|
public SplitWithIFP ( |
||
| ifp | The ifp. | |
| meta | The meta. | |
| map | The map. | |
| return | void | |
/// <summary>
/// The inject model.
/// </summary>
/// <param name="FilePath">The file path.</param>
/// <param name="meta">The meta.</param>
/// <returns></returns>
/// <remarks></remarks>
public virtual Meta InjectModel(string FilePath, Meta meta)
{
LoadFromOBJ(FilePath);
char[] crsr = new[] { 'c', 'r', 's', 'r' };
char[] fklb = new[] { 'f', 'k', 'l', 'b' };
for (int x = 0; x < this.RawDataMetaChunks.Length; x++)
{
MemoryStream raw = new MemoryStream();
BinaryWriter newraw = new BinaryWriter(raw);
BinaryReader oldraw = new BinaryReader(meta.raw.rawChunks[x].MS);
int newrawsize = 0;
int rawchunkid = 0;
#region Write Header
oldraw.BaseStream.Position = 0;
newraw.BaseStream.Position = 0;
newraw.Write(oldraw.ReadBytes(this.RawDataMetaChunks[x].HeaderSize));
newrawsize += this.RawDataMetaChunks[x].HeaderSize;
#endregion
#region Write Submesh Info
newraw.BaseStream.Position = newrawsize;
newraw.Write(crsr);
newrawsize += 4;
for (int y = 0; y < this.RawDataMetaChunks[x].SubMeshInfo.Length; y++)
{
oldraw.BaseStream.Position = this.RawDataMetaChunks[x].HeaderSize +
this.RawDataMetaChunks[x].RawDataChunkInfo[0].Offset;
newraw.BaseStream.Position = newrawsize + (y * 72);
newraw.Write(oldraw.ReadBytes(72));
newraw.BaseStream.Position = newrawsize + (y * 72) + 4;
newraw.Write((short)this.RawDataMetaChunks[x].SubMeshInfo[y].ShaderNumber);
newraw.Write((short)this.RawDataMetaChunks[x].SubMeshInfo[y].IndiceStart);
newraw.Write((short)this.RawDataMetaChunks[x].SubMeshInfo[y].IndiceCount);
}
this.RawDataMetaChunks[x].RawDataChunkInfo[0].ChunkCount = this.RawDataMetaChunks[x].SubMeshInfo.Length;
this.RawDataMetaChunks[x].RawDataChunkInfo[0].Size = this.RawDataMetaChunks[x].SubMeshInfo.Length * 72;
newrawsize += this.RawDataMetaChunks[x].SubMeshInfo.Length * 72;
// write count
newraw.BaseStream.Position = 8;
newraw.Write(this.RawDataMetaChunks[x].SubMeshInfo.Length);
#endregion
#region Write Unknown
rawchunkid = 1;
while (newrawsize > 0)
{
if (this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].ChunkSize == 2)
{
break;
}
oldraw.BaseStream.Position = this.RawDataMetaChunks[x].HeaderSize +
this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].Offset;
newraw.BaseStream.Position = newrawsize;
newraw.Write(crsr);
newrawsize += 4;
newraw.Write(oldraw.ReadBytes(this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].Size));
this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].Offset = newrawsize -
this.RawDataMetaChunks[x].HeaderSize;
newrawsize += this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].Size;
rawchunkid++;
}
#endregion
#region Write Indices
int indicechunkid = rawchunkid;
newraw.BaseStream.Position = newrawsize;
newraw.Write(crsr);
newrawsize += 4;
for (int y = 0; y < this.RawDataMetaChunks[x].Indices.Length; y++)
{
newraw.Write(this.RawDataMetaChunks[x].Indices[y]);
}
this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].Offset = newrawsize -
this.RawDataMetaChunks[x].HeaderSize;
this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].ChunkCount =
this.RawDataMetaChunks[x].Indices.Length;
this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].Size = this.RawDataMetaChunks[x].Indices.Length *
2;
newrawsize += this.RawDataMetaChunks[x].Indices.Length * 2;
rawchunkid++;
// indice count
newraw.BaseStream.Position = 40;
newraw.Write((short)this.RawDataMetaChunks[x].Indices.Length);
#endregion
#region Write Unknown
oldraw.BaseStream.Position = this.RawDataMetaChunks[x].HeaderSize +
this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].Offset;
newraw.BaseStream.Position = newrawsize;
newraw.Write(crsr);
newrawsize += 4;
newraw.Write(oldraw.ReadBytes(this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].Size));
this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].Offset = newrawsize -
this.RawDataMetaChunks[x].HeaderSize;
newrawsize += this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].Size;
rawchunkid++;
#endregion
#region Write Vertices
int verticechunkid = indicechunkid + 2;
newraw.BaseStream.Position = newrawsize;
newraw.Write(crsr);
newrawsize += 4;
newraw.Write(
new byte[
this.RawDataMetaChunks[x].RawDataChunkInfo[verticechunkid].ChunkSize *
this.RawDataMetaChunks[x].VerticeCount]);
for (int y = 0; y < this.RawDataMetaChunks[x].VerticeCount; y++)
{
newraw.BaseStream.Position = newrawsize +
(y *
this.RawDataMetaChunks[x].RawDataChunkInfo[verticechunkid].ChunkSize);
short vx =
(short)
this.RawDataMetaChunks[x].CompressVertice(
this.RawDataMetaChunks[x].Vertices[y].X, this.BoundingBox.MinX, this.BoundingBox.MaxX);
short vy =
(short)
this.RawDataMetaChunks[x].CompressVertice(
this.RawDataMetaChunks[x].Vertices[y].Y, this.BoundingBox.MinY, this.BoundingBox.MaxY);
short vz =
(short)
this.RawDataMetaChunks[x].CompressVertice(
this.RawDataMetaChunks[x].Vertices[y].Z, this.BoundingBox.MinZ, this.BoundingBox.MaxZ);
newraw.Write(vx);
newraw.Write(vy);
newraw.Write(vz);
}
this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].Offset = newrawsize -
this.RawDataMetaChunks[x].HeaderSize;
newrawsize += this.RawDataMetaChunks[x].RawDataChunkInfo[verticechunkid].ChunkSize *
this.RawDataMetaChunks[x].VerticeCount;
this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].Size =
this.RawDataMetaChunks[x].RawDataChunkInfo[verticechunkid].ChunkSize *
this.RawDataMetaChunks[x].VerticeCount;
this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].ChunkSize = 0;
// this.RawDataMetaChunks[x].RawDataChunkInfo[verticechunkid].ChunkSize * this.RawDataMetaChunks[x].VerticeCount; ;
newraw.BaseStream.Position = 100;
newraw.Write(this.RawDataMetaChunks[x].VerticeCount);
rawchunkid++;
#endregion
#region Write UVs
int uvchunkid = verticechunkid + 1;
newraw.BaseStream.Position = newrawsize;
newraw.Write(crsr);
newrawsize += 4;
for (int y = 0; y < this.RawDataMetaChunks[x].VerticeCount; y++)
{
short u =
(short)
this.RawDataMetaChunks[x].CompressVertice(
this.RawDataMetaChunks[x].UVs[y].X, this.BoundingBox.MinU, this.BoundingBox.MaxU);
short v =
(short)
this.RawDataMetaChunks[x].CompressVertice(
this.RawDataMetaChunks[x].UVs[y].Y, this.BoundingBox.MinV, this.BoundingBox.MaxV);
newraw.Write(u);
newraw.Write(v);
}
this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].Offset = newrawsize -
this.RawDataMetaChunks[x].HeaderSize;
this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].ChunkSize = 1;
this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].Size = 4 * this.RawDataMetaChunks[x].VerticeCount;
newrawsize += 4 * this.RawDataMetaChunks[x].VerticeCount;
rawchunkid++;
#endregion
#region Write Normals
newraw.BaseStream.Position = newrawsize;
newraw.Write(crsr);
newrawsize += 4;
for (int y = 0; y < this.RawDataMetaChunks[x].VerticeCount; y++)
{
int u = CompressNormal(this.RawDataMetaChunks[x].Normals[y]);
int v = 1;
newraw.Write(u);
newraw.Write(v);
newraw.Write(v);
}
this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].Offset = newrawsize -
this.RawDataMetaChunks[x].HeaderSize;
this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].ChunkSize = 2;
this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].Size = 4 * this.RawDataMetaChunks[x].VerticeCount;
newrawsize += 12 * this.RawDataMetaChunks[x].VerticeCount;
