public static ClassNetCache Deserialize(BinaryReader br)
{
var classNetCache = new ClassNetCache();
classNetCache.ObjectIndex = br.ReadInt32();
classNetCache.ParentId = br.ReadInt32();
classNetCache.Id = br.ReadInt32();
classNetCache.Children = new List <ClassNetCache>();
classNetCache.PropertiesLength = br.ReadInt32();
classNetCache.Properties = new ClassNetCacheProperty[classNetCache.PropertiesLength];
for (int i = 0; i < classNetCache.PropertiesLength; ++i)
{
classNetCache.Properties[i] = ClassNetCacheProperty.Deserialize(br);
}
return(classNetCache);
}
public static Replay Deserialize(BinaryReader br, out string log)
{
var logSb = new StringBuilder();
var replay = new Replay();
try
{
replay.Unknown1 = br.ReadInt32();
replay.Unknown2 = br.ReadInt32();
replay.Unknown3 = br.ReadInt32();
replay.Unknown4 = br.ReadInt32();
// This looks almost like an ArrayProperty, but without type and the unknown ints
replay.Unknown5 = br.ReadString2();
var s = br.BaseStream.Position;
replay.Properties = new List <Property>();
Property prop;
do
{
prop = Property.Deserialize(br);
replay.Properties.Add(prop);
}while (prop.Name != "None");
replay.LengthOfRemainingData = br.ReadInt32();
replay.Unknown7 = br.ReadInt32();
replay.LevelLength = br.ReadInt32();
// looks like sfx data, not level data. shrug
replay.Levels = new List <Level>();
for (int i = 0; i < replay.LevelLength; i++)
{
replay.Levels.Add(Level.Deserialize(br));
}
replay.KeyFrameLength = br.ReadInt32();
replay.KeyFrames = new List <KeyFrame>();
for (int i = 0; i < replay.KeyFrameLength; i++)
{
replay.KeyFrames.Add(KeyFrame.Deserialize(br));
}
replay.NetworkStreamLength = br.ReadInt32();
replay.NetworkStream = new List <byte>();
for (int i = 0; i < replay.NetworkStreamLength; ++i)
{
replay.NetworkStream.Add(br.ReadByte());
}
replay.DebugStringLength = br.ReadInt32();
replay.DebugStrings = new List <DebugString>();
for (int i = 0; i < replay.DebugStringLength; i++)
{
replay.DebugStrings.Add(DebugString.Deserialize(br));
}
replay.TickMarkLength = br.ReadInt32();
replay.TickMarks = new List <TickMark>();
for (int i = 0; i < replay.TickMarkLength; i++)
{
replay.TickMarks.Add(TickMark.Deserialize(br));
}
replay.PackagesLength = br.ReadInt32();
replay.Packages = new List <string>();
for (int i = 0; i < replay.PackagesLength; i++)
{
replay.Packages.Add(br.ReadString2());
}
replay.ObjectLength = br.ReadInt32();
replay.Objects = new string[replay.ObjectLength];
for (int i = 0; i < replay.ObjectLength; i++)
{
replay.Objects[i] = br.ReadString2();
}
replay.NamesLength = br.ReadInt32();
replay.Names = new string[replay.NamesLength];
for (int i = 0; i < replay.NamesLength; i++)
{
replay.Names[i] = br.ReadString2();
}
replay.ClassIndexLength = br.ReadInt32();
replay.ClassIndexes = new List <ClassIndex>();
for (int i = 0; i < replay.ClassIndexLength; i++)
{
replay.ClassIndexes.Add(ClassIndex.Deserialize(br));
}
replay.ClassNetCacheLength = br.ReadInt32();
replay.ClassNetCaches = new ClassNetCache[replay.ClassNetCacheLength];
for (int i = 0; i < replay.ClassNetCacheLength; i++)
{
replay.ClassNetCaches[i] = ClassNetCache.Deserialize(br);
int j = 0;
for (j = i - 1; j >= 0; --j)
{
if (replay.ClassNetCaches[i].ParentId == replay.ClassNetCaches[j].Id)
{
replay.ClassNetCaches[i].Parent = replay.ClassNetCaches[j];
replay.ClassNetCaches[j].Children.Add(replay.ClassNetCaches[i]);
break;
}
}
if (j < 0)
{
replay.ClassNetCaches[i].Root = true;
}
}
// 2016/02/10 patch replays have TAGame.PRI_TA classes with no parent.
