int i = 0; i < count; i++)
{
string s = importpcc.getNameEntry(BitConverter.ToInt32(p.raw, 28 + i * 8));
m.Write(BitConverter.GetBytes(pcc.FindNameOrAdd(s)), 0, 4);
//preserve index or whatever the second part of a namereference is
m.Write(p.raw, 32 + i * 8, 4);
}
}
else
{
m.Write(p.raw, 28, size - 4);
}
break;
default:
throw new Exception(type);
}
}
/// <summary>
/// Ports an export into a package. Checks if the export already exists, and if it does, returns that instead.
/// </summary>
/// <param name="targetPackage">The target package to port into.</param>
/// <param name="sourceExport">The source export to port over, including all dependencies and references.</param>
/// <param name="targetLink">The target link UIndex. Only used if createParentPackages is false.</param>
/// <param name="createParentPackages">If the export should be ported in the same way as it was cooked into the package natively, e.g. create the parent package paths. The export must directly sit under a Package or an exception will be thrown.</param>
/// <param name="ensureMemoryUniqueness">If this object is an instance, such as a sequence object, and should be made memory-unique so it is properly used</param>
/// <returns></returns>
public static ExportEntry PortExportIntoPackage(IMEPackage targetPackage, ExportEntry sourceExport, int targetLink = 0, bool createParentPackages = true, bool ensureMemoryUniqueness = false, bool useMemorySafeImport = false, PackageCache cache = null)
{
#if DEBUG
// in preprocessor to prevent this from running in release mode
if (sourceExport.FileRef.FilePath != null && targetPackage.FilePath != null)
{
Debug.WriteLine($"Porting {sourceExport.InstancedFullPath} from {Path.GetFileName(sourceExport.FileRef.FilePath)} into {Path.GetFileName(targetPackage.FilePath)}");
}
#endif
var existing = targetPackage.FindExport(sourceExport.InstancedFullPath);
if (existing != null)
{
return(existing);
}
// Create parent hierarchy
IEntry newParent = null;
if (createParentPackages)
{
List <IEntry> parents = new List <IEntry>();
var parent = sourceExport.Parent;
while (parent != null)
{
if (parent.ClassName != "Package")
{
throw new Exception("Parent is not package!");
}
parents.Add(parent);
parent = parent.Parent;
}
// Create the parents
parents.Reverse();
foreach (var p in parents)
{
var sourceFullPath = p.InstancedFullPath;
var matchingParent = targetPackage.FindEntry(sourceFullPath);
if (matchingParent != null)
{
newParent = matchingParent;
continue;
}
newParent = ExportCreator.CreatePackageExport(targetPackage, p.ObjectName, newParent);
}
}
else
{
newParent = targetPackage.GetEntry(targetLink);
}
IEntry newEntry;
if (!useMemorySafeImport)
{
Dictionary <IEntry, IEntry> crossPCCObjectMap = new Dictionary <IEntry, IEntry>(); // Not sure what this is used for these days. Should probably just be part of the method
var relinkResults = EntryImporter.ImportAndRelinkEntries(EntryImporter.PortingOption.CloneAllDependencies, sourceExport, targetPackage,
newParent, true, out newEntry, crossPCCObjectMap);
if (relinkResults.Any())
{
Debugger.Break();
}
}
else
{
// Memory safe, fixes upstream
var relinkedResults = EntryExporter.ExportExportToPackage(sourceExport, targetPackage, out newEntry, MERFileSystem.GetGlobalCache(), cache);
if (relinkedResults.Any())
{
Debugger.Break();
}
}
#if DEBUG
//(sourceExport.FileRef as MEPackage).CompareToPackageDetailed(targetPackage);
#endif
// Helps ensure we don't have memory duplicates
if (ensureMemoryUniqueness)
{
newEntry.ObjectName = targetPackage.GetNextIndexedName(newEntry.ObjectName);
}
return(newEntry as ExportEntry);
}
public void LoadME3Package(string s)
{
pcc?.Release(wpfWindow: this);
Pcc = MEPackageHandler.OpenME3Package(s, wpfWindow: this);
}
/// <summary>
/// Copies the inputstream to the outputstream, for the specified amount of bytes
/// </summary>
/// <param name="input">Stream to copy from</param>
/// <param name="output">Stream to copy to</param>
/// <param name="bytes">The number of bytes to copy</param>
//public static void CopyToEx(this Stream input, Stream output, int bytes)
//{
// var buffer = new byte[32768];
// int read;
// while (bytes > 0 &&
// (read = input.Read(buffer, 0, Math.Min(buffer.Length, bytes))) > 0)
// {
// output.Write(buffer, 0, read);
// bytes -= read;
// }
//}
public static NameReference ReadNameReference(this Stream stream, IMEPackage pcc)
{
return(new NameReference(pcc.getNameEntry(stream.ReadInt32()), stream.ReadInt32()));
}
public static void WriteNameReference(this Stream stream, NameReference name, IMEPackage pcc)
{
stream.WriteInt32(pcc.FindNameOrAdd(name.Name));
stream.WriteInt32(name.Number);
}
public ImportEntry(IMEPackage pccFile)
{
FileRef = pccFile;
Header = new byte[byteSize];
}
public static void WriteDelegateProperty(this EndianWriter stream, IMEPackage pcc, NameReference propName, ScriptDelegate value, int staticArrayIndex)
{
stream.WritePropHeader(pcc, propName, PropertyType.DelegateProperty, 12, staticArrayIndex);
stream.WriteInt32(value.Object);
stream.WriteNameReference(value.FunctionName, pcc);
}
public static void WriteArrayProperty(this EndianWriter stream, IMEPackage pcc, NameReference propName, int count, Func <Stream> func, int staticArrayIndex)
{
stream.WriteArrayProperty(pcc, propName, count, func(), staticArrayIndex);
}
public static Property getPropOrNull(IMEPackage pcc, byte[] data, int start, string propName)
{
List<Property> props = ReadProp(pcc, data, start);
foreach (Property prop in props)
{
if (pcc.getNameEntry(prop.Name) == propName)
{
return prop;
}
}
return null;
}
public static PropertyCollection RemoveIncompatibleProperties(IMEPackage sourcePcc, PropertyCollection props, string typeName, MEGame newGame)
{
var infoProps = UnrealObjectInfo.GetAllProperties(newGame, typeName);
infoProps.KeyComparer = StringComparer.OrdinalIgnoreCase;
var newProps = new PropertyCollection();
foreach (Property prop in props)
{
if (infoProps.ContainsKey(prop.Name))
{
switch (prop)
{
case ArrayProperty <DelegateProperty> adp:
//don't think these exist? if they do, delete them
break;
case ArrayProperty <EnumProperty> aep:
if (UnrealObjectInfo.GetEnumValues(newGame, aep.Reference) is List <NameReference> enumValues)
{
foreach (EnumProperty enumProperty in aep)
{
if (!enumValues.Contains(enumProperty.Value))
{
enumProperty.Value = enumValues.First(); //hope that the first value is a reasonable default
}
}
newProps.Add(aep);
}
break;
case ArrayProperty <ObjectProperty> asp:
for (int i = asp.Count - 1; i >= 0; i--)
{
if (asp[i].Value == 0 || sourcePcc.GetEntry(asp[i].Value) is IEntry entry && !entry.FullPath.StartsWith(UnrealPackageFile.TrashPackageName))
{
continue;
}
//delete if it references a trashed entry or if value is invalid
asp.RemoveAt(i);
}
newProps.Add(asp);
break;
case ArrayProperty <StructProperty> asp:
if (UnrealObjectInfo.GetStructs(newGame).ContainsKey(asp.Reference))
{
if (HasIncompatibleImmutabilities(asp.Reference, out bool newImmutability))
{
break;
}
foreach (StructProperty structProperty in asp)
{
structProperty.Properties = RemoveIncompatibleProperties(sourcePcc, structProperty.Properties, structProperty.StructType, newGame);
structProperty.IsImmutable = newImmutability;
}
newProps.Add(asp);
}
break;
case DelegateProperty delegateProperty:
//script related, so just delete it.
break;
case EnumProperty enumProperty:
if (UnrealObjectInfo.GetEnumValues(newGame, enumProperty.EnumType) is List <NameReference> values)
{
if (!values.Contains(enumProperty.Value))
{
enumProperty.Value = values.First(); //hope that the first value is a reasonable default
}
newProps.Add(enumProperty);
}
break;
case ObjectProperty objectProperty:
{
if (objectProperty.Value == 0 || sourcePcc.GetEntry(objectProperty.Value) is IEntry entry && !entry.FullPath.StartsWith(UnrealPackageFile.TrashPackageName))
{
newProps.Add(objectProperty);
}
break;
}
case StructProperty structProperty:
string structType = structProperty.StructType;
if (UnrealObjectInfo.GetStructs(newGame).ContainsKey(structType))
{
if (HasIncompatibleImmutabilities(structType, out bool newImmutability))
{
break;
}
structProperty.Properties = RemoveIncompatibleProperties(sourcePcc, structProperty.Properties, structType, newGame);
structProperty.IsImmutable = newImmutability;
newProps.Add(structProperty);
}
break;
default:
newProps.Add(prop);
break;
}
}
}
return(newProps);
bool HasIncompatibleImmutabilities(string structType, out bool newImmutability)
{
bool sourceIsImmutable = UnrealObjectInfo.IsImmutable(structType, sourcePcc.Game);
newImmutability = UnrealObjectInfo.IsImmutable(structType, newGame);
if (sourceIsImmutable && newImmutability && !UnrealObjectInfo.GetClassOrStructInfo(sourcePcc.Game, structType).properties
.SequenceEqual(UnrealObjectInfo.GetClassOrStructInfo(newGame, structType).properties))
{
//both immutable, but have different properties
return(true);
}
if (!sourceIsImmutable && newImmutability)
{
//can't easily guarantee it will have have all neccesary properties
return(true);
}
return(false);
}
}
public static CustomProperty PropertyToGrid(Property p, IMEPackage pcc)
{
string cat = p.TypeVal.ToString();
CustomProperty pg;
NameProp pp;
switch (p.TypeVal)
{
case PropertyType.BoolProperty :
pg = new CustomProperty(pcc.getNameEntry(p.Name), cat, (p.Value.IntValue == 1), typeof(bool), false, true);
break;
case PropertyType.FloatProperty:
pg = new CustomProperty(pcc.getNameEntry(p.Name), cat, p.Value.FloatValue, typeof(float), false, true);
break;
case PropertyType.ByteProperty:
if (p.Size != 8)
{
pg = new CustomProperty(pcc.getNameEntry(p.Name), cat, (byte)p.Value.IntValue, typeof(byte), false, true);
}
else
{
pp = new NameProp();
pp.name = pcc.getNameEntry(p.Value.IntValue);
pp.nameindex = p.Value.IntValue;
pg = new CustomProperty(pcc.getNameEntry(p.Name), cat, pp, typeof(NameProp), false, true);
}
break;
case PropertyType.NameProperty:
pp = new NameProp();
pp.name = pcc.getNameEntry(p.Value.IntValue);
pp.nameindex = p.Value.IntValue;
pg = new CustomProperty(pcc.getNameEntry(p.Name), cat, pp, typeof(NameProp), false, true);
break;
case PropertyType.ObjectProperty:
ObjectProp ppo = new ObjectProp();
ppo.objectName = pcc.getObjectName(p.Value.IntValue);
ppo.index = p.Value.IntValue;
pg = new CustomProperty(pcc.getNameEntry(p.Name), cat, ppo, typeof(ObjectProp), false, true);
break;
