internal HKXSection(BinaryReaderEx br, HKXVariation variation)
{
SectionTag = br.ReadFixStr(19);
br.AssertByte(0xFF);
var AbsoluteDataStart = br.ReadUInt32();
var LocalFixupsOffset = br.ReadUInt32();
var GlobalFixupsOffset = br.ReadUInt32();
var VirtualFixupsOffset = br.ReadUInt32();
var ExportsOffset = br.ReadUInt32();
var ImportsOffset = br.ReadUInt32();
var EndOffset = br.ReadUInt32();
// Read Data
br.StepIn(AbsoluteDataStart);
SectionData = br.ReadBytes((int)LocalFixupsOffset);
br.StepOut();
// Local fixups
LocalFixups = new List <LocalFixup>();
br.StepIn(AbsoluteDataStart + LocalFixupsOffset);
for (int i = 0; i < (GlobalFixupsOffset - LocalFixupsOffset) / 8; i++)
{
if (br.ReadUInt32() != 0xFFFFFFFF)
{
br.Position -= 4;
var f = new LocalFixup(br);
_localMap.Add(f.Src, f);
LocalFixups.Add(f);
}
}
br.StepOut();
// Global fixups
GlobalFixups = new List <GlobalFixup>();
br.StepIn(AbsoluteDataStart + GlobalFixupsOffset);
for (int i = 0; i < (VirtualFixupsOffset - GlobalFixupsOffset) / 12; i++)
{
if (br.ReadUInt32() != 0xFFFFFFFF)
{
br.Position -= 4;
var f = new GlobalFixup(br);
_globalMap.Add(f.Src, f);
GlobalFixups.Add(f);
}
}
br.StepOut();
// Virtual fixups
VirtualFixups = new List <VirtualFixup>();
br.StepIn(AbsoluteDataStart + VirtualFixupsOffset);
for (int i = 0; i < (ExportsOffset - VirtualFixupsOffset) / 12; i++)
{
if (br.ReadUInt32() != 0xFFFFFFFF)
{
br.Position -= 4;
var f = new VirtualFixup(br);
_virtualMap.Add(f.Src, f);
VirtualFixups.Add(f);
}
}
br.StepOut();
if (variation == HKXVariation.HKXBloodBorne || variation == HKXVariation.HKXDS3)
{
br.AssertUInt32(0xFFFFFFFF);
br.AssertUInt32(0xFFFFFFFF);
br.AssertUInt32(0xFFFFFFFF);
br.AssertUInt32(0xFFFFFFFF);
}
}
public void Serialize(IHavokObject rootObject, BinaryWriterEx bw)
{
// Hardcoded for DS3 for now
bw.BigEndian = false;
bw.WriteUInt32(0x57E0E057); // magic 1
bw.WriteUInt32(0x10C0C010); // magic 2
bw.WriteInt32(0); // User tag
bw.WriteInt32(0x0B); // DS3 havok
bw.WriteByte(8); // Pointer size
bw.WriteByte(1); // Little endian
bw.WriteByte(0); // Padding option
bw.WriteByte(1); // Base class?
bw.WriteInt32(3); // Always 3 sections
// Hardcoded content stuff for now?
bw.WriteInt32(2); // Content section index
bw.WriteInt32(0); // Content section offset
bw.WriteInt32(0); // Content class name section index
bw.WriteInt32(0x4B); // Content class name section offset
bw.WriteFixStr("hk_2014.1.0-r1", 16, 0xFF); // Version string
bw.WriteInt32(0); // Flags
bw.WriteInt16(21); // Unk
bw.WriteInt16(16); // section offset
bw.WriteInt32(20); // Unk
bw.WriteInt32(0); // Unk
bw.WriteInt32(0); // Unk
bw.WriteInt32(0); // Unk
// Initialize bookkeeping structures
//_serializationQueue = new Queue<IHavokObject>();
//_serializationQueue.Enqueue(rootObject);
_serializationQueues = new List <Queue <IHavokObject> >();
_serializationQueues.Add(new Queue <IHavokObject>());
_serializationQueues[0].Enqueue(rootObject);
_serializedObjects = new HashSet <IHavokObject>();
_pendingVirtuals = new HashSet <IHavokObject>();
_pendingVirtuals.Add(rootObject);
_virtualTableLookup = new Dictionary <string, uint>();
_virtualFixups = new List <VirtualFixup>();
_localWriteQueues = new List <Queue <Action> >();
_localWriteQueues.Add(new Queue <Action>());
_localFixups = new List <LocalFixup>();
// Memory stream for writing all the class definitions
MemoryStream classms = new MemoryStream();
BinaryWriterEx classbw = new BinaryWriterEx(false, classms);
// Data memory stream for havok objects
MemoryStream datams = new MemoryStream();