rawchunkid++;
#endregion
#region Write Other Stuff Not Yet Implemented
while (rawchunkid < this.RawDataMetaChunks[x].RawDataChunkInfo.Length)
{
oldraw.BaseStream.Position = this.RawDataMetaChunks[x].HeaderSize +
this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].Offset;
newraw.BaseStream.Position = newrawsize;
newraw.Write(crsr);
newrawsize += 4;
newraw.Write(oldraw.ReadBytes(this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].Size));
this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].Offset = newrawsize -
this.RawDataMetaChunks[x].HeaderSize;
newrawsize += this.RawDataMetaChunks[x].RawDataChunkInfo[rawchunkid].Size;
rawchunkid++;
}
#endregion
// footer
newraw.Write(fklb);
newrawsize += 4;
// raw size
int rawsize = newrawsize - this.RawDataMetaChunks[x].HeaderSize - 4;
newraw.BaseStream.Position = 4;
newraw.Write(rawsize);
meta.raw.rawChunks[x].MS = raw;
meta.raw.rawChunks[x].size = newrawsize;
}
MetaSplitter ms = new MetaSplitter();
IFPIO io = IFPHashMap.GetIfp(meta.type, map.HaloVersion);
ms.SplitWithIFP(ref io, ref meta, map);
#region Write Bounding Box
int c = 0;
while (c != -1)
{
if (ms.Header.Chunks[0].ChunkResources[c].offset == 20)
{
break;
}
c++;
}
MetaSplitter.SplitReflexive reflex = ms.Header.Chunks[0].ChunkResources[c] as MetaSplitter.SplitReflexive;
BinaryWriter BW = new BinaryWriter(reflex.Chunks[0].MS);
BW.BaseStream.Position = 0;
BW.Write(this.BoundingBox.MinX);
BW.Write(this.BoundingBox.MaxX);
BW.Write(this.BoundingBox.MinY);
BW.Write(this.BoundingBox.MaxY);
BW.Write(this.BoundingBox.MinZ);
BW.Write(this.BoundingBox.MaxZ);
BW.Write(this.BoundingBox.MinU);
BW.Write(this.BoundingBox.MaxU);
BW.Write(this.BoundingBox.MinV);
BW.Write(this.BoundingBox.MaxV);
ms.Header.Chunks[0].ChunkResources[c] = reflex;
#endregion
#region metachunks
while (c != -1)
{
if (ms.Header.Chunks[0].ChunkResources[c].offset == 36)
{
break;
}
c++;
}
MetaSplitter.SplitReflexive reflexe = ms.Header.Chunks[0].ChunkResources[c] as MetaSplitter.SplitReflexive;
for (int l = 0; l < reflexe.Chunks.Count; l++)
{
BW = new BinaryWriter(reflexe.Chunks[l].MS);
BW.BaseStream.Position = 4;
short facecount = (short)this.RawDataMetaChunks[l].FaceCount;
BW.Write((short)this.RawDataMetaChunks[l].VerticeCount);
BW.Write(facecount);
BW.BaseStream.Position = 68;
BW.Write(meta.raw.rawChunks[l].size - this.RawDataMetaChunks[l].HeaderSize - 4);
for (int h = 0; h < reflexe.Chunks[l].ChunkResources.Count; h++)
{
if (reflexe.Chunks[l].ChunkResources[h].offset == 72)
{
MetaSplitter.SplitReflexive reflexx =
reflexe.Chunks[l].ChunkResources[h] as MetaSplitter.SplitReflexive;
for (int k = 0; k < reflexx.Chunks.Count; k++)
{
BinaryWriter BWX = new BinaryWriter(reflexx.Chunks[k].MS);
BWX.BaseStream.Position = 6;
BWX.Write((short)this.RawDataMetaChunks[l].RawDataChunkInfo[k].ChunkSize);
BWX.Write(this.RawDataMetaChunks[l].RawDataChunkInfo[k].Size);
BWX.Write(this.RawDataMetaChunks[l].RawDataChunkInfo[k].Offset);
}
reflexe.Chunks[l].ChunkResources[h] = reflexx;
break;
}
}
}
while (c != -1)
{
if (ms.Header.Chunks[0].ChunkResources[c].offset == 96)
{
break;
}
c++;
}
reflexe = ms.Header.Chunks[0].ChunkResources[c] as MetaSplitter.SplitReflexive;
if (this.Shaders.Shader.Length > this.Shaders.count)
{
int diff = this.Shaders.Shader.Length - reflexe.Chunks.Count;
for (int x = 0; x < diff; x++)
{
reflexe.Chunks.Add(reflexe.Chunks[0]);
}
}
else
{
}
#endregion
Meta m = MetaBuilder.BuildMeta(ms, map);
m.raw = meta.raw;
return m;
}
/// <summary>
/// The map builder.
/// </summary>
/// <param name="metas">The metas.</param>
/// <param name="layout">The layout.</param>
/// <param name="map">The map.</param>
/// <param name="addsounds">The addsounds.</param>
/// <remarks></remarks>
public void MapBuilder(ArrayList metas, ref MapLayout layout, Map map, bool addsounds)
{
string[] filestofix = new string[0];
if (map.MapHeader.mapType != MapTypes.Internal)
{
if (
MessageBox.Show(
"This map is an external resource and updating it will effect all the other maps. Continue?",
string.Empty,
MessageBoxButtons.OKCancel) == DialogResult.Cancel)
{
return;
}
OpenFileDialog openfiles = new OpenFileDialog();
openfiles.Multiselect = true;
openfiles.Filter = "Halo 2 Map (*.map)| *.map";
openfiles.ShowDialog();
filestofix = openfiles.FileNames;
}
if (addsounds == false)
{
for (int x = 0; x < metas.Count; x++)
{
if (((Meta)metas[x]).type == "snd!")
{
metas.RemoveAt(x);
x--;
}
}
}
int totalshift = 0;
ArrayList strings = new ArrayList();
for (int x = 0; x < metas.Count; x++)
{
Meta m = (Meta)metas[x];
for (int y = 0; y < m.items.Count; y++)
{
Meta.Item ii = m.items[y];
if (ii.type == Meta.ItemType.String)
{
Meta.String iii = (Meta.String)ii;
if (Array.IndexOf(map.Strings.Name, iii.name) == -1)
{
if (strings.IndexOf(iii.name) == -1)
{
strings.Add(iii.name);
}
}
}
}
}
map.OpenMap(MapTypes.Internal);
Meta ughmeta = new Meta(map);
ughmeta.ReadMetaFromMap(map.IndexHeader.metaCount - 1, true);
IFPIO ifp = IFPHashMap.GetIfp("ugh!", map.HaloVersion);
ughmeta.rawType = RawDataContainerType.Empty;
ughmeta.headersize = ifp.headerSize;
ughmeta.scanner.ScanWithIFP(ref ifp);
#region get model info
int tempint = layout.FindByType(RawDataContainerType.Model);
LayOutChunk loc = (LayOutChunk)layout.chunks[tempint];
#endregion
#region sound raw data
int sndshift = 0;
int sndpermcount = 0;
int sndchoicecount = 0;
int sndchunk1count = 0;
int addedsoundnames = 0;
MetaSplitter metasplit = new MetaSplitter();
metasplit.SplitWithIFP(ref ifp, ref ughmeta, map);
map.OpenMap(MapTypes.Internal);
int soundnameindex = 0;
int soundpermutationindex = 0;
int soundchoiceindex = 0;
int soundchunk1index = 0;
for (int x = 0; x < metasplit.Header.Chunks[0].ChunkResources.Count; x++)
{
if (metasplit.Header.Chunks[0].ChunkResources[x].type == Meta.ItemType.Reflexive)
{
Meta.Reflexive r = (Meta.Reflexive)metasplit.Header.Chunks[0].ChunkResources[x];
if (r.offset == 16)
{
soundnameindex = x;
}
if (r.offset == 32)
{
soundpermutationindex = x;
}
if (r.offset == 40)
{
soundchoiceindex = x;
}
if (r.offset == 64)
{
soundchunk1index = x;
}
}
}
MetaSplitter.SplitReflexive soundnamereflexive =
metasplit.Header.Chunks[0].ChunkResources[soundnameindex] as MetaSplitter.SplitReflexive;
MetaSplitter.SplitReflexive soundpermutationreflexive =
metasplit.Header.Chunks[0].ChunkResources[soundpermutationindex] as MetaSplitter.SplitReflexive;
MetaSplitter.SplitReflexive soundchoicereflexive =
metasplit.Header.Chunks[0].ChunkResources[soundchoiceindex] as MetaSplitter.SplitReflexive;
MetaSplitter.SplitReflexive soundchunk1reflexive =
metasplit.Header.Chunks[0].ChunkResources[soundchunk1index] as MetaSplitter.SplitReflexive;
for (int x = 0; x < metas.Count; x++)
{
Meta m = (Meta)metas[x];
if (m.rawType == RawDataContainerType.Sound)
{
Sound tempsound = (Sound)m.raw;
BinaryWriter BW = new BinaryWriter(m.MS);
int y = 0;
// writes new index to meta
BW.BaseStream.Position = 8;
ushort temppermindex = (ushort)(map.ugh.Permutations.Count + sndpermcount);
BW.Write(temppermindex);
for (int e = 0; e < tempsound.Permutations.Length; e++)
{
for (int ee = 0; ee < tempsound.Permutations[e].choicecount; ee++)
{
int nindex = map.ugh.SoundNames.IndexOf(tempsound.Permutations[e].Choices[ee].Name);
if (nindex == -1)
{
int nindex2 = strings.IndexOf(tempsound.Permutations[e].Choices[ee].Name);
if (nindex2 == -1)