case PropertyType.StrProperty:
pg = new CustomProperty(pcc.getNameEntry(p.Name), cat, p.Value.StringValue, typeof(string), false, true);
break;
case PropertyType.ArrayProperty:
pg = new CustomProperty(pcc.getNameEntry(p.Name), cat, BitConverter.ToInt32(p.raw,24) + " elements", typeof(string), false, true);
break;
case PropertyType.StructProperty:
string structType = pcc.getNameEntry(p.Value.IntValue);
if(structType == "Color") {
ColorProp cp = new ColorProp();
cp.name = structType;
cp.nameindex = p.Value.IntValue;
System.Drawing.Color color = System.Drawing.Color.FromArgb(BitConverter.ToInt32(p.raw, 32));
cp.Alpha = color.A;
cp.Red = color.R;
cp.Green = color.G;
cp.Blue = color.B;
pg = new CustomProperty(pcc.getNameEntry(p.Name), cat, cp, typeof(ColorProp), false, true);
}
else if (structType == "Vector")
{
VectorProp vp = new VectorProp();
vp.name = structType;
vp.nameindex = p.Value.IntValue;
vp.X = BitConverter.ToSingle(p.raw, 32);
vp.Y = BitConverter.ToSingle(p.raw, 36);
vp.Z = BitConverter.ToSingle(p.raw, 40);
pg = new CustomProperty(pcc.getNameEntry(p.Name), cat, vp, typeof(VectorProp), false, true);
}
else if (structType == "Rotator")
{
RotatorProp rp = new RotatorProp();
rp.name = structType;
rp.nameindex = p.Value.IntValue;
rp.Pitch = BitConverter.ToInt32(p.raw, 32) * 360f / 65536f;
rp.Yaw = BitConverter.ToInt32(p.raw, 36) * 360f / 65536f;
rp.Roll = BitConverter.ToInt32(p.raw, 40) * 360f / 65536f;
pg = new CustomProperty(pcc.getNameEntry(p.Name), cat, rp, typeof(RotatorProp), false, true);
}
else if (structType == "LinearColor")
{
LinearColorProp lcp = new LinearColorProp();
lcp.name = structType;
lcp.nameindex = p.Value.IntValue;
lcp.Red = BitConverter.ToSingle(p.raw, 32);
lcp.Green = BitConverter.ToSingle(p.raw, 36);
lcp.Blue = BitConverter.ToSingle(p.raw, 40);
lcp.Alpha = BitConverter.ToSingle(p.raw, 44);
pg = new CustomProperty(pcc.getNameEntry(p.Name), cat, lcp, typeof(VectorProp), false, true);
}
else {
StructProp ppp = new StructProp();
ppp.name = structType;
ppp.nameindex = p.Value.IntValue;
byte[] buf = new byte[p.Value.Array.Count()];
for (int i = 0; i < p.Value.Array.Count(); i++)
buf[i] = (byte)p.Value.Array[i].IntValue;
List<int> buf2 = new List<int>();
for (int i = 0; i < p.Value.Array.Count() / 4; i++)
buf2.Add(BitConverter.ToInt32(buf ,i * 4));
ppp.data = buf2.ToArray();
pg = new CustomProperty(pcc.getNameEntry(p.Name), cat, ppp, typeof(StructProp), false, true);
}
break;
default:
pg = new CustomProperty(pcc.getNameEntry(p.Name),cat,p.Value.IntValue,typeof(int),false,true);
break;
}
return pg;
}
private static PropertyInfo getProperty(ExportEntry entry)
{
IMEPackage pcc = entry.FileRef;
string reference = null;
PropertyType type;
switch (entry.ClassName)
{
case "IntProperty":
type = PropertyType.IntProperty;
break;
case "StringRefProperty":
type = PropertyType.StringRefProperty;
break;
case "FloatProperty":
type = PropertyType.FloatProperty;
break;
case "BoolProperty":
type = PropertyType.BoolProperty;
break;
case "StrProperty":
type = PropertyType.StrProperty;
break;
case "NameProperty":
type = PropertyType.NameProperty;
break;
case "DelegateProperty":
type = PropertyType.DelegateProperty;
break;
case "ObjectProperty":
case "ClassProperty":
case "ComponentProperty":
type = PropertyType.ObjectProperty;
reference = pcc.getObjectName(BitConverter.ToInt32(entry.Data, entry.Data.Length - 4));
break;
case "StructProperty":
type = PropertyType.StructProperty;
reference = pcc.getObjectName(BitConverter.ToInt32(entry.Data, entry.Data.Length - 4));
break;
case "BioMask4Property":
case "ByteProperty":
type = PropertyType.ByteProperty;
reference = pcc.getObjectName(BitConverter.ToInt32(entry.Data, entry.Data.Length - 4));
break;
case "ArrayProperty":
type = PropertyType.ArrayProperty;
PropertyInfo arrayTypeProp = getProperty(pcc.getUExport(BitConverter.ToInt32(entry.Data, 44)));
if (arrayTypeProp != null)
{
switch (arrayTypeProp.Type)
{
case PropertyType.ObjectProperty:
case PropertyType.StructProperty:
case PropertyType.ArrayProperty:
reference = arrayTypeProp.Reference;
break;
case PropertyType.ByteProperty:
if (arrayTypeProp.Reference == "Class")
{
reference = arrayTypeProp.Type.ToString();
}
else
{
reference = arrayTypeProp.Reference;
}
break;
case PropertyType.IntProperty:
case PropertyType.FloatProperty:
case PropertyType.NameProperty:
case PropertyType.BoolProperty:
case PropertyType.StrProperty:
case PropertyType.StringRefProperty:
case PropertyType.DelegateProperty:
reference = arrayTypeProp.Type.ToString();
break;
case PropertyType.None:
case PropertyType.Unknown:
default:
Debugger.Break();
return(null);
}
}
else
{
return(null);
}
break;
case "InterfaceProperty":
default:
return(null);
}
bool transient = ((UnrealFlags.EPropertyFlags)BitConverter.ToUInt64(entry.Data, 24)).HasFlag(UnrealFlags.EPropertyFlags.Transient);
return(new PropertyInfo(type, reference, transient));
}
static PropertyValue ReadValue(IMEPackage pcc, byte[] raw, int start, int type)
{
PropertyValue v = new PropertyValue();
switch (pcc.getNameEntry(type))
{
case "IntProperty":
case "ObjectProperty":
case "StringRefProperty":
v.IntValue = BitConverter.ToInt32(raw, start);
v.len = 4;
break;
case "NameProperty":
v.IntValue = BitConverter.ToInt32(raw, start);
var nameRef = new NameReference();
nameRef.Name = pcc.getNameEntry(v.IntValue);
nameRef.count = BitConverter.ToInt32(raw, start + 4);
if (nameRef.count > 0)
nameRef.Name += "_" + (nameRef.count - 1);
v.NameValue = nameRef;
v.StringValue = nameRef.Name;
v.len = 8;
break;
}
return v;
}
/// <summary>
/// Attempts to relink unreal binary data to object pointers if they are part of the clone tree.
/// It's gonna be an ugly mess.
/// </summary>
/// <param name="importpcc">PCC being imported from</param>
private List <string> relinkBinaryObjects(IMEPackage importpcc)
{
List <string> relinkFailedReport = new List <string>();
foreach (KeyValuePair <int, int> entry in crossPCCObjectMap)
{
if (entry.Key > 0)
{
IExportEntry exp = pcc.getExport(entry.Value);
byte[] binarydata = exp.getBinaryData();
if (binarydata.Length > 0)
{
//has binary data
//This is temporary until I find a more permanent style for relinking binary
try
{
switch (exp.ClassName)
{
case "WwiseEvent":
{
int count = BitConverter.ToInt32(binarydata, 0);
for (int i = 0; i < count; i++)
{
int originalValue = BitConverter.ToInt32(binarydata, 4 + (i * 4));
int currentObjectRef = unrealIndexToME3ExpIndexing(originalValue); //count + i * intsize
int mapped;
bool isMapped = crossPCCObjectMap.TryGetValue(currentObjectRef, out mapped);
if (isMapped)
{
mapped = me3ExpIndexingToUnreal(mapped, originalValue < 0); //if the value is 0, it would have an error anyways.
Debug.WriteLine("Binary relink hit for WwiseEvent Export " + exp.UIndex + " 0x" + (4 + (i * 4)).ToString("X6") + " " + originalValue + " -> " + (mapped + 1));
WriteMem(4 + (i * 4), binarydata, BitConverter.GetBytes(mapped));
int newValue = BitConverter.ToInt32(binarydata, 4 + (i * 4));
Debug.WriteLine(originalValue + " -> " + newValue);
}
else
{
Debug.WriteLine("Binary relink missed WwiseEvent Export " + exp.UIndex + " 0x" + (4 + (i * 4)).ToString("X6") + " " + originalValue);
relinkFailedReport.Add(exp.Index + " " + exp.GetFullPath + " binary relink error: WwiseEvent referenced WwiseStream " + originalValue + " is not in the mapping tree and could not be relinked");
}
}
exp.setBinaryData(binarydata);
}
break;
case "Class":
{
if (exp.FileRef.Game != importpcc.Game)
{
//Cannot relink against a different game.
continue;
}
IExportEntry importingExp = importpcc.getExport(entry.Key);
if (importingExp.ClassName != "Class")
{
continue; //the class was not actually set, so this is not really class.
}
//This is going to be pretty ugly
try
{
byte[] newdata = importpcc.Exports[entry.Key].Data; //may need to rewrite first unreal header
byte[] data = importpcc.Exports[entry.Key].Data;
int offset = 0;
int unrealExportIndex = BitConverter.ToInt32(data, offset);
offset += 4;
int superclassIndex = BitConverter.ToInt32(data, offset);
if (superclassIndex < 0)
{
//its an import
ImportEntry superclassImportEntry = importpcc.Imports[Math.Abs(unrealIndexToME3ExpIndexing(superclassIndex))];
ImportEntry newSuperclassValue = getOrAddCrossImport(superclassImportEntry.GetFullPath, importpcc, exp.FileRef);
WriteMem(offset, newdata, BitConverter.GetBytes(newSuperclassValue.UIndex));
}
else
{
relinkFailedReport.Add(exp.Index + " " + exp.GetFullPath + " binary relink error: Superclass is an export in the source package and was not relinked.");
}
int unknown1 = BitConverter.ToInt32(data, offset);
offset += 4;
int classObjTree = BitConverter.ToInt32(data, offset); //Don't know if I need to do this.
offset += 4;
//I am not sure what these mean. However if Pt1&2 are 33/25, the following bytes that follow are extended.
int headerUnknown1 = BitConverter.ToInt32(data, offset);
Int64 ignoreMask = BitConverter.ToInt64(data, offset);
offset += 8;
Int16 labelOffset = BitConverter.ToInt16(data, offset);
offset += 2;
int skipAmount = 0x6;
//Find end of script block. Seems to be 10 FF's.
while (offset + skipAmount + 10 < data.Length)
{
//Debug.WriteLine("Cheecking at 0x"+(offset + skipAmount + 10).ToString("X4"));
bool isEnd = true;
for (int i = 0; i < 10; i++)
{
byte b = data[offset + skipAmount + i];
if (b != 0xFF)
{
isEnd = false;
break;
}
}
if (isEnd)
{
break;
}
else
{
skipAmount++;
}
}
int offsetEnd = offset + skipAmount + 10;
offset += skipAmount + 10; //heuristic to find end of script
uint stateMask = BitConverter.ToUInt32(data, offset);
offset += 4;
int localFunctionsTableCount = BitConverter.ToInt32(data, offset);
offset += 4;
bool isMapped;
for (int i = 0; i < localFunctionsTableCount; i++)
{
int nameTableIndex = BitConverter.ToInt32(data, offset);
int nameIndex = BitConverter.ToInt32(data, offset + 4);
NameReference importingName = importpcc.getNameEntry(nameTableIndex);
int newFuncName = exp.FileRef.FindNameOrAdd(importingName);
WriteMem(offset, newdata, BitConverter.GetBytes(newFuncName));
offset += 8;
int functionObjectIndex = unrealIndexToME3ExpIndexing(BitConverter.ToInt32(data, offset));
int mapped;
isMapped = crossPCCObjectMap.TryGetValue(functionObjectIndex, out mapped);
if (isMapped)
{
mapped = me3ExpIndexingToUnreal(mapped, functionObjectIndex < 0); //if the value is 0, it would have an error anyways.