// Deserialization may have failed somehow, but for now manually fix it up.
var priClassNetCache = replay.ClassNetCaches.Where(cnc => replay.Objects[cnc.ObjectIndex] == "Engine.PlayerReplicationInfo").Single();
var prixClassNetCache = replay.ClassNetCaches.Where(cnc => replay.Objects[cnc.ObjectIndex] == "ProjectX.PRI_X").Single();
var pritaClassNetCache = replay.ClassNetCaches.Where(cnc => replay.Objects[cnc.ObjectIndex] == "TAGame.PRI_TA").Single();
if (prixClassNetCache.Parent == null)
{
Console.WriteLine("Fudging the parent of ProjectX.PRI_X");
prixClassNetCache.Root = false;
prixClassNetCache.Parent = priClassNetCache;
priClassNetCache.Children.Add(prixClassNetCache);
}
if (pritaClassNetCache.Parent == null)
{
Console.WriteLine("Fudging the parent of TAGame.PRI_TA");
pritaClassNetCache.Root = false;
pritaClassNetCache.Parent = prixClassNetCache;
prixClassNetCache.Children.Add(pritaClassNetCache);
}
var objectIndexToName = Enumerable.Range(0, replay.Objects.Length).ToDictionary(i => i, i => replay.Objects[i]);
replay.Frames = ExtractFrames(replay.NetworkStream, replay.KeyFrames.Select(x => x.FilePosition), objectIndexToName, replay.ClassNetCaches, logSb);
#if DEBUG // Maybe change to write to a debug log
foreach (var f in replay.Frames.Where(x => !x.Complete || x.ActorStates.Any(a => a.ForcedComplete)))
{
logSb.AppendLine(f.ToDebugString(replay.Objects));
}
#endif
if (br.BaseStream.Position != br.BaseStream.Length)
{
throw new Exception("Extra data somewhere!");
}
log = logSb.ToString();
return(replay);
}
catch (Exception)
{
#if DEBUG
log = logSb.ToString();
return(replay);
#else
throw;
#endif
}
}
public static Replay Deserialize(BinaryReader br)
{
var replay = DeserializeHeader(br);
try
{
replay.Part2Length = br.ReadInt32();
replay.Part2Crc = br.ReadUInt32();
replay.LevelLength = br.ReadInt32();
// looks like sfx data, not level data. shrug
replay.Levels = new List <Level>();
for (int i = 0; i < replay.LevelLength; i++)
{
replay.Levels.Add(Level.Deserialize(br));
}
replay.KeyFrameLength = br.ReadInt32();
replay.KeyFrames = new List <KeyFrame>();
for (int i = 0; i < replay.KeyFrameLength; i++)
{
replay.KeyFrames.Add(KeyFrame.Deserialize(br));
}
replay.NetworkStreamLength = br.ReadInt32();
replay.NetworkStream = new List <byte>();
for (int i = 0; i < replay.NetworkStreamLength; ++i)
{
replay.NetworkStream.Add(br.ReadByte());
}
replay.DebugStringLength = br.ReadInt32();
replay.DebugStrings = new List <DebugString>();
for (int i = 0; i < replay.DebugStringLength; i++)
{
replay.DebugStrings.Add(DebugString.Deserialize(br));
}
replay.TickMarkLength = br.ReadInt32();
replay.TickMarks = new List <TickMark>();
for (int i = 0; i < replay.TickMarkLength; i++)
{
replay.TickMarks.Add(TickMark.Deserialize(br));
}
replay.PackagesLength = br.ReadInt32();
replay.Packages = new List <string>();
for (int i = 0; i < replay.PackagesLength; i++)
{
replay.Packages.Add(br.ReadString2());
}
replay.ObjectLength = br.ReadInt32();