{
strings.Add(tempsound.Permutations[e].Choices[ee].Name);
nindex2 = strings.Count - 1;
}
nindex2 += map.Strings.Name.Length;
map.ugh.SoundNames.Add(tempsound.Permutations[e].Choices[ee].Name);
tempsound.Permutations[e].Choices[ee].NameIndex = (ushort)(map.ugh.SoundNames.Count - 1);
MetaSplitter.SplitReflexive tempss = new MetaSplitter.SplitReflexive();
tempss.chunksize = soundnamereflexive.Chunks[0].chunksize;
tempss.MS = new MemoryStream(tempss.chunksize);
BinaryWriter soundnameBW = new BinaryWriter(tempss.MS);
soundnameBW.BaseStream.Position = 0;
byte z = 0;
soundnameBW.Write((ushort)nindex2);
soundnameBW.Write(z);
soundnameBW.Write((byte)tempsound.Permutations[e].Choices[ee].Name.Length);
soundnamereflexive.Chunks.Add(tempss);
addedsoundnames++;
}
else
{
tempsound.Permutations[e].Choices[ee].NameIndex = (ushort)nindex;
}
}
}
// cycle through permutations and write them
for (int e = 0; e < tempsound.Permutations.Length; e++)
{
MetaSplitter.SplitReflexive tempss = new MetaSplitter.SplitReflexive();
tempss.chunksize = soundpermutationreflexive.Chunks[0].chunksize;
tempss.MS = new MemoryStream(tempss.chunksize);
BinaryWriter permBW = new BinaryWriter(tempss.MS);
permBW.BaseStream.Position = 0;
permBW.Write(tempsound.Permutations[e].unknown1);
permBW.Write(tempsound.Permutations[e].unknown2);
tempsound.Permutations[e].choiceindex = (ushort)(map.ugh.Choices.Count + sndchoicecount);
permBW.Write(tempsound.Permutations[e].choiceindex);
permBW.Write(tempsound.Permutations[e].choicecount);
soundpermutationreflexive.Chunks.Add(tempss);
for (int ee = 0; ee < tempsound.Permutations[e].choicecount; ee++)
{
MetaSplitter.SplitReflexive tempsss = new MetaSplitter.SplitReflexive();
tempsss.chunksize = soundchoicereflexive.Chunks[0].chunksize;
tempsss.MS = new MemoryStream(tempsss.chunksize);
BinaryWriter choiceBW = new BinaryWriter(tempsss.MS);
choiceBW.BaseStream.Position = 0;
choiceBW.Write(tempsound.Permutations[e].Choices[ee].NameIndex);
choiceBW.Write(tempsound.Permutations[e].Choices[ee].unknown1);
choiceBW.Write(tempsound.Permutations[e].Choices[ee].unknown2);
choiceBW.Write(tempsound.Permutations[e].Choices[ee].unknown3);
tempsound.Permutations[e].Choices[ee].soundindex =
(ushort)(map.ugh.SoundChunks1.Count + sndchunk1count);
choiceBW.Write(tempsound.Permutations[e].Choices[ee].soundindex);
choiceBW.Write(tempsound.Permutations[e].Choices[ee].soundcount);
soundchoicereflexive.Chunks.Add(tempsss);
for (int eee = 0; eee < tempsound.Permutations[e].Choices[ee].soundcount; eee++)
{
RawDataChunk r = m.raw.rawChunks[y];
// write raw to map
int tempintx = loc.startoffset + sndshift;
map.BW.BaseStream.Position = tempintx;
map.BW.BaseStream.Write(r.MS.ToArray(), 0, r.size);
// write padding
int tempinty = map.Functions.Padding(r.size, 512);
byte[] tempbytes = new byte[tempinty];
map.BW.Write(tempbytes);
sndshift += r.size + tempinty;
y++;
MetaSplitter.SplitReflexive tempssss = new MetaSplitter.SplitReflexive();
tempssss.chunksize = soundchoicereflexive.Chunks[0].chunksize;
tempssss.MS = new MemoryStream(tempssss.chunksize);
BinaryWriter sndchnk1BW = new BinaryWriter(tempssss.MS);
sndchnk1BW.BaseStream.Position = 0;
sndchnk1BW.Write(tempintx);
sndchnk1BW.Write(tempsound.Permutations[e].Choices[ee].SoundChunks1[eee].size);
sndchnk1BW.Write(tempsound.Permutations[e].Choices[ee].SoundChunks1[eee].unknown1);
sndchnk1BW.Write(tempsound.Permutations[e].Choices[ee].SoundChunks1[eee].unknown2);
soundchunk1reflexive.Chunks.Add(tempssss);
sndchunk1count++;
}
sndchoicecount++;
}
sndpermcount++;
}
metas[x] = m;
}
}
totalshift += sndshift;
if (sndshift > 0)
{
metasplit.Header.Chunks[0].ChunkResources[soundnameindex] = soundnamereflexive;
metasplit.Header.Chunks[0].ChunkResources[soundpermutationindex] = soundpermutationreflexive;
metasplit.Header.Chunks[0].ChunkResources[soundchoiceindex] = soundchoicereflexive;
metasplit.Header.Chunks[0].ChunkResources[soundchunk1index] = soundchunk1reflexive;
ughmeta = MetaBuilder.BuildMeta(metasplit, map);
}
metas.Add(ughmeta);
#endregion
#region model raw data
int modeshift = 0;
loc.startoffset += totalshift;
loc.endoffset = loc.startoffset + loc.size;
map.BW.BaseStream.Position = loc.startoffset;
map.BW.BaseStream.Write(loc.MS.ToArray(), 0, loc.size);
for (int x = 0; x < metas.Count; x++)
{
Meta m = (Meta)metas[x];
if (m.rawType == RawDataContainerType.Model)
{
BinaryWriter BW = new BinaryWriter(m.MS);
for (int y = 0; y < m.raw.rawChunks.Count; y++)
{
RawDataChunk r = m.raw.rawChunks[y];
int tempintx = loc.endoffset + modeshift;
// writes new pointer to loaded meta
BW.BaseStream.Position = r.pointerMetaOffset;
BW.Write(tempintx);
BW.Write(r.size);
// writes raw to map file
map.BW.BaseStream.Position = tempintx;
map.BW.BaseStream.Write(r.MS.ToArray(), 0, r.size);
// write padding
int tempinty = map.Functions.Padding(r.size, 512);
byte[] tempbytes = new byte[tempinty];
map.BW.Write(tempbytes);
modeshift += r.size + tempinty;
}
metas[x] = m;
}
}
loc.size += modeshift;
loc.endoffset = loc.startoffset + loc.size;
layout.chunks[tempint] = loc;
totalshift += modeshift;
#endregion
#region bsp raw
tempint = layout.FindByType(RawDataContainerType.BSP);
loc = (LayOutChunk)layout.chunks[tempint];
loc.startoffset += totalshift;
int tempint2 = layout.FindByType(RawDataContainerType.BSPMeta);
LayOutChunk loc2 = (LayOutChunk)layout.chunks[tempint2];
uint bsprawsize = (uint)loc.size;
uint oldbspsize = (uint)loc.size;
int bspshift = 0;
int bspmagic = map.BSP.sbsp[0].magic;
int newmagicreflexive = bspmagic + loc2.startoffset;
bool found = false;
Meta tempbspmeta = new Meta(map);
bool foundbsptoimport = false;
for (int x = 0; x < metas.Count; x++)
{
Meta m = (Meta)metas[x];
if (m.type == "sbsp")
{
foundbsptoimport = true;
bsprawsize = 0;
BinaryWriter BW = new BinaryWriter(m.MS);
int[] tempoff = new int[m.raw.rawChunks.Count];
for (int y = 0; y < m.raw.rawChunks.Count; y++)
{
found = false;
RawDataChunk r = m.raw.rawChunks[y];
for (int yy = 0; yy < y; yy++)
{
RawDataChunk rr = m.raw.rawChunks[yy];
if (rr.offset == r.offset && rr.rawLocation == r.rawLocation)
{
tempoff[y] = tempoff[yy];
// writes new pointer to loaded meta
BW.BaseStream.Position = r.pointerMetaOffset;
BW.Write(tempoff[y]);
BW.Write(r.size);
found = true;
break;
}
}
if (found)
{
continue;
}
tempoff[y] = loc.startoffset + (int)bsprawsize;
// MessageBox.Show("Test");
// writes new pointer to loaded meta
BW.BaseStream.Position = r.pointerMetaOffset;
BW.Write(tempoff[y]);
BW.Write(r.size);
// writes raw to map file
map.BW.BaseStream.Position = loc.startoffset + bsprawsize;
map.BW.BaseStream.Write(r.MS.ToArray(), 0, r.size);
// write padding
int tempinty = map.Functions.Padding(r.size, 512);
byte[] tempbytes = new byte[tempinty];
map.BW.Write(tempbytes);
bsprawsize += (uint)(r.size + tempinty);
}
totalshift += (int)(bsprawsize - oldbspsize);
bspshift += (int)(bsprawsize - oldbspsize);
loc.size = (int)bsprawsize;
loc.endoffset = (int)(loc.startoffset + bsprawsize);
layout.chunks[tempint] = loc;
loc2.MS = m.MS;
loc2.size = m.size;
loc2.endoffset = loc2.startoffset + m.size;
layout.chunks[tempint2] = loc2;
bspmagic = m.magic;
newmagicreflexive = bspmagic + m.offset;
tempbspmeta = m;
metas.RemoveAt(x);
break;
}
if (x == metas.Count - 1)
{
map.BW.BaseStream.Position = loc.startoffset;
map.BW.BaseStream.Write(loc.MS.ToArray(), 0, loc.size);