WriteMem(offset, newdata, BitConverter.GetBytes(mapped));
}
else
{
relinkFailedReport.Add(exp.Index + " " + exp.GetFullPath + " binary relink error: Local function[" + i + "] could not be remapped during porting: " + functionObjectIndex + " is not in the mapping tree and could not be relinked");
}
offset += 4;
}
int classMask = BitConverter.ToInt32(data, offset);
offset += 4;
if (importpcc.Game != MEGame.ME3)
{
offset += 1; //seems to be a blank byte here
}
int coreReference = BitConverter.ToInt32(data, offset);
if (coreReference < 0)
{
//its an import
ImportEntry outerclassReferenceImport = importpcc.Imports[Math.Abs(unrealIndexToME3ExpIndexing(coreReference))];
ImportEntry outerclassNewImport = getOrAddCrossImport(outerclassReferenceImport.GetFullPath, importpcc, exp.FileRef);
WriteMem(offset, newdata, BitConverter.GetBytes(outerclassNewImport.UIndex));
}
else
{
relinkFailedReport.Add(exp.Index + " " + exp.GetFullPath + " binary relink error: Outerclass is an export in the original package, not relinked.");
}
offset += 4;
if (importpcc.Game == MEGame.ME3)
{
offset = ClassParser_RelinkComponentsTable(importpcc, exp, relinkFailedReport, ref newdata, offset);
offset = ClassParser_ReadImplementsTable(importpcc, exp, relinkFailedReport, ref newdata, offset);
int postComponentsNoneNameIndex = BitConverter.ToInt32(data, offset);
int postComponentNoneIndex = BitConverter.ToInt32(data, offset + 4);
string postCompName = importpcc.getNameEntry(postComponentsNoneNameIndex); //This appears to be unused in ME3, it is always None it seems.
int newFuncName = exp.FileRef.FindNameOrAdd(postCompName);
WriteMem(offset, newdata, BitConverter.GetBytes(newFuncName));
offset += 8;
int unknown4 = BitConverter.ToInt32(data, offset);
offset += 4;
}
else
{
offset = ClassParser_ReadImplementsTable(importpcc, exp, relinkFailedReport, ref data, offset);
offset = ClassParser_RelinkComponentsTable(importpcc, exp, relinkFailedReport, ref data, offset);
int me12unknownend1 = BitConverter.ToInt32(data, offset);
offset += 4;
int me12unknownend2 = BitConverter.ToInt32(data, offset);
offset += 4;
}
int defaultsClassLink = unrealIndexToME3ExpIndexing(BitConverter.ToInt32(data, offset));
int defClassLink;
isMapped = crossPCCObjectMap.TryGetValue(defaultsClassLink, out defClassLink);
if (isMapped)
{
defClassLink = me3ExpIndexingToUnreal(defClassLink, defaultsClassLink < 0); //if the value is 0, it would have an error anyways.
WriteMem(offset, newdata, BitConverter.GetBytes(defClassLink));
}
else
{
relinkFailedReport.Add(exp.Index + " " + exp.GetFullPath + " binary relink error: DefaultsClassLink cannot be currently automatically relinked by Binary Relinker. Please manually set this in Binary Editor");
}
offset += 4;
if (importpcc.Game == MEGame.ME3)
{
int functionsTableCount = BitConverter.ToInt32(data, offset);
offset += 4;
for (int i = 0; i < functionsTableCount; i++)
{
int functionsTableIndex = unrealIndexToME3ExpIndexing(BitConverter.ToInt32(data, offset));
int mapped;
isMapped = crossPCCObjectMap.TryGetValue(functionsTableIndex, out mapped);
if (isMapped)
{
mapped = me3ExpIndexingToUnreal(mapped, functionsTableIndex < 0); //if the value is 0, it would have an error anyways.
WriteMem(offset, newdata, BitConverter.GetBytes(mapped));
}
else
{
if (functionsTableIndex < 0)
{
ImportEntry functionObjIndex = importpcc.Imports[Math.Abs(functionsTableIndex)];
ImportEntry newFunctionObjIndex = getOrAddCrossImport(functionObjIndex.GetFullPath, importpcc, exp.FileRef);
WriteMem(offset, newdata, BitConverter.GetBytes(newFunctionObjIndex.UIndex));
}
else
{
relinkFailedReport.Add(exp.Index + " " + exp.GetFullPath + " binary relink error: Full Functions List function[" + i + "] could not be remapped during porting: " + functionsTableIndex + " is not in the mapping tree and could not be relinked");
}
}
offset += 4;
}
}
exp.Data = newdata;
}
catch (Exception ex)
{
relinkFailedReport.Add(exp.Index + " " + exp.GetFullPath + " binary relink error: Exception relinking: " + ex.Message);
}
}
break;
default:
continue;
}
}
catch (Exception e)
{
relinkFailedReport.Add(exp.Index + " " + exp.GetFullPath + " binary relinking failed: " + e.Message);
}
//Run an interpreter pass over it - we will find objectleafnodes and attempt to update the same offset in the destination file.
//BinaryInterpreter binaryrelinkInterpreter = new ME3Explorer.BinaryInterpreter(importpcc, importpcc.Exports[entry.Key], pcc, pcc.Exports[entry.Value], crossPCCObjectMapping);
}
}
}
return(relinkFailedReport);
}
private void importImport(IMEPackage importpcc, int n, int link)
{
ImportEntry imp = importpcc.getImport(n);
ImportEntry nimp = new ImportEntry(pcc, imp.header);
nimp.idxLink = link;
nimp.idxClassName = pcc.FindNameOrAdd(importpcc.getNameEntry(imp.idxClassName));
nimp.idxObjectName = pcc.FindNameOrAdd(importpcc.getNameEntry(imp.idxObjectName));
nimp.idxPackageFile = pcc.FindNameOrAdd(importpcc.getNameEntry(imp.idxPackageFile));
pcc.addImport(nimp);
}
public InterpCurve(IMEPackage _pcc, PropertyReader.Property p)
{
pcc = _pcc;
Curves = new ObservableCollection<Curve>();
Name = pcc.getNameEntry(p.Name);
curveType = (CurveType)Enum.Parse(typeof(CurveType), pcc.getNameEntry(p.Value.IntValue));
float InVal = 0f;
CurveMode InterpMode = CurveMode.CIM_Linear;
var points = PropertyReader.ReadStructArrayProp(pcc, PropertyReader.getPropOrNull(pcc, p.raw, 32, "Points"));
switch (curveType)
{
case CurveType.InterpCurveQuat:
throw new NotImplementedException($"InterpCurveQuat has not been implemented yet.");
case CurveType.InterpCurveFloat:
float OutVal = 0f;
float ArriveTangent = 0f;
float LeaveTangent = 0f;
LinkedList<CurvePoint> vals = new LinkedList<CurvePoint>();
foreach (var point in points)
{
foreach (var prop in point)
{
switch (pcc.getNameEntry(prop.Name))
{
case "InVal":
InVal = BitConverter.ToSingle(prop.raw, 24);
break;
case "OutVal":
OutVal = BitConverter.ToSingle(prop.raw, 24);
break;
case "ArriveTangent":
ArriveTangent = BitConverter.ToSingle(prop.raw, 24);
break;
case "LeaveTangent":
LeaveTangent = BitConverter.ToSingle(prop.raw, 24);
break;
case "InterpMode":
InterpMode = (CurveMode)Enum.Parse(typeof(CurveMode), pcc.getNameEntry(prop.Value.IntValue));
break;
default:
break;
}
}
vals.AddLast(new CurvePoint(InVal, OutVal, ArriveTangent, LeaveTangent, InterpMode));
}
Curves.Add(new Curve("X", vals));
break;
case CurveType.InterpCurveVector:
Vector OutValVec = new Vector(0, 0, 0);
Vector ArriveTangentVec = new Vector(0, 0, 0);
Vector LeaveTangentVec = new Vector(0, 0, 0);
LinkedList<CurvePoint> x = new LinkedList<CurvePoint>();
LinkedList<CurvePoint> y = new LinkedList<CurvePoint>();
LinkedList<CurvePoint> z = new LinkedList<CurvePoint>();
foreach (var point in points)
{
foreach (var prop in point)
{
switch (pcc.getNameEntry(prop.Name))
{
case "InVal":
InVal = BitConverter.ToSingle(prop.raw, 24);
break;
case "OutVal":
OutValVec = GetVector(prop);
break;
case "ArriveTangent":
ArriveTangentVec = GetVector(prop);
break;
case "LeaveTangent":
LeaveTangentVec = GetVector(prop);
break;
case "InterpMode":
InterpMode = (CurveMode)Enum.Parse(typeof(CurveMode), pcc.getNameEntry(prop.Value.IntValue));
break;
default:
break;
}
}
x.AddLast(new CurvePoint(InVal, OutValVec.X, ArriveTangentVec.X, LeaveTangentVec.X, InterpMode));
y.AddLast(new CurvePoint(InVal, OutValVec.Y, ArriveTangentVec.Y, LeaveTangentVec.Y, InterpMode));
z.AddLast(new CurvePoint(InVal, OutValVec.Z, ArriveTangentVec.Z, LeaveTangentVec.Z, InterpMode));
}
if (Name == "EulerTrack")
{
Curves.Add(new Curve("Roll", x));
Curves.Add(new Curve("Pitch", y));
Curves.Add(new Curve("Yaw", z));
}
else
{
Curves.Add(new Curve("X", x));
Curves.Add(new Curve("Y", y));
Curves.Add(new Curve("Z", z));
}
break;
case CurveType.InterpCurveVector2D:
throw new NotImplementedException($"InterpCurveVector2D has not been implemented yet.");
case CurveType.InterpCurveTwoVectors:
throw new NotImplementedException($"InterpCurveTwoVectors has not been implemented yet.");
case CurveType.InterpCurveLinearColor:
throw new NotImplementedException($"InterpCurveLinearColor has not been implemented yet.");
default:
break;
}
foreach (var curve in Curves)
{
curve.SharedValueChanged += Curve_SharedValueChanged;
curve.ListModified += Curve_ListModified;
}
}
public SVar(int idx, float x, float y, IMEPackage p, GraphEditor grapheditor)
: base(idx, p, grapheditor)
{
string s = export.ObjectName;
s = s.Replace("BioSeqVar_", "");
s = s.Replace("SFXSeqVar_", "");
s = s.Replace("SeqVar_", "");
type = getType(s);
float w = 60;
float h = 60;
shape = PPath.CreateEllipse(0, 0, w, h);
outlinePen = new Pen(getColor(type));
shape.Pen = outlinePen;
shape.Brush = nodeBrush;
shape.Pickable = false;
this.AddChild(shape);
this.Bounds = new RectangleF(0, 0, w, h);
val = new SText(GetValue());
val.Pickable = false;
val.TextAlignment = StringAlignment.Center;
val.X = w / 2 - val.Width / 2;
val.Y = h / 2 - val.Height / 2;
this.AddChild(val);
var props = export.GetProperties();
foreach (var prop in props)
{
if (prop.Name == "VarName" || prop.Name == "varName")
{
SText VarName = new SText((prop as NameProperty).Value, Color.Red, false);
VarName.Pickable = false;
VarName.TextAlignment = StringAlignment.Center;
VarName.X = w / 2 - VarName.Width / 2;
VarName.Y = h;
this.AddChild(VarName);
break;
}
}
this.TranslateBy(x, y);
this.MouseEnter += OnMouseEnter;
this.MouseLeave += OnMouseLeave;
}
//call this method to regenerate ME1ObjectInfo.json
//Takes a long time (10 to 20 minutes maybe?). Application will be completely unresponsive during that time.