replay.Objects = new string[replay.ObjectLength];
for (int i = 0; i < replay.ObjectLength; i++)
{
replay.Objects[i] = br.ReadString2();
}
replay.NamesLength = br.ReadInt32();
replay.Names = new string[replay.NamesLength];
for (int i = 0; i < replay.NamesLength; i++)
{
replay.Names[i] = br.ReadString2();
}
replay.ClassIndexLength = br.ReadInt32();
replay.ClassIndexes = new List <ClassIndex>();
for (int i = 0; i < replay.ClassIndexLength; i++)
{
replay.ClassIndexes.Add(ClassIndex.Deserialize(br));
}
replay.ClassNetCacheLength = br.ReadInt32();
replay.ClassNetCaches = new ClassNetCache[replay.ClassNetCacheLength];
for (int i = 0; i < replay.ClassNetCacheLength; i++)
{
var classNetCache = ClassNetCache.Deserialize(br);
replay.ClassNetCaches[i] = classNetCache;
for (int j = i - 1; j >= 0; --j)
{
if (classNetCache.ParentId == replay.ClassNetCaches[j].Id)
{
classNetCache.Parent = replay.ClassNetCaches[j];
replay.ClassNetCaches[j].Children.Add(classNetCache);
break;
}
}
if (replay.ClassNetCaches[i].Parent == null)
{
replay.ClassNetCaches[i].Root = true;
}
}
replay.MergeDuplicateClasses();
// 2016/02/10 patch replays have TAGame.PRI_TA classes with no parent.
// Deserialization may have failed somehow, but for now manually fix it up.
replay.FixClassParent("ProjectX.PRI_X", "Engine.PlayerReplicationInfo");
replay.FixClassParent("TAGame.PRI_TA", "ProjectX.PRI_X");
// A lot of replays have messed up class hierarchies, commonly giving
// both Engine.TeamInfo, TAGame.CarComponent_TA, and others the same id.
// Some ambiguities may have become more common since the 2016-06-20 patch,
// but there have always been issues.
//
// For example, from E8B66F8A4561A2DAACC61FA9FBB710CD:
// Index 26(TAGame.CarComponent_TA) ParentId 21 Id 24
// Index 28(TAGame.CarComponent_Dodge_TA) ParentId 24 Id 25
// Index 188(TAGame.CarComponent_Jump_TA) ParentId 24 Id 24
// Index 190(TAGame.CarComponent_DoubleJump_TA) ParentId 24 Id 24
// Index 30(Engine.Info) ParentId 21 Id 21
// Index 31(Engine.ReplicationInfo) ParentId 21 Id 21
// Index 195(Engine.TeamInfo) ParentId 21 Id 24
// Index 214(TAGame.CarComponent_Boost_TA) ParentId 24 Id 31
// Index 237(TAGame.CarComponent_FlipCar_TA) ParentId 24 Id 26
// Problems:
// TAGame.CarComponent_Jump_TA's parent id and id are both 24 (happens to work fine in this case)
// TAGame.CarComponent_DoubleJump_TA's parent id and id are both 24 (incorrectly picks CarComponent_Jump_TA as parent)
// Engine.TeamInfo's ID is 24, even though there are 3 other classes with that id
// TAGame.CarComponent_Boost_TA's parent is 24 (Incorrectly picks Engine.TeamInfo, since it's ambiguous)
// TAGame.CarComponent_FlipCar_TA's parent is 24 (Incorrectly picks Engine.TeamInfo, since it's ambiguous)
// Engine.ReplicationInfo and Engine.Info have the same parent id and id (no ill effects so far)
//
// Note: The heirarchy problems do not always cause parsing errors! But they can if you're unlucky.