loc.endoffset = loc.startoffset + loc.size;
layout.chunks[tempint] = loc;
}
}
#endregion
#region weather raw data
int weathershift = 0;
tempint = layout.FindByType(RawDataContainerType.Weather);
if (tempint != -1)
{
loc = (LayOutChunk)layout.chunks[tempint];
loc.startoffset += totalshift;
map.BW.BaseStream.Position = loc.startoffset;
map.BW.BaseStream.Write(loc.MS.ToArray(), 0, loc.size);
}
else
{
loc = new LayOutChunk(0);
loc.rawType = RawDataContainerType.Weather;
int tx = layout.FindByType(RawDataContainerType.BSP);
loc.startoffset = ((LayOutChunk)layout.chunks[tx]).endoffset;
loc.size = 0;
}
for (int x = 0; x < metas.Count; x++)
{
Meta m = (Meta)metas[x];
if (m.rawType == RawDataContainerType.Weather)
{
BinaryWriter BW = new BinaryWriter(m.MS);
for (int y = 0; y < m.raw.rawChunks.Count; y++)
{
RawDataChunk r = m.raw.rawChunks[y];
int tempintx = loc.startoffset + loc.size + weathershift;
// writes new pointer to loaded meta
BW.BaseStream.Position = r.pointerMetaOffset;
BW.Write(tempintx);
BW.Write(r.size);
// writes raw to map file
map.BW.BaseStream.Position = tempintx;
map.BW.BaseStream.Write(r.MS.ToArray(), 0, r.size);
// write padding
int tempinty = map.Functions.Padding(r.size, 512);
byte[] tempbytes = new byte[tempinty];
map.BW.Write(tempbytes);
weathershift += r.size + tempinty;
}
metas[x] = m;
}
}
loc.size += weathershift;
loc.endoffset = loc.startoffset + loc.size;
if (tempint == -1)
{
if (weathershift > 0)
{
layout.chunks.Add(loc);
}
;
}
else
{
layout.chunks[tempint] = loc;
}
totalshift += weathershift;
#endregion
#region decr raw data
int decrshift = 0;
tempint = layout.FindByType(RawDataContainerType.DECR);
if (tempint != -1)
{
loc = (LayOutChunk)layout.chunks[tempint];
loc.startoffset += totalshift;
map.BW.BaseStream.Position = loc.startoffset;
map.BW.BaseStream.Write(loc.MS.ToArray(), 0, loc.size);
}
else
{
loc = new LayOutChunk(0);
loc.rawType = RawDataContainerType.DECR;
int tx = layout.FindByType(RawDataContainerType.Weather);
if (tx == -1)
{
tx = layout.FindByType(RawDataContainerType.BSP);
}
loc.startoffset = ((LayOutChunk)layout.chunks[tx]).endoffset;
loc.size = 0;
}
for (int x = 0; x < metas.Count; x++)
{
Meta m = (Meta)metas[x];
if (m.rawType == RawDataContainerType.DECR)
{
BinaryWriter BW = new BinaryWriter(m.MS);
for (int y = 0; y < m.raw.rawChunks.Count; y++)
{
RawDataChunk r = m.raw.rawChunks[y];
int tempintx = loc.startoffset + loc.size + decrshift;
// writes new pointer to loaded meta
BW.BaseStream.Position = r.pointerMetaOffset;
BW.Write(tempintx);
BW.Write(r.size);
// writes raw to map file
map.BW.BaseStream.Position = tempintx;
map.BW.BaseStream.Write(r.MS.ToArray(), 0, r.size);
// write padding
int tempinty = map.Functions.Padding(r.size, 512);
byte[] tempbytes = new byte[tempinty];
map.BW.Write(tempbytes);
decrshift += r.size + tempinty;
}
metas[x] = m;
}
}
loc.size += decrshift;
loc.endoffset = loc.startoffset + loc.size;
if (tempint == -1)
{
if (decrshift > 0)
{
layout.chunks.Add(loc);
}
;
}
else
{
layout.chunks[tempint] = loc;
}
totalshift += decrshift;
#endregion
#region prtm raw data
int prtmshift = 0;
tempint = layout.FindByType(RawDataContainerType.PRTM);
if (tempint != -1)
{
loc = (LayOutChunk)layout.chunks[tempint];
loc.startoffset += totalshift;
map.BW.BaseStream.Position = loc.startoffset;
map.BW.BaseStream.Write(loc.MS.ToArray(), 0, loc.size);
}
else
{
loc = new LayOutChunk(0);
loc.rawType = RawDataContainerType.PRTM;
int tx = layout.FindByType(RawDataContainerType.DECR);
if (tx == -1)
{
tx = layout.FindByType(RawDataContainerType.Weather);
if (tx == -1)
{
tx = layout.FindByType(RawDataContainerType.BSP);
}
}
loc.startoffset = ((LayOutChunk)layout.chunks[tx]).endoffset;
loc.size = 0;
}
for (int x = 0; x < metas.Count; x++)
{
Meta m = (Meta)metas[x];
if (m.rawType == RawDataContainerType.PRTM)
{
BinaryWriter BW = new BinaryWriter(m.MS);
for (int y = 0; y < m.raw.rawChunks.Count; y++)
{
RawDataChunk r = m.raw.rawChunks[y];
int tempintx = loc.startoffset + loc.size + prtmshift;
// writes new pointer to loaded meta
BW.BaseStream.Position = r.pointerMetaOffset;
BW.Write(tempintx);
BW.Write(r.size);
// writes raw to map file
map.BW.BaseStream.Position = tempintx;
map.BW.BaseStream.Write(r.MS.ToArray(), 0, r.size);
// write padding
int tempinty = map.Functions.Padding(r.size, 512);
byte[] tempbytes = new byte[tempinty];
map.BW.Write(tempbytes);
prtmshift += r.size + tempinty;
}
metas[x] = m;
}
}
loc.size += prtmshift;
loc.endoffset = loc.startoffset + loc.size;
if (tempint == -1)
{
if (prtmshift > 0)
{
layout.chunks.Add(loc);
}
;
}
else
{
layout.chunks[tempint] = loc;
}
totalshift += prtmshift;
#endregion
#region jmad raw data
int jmadshift = 0;
tempint = layout.FindByType(RawDataContainerType.Animation);
if (tempint != -1)
{
loc = (LayOutChunk)layout.chunks[tempint];
loc.startoffset += totalshift;
map.BW.BaseStream.Position = loc.startoffset;
map.BW.BaseStream.Write(loc.MS.ToArray(), 0, loc.size);
}
else
{
loc = new LayOutChunk(0);
loc.rawType = RawDataContainerType.Animation;
int tx = layout.FindByType(RawDataContainerType.PRTM);
if (tx == -1)
{
tx = layout.FindByType(RawDataContainerType.DECR);
if (tx == -1)
{
tx = layout.FindByType(RawDataContainerType.Weather);
if (tx == -1)
{
tx = layout.FindByType(RawDataContainerType.BSP);
}
}
}
loc.startoffset = ((LayOutChunk)layout.chunks[tx]).endoffset;
loc.size = 0;
}
for (int x = 0; x < metas.Count; x++)
{
Meta m = (Meta)metas[x];
if (m.rawType == RawDataContainerType.Animation)
{
BinaryWriter BW = new BinaryWriter(m.MS);
for (int y = 0; y < m.raw.rawChunks.Count; y++)
{
RawDataChunk r = m.raw.rawChunks[y];
int tempintx = loc.startoffset + loc.size + jmadshift;
// writes new pointer to loaded meta
BW.BaseStream.Position = r.pointerMetaOffset - 4;
BW.Write(r.size);
BW.Write(tempintx);
// writes raw to map file
map.BW.BaseStream.Position = tempintx;
map.BW.BaseStream.Write(r.MS.ToArray(), 0, r.size);
// write padding
int tempinty = map.Functions.Padding(r.size, 512);
byte[] tempbytes = new byte[tempinty];
map.BW.Write(tempbytes);
jmadshift += r.size + tempinty;
}
metas[x] = m;
}
}
loc.size += jmadshift;
loc.endoffset = loc.startoffset + loc.size;
if (tempint == -1)
{
if (jmadshift > 0)
{
layout.chunks.Add(loc);
}
;
}
else
{
layout.chunks[tempint] = loc;
}
totalshift += jmadshift;
#endregion
#region bsp meta data
uint bspmetasize = 0;
int bspmetashift = 0;
uint oldbspmetasize = (uint)map.BSP.sbsp[0].size;
tempint = layout.FindByType(RawDataContainerType.BSPMeta);
loc = (LayOutChunk)layout.chunks[tempint];
loc.startoffset += totalshift;
loc.endoffset += totalshift;
bspmetasize = (uint)loc.size;
int tempinteger = layout.FindByType(RawDataContainerType.MetaData);
loc2 = (LayOutChunk)layout.chunks[tempinteger];
int tempintxx = loc.startoffset;
if (foundbsptoimport == false)
{
int tempint3 = layout.FindByType(RawDataContainerType.BSP);
LayOutChunk loc3 = (LayOutChunk)layout.chunks[tempint3];
BinaryWriter BWZ = new BinaryWriter(loc.MS);
for (int w = 0; w < loc3.rawPieces.Count; w++)
{
RawInfoChunk r = (RawInfoChunk)loc3.rawPieces[w];
BWZ.BaseStream.Position = r.offsetOfPointer - map.BSP.sbsp[0].offset;
r.offset += (uint)(modeshift + sndshift);
BWZ.Write(r.offset);
}
layout.chunks[tempint3] = loc3;
}
#endregion Should this be here or lower, didn't really look ????