public static void generateInfo(string outpath)
{
Classes = new Dictionary <string, ClassInfo>();
Structs = new Dictionary <string, ClassInfo>();
Enums = new Dictionary <string, List <NameReference> >();
SequenceObjects = new Dictionary <string, SequenceObjectInfo>();
foreach (string file in MELoadedFiles.GetOfficialFiles(MEGame.ME1))
{
if (Path.GetExtension(file) == ".upk" || Path.GetExtension(file) == ".sfm" || Path.GetExtension(file) == ".u")
{
Debug.WriteLine($"File: {file}");
using IMEPackage pcc = MEPackageHandler.OpenME1Package(file);
for (int j = 1; j <= pcc.ExportCount; j++)
{
ExportEntry exportEntry = pcc.GetUExport(j);
string className = exportEntry.ClassName;
if (className == "Enum")
{
generateEnumValues(exportEntry);
}
else if (className == "Class")
{
string objectName = exportEntry.ObjectName;
Debug.WriteLine($"Generating information for {objectName}");
if (!Classes.ContainsKey(objectName))
{
Classes.Add(objectName, generateClassInfo(exportEntry));
}
}
else if (className == "ScriptStruct")
{
string objectName = exportEntry.ObjectName;
if (!Structs.ContainsKey(exportEntry.ObjectName))
{
Structs.Add(objectName, generateClassInfo(exportEntry, isStruct: true));
}
}
else if (exportEntry.IsA("SequenceObject"))
{
if (!SequenceObjects.TryGetValue(className, out SequenceObjectInfo seqObjInfo))
{
seqObjInfo = new SequenceObjectInfo();
SequenceObjects.Add(className, seqObjInfo);
}
int objInstanceVersion = exportEntry.GetProperty <IntProperty>("ObjInstanceVersion");
if (objInstanceVersion > seqObjInfo.ObjInstanceVersion)
{
seqObjInfo.ObjInstanceVersion = objInstanceVersion;
}
}
}
}
}
//CUSTOM ADDITIONS
Classes["LightMapTexture2D"] = new ClassInfo
{
baseClass = "Texture2D",
exportIndex = 0,
pccPath = UnrealObjectInfo.Me3ExplorerCustomNativeAdditionsName
};
Classes["StaticMesh"] = new ClassInfo
{
baseClass = "Object",
exportIndex = 0,
pccPath = UnrealObjectInfo.Me3ExplorerCustomNativeAdditionsName,
properties =
{
new KeyValuePair <string, PropertyInfo>("UseSimpleRigidBodyCollision", new PropertyInfo(PropertyType.BoolProperty)),
new KeyValuePair <string, PropertyInfo>("UseSimpleLineCollision", new PropertyInfo(PropertyType.BoolProperty)),
new KeyValuePair <string, PropertyInfo>("UseSimpleBoxCollision", new PropertyInfo(PropertyType.BoolProperty)),
new KeyValuePair <string, PropertyInfo>("ForceDoubleSidedShadowVolumes", new PropertyInfo(PropertyType.BoolProperty)),
new KeyValuePair <string, PropertyInfo>("BodySetup", new PropertyInfo(PropertyType.ObjectProperty, "RB_BodySetup")),
new KeyValuePair <string, PropertyInfo>("LODDistanceRatio", new PropertyInfo(PropertyType.FloatProperty)),
new KeyValuePair <string, PropertyInfo>("LightMapCoordinateIndex", new PropertyInfo(PropertyType.IntProperty)),
new KeyValuePair <string, PropertyInfo>("LightMapResolution", new PropertyInfo(PropertyType.IntProperty)),
new KeyValuePair <string, PropertyInfo>("SoundCue", new PropertyInfo(PropertyType.ObjectProperty, "SoundCue")),
}
};
File.WriteAllText(outpath, JsonConvert.SerializeObject(new { SequenceObjects, Classes, Structs, Enums }, Formatting.Indented));
}
private int ClassParser_RelinkComponentsTable(IMEPackage importpcc, IExportEntry exp, List <string> relinkFailedReport, ref byte[] data, int offset)
{
if (importpcc.Game == MEGame.ME3)
{
int componentTableNameIndex = BitConverter.ToInt32(data, offset);
int componentTableIndex = BitConverter.ToInt32(data, offset + 4);
NameReference importingName = importpcc.getNameEntry(componentTableNameIndex);
int newComponentTableName = exp.FileRef.FindNameOrAdd(importingName);
WriteMem(offset, data, BitConverter.GetBytes(newComponentTableName));
offset += 8;
int componentTableCount = BitConverter.ToInt32(data, offset);
offset += 4;
for (int i = 0; i < componentTableCount; i++)
{
int nameTableIndex = BitConverter.ToInt32(data, offset);
int nameIndex = BitConverter.ToInt32(data, offset + 4);
importingName = importpcc.getNameEntry(nameTableIndex);
int componentName = exp.FileRef.FindNameOrAdd(importingName);
WriteMem(offset, data, BitConverter.GetBytes(componentName));
offset += 8;
int componentObjectIndex = BitConverter.ToInt32(data, offset);
int mapped;
bool isMapped = crossPCCObjectMap.TryGetValue(componentObjectIndex, out mapped);
if (isMapped)
{
mapped = me3ExpIndexingToUnreal(mapped, componentObjectIndex < 0); //if the value is 0, it would have an error anyways.
WriteMem(offset, data, BitConverter.GetBytes(mapped));
}
else
{
if (componentObjectIndex < 0)
{
ImportEntry componentObjectImport = importpcc.Imports[Math.Abs(unrealIndexToME3ExpIndexing(componentObjectIndex))];
ImportEntry newComponentObjectImport = getOrAddCrossImport(componentObjectImport.GetFullPath, importpcc, exp.FileRef);
WriteMem(offset, data, BitConverter.GetBytes(newComponentObjectImport.UIndex));
}
else if (componentObjectIndex > 0) //we do not remap on 0 here in binary land
{
relinkFailedReport.Add(exp.Index + " " + exp.GetFullPath + " binary relink error: Component[" + i + "] could not be remapped during porting: " + componentObjectIndex + " is not in the mapping tree");
}
}
offset += 4;
}
}
else
{
int componentTableCount = BitConverter.ToInt32(data, offset);
offset += 4;
for (int i = 0; i < componentTableCount; i++)
{
int nameTableIndex = BitConverter.ToInt32(data, offset);
int nameIndex = BitConverter.ToInt32(data, offset + 4);
offset += 8;
int componentObjectIndex = BitConverter.ToInt32(data, offset);
if (componentObjectIndex != 0)
{
int mapped;
bool isMapped = crossPCCObjectMap.TryGetValue(componentObjectIndex, out mapped);
if (isMapped)
{
mapped = me3ExpIndexingToUnreal(mapped, componentObjectIndex < 0); //if the value is 0, it would have an error anyways.
WriteMem(offset, data, BitConverter.GetBytes(mapped));
}
else
{
if (componentObjectIndex < 0)
{
ImportEntry componentObjectImport = importpcc.Imports[Math.Abs(unrealIndexToME3ExpIndexing(componentObjectIndex))];
ImportEntry newComponentObjectImport = getOrAddCrossImport(componentObjectImport.GetFullPath, importpcc, exp.FileRef);
WriteMem(offset, data, BitConverter.GetBytes(newComponentObjectImport.UIndex));
}
else
{
relinkFailedReport.Add("Binary Class Component[" + i + "] could not be remapped during porting: " + componentObjectIndex + " is not in the mapping tree");
}
}
}
offset += 4;
}
}
return(offset);
}
public static IEntry GetEntry(Window owner, IMEPackage pcc, SupportedTypes supportedInputTypes, string directionsText = null)
{
var dlg = new EntrySelector(owner, pcc, supportedInputTypes, directionsText);
return(dlg.ShowDialog() == true ? dlg.ChosenEntry : null);
}
public static void propGridPropertyValueChanged(PropertyValueChangedEventArgs e, int n, IMEPackage pcc)
{
string name = e.ChangedItem.Label;
GridItem parent = e.ChangedItem.Parent;
//if (parent != null) name = parent.Label;
if (parent.Label == "data")
{
GridItem parent2 = parent.Parent;
if (parent2 != null) name = parent2.Label;
}
Type parentVal = null;
if (parent.Value != null)
{
parentVal = parent.Value.GetType();
}
if (name == "nameindex" || name == "index" || parentVal == typeof(ColorProp) || parentVal == typeof(VectorProp) || parentVal == typeof(Unreal.RotatorProp) || parentVal == typeof(Unreal.LinearColorProp))
{
name = parent.Label;
}
IExportEntry ent = pcc.getExport(n);
byte[] data = ent.Data;
List<PropertyReader.Property> p = PropertyReader.getPropList(ent);
int m = -1;
for (int i = 0; i < p.Count; i++)
if (pcc.getNameEntry(p[i].Name) == name)
m = i;
if (m == -1)
return;
byte[] buff2;
switch (p[m].TypeVal)
{
case PropertyType.BoolProperty:
byte res = 0;
if ((bool)e.ChangedItem.Value == true)
res = 1;
data[p[m].offsetval] = res;
break;
case PropertyType.FloatProperty:
buff2 = BitConverter.GetBytes((float)e.ChangedItem.Value);
for (int i = 0; i < 4; i++)
data[p[m].offsetval + i] = buff2[i];
break;
case PropertyType.IntProperty:
case PropertyType.StringRefProperty:
int newv = Convert.ToInt32(e.ChangedItem.Value);
int oldv = Convert.ToInt32(e.OldValue);
buff2 = BitConverter.GetBytes(newv);
for (int i = 0; i < 4; i++)
data[p[m].offsetval + i] = buff2[i];
break;
case PropertyType.StrProperty:
string s = Convert.ToString(e.ChangedItem.Value);
int stringMultiplier = 1;
int oldLength = BitConverter.ToInt32(data, p[m].offsetval);
if (oldLength < 0)
{
stringMultiplier = 2;
oldLength *= -2;
}
int oldSize = 4 + oldLength;
List<byte> stringBuff = new List<byte>(s.Length * stringMultiplier);
if (stringMultiplier == 2)
{
for (int j = 0; j < s.Length; j++)
{
stringBuff.AddRange(BitConverter.GetBytes(s[j]));
}
stringBuff.Add(0);
}
else
{
for (int j = 0; j < s.Length; j++)
{
stringBuff.Add(BitConverter.GetBytes(s[j])[0]);
}
}
stringBuff.Add(0);
buff2 = BitConverter.GetBytes((s.Length + 1) * stringMultiplier + 4);
for (int j = 0; j < 4; j++)
data[p[m].offsetval - 8 + j] = buff2[j];
buff2 = BitConverter.GetBytes((s.Length + 1) * stringMultiplier == 1 ? 1 : -1);
for (int j = 0; j < 4; j++)
data[p[m].offsetval + j] = buff2[j];
buff2 = new byte[data.Length - oldLength + stringBuff.Count];
int startLength = p[m].offsetval + 4;
int startLength2 = startLength + oldLength;
for (int i = 0; i < startLength; i++)
{
buff2[i] = data[i];
}
for (int i = 0; i < stringBuff.Count; i++)
{
buff2[i + startLength] = stringBuff[i];
}
startLength += stringBuff.Count;
for (int i = 0; i < data.Length - startLength2; i++)
{
buff2[i + startLength] = data[i + startLength2];
}
data = buff2;
break;
case PropertyType.StructProperty:
if (e.ChangedItem.Label != "nameindex" && parentVal == typeof(ColorProp))
{
switch (e.ChangedItem.Label)
{
case "Alpha":
data[p[m].offsetval + 11] = Convert.ToByte(e.ChangedItem.Value);
break;
case "Red":
data[p[m].offsetval + 10] = Convert.ToByte(e.ChangedItem.Value);
break;
case "Green":
data[p[m].offsetval + 9] = Convert.ToByte(e.ChangedItem.Value);
break;
case "Blue":
data[p[m].offsetval + 8] = Convert.ToByte(e.ChangedItem.Value);