replay.FixClassParent("TAGame.CarComponent_Boost_TA", "TAGame.CarComponent_TA");
replay.FixClassParent("TAGame.CarComponent_FlipCar_TA", "TAGame.CarComponent_TA");
replay.FixClassParent("TAGame.CarComponent_Jump_TA", "TAGame.CarComponent_TA");
replay.FixClassParent("TAGame.CarComponent_Dodge_TA", "TAGame.CarComponent_TA");
replay.FixClassParent("TAGame.CarComponent_DoubleJump_TA", "TAGame.CarComponent_TA");
replay.FixClassParent("TAGame.GameEvent_TA", "Engine.Actor");
replay.FixClassParent("TAGame.SpecialPickup_TA", "TAGame.CarComponent_TA");
replay.FixClassParent("TAGame.SpecialPickup_BallVelcro_TA", "TAGame.SpecialPickup_TA");
replay.FixClassParent("TAGame.SpecialPickup_Targeted_TA", "TAGame.SpecialPickup_TA");
replay.FixClassParent("TAGame.SpecialPickup_Spring_TA", "TAGame.SpecialPickup_Targeted_TA");
replay.FixClassParent("TAGame.SpecialPickup_BallLasso_TA", "TAGame.SpecialPickup_Spring_TA");
replay.FixClassParent("TAGame.SpecialPickup_BoostOverride_TA", "TAGame.SpecialPickup_Targeted_TA");
replay.FixClassParent("TAGame.SpecialPickup_BallCarSpring_TA", "TAGame.SpecialPickup_Spring_TA");
replay.FixClassParent("TAGame.SpecialPickup_BallFreeze_TA", "TAGame.SpecialPickup_Targeted_TA");
replay.FixClassParent("TAGame.SpecialPickup_Swapper_TA", "TAGame.SpecialPickup_Targeted_TA");
replay.FixClassParent("TAGame.SpecialPickup_GrapplingHook_TA", "TAGame.SpecialPickup_Targeted_TA");
replay.FixClassParent("TAGame.SpecialPickup_BallGravity_TA", "TAGame.SpecialPickup_TA");
replay.FixClassParent("TAGame.SpecialPickup_HitForce_TA", "TAGame.SpecialPickup_TA");
replay.FixClassParent("TAGame.SpecialPickup_Tornado_TA", "TAGame.SpecialPickup_TA");
// Havent had problems with these yet. They (among others) can be ambiguous,
// but I havent found a replay yet where my parent choosing algorithm
// (which picks the matching class that was most recently read) picks the wrong class.
// Just a safeguard for now.
replay.FixClassParent("Engine.TeamInfo", "Engine.ReplicationInfo");
replay.FixClassParent("TAGame.Team_TA", "Engine.TeamInfo");
replay.Frames = ExtractFrames(replay.MaxChannels(), replay.NetworkStream, replay.Objects, replay.ClassNetCaches, replay.EngineVersion, replay.LicenseeVersion, replay.NetVersion);
if (br.BaseStream.Position != br.BaseStream.Length)
{
throw new Exception("Extra data somewhere!");
}
return(replay);
}
catch (Exception e)
{
#if DEBUG
Console.Write(e.ToString());
return(replay);
#else
throw;
#endif
}
}
public static ClassNetCache Deserialize(BinaryReader br)
{
var classNetCache = new ClassNetCache();
classNetCache.ObjectIndex = br.ReadInt32();
classNetCache.ParentId = br.ReadInt32();
classNetCache.Id = br.ReadInt32();
classNetCache.Children = new List<ClassNetCache>();
classNetCache.PropertiesLength = br.ReadInt32();
classNetCache.Properties = new ClassNetCacheProperty[classNetCache.PropertiesLength];
for (int i = 0; i < classNetCache.PropertiesLength; ++i)
{
classNetCache.Properties[i] = ClassNetCacheProperty.Deserialize(br);
}
return classNetCache;
}