// writes new pointer and magic and size to scenario meta
BinaryWriter BWX = new BinaryWriter(loc2.MS);
int tempoffx = map.MetaInfo.Offset[3] - map.MapHeader.metaStart - map.MapHeader.indexOffset +
map.BSP.sbsp[0].pointerOffset;
BWX.BaseStream.Position = tempoffx;
BWX.Write(tempintxx);
BWX.Write(loc.size);
BWX.Write(newmagicreflexive);
// writes raw to map file
int bspoffset = tempintxx;
map.BW.BaseStream.Position = tempintxx;
map.BW.BaseStream.Write(loc.MS.ToArray(), 0, loc.size);
// write padding
layout.chunks[tempint] = loc;
totalshift += (int)(bspmetasize - oldbspmetasize);
bspmetashift = (int)(bspmetasize - oldbspmetasize);
if (bspmetashift < 0)
{
bspmetashift = 0;
}
else
{
byte[] tempbytesxxxx = new byte[bspmetashift];
map.BW.Write(tempbytesxxxx);
totalshift += bspmetashift;
}
#region stringnames1
tempint = layout.FindByType(RawDataContainerType.Strings1);
loc = (LayOutChunk)layout.chunks[tempint];
loc.startoffset += totalshift;
int tempoldsize = map.MapHeader.scriptReferenceCount * 128;
int oldpadding = map.Functions.Padding(tempoldsize, 512);
int tempnewsrsize = strings.Count * 128;
map.BW.BaseStream.Position = loc.startoffset;
map.BW.BaseStream.Write(loc.MS.ToArray(), 0, tempoldsize);
byte[] tempb = new byte[tempnewsrsize];
map.BW.BaseStream.Write(tempb, 0, tempnewsrsize);
int padding = map.Functions.Padding(tempoldsize + tempnewsrsize, 512);
tempb = new byte[padding];
map.BW.BaseStream.Write(tempb, 0, padding);
for (int x = 0; x < strings.Count; x++)
{
map.BW.BaseStream.Position = loc.startoffset + tempoldsize + (x * 128);
char[] tempc = ((String)strings[x]).ToCharArray();
map.BW.Write(tempc);
}
loc.size += -oldpadding + tempnewsrsize + padding;
loc.endoffset = loc.startoffset + loc.size;
totalshift += -oldpadding + tempnewsrsize + padding;
map.BW.BaseStream.Position = 352;
map.BW.Write(loc.startoffset);
int newcount = map.MapHeader.scriptReferenceCount + strings.Count;
map.BW.Write(newcount);
layout.chunks[tempint] = loc;
#endregion
// MessageBox.Show("Test");
#region stringsindex
tempint = layout.FindByType(RawDataContainerType.StringsIndex);
loc = (LayOutChunk)layout.chunks[tempint];
loc.startoffset += totalshift;
tempoldsize = map.MapHeader.scriptReferenceCount * 4;
oldpadding = map.Functions.Padding(tempoldsize, 512);
tempnewsrsize = strings.Count * 4;
map.BW.BaseStream.Position = loc.startoffset;
map.BW.BaseStream.Write(loc.MS.ToArray(), 0, tempoldsize);
tempb = new byte[tempnewsrsize];
map.BW.BaseStream.Write(tempb, 0, tempnewsrsize);
padding = map.Functions.Padding(tempoldsize + tempnewsrsize, 512);
tempb = new byte[padding];
map.BW.BaseStream.Write(tempb, 0, padding);
int temporary = map.MapHeader.sizeOfScriptReference;
for (int x = 0; x < strings.Count; x++)
{
map.BW.BaseStream.Position = loc.startoffset + tempoldsize + (x * 4);
map.BW.Write(temporary);
temporary += ((String)strings[x]).Length + 1;
}
loc.size += -oldpadding + tempnewsrsize + padding;
loc.endoffset = loc.startoffset + loc.size;
totalshift += -oldpadding + tempnewsrsize + padding;
map.BW.BaseStream.Position = 364;
map.BW.Write(loc.startoffset);
layout.chunks[tempint] = loc;
#endregion
#region strings2
tempint = layout.FindByType(RawDataContainerType.Strings2);
loc = (LayOutChunk)layout.chunks[tempint];
loc.startoffset += totalshift;
tempoldsize = map.MapHeader.sizeOfScriptReference;
oldpadding = map.Functions.Padding(tempoldsize, 512);
tempnewsrsize = temporary - map.MapHeader.sizeOfScriptReference;
map.BW.BaseStream.Position = loc.startoffset;
map.BW.BaseStream.Write(loc.MS.ToArray(), 0, tempoldsize);
tempb = new byte[tempnewsrsize];
map.BW.BaseStream.Write(tempb, 0, tempnewsrsize);
padding = map.Functions.Padding(tempoldsize + tempnewsrsize, 512);
tempb = new byte[padding];
map.BW.BaseStream.Write(tempb, 0, padding);
temporary = loc.startoffset + map.MapHeader.sizeOfScriptReference;
byte zero = 0;
for (int x = 0; x < strings.Count; x++)
{
map.BW.BaseStream.Position = temporary;
char[] h = ((String)strings[x]).ToCharArray();
map.BW.Write(h);
map.BW.Write(zero);
temporary += ((String)strings[x]).Length + 1;
}
loc.size += -oldpadding + tempnewsrsize + padding;
loc.endoffset = loc.startoffset + loc.size;
totalshift += -oldpadding + tempnewsrsize + padding;
int bleh = loc.size - padding;
map.BW.BaseStream.Position = 360;
map.BW.Write(bleh);
map.BW.BaseStream.Position = 368;
map.BW.Write(loc.startoffset);
layout.chunks[tempint] = loc;
#endregion
#region file names
tempint = layout.FindByType(RawDataContainerType.FileNames);
loc = (LayOutChunk)layout.chunks[tempint];
loc.startoffset += totalshift;
tempoldsize = map.MapHeader.fileNamesSize;
oldpadding = map.Functions.Padding(tempoldsize, 512);
map.BW.BaseStream.Position = loc.startoffset;
map.BW.BaseStream.Write(
loc.MS.ToArray(), 0, tempoldsize - map.FileNames.Length[map.IndexHeader.metaCount - 1] - 1);
temporary = loc.startoffset + tempoldsize - map.FileNames.Length[map.IndexHeader.metaCount - 1] - 1;
zero = 0;
for (int x = 0; x < metas.Count; x++)
{
map.BW.BaseStream.Position = temporary;
char[] h = ((Meta)metas[x]).name.ToCharArray();
map.BW.Write(h);
map.BW.Write(zero);
temporary += ((Meta)metas[x]).name.Length + 1;
}
tempnewsrsize = temporary - loc.startoffset - tempoldsize;
padding = map.Functions.Padding(tempoldsize + tempnewsrsize, 512);
tempb = new byte[padding];
map.BW.BaseStream.Write(tempb, 0, padding);
loc.size += -oldpadding + tempnewsrsize + padding;
loc.endoffset = loc.startoffset + loc.size;
totalshift += -oldpadding + tempnewsrsize + padding;
map.BW.BaseStream.Position = 704;
newcount = map.MapHeader.fileCount + metas.Count - 1;
map.BW.Write(newcount);
map.BW.Write(loc.startoffset);
int hhh = temporary - loc.startoffset;
map.BW.Write(hhh);
layout.chunks[tempint] = loc;
#endregion
#region files index
tempint = layout.FindByType(RawDataContainerType.FileNamesIndex);
loc = (LayOutChunk)layout.chunks[tempint];