break;
default:
break;
}
}
else if (e.ChangedItem.Label != "nameindex" && parentVal == typeof(VectorProp))
{
int offset = 0;
switch (e.ChangedItem.Label)
{
case "X":
offset = 8;
break;
case "Y":
offset = 12;
break;
case "Z":
offset = 16;
break;
default:
break;
}
if (offset != 0)
{
buff2 = BitConverter.GetBytes(Convert.ToSingle(e.ChangedItem.Value));
for (int i = 0; i < 4; i++)
data[p[m].offsetval + offset + i] = buff2[i];
}
}
else if (e.ChangedItem.Label != "nameindex" && parentVal == typeof(Unreal.RotatorProp))
{
int offset = 0;
switch (e.ChangedItem.Label)
{
case "Pitch":
offset = 8;
break;
case "Yaw":
offset = 12;
break;
case "Roll":
offset = 16;
break;
default:
break;
}
if (offset != 0)
{
int val = Convert.ToInt32(Convert.ToSingle(e.ChangedItem.Value) * 65536f / 360f);
buff2 = BitConverter.GetBytes(val);
for (int i = 0; i < 4; i++)
data[p[m].offsetval + offset + i] = buff2[i];
}
}
else if (e.ChangedItem.Label != "nameindex" && parentVal == typeof(Unreal.LinearColorProp))
{
int offset = 0;
switch (e.ChangedItem.Label)
{
case "Red":
offset = 8;
break;
case "Green":
offset = 12;
break;
case "Blue":
offset = 16;
break;
case "Alpha":
offset = 20;
break;
default:
break;
}
if (offset != 0)
{
buff2 = BitConverter.GetBytes(Convert.ToSingle(e.ChangedItem.Value));
for (int i = 0; i < 4; i++)
data[p[m].offsetval + offset + i] = buff2[i];
}
}
else if (e.ChangedItem.Value is int)
{
int val = Convert.ToInt32(e.ChangedItem.Value);
if (e.ChangedItem.Label == "nameindex")
{
int val1 = Convert.ToInt32(e.ChangedItem.Value);
buff2 = BitConverter.GetBytes(val1);
for (int i = 0; i < 4; i++)
data[p[m].offsetval + i] = buff2[i];
}
else
{
string sidx = e.ChangedItem.Label.Replace("[", "");
sidx = sidx.Replace("]", "");
int index = Convert.ToInt32(sidx);
buff2 = BitConverter.GetBytes(val);
for (int i = 0; i < 4; i++)
data[p[m].offsetval + i + index * 4 + 8] = buff2[i];
}
}
break;
case PropertyType.ByteProperty:
case PropertyType.NameProperty:
if (e.ChangedItem.Value is int)
{
int val = Convert.ToInt32(e.ChangedItem.Value);
buff2 = BitConverter.GetBytes(val);
for (int i = 0; i < 4; i++)
data[p[m].offsetval + i] = buff2[i];
}
break;
case PropertyType.ObjectProperty:
if (e.ChangedItem.Value is int)
{
int val = Convert.ToInt32(e.ChangedItem.Value);
buff2 = BitConverter.GetBytes(val);
for (int i = 0; i < 4; i++)
data[p[m].offsetval + i] = buff2[i];
}
break;
default:
return;
}
ent.Data = data;
}
/// <summary>
/// Adds an import from the importingPCC to the destinationPCC with the specified importFullName, or returns the existing one if it can be found.
/// This method will look at importingPCC's import upstream chain and check for the most downstream one's existence in destinationPCC,
/// including if none can be founc (in which case the entire upstream is copied). It will then create new imports to match the remaining
/// downstream ones and return the originally named import, however now located in destinationPCC.
/// </summary>
/// <param name="importFullName">GetFullPath() of an import from ImportingPCC</param>
/// <param name="importingPCC">PCC to import imports from</param>
/// <param name="destinationPCC">PCC to add imports to</param>
/// <returns></returns>
private ImportEntry getOrAddCrossImport(string importFullName, IMEPackage importingPCC, IMEPackage destinationPCC, int?forcedLinkIdx = null)
{
//This code is kind of ugly, sorry.
//see if this import exists locally
foreach (ImportEntry imp in destinationPCC.Imports)
{
if (imp.GetFullPath == importFullName)
{
return(imp);
}
}
//Import doesn't exist, so we're gonna need to add it
//But first we need to figure out what needs to be added upstream as links
//Search upstream until we find something, or we can't get any more upstreams
ImportEntry mostdownstreamimport = null;
string[] importParts = importFullName.Split('.');
if (!forcedLinkIdx.HasValue)
{
List <int> upstreamLinks = new List <int>(); //0 = top level, 1 = next level... n = what we wanted to import
int upstreamCount = 1;
ImportEntry upstreamImport = null;
//get number of required upstream imports that do not yet exist
while (upstreamCount < importParts.Count())
{
string upstream = String.Join(".", importParts, 0, importParts.Count() - upstreamCount);
foreach (ImportEntry imp in destinationPCC.Imports)
{
if (imp.GetFullPath == upstream)
{
upstreamImport = imp;
break;
}
}
if (upstreamImport != null)
{
//We found an upsteam import that already exists
break;
}
upstreamCount++;
}
IExportEntry donorUpstreamExport = null;
if (upstreamImport == null)
{
//We have to import the entire upstream chain
string fullobjectname = importParts[0];
ImportEntry donorTopLevelImport = null;
foreach (ImportEntry imp in importingPCC.Imports) //importing side info we will move to our dest pcc
{
if (imp.GetFullPath == fullobjectname)
{
donorTopLevelImport = imp;
break;
}
}
if (donorTopLevelImport == null)
{
//This is issue KinkoJiro had. It is aborting relinking at this step. Will need to find a way to
//work with exports as parents for imports which will block it.
//Update: This has been partially implemented.
Debug.WriteLine("No upstream import was found in the source file. It's probably an export: " + importFullName);
foreach (IExportEntry exp in destinationPCC.Exports) //importing side info we will move to our dest pcc
{
//Console.WriteLine(exp.GetFullPath);
if (exp.GetFullPath == fullobjectname)
{
// = imp;
//We will need to find a way to cross map this as this will block cross import mapping unless these exports already exist.
Debug.WriteLine("FOUND UPSTREAM, AS EXPORT!");
KFreonLib.Debugging.DebugOutput.StartDebugger("Package Editor Relinker");
KFreonLib.Debugging.DebugOutput.PrintLn("Error: Upstream item that is required is an export in the pcc to import from: " + fullobjectname);
donorUpstreamExport = exp;
upstreamCount--; //level 1 now from the top down
//Create new import with this as higher IDK
break;
}
}
if (donorUpstreamExport == null)
{
Debug.WriteLine("An error has occured. Could not find an upstream import or export for relinking: " + fullobjectname + " from " + pcc.FileName);
return(null);
}
}
if (donorUpstreamExport == null)
{
//Create new toplevel import and set that as the most downstream one. (top = bottom at this point)
int downstreamPackageFile = destinationPCC.FindNameOrAdd(Path.GetFileNameWithoutExtension(donorTopLevelImport.PackageFile));
int downstreamClassName = destinationPCC.FindNameOrAdd(donorTopLevelImport.ClassName);
int downstreamName = destinationPCC.FindNameOrAdd(fullobjectname);
mostdownstreamimport = new ImportEntry(destinationPCC);
// mostdownstreamimport.idxLink = downstreamLinkIdx; ??
mostdownstreamimport.idxClassName = downstreamClassName;
mostdownstreamimport.idxObjectName = downstreamName;
mostdownstreamimport.idxPackageFile = downstreamPackageFile;
destinationPCC.addImport(mostdownstreamimport); //Add new top level downstream import
upstreamImport = mostdownstreamimport;
upstreamCount--; //level 1 now from the top down
//return null;
}
}
//Have an upstream import, now we need to add downstream imports.
while (upstreamCount > 0)
{
upstreamCount--;
string fullobjectname = String.Join(".", importParts, 0, importParts.Count() - upstreamCount);
ImportEntry donorImport = null;
//Get or create names for creating import and get upstream linkIdx
int downstreamName = destinationPCC.FindNameOrAdd(importParts[importParts.Count() - upstreamCount - 1]);
foreach (ImportEntry imp in importingPCC.Imports) //importing side info we will move to our dest pcc
{
if (imp.GetFullPath == fullobjectname)
{
donorImport = imp;
break;
}
}
if (donorImport == null)
{
throw new Exception("No suitable upstream import was found for porting - this may be an export in the source file that is referenced as a parent or dependency. You should import this object and its parents first. " + fullobjectname + "(as part of " + importFullName + ")");
}
int downstreamPackageFile = destinationPCC.FindNameOrAdd(Path.GetFileNameWithoutExtension(donorImport.PackageFile));
int downstreamClassName = destinationPCC.FindNameOrAdd(donorImport.ClassName);
mostdownstreamimport = new ImportEntry(destinationPCC);
mostdownstreamimport.idxLink = donorUpstreamExport == null ? upstreamImport.UIndex : donorUpstreamExport.UIndex;
mostdownstreamimport.idxClassName = downstreamClassName;
mostdownstreamimport.idxObjectName = downstreamName;
mostdownstreamimport.idxPackageFile = downstreamPackageFile;
destinationPCC.addImport(mostdownstreamimport);
upstreamImport = mostdownstreamimport;
}
}
else
{
//get importing import
ImportEntry importingImport = importingPCC.Imports.FirstOrDefault(x => x.GetFullPath == importFullName); //this shouldn't be null
mostdownstreamimport = new ImportEntry(destinationPCC);
mostdownstreamimport.idxLink = forcedLinkIdx.Value;
mostdownstreamimport.idxClassName = destinationPCC.FindNameOrAdd(importingImport.ClassName);
mostdownstreamimport.idxObjectName = destinationPCC.FindNameOrAdd(importingImport.ObjectName);
mostdownstreamimport.idxPackageFile = destinationPCC.FindNameOrAdd(Path.GetFileNameWithoutExtension(importingImport.PackageFile));
destinationPCC.addImport(mostdownstreamimport);
}
return(mostdownstreamimport);
}
public static void WriteArrayProperty(this Stream stream, IMEPackage pcc, string propName, int count, Func<MemoryStream> func)
{
stream.WriteArrayProperty(pcc, propName, count, func());
}
private string relinkObjectProperty(IMEPackage importingPCC, IMEPackage destinationPCC, ObjectProperty objProperty, List <KeyValuePair <int, int> > crossPCCObjectMappingList)
{
if (objProperty.Value == 0)
{
return(null); //do not relink 0
}
if (importingPCC == destinationPCC && objProperty.Value < 0)
{
return(null); //do not relink same-pcc imports.
}
int sourceObjReference = objProperty.Value;
if (sourceObjReference > 0)
{
sourceObjReference--; //make 0 based for mapping.