BinaryWriterEx databw = new BinaryWriterEx(false, datams);
// Populate class names with some stuff havok always has
HKXClassName hkclass = new HKXClassName();
hkclass.ClassName = "hkClass";
hkclass.Signature = 0x33D42383;
hkclass.Write(classbw);
hkclass.ClassName = "hkClassMember";
hkclass.Signature = 0xB0EFA719;
hkclass.Write(classbw);
hkclass.ClassName = "hkClassEnum";
hkclass.Signature = 0x8A3609CF;
hkclass.Write(classbw);
hkclass.ClassName = "hkClassEnumItem";
hkclass.Signature = 0xCe6F8A6C;
hkclass.Write(classbw);
while (_serializationQueues.Count > 1 || _serializationQueues[0].Count > 0)
{
var sq = _serializationQueues.Last();
while (sq != null && sq.Count() == 0 && _serializationQueues.Count > 1)
{
if (_serializationQueues.Count > 1)
{
_serializationQueues.RemoveAt(_serializationQueues.Count - 1);
}
sq = _serializationQueues.Last();
}
if (sq.Count == 0)
{
continue;
}
var obj = sq.Dequeue();
_currSerializationQueue = _serializationQueues.Count - 1;
if (_serializedObjects.Contains(obj))
{
continue;
}
// See if we need to add virtual bookkeeping
if (_pendingVirtuals.Contains(obj))
{
_pendingVirtuals.Remove(obj);
var classname = obj.GetType().Name;
if (!_virtualTableLookup.ContainsKey(classname))
{
// Need to create a new class name entry and record the position
HKXClassName cname = new HKXClassName();
cname.ClassName = classname;
cname.Signature = obj.Signature;
uint offset = (uint)classbw.Position;
cname.Write(classbw);
_virtualTableLookup.Add(classname, offset + 5);
}
// Create a new Virtual fixup for this object
var vfu = new VirtualFixup();
vfu.Src = (uint)databw.Position;
vfu.SectionIndex = 0;
vfu.NameOffset = _virtualTableLookup[classname];
_virtualFixups.Add(vfu);
// See if we have any pending global references to this object
if (_pendingGlobals.ContainsKey(obj))
{
// If so, create all the needed global fixups
foreach (var src in _pendingGlobals[obj])
{
var gfu = new GlobalFixup();
gfu.Src = src;
gfu.Dst = (uint)databw.Position;
gfu.DstSectionIndex = 2;
_globalFixups.Add(gfu);
}
_pendingGlobals.Remove(obj);
}
// Add global lookup
_globalLookup.Add(obj, (uint)databw.Position);
}
obj.Write(this, databw);
_serializedObjects.Add(obj);
databw.Pad(16);
// Write local data (such as array contents and strings)
while (_localWriteQueues.Count > 1 || _localWriteQueues[0].Count > 0)
{
var q = _localWriteQueues.Last();
while (q != null && q.Count() == 0 && _localWriteQueues.Count > 1)
{
if (_localWriteQueues.Count > 1)
{
_localWriteQueues.RemoveAt(_localWriteQueues.Count - 1);
}
q = _localWriteQueues.Last();
// Do alignment at the popping of a queue frame
databw.Pad(16);
}
if (q.Count == 0)
{
continue;
}
var act = q.Dequeue();
_currWriteQueue = _localWriteQueues.Count - 1;
act.Invoke();
}
databw.Pad(16);
}
HKXSection classNames = new HKXSection();
classNames.SectionID = 0;
classNames.SectionTag = "__classnames__";
classNames.SectionData = classms.ToArray();
classNames.WriteHeader(bw, HKX.HKXVariation.HKXDS3);
HKXSection types = new HKXSection();
types.SectionID = 1;
types.SectionTag = "__types__";
types.SectionData = new byte[0];
types.WriteHeader(bw, HKX.HKXVariation.HKXDS3);
HKXSection data = new HKXSection();
data.SectionID = 2;
data.SectionTag = "__data__";
data.SectionData = datams.ToArray();
data.VirtualFixups = _virtualFixups;
data.GlobalFixups = _globalFixups.OrderBy((x) => x.Src).ToList();
data.LocalFixups = _localFixups.OrderBy((x) => x.Dst).ToList();
data.WriteHeader(bw, HKX.HKXVariation.HKXDS3);
classNames.WriteData(bw);
types.WriteData(bw);
data.WriteData(bw);
classms.Close();
datams.Close();
}