loc.startoffset += totalshift;
tempoldsize = map.MapHeader.fileCount * 4;
oldpadding = map.Functions.Padding(tempoldsize, 512);
tempnewsrsize = (metas.Count * 4) - 4;
map.BW.BaseStream.Position = loc.startoffset;
map.BW.BaseStream.Write(loc.MS.ToArray(), 0, tempoldsize);
tempb = new byte[tempnewsrsize];
map.BW.BaseStream.Write(tempb, 0, tempnewsrsize);
padding = map.Functions.Padding(tempoldsize + tempnewsrsize, 512);
tempb = new byte[padding];
map.BW.BaseStream.Write(tempb, 0, padding);
temporary = map.MapHeader.fileNamesSize - map.FileNames.Length[map.IndexHeader.metaCount - 1] - 1;
for (int x = 0; x < metas.Count; x++)
{
map.BW.BaseStream.Position = loc.startoffset + tempoldsize + (x * 4) - 4;
map.BW.Write(temporary);
temporary += ((Meta)metas[x]).name.Length + 1;
}
loc.size += -oldpadding + tempnewsrsize + padding;
loc.endoffset = loc.startoffset + loc.size;
totalshift += -oldpadding + tempnewsrsize + padding;
map.BW.BaseStream.Position = 716;
map.BW.Write(loc.startoffset);
layout.chunks[tempint] = loc;
tempint = layout.FindByType(RawDataContainerType.UnicodeNamesIndex);
for (int x = 0; x < 8; x++)
{
loc = (LayOutChunk)layout.chunks[tempint + (x * 2)];
loc.startoffset += totalshift;
loc.endoffset += totalshift;
map.BW.BaseStream.Position = loc.startoffset;
map.BW.BaseStream.Write(loc.MS.ToArray(), 0, loc.size);
layout.chunks[tempint + (x * 2)] = loc;
loc2 = (LayOutChunk)layout.chunks[tempint + (x * 2) + 1];
loc2.startoffset += totalshift;
loc2.endoffset += totalshift;
map.BW.BaseStream.Position = loc2.startoffset;
map.BW.BaseStream.Write(loc2.MS.ToArray(), 0, loc2.size);
layout.chunks[tempint + (x * 2) + 1] = loc2;
}
tempint = layout.FindByType(RawDataContainerType.MetaData);
for (int x = 0; x < 9; x++)
{
loc = (LayOutChunk)layout.chunks[tempint];
BinaryWriter BW = new BinaryWriter(loc.MS);
BW.BaseStream.Position = map.MetaInfo.Offset[0] - map.MapHeader.metaStart - map.MapHeader.indexOffset +
map.Unicode.ut[x].indexPointerOffset;
map.Unicode.ut[x].indexOffset += totalshift;
map.Unicode.ut[x].tableOffset += totalshift;
BW.Write(map.Unicode.ut[x].indexOffset);
BW.Write(map.Unicode.ut[x].tableOffset);
layout.chunks[tempint] = loc;
}
tempint = layout.FindByType(RawDataContainerType.Crazy);
loc = (LayOutChunk)layout.chunks[tempint];
loc.startoffset += totalshift;
loc.endoffset += totalshift;
map.BW.BaseStream.Position = loc.startoffset;
map.BW.BaseStream.Write(loc.MS.ToArray(), 0, loc.size);
map.BW.BaseStream.Position = 344;
map.BW.Write(loc.startoffset);
layout.chunks[tempint] = loc;
#endregion
int bitmshift = 0;
tempint = layout.FindByType(RawDataContainerType.Bitmap);
loc = (LayOutChunk)layout.chunks[tempint];
loc.startoffset += totalshift;
map.BW.BaseStream.Position = loc.startoffset;
map.BW.BaseStream.Write(loc.MS.ToArray(), 0, loc.size);
int bitmappad = 0;
for (int x = 0; x < metas.Count; x++)
{
Meta m = (Meta)metas[x];
if (m.rawType == RawDataContainerType.Bitmap)
{
BinaryWriter BW = new BinaryWriter(m.MS);
for (int y = 0; y < m.raw.rawChunks.Count; y++)
{
RawDataChunk r = m.raw.rawChunks[y];
int tempintx = loc.startoffset + loc.size + bitmshift;
// writes new pointer to loaded meta
BW.BaseStream.Position = r.pointerMetaOffset;
BW.Write(tempintx);
// BW.Write(r.size);
// writes raw to map file
map.BW.BaseStream.Position = tempintx;
map.BW.BaseStream.Write(r.MS.ToArray(), 0, r.size);
// write padding
int tempinty = map.Functions.Padding(r.size, 512);
byte[] tempbytes = new byte[tempinty];
map.BW.Write(tempbytes);
bitmshift += r.size + tempinty;
bitmappad = tempinty;
}
metas[x] = m;
}
}
totalshift += bitmshift;
loc.size += bitmshift;
loc.endoffset = loc.startoffset + loc.size;
layout.chunks[tempint] = loc;
tempint = layout.FindByType(RawDataContainerType.MetaIndex);
loc = (LayOutChunk)layout.chunks[tempint];
loc.startoffset += totalshift;
loc.endoffset += totalshift;
tempint = layout.FindByType(RawDataContainerType.MetaData);
loc2 = (LayOutChunk)layout.chunks[tempint];
loc2.startoffset += totalshift;
loc2.endoffset += totalshift;
map.BW.BaseStream.Position = loc.startoffset;
map.BW.BaseStream.Write(loc.MS.ToArray(), 0, loc.size);
map.BW.BaseStream.Position = loc2.startoffset;
// Changed this line to include Min(MS.Length) as it would pad past end of file. ???
map.BW.BaseStream.Write(loc2.MS.ToArray(), 0, Math.Min(loc2.size, (int)loc2.MS.Length));
map.BW.BaseStream.Position = 16;
map.BW.Write(loc.startoffset);
newcount = metas.Count + map.IndexHeader.metaCount - 1;
map.BW.BaseStream.Position = loc.startoffset + 24;
map.BW.Write(newcount);
map.BR.BaseStream.Position = map.IndexHeader.tagsOffset + totalshift + 8;
map.SecondaryMagic = map.BR.ReadInt32() - (loc.startoffset + map.MapHeader.metaStart);
int where = map.MetaInfo.Offset[map.IndexHeader.metaCount - 1] + totalshift;
int howfar = 0;
// Recreate Meta Table Index
int metaTableStart = map.IndexHeader.tagsOffset + ((map.IndexHeader.metaCount - 1) * 16);
for (int x = 0; x < metas.Count; x++)
{
Meta m = (Meta)metas[x];
int metaOffset = metaTableStart + totalshift + (x * 16);
char[] metatype = m.type.ToCharArray();
Array.Reverse(metatype);
// Create Ident Values?
int ident = map.MetaInfo.Ident[map.IndexHeader.metaCount - 1] + (x * 65537);
int offset = where + howfar;
if (x == metas.Count - 1)
{
int wherex = map.MetaInfo.Offset[0] + totalshift + 756;
map.BW.BaseStream.Position = wherex;
map.BW.Write(ident);
}
// I believe this aligns the folowing tags on a boundry of 16 as is
// very important for all HAVOK tags & data
#region alignment fix
if (m.type == "phmo" | m.type == "coll" | m.type == "spas")
{
int tempoffset = offset;
do
{
// convert our 'tempoffset', which is our offset increased until the padding lines up, to a hex
string tempss = tempoffset.ToString("X");
char[] tempc = tempss.ToCharArray();
// We use the last hex digit to see if our padding is right (0-15) for 16 byte alignment?