}
if (sourceObjReference < 0)
{
sourceObjReference++; //make 0 based for mapping.
}
//if (objProperty.Name != null)
//{
// Debug.WriteLine(objProperty.Name);
//}
KeyValuePair <int, int> mapping = crossPCCObjectMappingList.Where(pair => pair.Key == sourceObjReference).FirstOrDefault();
var defaultKVP = default(KeyValuePair <int, int>); //struct comparison
if (!mapping.Equals(defaultKVP))
{
//relink
int newval = 0;
if (mapping.Value > 0)
{
newval = mapping.Value + 1; //reincrement
}
else if (mapping.Value < 0)
{
newval = mapping.Value - 1; //redecrement
}
objProperty.Value = (newval);
IEntry entry = destinationPCC.getEntry(newval);
string s = "";
if (entry != null)
{
s = entry.GetFullPath;
}
Debug.WriteLine("Relink hit: " + sourceObjReference + objProperty.Name + ": " + s);
}
else if (objProperty.Value < 0) //It's an unmapped import
{
//objProperty is currently pointing to importingPCC as that is where we read the properties from
int n = objProperty.Value;
int origvalue = n;
int importZeroIndex = Math.Abs(n) - 1;
//Debug.WriteLine("Relink miss, attempting JIT relink on " + n + " " + rootNode.Text);
if (n < 0 && importZeroIndex < importingPCC.ImportCount)
{
//Get the original import
ImportEntry origImport = importingPCC.getImport(importZeroIndex);
string origImportFullName = origImport.GetFullPath;
//Debug.WriteLine("We should import " + origImport.GetFullPath);
ImportEntry crossImport = null;
string linkFailedDueToError = null;
try
{
crossImport = getOrAddCrossImport(origImportFullName, importingPCC, destinationPCC);
}
catch (Exception e)
{
//Error during relink
KFreonLib.Debugging.DebugOutput.StartDebugger("PCC Relinker");
DebugOutput.PrintLn("Exception occured during relink: ");
DebugOutput.PrintLn(ExceptionHandlerDialogWPF.FlattenException(e));
DebugOutput.PrintLn("You may want to consider discarding this sessions' changes as relinking was not able to properly finish.");
linkFailedDueToError = e.Message;
}
if (crossImport != null)
{
//cache item. Imports are stored +1, Exports-1. Someday I will go back and make this just 0 indexed
crossPCCObjectMappingList.Add(new KeyValuePair <int, int>(sourceObjReference, crossImport.UIndex + 1)); //add to mapping to speed up future relinks
objProperty.Value = crossImport.UIndex;
Debug.WriteLine("Relink hit: Dynamic CrossImport for " + origvalue + " " + importingPCC.getEntry(origvalue).GetFullPath + " -> " + objProperty.Value);
}
else
{
if (linkFailedDueToError != null)
{
Debug.WriteLine("Relink failed: CrossImport porting failed for " + objProperty.Name + " " + objProperty.Value + ": " + importingPCC.getEntry(origvalue).GetFullPath);
return("Relink failed for " + objProperty.Name + " " + objProperty.Value + ": " + linkFailedDueToError);
}
else
if (destinationPCC.getEntry(objProperty.Value) != null)
{
Debug.WriteLine("Relink failed: CrossImport porting failed for " + objProperty.Name + " " + objProperty.Value + ": " + importingPCC.getEntry(origvalue).GetFullPath);
return("Relink failed: CrossImport porting failed for " + objProperty.Name + " " + objProperty.Value + " " + destinationPCC.getEntry(objProperty.Value).GetFullPath);
}
else
{
return("Relink failed: New export does not exist - this is probably a bug in cross import code for " + objProperty.Name + " " + objProperty.Value);
}
}
}
}
else
{
string path = importingPCC.getEntry(objProperty.Value) != null?importingPCC.getEntry(objProperty.Value).GetFullPath : "Entry not found: " + objProperty.Value;
Debug.WriteLine("Relink failed: " + objProperty.Name + " " + objProperty.Value + " " + path);
return("Relink failed: " + objProperty.Name + " " + objProperty.Value + " " + path);
}
return(null);
}
public static void WriteStringRefProperty(this Stream stream, IMEPackage pcc, string propName, int value)
{
stream.WritePropHeader(pcc, propName, PropertyType.StringRefProperty, 4);
stream.WriteValueS32(value);
}
public override void WriteTo(Stream ms, IMEPackage pcc, int fileOffset)
{
ms.WriteFromBuffer(data);
}
public static void WriteStructPropVector(this Stream stream, IMEPackage pcc, string propName, float x, float y, float z)
{
MemoryStream m = new MemoryStream(12);
m.WriteValueF32(x);
m.WriteValueF32(y);
m.WriteValueF32(z);
stream.WriteStructProperty(pcc, propName, "Vector", m.ToArray());
}
public override byte[] ToArray(IMEPackage pcc, int fileOffset = 0)
{
return(data);
}
public static string PropertyToText(Property p, IMEPackage pcc)
{
string s = "";
s = "Name: " + pcc.getNameEntry(p.Name);
s += " Type: " + TypeToString((int)p.TypeVal);
s += " Size: " + p.Size;
switch (p.TypeVal)
{
case PropertyType.StructProperty:
s += " \"" + pcc.getNameEntry (p.Value.IntValue) + "\" with " + p.Value.Array.Count + " bytes";
break;
case PropertyType.IntProperty:
case PropertyType.ObjectProperty:
case PropertyType.StringRefProperty :
s += " Value: " + p.Value.IntValue;
break;
case PropertyType.BoolProperty:
s += " Value: " + (p.raw[24] == 1);
break;
case PropertyType.FloatProperty:
s += " Value: " + p.Value.FloatValue;
break;
case PropertyType.NameProperty:
s += " " + pcc.getNameEntry(p.Value.IntValue);
break;
case PropertyType.ByteProperty:
s += " Value: \"" + p.Value.StringValue + "\" with \"" + pcc.getNameEntry(p.Value.IntValue) + "\"";
break;
case PropertyType.ArrayProperty:
s += " bytes"; //Value: " + p.Value.Array.Count.ToString() + " Elements";
break;
case PropertyType.StrProperty:
if (p.Value.StringValue.Length == 0)
break;
s += " Value: " + p.Value.StringValue;
break;
}
return s;
}
public static void propGridPropertyValueChanged(PropertyValueChangedEventArgs e, int n, IMEPackage pcc)
{
string name = e.ChangedItem.Label;
GridItem parent = e.ChangedItem.Parent;
//if (parent != null) name = parent.Label;
if (parent.Label == "data")
{
GridItem parent2 = parent.Parent;
if (parent2 != null)
{
name = parent2.Label;
}
}
Type parentVal = null;
if (parent.Value != null)
{
parentVal = parent.Value.GetType();
}
if (name == "nameindex" || name == "index" || parentVal == typeof(ColorProp) || parentVal == typeof(VectorProp) || parentVal == typeof(Unreal.RotatorProp) || parentVal == typeof(Unreal.LinearColorProp))
{
name = parent.Label;
}
IExportEntry ent = pcc.getExport(n);
byte[] data = ent.Data;
List <PropertyReader.Property> p = PropertyReader.getPropList(ent);
int m = -1;
for (int i = 0; i < p.Count; i++)
{
if (pcc.getNameEntry(p[i].Name) == name)
{
m = i;
}
}
if (m == -1)
{
return;
}
byte[] buff2;
switch (p[m].TypeVal)
{
case PropertyType.BoolProperty:
byte res = 0;
if ((bool)e.ChangedItem.Value == true)
{
res = 1;
}
data[p[m].offsetval] = res;
break;
case PropertyType.FloatProperty:
buff2 = BitConverter.GetBytes((float)e.ChangedItem.Value);
for (int i = 0; i < 4; i++)
{
data[p[m].offsetval + i] = buff2[i];
}
break;
case PropertyType.IntProperty:
case PropertyType.StringRefProperty:
int newv = Convert.ToInt32(e.ChangedItem.Value);
int oldv = Convert.ToInt32(e.OldValue);
buff2 = BitConverter.GetBytes(newv);
for (int i = 0; i < 4; i++)
{
data[p[m].offsetval + i] = buff2[i];
}
break;
case PropertyType.StrProperty:
string s = Convert.ToString(e.ChangedItem.Value);
int stringMultiplier = 1;
int oldLength = BitConverter.ToInt32(data, p[m].offsetval);
if (oldLength < 0)
{
stringMultiplier = 2;
oldLength *= -2;
}
int oldSize = 4 + oldLength;
List <byte> stringBuff = new List <byte>(s.Length * stringMultiplier);
if (stringMultiplier == 2)
{
for (int j = 0; j < s.Length; j++)
{
stringBuff.AddRange(BitConverter.GetBytes(s[j]));
}
stringBuff.Add(0);
}
else
{
for (int j = 0; j < s.Length; j++)
{
stringBuff.Add(BitConverter.GetBytes(s[j])[0]);
}
}
stringBuff.Add(0);
buff2 = BitConverter.GetBytes((s.Length + 1) * stringMultiplier + 4);
for (int j = 0; j < 4; j++)
{
data[p[m].offsetval - 8 + j] = buff2[j];
}
buff2 = BitConverter.GetBytes((s.Length + 1) * stringMultiplier == 1 ? 1 : -1);
for (int j = 0; j < 4; j++)
{
data[p[m].offsetval + j] = buff2[j];
}
buff2 = new byte[data.Length - oldLength + stringBuff.Count];
int startLength = p[m].offsetval + 4;
int startLength2 = startLength + oldLength;
for (int i = 0; i < startLength; i++)
{
buff2[i] = data[i];
}
for (int i = 0; i < stringBuff.Count; i++)
{
buff2[i + startLength] = stringBuff[i];
}
startLength += stringBuff.Count;
for (int i = 0; i < data.Length - startLength2; i++)
{
buff2[i + startLength] = data[i + startLength2];
}
data = buff2;
break;
case PropertyType.StructProperty:
if (e.ChangedItem.Label != "nameindex" && parentVal == typeof(ColorProp))
{
switch (e.ChangedItem.Label)
{
case "Alpha":
data[p[m].offsetval + 11] = Convert.ToByte(e.ChangedItem.Value);
break;
case "Red":
data[p[m].offsetval + 10] = Convert.ToByte(e.ChangedItem.Value);
break;
case "Green":
data[p[m].offsetval + 9] = Convert.ToByte(e.ChangedItem.Value);
break;
case "Blue":
data[p[m].offsetval + 8] = Convert.ToByte(e.ChangedItem.Value);
break;
default:
break;
}
}
else if (e.ChangedItem.Label != "nameindex" && parentVal == typeof(VectorProp))
{
int offset = 0;
switch (e.ChangedItem.Label)
{
case "X":
offset = 8;
break;
case "Y":
offset = 12;
break;
case "Z":
offset = 16;
break;
default:
break;
}
if (offset != 0)
{
buff2 = BitConverter.GetBytes(Convert.ToSingle(e.ChangedItem.Value));
for (int i = 0; i < 4; i++)
{
data[p[m].offsetval + offset + i] = buff2[i];
}
}
}
else if (e.ChangedItem.Label != "nameindex" && parentVal == typeof(Unreal.RotatorProp))
{
int offset = 0;
switch (e.ChangedItem.Label)
{
case "Pitch":
offset = 8;
break;
case "Yaw":
offset = 12;
break;
case "Roll":
offset = 16;
break;
default:
break;
}
if (offset != 0)
{
int val = Convert.ToSingle(e.ChangedItem.Value).ToUnrealRotationUnits();
buff2 = BitConverter.GetBytes(val);
for (int i = 0; i < 4; i++)
{
data[p[m].offsetval + offset + i] = buff2[i];
}
}
}
else if (e.ChangedItem.Label != "nameindex" && parentVal == typeof(Unreal.LinearColorProp))
{
int offset = 0;
switch (e.ChangedItem.Label)
{
case "Red":
offset = 8;
break;
case "Green":
offset = 12;
break;
case "Blue":
offset = 16;
break;
case "Alpha":
offset = 20;
break;
default:
break;
}
if (offset != 0)
{
buff2 = BitConverter.GetBytes(Convert.ToSingle(e.ChangedItem.Value));
for (int i = 0; i < 4; i++)
{
data[p[m].offsetval + offset + i] = buff2[i];
}
}
}
else if (e.ChangedItem.Value is int)
{
int val = Convert.ToInt32(e.ChangedItem.Value);
if (e.ChangedItem.Label == "nameindex")
{
int val1 = Convert.ToInt32(e.ChangedItem.Value);
buff2 = BitConverter.GetBytes(val1);
for (int i = 0; i < 4; i++)
{
data[p[m].offsetval + i] = buff2[i];
}
}
else
{
string sidx = e.ChangedItem.Label.Replace("[", "");
sidx = sidx.Replace("]", "");
int index = Convert.ToInt32(sidx);
buff2 = BitConverter.GetBytes(val);
for (int i = 0; i < 4; i++)
{
data[p[m].offsetval + i + index * 4 + 8] = buff2[i];
}
}
}
break;
case PropertyType.ByteProperty:
case PropertyType.NameProperty:
if (e.ChangedItem.Value is int)
{
int val = Convert.ToInt32(e.ChangedItem.Value);
buff2 = BitConverter.GetBytes(val);
for (int i = 0; i < 4; i++)
{
data[p[m].offsetval + i] = buff2[i];
}
}
break;
case PropertyType.ObjectProperty:
if (e.ChangedItem.Value is int)
{
int val = Convert.ToInt32(e.ChangedItem.Value);
buff2 = BitConverter.GetBytes(val);
for (int i = 0; i < 4; i++)
{
data[p[m].offsetval + i] = buff2[i];
}
}
break;
default:
return;
}
ent.Data = data;
}
public static List<List<Property>> ReadStructArrayProp(IMEPackage pcc, Property p)
{
List<List<Property>> res = new List<List<Property>>();
int pos = 28;
int linkCount = BitConverter.ToInt32(p.raw, 24);
for (int i = 0; i < linkCount; i++)
{
List<Property> p2 = ReadProp(pcc, p.raw, pos);
for (int j = 0; j < p2.Count(); j++)
{
pos += p2[j].raw.Length;
}
res.Add(p2);
}
return res;
}
public static Dictionary <IEntry, List <string> > FindUsagesOfName(this IMEPackage pcc, string name)
{
var result = new Dictionary <IEntry, List <string> >();
foreach (ExportEntry exp in pcc.Exports)
{
try
{
//find header references
if (exp.ObjectName.Name == name)
{
result.AddToListAt(exp, "Header: Object Name");
}
if (exp.HasComponentMap && exp.ComponentMap.Any(kvp => kvp.Key.Name == name))
{
result.AddToListAt(exp, "Header: ComponentMap");
}
if ((!exp.IsDefaultObject && exp.IsOrInheritsFrom("Component") || pcc.Game == MEGame.UDK && exp.ClassName.EndsWith("Component")) &&
exp.ParentFullPath.Contains("Default__") &&
exp.DataSize >= 12 && BitConverter.ToInt32(exp.Data, 4) is int nameIdx && pcc.IsName(nameIdx) &&
pcc.GetNameEntry(nameIdx) == name)
{
result.AddToListAt(exp, "Component TemplateName (0x4)");
}
//find property references
findPropertyReferences(exp.GetProperties(), exp, false, "Property: ");
//find binary references
if (!exp.IsDefaultObject && ObjectBinary.From(exp) is { } objBin)
{
if (objBin is BioStage bioStage)
{
if (bioStage.length > 0 && name == "m_aCameraList")
{
result.AddToListAt(exp, "(Binary prop: m_aCameraList name)");
}
int i = 0;
foreach ((NameReference key, PropertyCollection props) in bioStage.CameraList)
{
if (key.Name == name)
{
result.AddToListAt(exp, $"(Binary prop: m_aCameraList[{i}])");
}
findPropertyReferences(props, exp, false, "Binary prop: m_aCameraList[{i}].");
++i;
}
}
else if (objBin is UScriptStruct scriptStruct)
{
findPropertyReferences(scriptStruct.Defaults, exp, false, "Binary Property:");
}
else
{
List <(NameReference, string)> names = objBin.GetNames(exp.FileRef.Game);
foreach ((NameReference nameRef, string propName) in names)
{
if (nameRef.Name == name)
{
result.AddToListAt(exp, $"(Binary prop: {propName})");
}
}
}
}
}
catch
{
result.AddToListAt(exp, "Exception occured while reading this export!");
}
}
foreach (ImportEntry import in pcc.Imports)
{
try
{
if (import.ObjectName.Name == name)
{
result.AddToListAt(import, "ObjectName");
}
if (import.PackageFile == name)
{
result.AddToListAt(import, "PackageFile");
}
if (import.ClassName == name)
{
result.AddToListAt(import, "Class");
}
}
catch (Exception e)
{
result.AddToListAt(import, "Exception occured while reading this import!");
}
}
return(result);
void findPropertyReferences(PropertyCollection props, ExportEntry exp, bool isInImmutable = false, string prefix = "")
{
foreach (UProperty prop in props)
{
if (!isInImmutable && prop.Name.Name == name)
{
result.AddToListAt(exp, $"{prefix}{prop.Name} name");
}
switch (prop)
{
case NameProperty nameProperty:
if (nameProperty.Value.Name == name)
{
result.AddToListAt(exp, $"{prefix}{nameProperty.Name} value");
}
break;
case DelegateProperty delegateProperty:
if (delegateProperty.Value.FunctionName.Name == name)
{
result.AddToListAt(exp, $"{prefix}{delegateProperty.Name} function name");
}
break;
case EnumProperty enumProperty:
if (pcc.Game >= MEGame.ME3 && !isInImmutable && enumProperty.EnumType.Name == name)
{
result.AddToListAt(exp, $"{prefix}{enumProperty.Name} enum type");
}
if (enumProperty.Value.Name == name)
{
result.AddToListAt(exp, $"{prefix}{enumProperty.Name} enum value");
}
break;
case StructProperty structProperty:
if (!isInImmutable && structProperty.StructType == name)
{
result.AddToListAt(exp, $"{prefix}{structProperty.Name} struct type");
}
findPropertyReferences(structProperty.Properties, exp, structProperty.IsImmutable, $"{prefix}{structProperty.Name}: ");
break;
case ArrayProperty <NameProperty> arrayProperty:
for (int i = 0; i < arrayProperty.Count; i++)
{
NameProperty nameProp = arrayProperty[i];
if (nameProp.Value.Name == name)
{
result.AddToListAt(exp, $"{prefix}{arrayProperty.Name}[{i}]");
}
}
break;
case ArrayProperty <EnumProperty> arrayProperty:
for (int i = 0; i < arrayProperty.Count; i++)
{
EnumProperty enumProp = arrayProperty[i];
if (enumProp.Value.Name == name)
{
result.AddToListAt(exp, $"{prefix}{arrayProperty.Name}[{i}]");
}
}
break;
case ArrayProperty <StructProperty> arrayProperty:
for (int i = 0; i < arrayProperty.Count; i++)
{
StructProperty structProp = arrayProperty[i];
findPropertyReferences(structProp.Properties, exp, structProp.IsImmutable, $"{prefix}{arrayProperty.Name}[{i}].");
}
break;
}
}
}
}
static PropertyType getType(IMEPackage pcc, int type)
{
switch (pcc.getNameEntry(type))
{
case "None": return PropertyType.None;
case "StructProperty": return PropertyType.StructProperty;
case "IntProperty": return PropertyType.IntProperty;
case "FloatProperty": return PropertyType.FloatProperty;
case "ObjectProperty": return PropertyType.ObjectProperty;
case "NameProperty": return PropertyType.NameProperty;
case "BoolProperty": return PropertyType.BoolProperty;
case "ByteProperty": return PropertyType.ByteProperty;
case "ArrayProperty": return PropertyType.ArrayProperty;
case "DelegateProperty": return PropertyType.DelegateProperty;
case "StrProperty": return PropertyType.StrProperty;
case "StringRefProperty": return PropertyType.StringRefProperty;
default:
return PropertyType.Unknown;
}
}
public PathNode_Dynamic(int idx, float x, float y, IMEPackage p, PathingGraphEditor grapheditor)
: base(idx, x, y, p, grapheditor)
{
shape.Brush = dynamicPathnodefindingNodeBrush;
}
public static int detectStart(IMEPackage pcc, byte[] raw, ulong flags)
{
if ((flags & (ulong)UnrealFlags.EObjectFlags.HasStack) != 0)
{
if (pcc.Game != MEGame.ME3)
{
return 32;
}
return 30;
}
int result = 8;
int test1 = BitConverter.ToInt32(raw, 4);
int test2 = BitConverter.ToInt32(raw, 8);
if (pcc.isName(test1) && test2 == 0)
result = 4;
if (pcc.isName(test1) && pcc.isName(test2) && test2 != 0)
result = 8;
return result;
}
public CoverLink(int idx, float x, float y, IMEPackage p, PathingGraphEditor grapheditor)
: base(idx, x, y, p, grapheditor)
{
}
private bool importTree(TreeNode sourceNode, IMEPackage importpcc, int n)
{
int nextIndex;
int index;
foreach (TreeNode node in sourceNode.Nodes)
{
index = Convert.ToInt32(node.Name);
if (index >= 0)
{
if (!importExport(importpcc, index, n))
{
return false;
}
nextIndex = pcc.ExportCount;
}
else
{
importImport(importpcc, -index - 1, n);
nextIndex = -pcc.ImportCount;
}
if (node.Nodes.Count > 0)
{
if (!importTree(node, importpcc, nextIndex))
{
return false;
}
}
}
return true;
}
public SFXNav_JumpDownNode(int idx, float x, float y, IMEPackage p, PathingGraphEditor grapheditor)
: base(idx, x, y, p, grapheditor)
{
}
private bool importExport(IMEPackage importpcc, int n, int link)
{
IExportEntry ex = importpcc.getExport(n);
IExportEntry nex = null;
switch (pcc.Game)
{
case MEGame.ME1:
nex = new ME1ExportEntry(pcc as ME1Package);
break;
case MEGame.ME2:
nex = new ME2ExportEntry(pcc as ME2Package);
break;
case MEGame.ME3:
nex = new ME3ExportEntry(pcc as ME3Package);
break;
}
byte[] idata = ex.Data;
PropertyCollection props = ex.GetProperties();
int start = ex.GetPropertyStart();
int end = props.endOffset;
MemoryStream res = new MemoryStream();
if ((importpcc.getExport(n).ObjectFlags & (ulong)UnrealFlags.EObjectFlags.HasStack) != 0)
{
byte[] stackdummy = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, //Lets hope for the best :D
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xFF, 0xFF, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00,};
if (pcc.Game != MEGame.ME3)
{
stackdummy = new byte[] { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xFF, 0xFF, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00,};
}
res.Write(stackdummy, 0, stackdummy.Length);