if (m.padding == tempc[tempc.Length - 1])
{
// If we had to add bytes to get our offset to line up, figure out how many and pad
// the end of the last tag
int diff = tempoffset - offset;
tempb = new byte[diff];
map.BW.BaseStream.Position = offset;
map.BW.Write(tempb);
int tempsize;
if (x == 0)
{
// The first tag has no tag before it, so we pad the MetaInfo instead
tempsize = map.MetaInfo.Size[map.IndexHeader.metaCount - 2];
// int temploc = map.IndexHeader.tagsOffset + ((map.IndexHeader.metaCount - 2) * 16) + totalshift + 12;
}
else
{
// Retrieve the last tags size and add the difference onto it
tempsize = ((Meta)metas[x - 1]).size;
// int temploc = metaTableStart + totalshift + ((x - 1) * 16) + 12;
}
// Update the size of previous tag
int temploc = metaTableStart + totalshift + ((x - 1) * 16) + 12;
tempsize += diff;
map.BW.BaseStream.Position = temploc;
map.BW.Write(tempsize);
offset = tempoffset;
howfar += diff;
break;
}
tempoffset++;
}
while (0 != 1);
}
#endregion
int offsetwithmagic = offset + map.SecondaryMagic;
// each record 16 bytes
map.BW.BaseStream.Position = metaOffset;
map.BW.Write(metatype); // Offset 0
map.BW.Write(ident); // Offset 4
map.BW.Write(offsetwithmagic); // Offset 8
map.BW.Write(m.size); // Offset 12
howfar += m.size;
map.BW.BaseStream.Position = offset;
map.BW.BaseStream.Write(m.MS.ToArray(), 0, m.size);
for (int xx = 0; xx < m.items.Count; xx++)
{
Meta.Item i = m.items[xx];
switch (i.type)
{
case Meta.ItemType.Ident:
Meta.Ident id = (Meta.Ident)i;
if (id.pointstoTagIndex == -1 | x == metas.Count - 1)
{
for (int e = 0; e < metas.Count; e++)
{
Meta tempm = (Meta)metas[e];
if (tempm.name == id.pointstotagname && tempm.type == id.pointstotagtype)
{
id.ident = map.MetaInfo.Ident[map.IndexHeader.metaCount - 1] + (e * 65537);
break;
}
if (e == metas.Count - 1)
{
if (id.pointstotagname != "Null")
{
int sss = Array.IndexOf(map.MetaInfo.TagType, id.pointstotagtype);
id.ident = sss != -1 ? map.MetaInfo.Ident[sss] : -1;
// id.ident=-1;
}
else
{
id.ident = -1;
}
}
}
}
else
{
id.ident = map.MetaInfo.Ident[id.pointstoTagIndex];
}
map.BW.BaseStream.Position = offset + id.offset;
map.BW.Write(id.ident);
break;
case Meta.ItemType.Reflexive:
Meta.Reflexive reflex = (Meta.Reflexive)i;
int newreflex = reflex.translation + offset + map.SecondaryMagic;
// Handle referenced reflexives
if (reflex.pointstoTagIndex != m.TagIndex)
{
newreflex = totalshift + reflex.translation + map.MetaInfo.Offset[reflex.pointstoTagIndex] + map.SecondaryMagic;
}
map.BW.BaseStream.Position = offset + reflex.offset;
map.BW.Write(reflex.chunkcount);
map.BW.Write(newreflex);
break;
case Meta.ItemType.String:
Meta.String s = (Meta.String)i;
short stringnum = 0;
byte stringlength = 0;
for (int e = 0; e < map.MapHeader.scriptReferenceCount; e++)
{
if (s.name == map.Strings.Name[e])
{
stringnum = (short)e;
stringlength = (byte)map.Strings.Length[e];
}
}
for (int e = 0; e < strings.Count; e++)
{
if (((string)strings[e]) == s.name)
{
stringnum = (short)(map.MapHeader.scriptReferenceCount + e);
stringlength = (byte)s.name.Length;
}
}
map.BW.BaseStream.Position = offset + s.offset;
map.BW.Write(stringnum);
map.BW.Write(zero);
map.BW.Write(stringlength);
break;
}
}
}
// totalshift+=howfar;
int tempfilesize = map.MapHeader.fileSize + totalshift + howfar -
map.MetaInfo.Size[map.IndexHeader.metaCount - 1]; // (int)map.BW.BaseStream.Length;
// map.MapHeader.fileSize+totalshift+howfar-map.MetaInfo.Size [map.IndexHeader.metaCount-1];
padding = map.Functions.Padding(tempfilesize, 512);
tempb = new byte[padding];
map.BW.BaseStream.Position = tempfilesize;
map.BW.Write(tempb);
tempfilesize += padding;
int olddifference = map.MapHeader.fileSize - map.MapHeader.indexOffset;
int difference = tempfilesize - (map.MapHeader.indexOffset + totalshift);
int metasize = map.MapHeader.metaSize + howfar - map.MetaInfo.Size[map.IndexHeader.metaCount - 1] + padding;
// int combined = map.MapHeader.combinedSize + difference;
int combined = map.MapHeader.combinedSize - olddifference + difference;
// (int)bspmetasize + difference;
// MessageBox.Show("test");
// combined
// metasize -= bspmetashift;
// map.MapHeader.combinedSize + howfar - map.MetaInfo.Size[map.IndexHeader.metaCount - 1] + padding;
// (int)bspmetasize + difference - bspmetashift;
map.BW.BaseStream.Position = 8;
map.BW.Write(tempfilesize);
map.BW.BaseStream.Position = 24;
map.BW.Write(metasize);
map.BW.Write(combined);
map.BW.BaseStream.SetLength(tempfilesize);
if (bspmagic == map.BSP.sbsp[0].magic)
{
}
else
{
int tempbspmagic = map.BSP.sbsp[0].magic + map.BSP.sbsp[0].offset - bspoffset;
for (int xx = 0; xx < tempbspmeta.items.Count; xx++)
{
Meta.Item i = tempbspmeta.items[xx];
switch (i.type)
{
case Meta.ItemType.Ident:
Meta.Ident id = (Meta.Ident)i;
if (id.pointstoTagIndex == -1)
{
for (int e = 0; e < metas.Count; e++)
{
Meta tempm = (Meta)metas[e];
if (tempbspmeta.name == id.pointstotagname && tempbspmeta.type == id.pointstotagtype)
{
id.ident = map.BSP.sbsp[0].ident;
break;
}
else if (tempm.name == id.pointstotagname && tempm.type == id.pointstotagtype)
{
id.ident = map.MetaInfo.Ident[map.IndexHeader.metaCount - 1] + (e * 65537);
break;
}
if (e == metas.Count - 1)
{
int sss = Array.IndexOf(map.MetaInfo.TagType, id.intagtype);
id.ident = sss != -1 ? map.MetaInfo.Ident[sss] : -1;
}
}
}
else
{
id.ident = map.MetaInfo.Ident[id.pointstoTagIndex];
}
map.BW.BaseStream.Position = bspoffset + id.offset;
map.BW.Write(id.ident);
break;
case Meta.ItemType.String:
Meta.String s = (Meta.String)i;
short stringnum = 0;
byte stringlength = 0;
for (int e = 0; e < map.MapHeader.scriptReferenceCount; e++)
{
if (s.name == map.Strings.Name[e])
{
stringnum = (short)e;
stringlength = (byte)map.Strings.Length[e];
}
}
for (int e = 0; e < strings.Count; e++)
{
if (((string)strings[e]) == s.name)
{
stringnum = (short)(map.MapHeader.scriptReferenceCount + e);
stringlength = (byte)s.name.Length;
}
}
map.BW.BaseStream.Position = bspoffset + s.offset;
map.BW.Write(stringnum);
map.BW.Write(new byte());
map.BW.Write(stringlength);
break;
case Meta.ItemType.Reflexive:
Meta.Reflexive rr = (Meta.Reflexive)i;
int newreflex = bspoffset + rr.translation + tempbspmagic;
map.BW.BaseStream.Position = bspoffset + rr.offset + 4;
// map.BW.Write(newreflex);
break;
}
}
}
for (int x = 0; x < layout.chunks.Count; x++)
{
loc = (LayOutChunk)layout.chunks[x];
for (int xx = 0; xx < loc.rawPieces.Count; xx++)
{
RawInfoChunk r = (RawInfoChunk)loc.rawPieces[xx];
r.offsetOfPointer += totalshift;
map.BW.BaseStream.Position = r.offsetOfPointer;
switch (r.rawType)
{
case RawDataType.bitm:
r.offset += (uint)(totalshift - bitmshift);
map.BW.Write(r.offset);
break;
case RawDataType.DECR:
r.offset += (uint)(sndshift + modeshift + bspshift + weathershift);
map.BW.Write(r.offset);
break;
// case RawDataType.snd2:
case RawDataType.jmad:
r.offset += (uint)(sndshift + modeshift + bspshift + weathershift + decrshift + prtmshift);
map.BW.Write(r.offset);
break;
case RawDataType.mode1:
r.offset += (uint)sndshift;
map.BW.Write(r.offset);
break;
case RawDataType.mode2:
r.offset += (uint)sndshift;
map.BW.Write(r.offset);
break;
case RawDataType.PRTM:
r.offset += (uint)(sndshift + modeshift + bspshift + weathershift + decrshift);
map.BW.Write(r.offset);
break;
case RawDataType.weat:
r.offset += (uint)(sndshift + modeshift + bspshift);
map.BW.Write(r.offset);
break;
}
}
}
layout.chunks[tempint] = loc;
// layout.SortChunksByOffset();
map.CloseMap();
for (int y = 0; y < filestofix.Length; y++)
{
Map mapid = Map.LoadFromFile(filestofix[y]);
MapAnalyzer analyze = new MapAnalyzer();
MapLayout lo = analyze.ScanMapForLayOut(mapid, true);
mapid.OpenMap(MapTypes.Internal);
for (int x = 0; x < lo.chunks.Count; x++)
{
loc = (LayOutChunk)lo.chunks[x];
for (int xx = 0; xx < loc.rawPieces.Count; xx++)
{
RawInfoChunk r = (RawInfoChunk)loc.rawPieces[xx];
if (r.location != map.MapHeader.mapType)
{
continue;
}
mapid.BW.BaseStream.Position = r.offsetOfPointer;
switch (r.rawType)
{
case RawDataType.bitm:
r.offset += (uint)(totalshift - bitmshift);
r.offset |= 0X40000000;
mapid.BW.Write(r.offset);
break;
case RawDataType.DECR:
r.offset += (uint)(sndshift + modeshift + bspshift + weathershift);
r.offset |= 0X40000000;
mapid.BW.Write(r.offset);
break;
case RawDataType.snd2:
case RawDataType.jmad:
r.offset +=
(uint)(sndshift + modeshift + bspshift + weathershift + decrshift + prtmshift);
r.offset |= 0X40000000;
mapid.BW.Write(r.offset);
break;
case RawDataType.mode1:
r.offset += (uint)sndshift;
r.offset |= 0X40000000;
mapid.BW.Write(r.offset);
break;
case RawDataType.mode2:
r.offset += (uint)sndshift;
r.offset |= 0X40000000;
mapid.BW.Write(r.offset);
break;
case RawDataType.PRTM:
r.offset += (uint)(sndshift + modeshift + bspshift + weathershift + decrshift);
r.offset |= 0X40000000;
mapid.BW.Write(r.offset);
break;
case RawDataType.weat:
r.offset += (uint)(sndshift + modeshift + bspshift);
r.offset |= 0X40000000;
mapid.BW.Write(r.offset);
break;
}
}
}
mapid.CloseMap();
mapid.Sign();
}
}
/// <summary>
/// The tree view 1_ before expand.
/// </summary>
/// <param name="sender">The sender.</param>
/// <param name="e">The e.</param>
/// <remarks></remarks>
private void treeView1_BeforeExpand(object sender, TreeViewCancelEventArgs e)
{
if (metaView != FormFunctions.MetaView.InfoView)
{
return;
}
string[] mReflex = e.Node.Text.Split('.');
if (mReflex.Length != 3)
{
return;
}
for (int x = 0; x < map.IndexHeader.metaCount; x++)
{
if ((mReflex[2] == map.FileNames.Name[x]) && (mReflex[1] == "[" + map.MetaInfo.TagType[x] + "]"))
{
map.OpenMap(MapTypes.Internal);
Meta m = new Meta(map);
m.ReadMetaFromMap(x, false);
try
{
IFPIO ifpx = IFPHashMap.GetIfp(m.type, map.HaloVersion);
m.headersize = ifpx.headerSize;
// Scans IFP and loads IDENTS, REFLEXIVES & STRINGS into "m" for Reference List
m.scanner.ScanWithIFP(ref ifpx);
MetaSplitter metasplit = new MetaSplitter();
metasplit.SplitWithIFP(ref ifpx, ref m, map);
e.Node.Nodes.Clear();
if (map.MetaInfo.TagType[x] != "sbsp")
{
DisplaySplit(metasplit.Header, e.Node);
}
}
catch (Exception ex)
{
Global.ShowErrorMsg(string.Empty, ex);
}
map.CloseMap();
}
}
}
/// <summary>
/// The split ifp.
/// </summary>
/// <remarks></remarks>
private void SplitIFP()
{
Meta m = new Meta(map);
// Reads the current TAGNumber Meta
m.ReadMetaFromMap(TagNumber, false);
try
{
IFPIO ifpx = IFPHashMap.GetIfp(m.type, map.HaloVersion);
m.headersize = ifpx.headerSize;
// Scans IFP and loads IDENTS, REFLEXIVES & STRINGS into "m" for Reference List
m.scanner.ScanWithIFP(ref ifpx);
metasplit = new MetaSplitter();
metasplit.SplitWithIFP(ref ifpx, ref m, map);
}
catch (Exception ex)
{
Globals.Global.ShowErrorMsg(string.Empty, ex);
}
}
/// <summary>
/// The fix system link tool strip menu item_ click.
/// </summary>
/// <param name="sender">The sender.</param>
/// <param name="e">The e.</param>
/// <remarks></remarks>
private void fixSystemLinkToolStripMenuItem_Click(object sender, EventArgs e)
{
int count = 0;
List<int> ids = new List<int>();
for (int x = 0; x < map.IndexHeader.metaCount; x++)
{
switch (map.MetaInfo.TagType[x])
{
case "bipd":
case "bloc":
case "ctrl":
case "jpt!":
case "mach":
case "scen":
case "ssce":
case "vehi":
ids.Add(map.MetaInfo.Ident[x]);
count++;
break;
case "eqip":
case "garb":
case "proj":
ids.Add(map.MetaInfo.Ident[x]);
ids.Add(map.MetaInfo.Ident[x]);
count += 2;
break;
case "weap":
ids.Add(map.MetaInfo.Ident[x]);
ids.Add(map.MetaInfo.Ident[x]);
ids.Add(map.MetaInfo.Ident[x]);
count += 3;
break;
}
}
map.OpenMap(MapTypes.Internal);
Meta m = new Meta(map);
m.ReadMetaFromMap(3, true);
try
{
IFPIO io = IFPHashMap.GetIfp("scnr", map.HaloVersion);
m.headersize = io.headerSize;
m.scanner.ScanWithIFP(ref io);
MetaSplitter metasplit = new MetaSplitter();
metasplit.SplitWithIFP(ref io, ref m, map);
for (int x = 0; x < metasplit.Header.Chunks[0].ChunkResources.Count; x++)
{
// Offset 984 = [SCNR] Predicted Resources
if (metasplit.Header.Chunks[0].ChunkResources[x].offset == 984)
{
MetaSplitter.SplitReflexive reflex =
(MetaSplitter.SplitReflexive)metasplit.Header.Chunks[0].ChunkResources[x];
// count = # of chunks incl. added/removed
// reflex.Chunks.Count = # of chunks listed in Predicted Resources (?)
int diff = count - reflex.Chunks.Count;
// Add/Remove chunks to match the difference
for (int y = 0; y < diff; y++)
{
MetaSplitter.SplitReflexive MetaChunk = new MetaSplitter.SplitReflexive();
MetaChunk.splitReflexiveType = MetaSplitter.SplitReflexive.SplitReflexiveType.Chunk;
MetaChunk.chunksize = 4;
MetaChunk.MS = new MemoryStream(4);
reflex.Chunks.Add(MetaChunk);
}
for (int y = 0; y < reflex.Chunks.Count; y++)
{
BinaryWriter BW = new BinaryWriter(reflex.Chunks[y].MS);
BW.Write(ids[y]);
}
metasplit.Header.Chunks[0].ChunkResources[x] = reflex;
break;
}
}
Meta newmeta = MetaBuilder.BuildMeta(metasplit, map);
map.OpenMap(MapTypes.Internal);
map.ChunkTools.Add(newmeta);
map.CloseMap();
// info.OpenMap(MapTypes.Internal);
// info.BW.BaseStream.Position = m.offset + r.translation;
// for (int x = 0; x < count; x++)
// {
// info.BW.Write(ids[x]);
// }
// info.CloseMap();
map = Map.Refresh(map);
MessageBox.Show("Done");
}
catch (Exception ex)
{
Global.ShowErrorMsg(string.Empty, ex);
}
}