}
else
{
res.Write(new byte[start], 0, start);
}
//store copy of names list in case something goes wrong
List<string> names = pcc.Names.ToList();
try
{
props.WriteTo(res, pcc);
}
catch (Exception exception)
{
//restore namelist
pcc.setNames(names);
MessageBox.Show("Error occured while trying to import " + ex.ObjectName + " : " + exception.Message);
return false;
}
if (importpcc.Game == MEGame.ME3 && importpcc.getObjectName(ex.idxClass) == "SkeletalMesh")
{
SkeletalMesh skl = new SkeletalMesh(importpcc as ME3Package, n);
SkeletalMesh.BoneStruct bone;
for (int i = 0; i < skl.Bones.Count; i++)
{
bone = skl.Bones[i];
string s = importpcc.getNameEntry(bone.Name);
bone.Name = pcc.FindNameOrAdd(s);
skl.Bones[i] = bone;
}
SkeletalMesh.TailNamesStruct tailName;
for (int i = 0; i < skl.TailNames.Count; i++)
{
tailName = skl.TailNames[i];
string s = importpcc.getNameEntry(tailName.Name);
tailName.Name = pcc.FindNameOrAdd(s);
skl.TailNames[i] = tailName;
}
SerializingContainer container = new SerializingContainer(res);
container.isLoading = false;
skl.Serialize(container);
}
else
{
res.Write(idata, end, idata.Length - end);
}
nex.setHeader((byte[])ex.header.Clone());
nex.Data = res.ToArray();
nex.idxObjectName = pcc.FindNameOrAdd(importpcc.getNameEntry(ex.idxObjectName));
nex.idxLink = link;
nex.idxArchtype = nex.idxClass = nex.idxClassParent = 0;
pcc.addExport(nex);
return true;
}
public SFXNav_LeapNodeHumanoid(int idx, float x, float y, IMEPackage p, PathingGraphEditor grapheditor)
: base(idx, x, y, p, grapheditor)
{
}
public SAction(int idx, float x, float y, IMEPackage p)
: base(idx, p)
{
GetVarLinks();
GetOutputLinks();
originalX = x;
originalY = y;
}
public PendingNode(int idx, float x, float y, IMEPackage p, PathingGraphEditor grapheditor)
: base(idx, x, y, p, grapheditor)
{
}
public SFrame(int idx, float x, float y, IMEPackage p, GraphEditor grapheditor)
: base(idx, p, grapheditor)
{
string s = export.ObjectName;
float w = 0;
float h = 0;
var props = export.GetProperties();
foreach (var prop in props)
{
if (prop.Name == "SizeX")
{
w = (prop as IntProperty);
}
if (prop.Name == "SizeY")
{
h = (prop as IntProperty);
}
}
MakeTitleBox(s);
shape = PPath.CreateRectangle(0, -titleBox.Height, w, h + titleBox.Height);
outlinePen = new Pen(Color.Black);
shape.Pen = outlinePen;
shape.Brush = new SolidBrush(Color.Transparent);
shape.Pickable = false;
this.AddChild(shape);
titleBox.TranslateBy(0, -titleBox.Height);
this.AddChild(titleBox);
comment.Y -= titleBox.Height;
this.Bounds = new RectangleF(0, -titleBox.Height, titleBox.Width, titleBox.Height);
this.TranslateBy(x, y);
}
public SFXDynamicCoverSlotMarker(int idx, float x, float y, IMEPackage p, PathingGraphEditor grapheditor)
: base(idx, x, y, p, grapheditor)
{
shape.Brush = dynamicPathfindingNodeBrush;
}
protected SBox(int idx, IMEPackage p)
: base(idx, p)
{
}
public MantleMarker(int idx, float x, float y, IMEPackage p, PathingGraphEditor grapheditor)
: base(idx, x, y, p, grapheditor)
{
}
public SEvent(int idx, float x, float y, IMEPackage p, GraphEditor grapheditor)
: base(idx, p, grapheditor)
{
outlinePen = new Pen(Color.FromArgb(214, 30, 28));
string s = export.ObjectName;
s = s.Replace("BioSeqEvt_", "");
s = s.Replace("SFXSeqEvt_", "");
s = s.Replace("SeqEvt_", "");
s = s.Replace("SeqEvent_", "");
float starty = 0;
float w = 15;
float midW = 0;
varLinkBox = new PPath();
GetVarLinks();
for (int i = 0; i < Varlinks.Count; i++)
{
string d = "";
foreach (int l in Varlinks[i].Links)
d = d + "#" + l + ",";
d = d.Remove(d.Length - 1);
SText t2 = new SText( d + "\n" + Varlinks[i].Desc);
t2.X = w;
t2.Y = 0;
w += t2.Width + 20;
t2.Pickable = false;
Varlinks[i].node.TranslateBy(t2.X + t2.Width / 2, t2.Y + t2.Height);
t2.AddChild(Varlinks[i].node);
varLinkBox.AddChild(t2);
}
if(Varlinks.Count != 0)
varLinkBox.AddRectangle(0, 0, w, varLinkBox[0].Height);
varLinkBox.Pickable = false;
varLinkBox.Pen = outlinePen;
varLinkBox.Brush = nodeBrush;
GetOutputLinks();
outLinkBox = new PPath();
for (int i = 0; i < Outlinks.Count(); i++)
{
SText t2 = new SText(Outlinks[i].Desc);
if(t2.Width + 10 > midW) midW = t2.Width + 10;
//t2.TextAlignment = StringAlignment.Far;
//t2.ConstrainWidthToTextWidth = false;
t2.X = 0 - t2.Width;
t2.Y = starty + 3;
starty += t2.Height + 6;
t2.Pickable = false;
Outlinks[i].node.TranslateBy(0, t2.Y + t2.Height / 2);
t2.AddChild(Outlinks[i].node);
outLinkBox.AddChild(t2);
}
outLinkBox.AddPolygon(new PointF[] { new PointF(0, 0), new PointF(0, starty), new PointF(-0.5f*midW, starty+30), new PointF(0 - midW, starty), new PointF(0 - midW, 0), new PointF(midW/-2, -30) });
outLinkBox.Pickable = false;
outLinkBox.Pen = outlinePen;
outLinkBox.Brush = nodeBrush;
var props = export.GetProperties();
foreach (var prop in props)
{
if (prop.Name.Name.Contains("EventName") || prop.Name == "sScriptName")
s += "\n\"" + (prop as NameProperty) + "\"";
else if (prop.Name == "InputLabel" || prop.Name == "sEvent")
s += "\n\"" + (prop as StrProperty) + "\"";
}
float tW = GetTitleBox(s, w);
if (tW > w)
{
if (midW > tW)
{
w = midW;
titleBox.Width = w;
}
else
{
w = tW;
}
varLinkBox.Width = w;
}
float h = titleBox.Height + 1;
outLinkBox.TranslateBy(titleBox.Width/2 + midW/2, h + 30);
h += outLinkBox.Height + 1;
varLinkBox.TranslateBy(0, h);
h += varLinkBox.Height;
this.bounds = new RectangleF(0, 0, w, h);
this.AddChild(titleBox);
this.AddChild(varLinkBox);
this.AddChild(outLinkBox);
this.TranslateBy(x, y);
}
}; //Bottom part of H
public SFXNav_HarvesterMoveNode(int idx, float x, float y, IMEPackage p, PathingGraphEditor grapheditor)
: base(idx, x, y, p, grapheditor)
{
}
public TreeNode FindSequences(IMEPackage pcc, int index, bool wantFullName = false)
{
TreeNode ret = new TreeNode("#" + index + ": " + (wantFullName ? pcc.getExport(index).GetFullPath : pcc.getExport(index).ObjectName));
ret.Name = index.ToString();
var seqObjs = pcc.getExport(index).GetProperty<ArrayProperty<ObjectProperty>>("SequenceObjects");
if (seqObjs != null)
{
IExportEntry exportEntry;
foreach (ObjectProperty seqObj in seqObjs)
{
exportEntry = pcc.getExport(seqObj.Value - 1);
if (exportEntry.ClassName == "Sequence" || exportEntry.ClassName.StartsWith("PrefabSequence"))
{
TreeNode t = FindSequences(pcc, seqObj.Value - 1, false);
ret.Nodes.Add(t);
}
else if (exportEntry.ClassName == "SequenceReference")
{
var propSequenceReference = exportEntry.GetProperty<ObjectProperty>("oSequenceReference");
if (propSequenceReference != null)
{
TreeNode t = FindSequences(pcc, propSequenceReference.Value - 1, false);
ret.Nodes.Add(t);
}
}
}
}
return ret;
}
public SFXNav_LargeMantleNode(int idx, float x, float y, IMEPackage p, PathingGraphEditor grapheditor)
: base(idx, x, y, p, grapheditor)
{
}
public static void WriteArrayProperty(this Stream stream, IMEPackage pcc, string propName, int count, MemoryStream value)
{
stream.WritePropHeader(pcc, propName, PropertyType.ArrayProperty, 4 + (int)value.Length);
stream.WriteValueS32(count);
stream.WriteStream(value);
}
public static PropertyCollection getDefaultStructValue(string className, bool stripTransients)
{
bool isImmutable = UnrealObjectInfo.IsImmutable(className, MEGame.ME1);
if (Structs.ContainsKey(className))
{
ClassInfo info = Structs[className];
try
{
PropertyCollection structProps = new PropertyCollection();
ClassInfo tempInfo = info;
while (tempInfo != null)
{
foreach ((string propName, PropertyInfo propInfo) in tempInfo.properties)
{
if (stripTransients && propInfo.Transient)
{
continue;
}
if (getDefaultProperty(propName, propInfo, stripTransients, isImmutable) is Property uProp)
{
structProps.Add(uProp);
}
}
if (!Structs.TryGetValue(tempInfo.baseClass, out tempInfo))
{
tempInfo = null;
}
}
structProps.Add(new NoneProperty());
string filepath = null;
if (ME1Directory.BioGamePath != null)
{
filepath = Path.Combine(ME1Directory.BioGamePath, info.pccPath);
}
Stream loadStream = null;
if (File.Exists(info.pccPath)) //dynamic lookup (relative path)
{
filepath = info.pccPath;
loadStream = new MemoryStream(File.ReadAllBytes(info.pccPath));
}
else if (info.pccPath == UnrealObjectInfo.Me3ExplorerCustomNativeAdditionsName)
{
filepath = "GAMERESOURCES_ME1"; //used for cache
loadStream = Utilities.LoadFileFromCompressedResource("GameResources.zip", CoreLib.CustomResourceFileName(MEGame.ME1)); // should this be ME3 (it was originally before corelib move)
}
else if (filepath != null && File.Exists(filepath))
{
loadStream = new MemoryStream(File.ReadAllBytes(filepath));
}
#if AZURE
else if (MiniGameFilesPath != null && File.Exists(Path.Combine(MiniGameFilesPath, info.pccPath)))
{
filepath = Path.Combine(MiniGameFilesPath, info.pccPath);
// Load from test minigame folder. This is only really useful on azure where we don't have access to
// games
loadStream = new MemoryStream(File.ReadAllBytes(filepath));
}
#endif
if (loadStream == null)
{
filepath = Path.Combine(ME1Directory.DefaultGamePath, info.pccPath); //for files from ME1 DLC
if (File.Exists(filepath))
{
loadStream = new MemoryStream(File.ReadAllBytes(filepath));
}
}
if (loadStream != null)
{
using (IMEPackage importPCC = MEPackageHandler.OpenMEPackageFromStream(loadStream, filepath, useSharedPackageCache: true))
{
var exportToRead = importPCC.GetUExport(info.exportIndex);
byte[] buff = exportToRead.Data.Skip(0x30).ToArray();
PropertyCollection defaults = PropertyCollection.ReadProps(exportToRead, new MemoryStream(buff), className);
foreach (var prop in defaults)
{
structProps.TryReplaceProp(prop);
}
}
}
return(structProps);
}
catch
{
return(null);
}
}
return(null);
}
