/// <summary>
/// Reads a landtable from a byte array
/// </summary>
/// <param name="source"></param>
/// <param name="address"></param>
/// <param name="imageBase"></param>
/// <param name="format"></param>
/// <param name="labels"></param>
/// <returns></returns>
public static LandTable Read(byte[] source, uint address, uint imageBase, LandtableFormat format, Dictionary <uint, string> labels)
{
string name = labels.ContainsKey(address) ? labels[address] : "landtable_" + address.ToString("X8");
float radius;
LandtableAttributes attribs = 0;
string identifier = GenerateIdentifier();
List <LandEntry> geometry = new();
string geomName;
List <LandEntryMotion> anim = new();
string animName;
Dictionary <uint, Attach> attaches = new();
string texName = "";
uint texListPtr;
uint tmpaddr;
ushort geoCount = source.ToUInt16(address);
switch (format)
{
case LandtableFormat.SA1:
case LandtableFormat.SADX:
short anicnt = source.ToInt16(address + 2);
attribs = (LandtableAttributes)source.ToUInt32(address + 4);
radius = source.ToSingle(address + 8);
tmpaddr = source.ToUInt32(address + 0xC);
if (tmpaddr != 0)
{
tmpaddr -= imageBase;
geomName = labels.ContainsKey(tmpaddr) ? labels[tmpaddr] : "collist_" + tmpaddr.ToString("X8");
for (int i = 0; i < geoCount; i++)
{
geometry.Add(LandEntry.Read(source, tmpaddr, imageBase, AttachFormat.BASIC, format, labels, attaches));
tmpaddr += 0x24;
}
}
else
{
geomName = "collist_" + identifier;
}
tmpaddr = source.ToUInt32(address + 0x10);
if (tmpaddr != 0)
{
tmpaddr -= imageBase;
animName = labels.ContainsKey(tmpaddr) ? labels[tmpaddr] : "animlist_" + tmpaddr.ToString("X8");
for (int i = 0; i < anicnt; i++)
{
anim.Add(LandEntryMotion.Read(source, tmpaddr, imageBase, AttachFormat.BASIC, format == LandtableFormat.SADX, labels, attaches));
tmpaddr += LandEntryMotion.Size;
}
}
else
{
animName = "animlist_" + identifier;
}
tmpaddr = source.ToUInt32(address + 0x14);
if (tmpaddr != 0)
{
tmpaddr -= imageBase;
texName = source.GetCString(tmpaddr, Encoding.ASCII);
}
texListPtr = source.ToUInt32(address + 0x18);
break;
case LandtableFormat.SA2:
case LandtableFormat.SA2B:
AttachFormat atcFmt = format == LandtableFormat.SA2 ? AttachFormat.CHUNK : AttachFormat.GC;
ushort visualCount = source.ToUInt16(address + 2);
radius = source.ToSingle(address + 0xC);
tmpaddr = source.ToUInt32(address + 0x10);
if (tmpaddr != 0)
{
tmpaddr -= imageBase;
geomName = labels.ContainsKey(tmpaddr) ? labels[tmpaddr] : "collist_" + tmpaddr.ToString("X8");
for (int i = 0; i < geoCount; i++)
{
geometry.Add(LandEntry.Read(source, tmpaddr, imageBase, i >= visualCount ? AttachFormat.BASIC : atcFmt, format, labels, attaches));
tmpaddr += 0x20;
}
}
else
{
geomName = "collist_" + identifier;
}
animName = "animlist_" + identifier;
tmpaddr = source.ToUInt32(address + 0x18);
if (tmpaddr != 0)
{
tmpaddr -= imageBase;
texName = source.GetCString(tmpaddr, Encoding.ASCII);
}
texListPtr = source.ToUInt32(address + 0x1C);
break;
default:
throw new InvalidDataException("Landtable format not valid");
}
return(new(geometry, anim, format)
{
Name = name,
DrawDistance = radius,
Attributes = attribs,
GeoName = geomName,
GeoAnimName = animName,
TexListPtr = texListPtr,
TextureFileName = texName
});
}
public void ConvertToFormat(LandtableFormat newFormat, bool optimize, bool forceUpdate)
{
if (newFormat == Format && !forceUpdate)
{
return;
}
NJObject dummyModel = new();
void convertAttaches(AttachFormat format, HashSet <Attach> attaches, Dictionary <Attach, Attach> attachMap, HashSet <LandEntry> landentries)
{
foreach (Attach atc in attaches)
{
dummyModel.Attach = atc;
dummyModel.ConvertAttachFormat(format, optimize, false, forceUpdate);
attachMap.Add(atc, dummyModel.Attach);
}
if (format == AttachFormat.Buffer)
{
return;
}
foreach (LandEntry le in landentries)
{
le.Attach = attachMap[le.Attach];
}
}
var newAtcFormat = newFormat switch
{
LandtableFormat.SA1 or LandtableFormat.SADX => AttachFormat.BASIC,
LandtableFormat.SA2 => AttachFormat.CHUNK,
LandtableFormat.SA2B => AttachFormat.GC,
_ => AttachFormat.Buffer,
};
if (newFormat <= LandtableFormat.SADX || newFormat == LandtableFormat.Buffer)
{
HashSet <Attach> attaches = Geometry.Select(x => x.Attach).ToHashSet();
convertAttaches(newAtcFormat, attaches, new(), new(Geometry));
}
else
{
if (Format <= LandtableFormat.SADX || Format == LandtableFormat.Buffer)
{
// attaches that are used for rendering
HashSet <Attach> visualAttaches = new();
// Attaches that are used for collision
HashSet <Attach> collisionAttaches = new();
HashSet <LandEntry> visualLandEntries = new();
HashSet <LandEntry> collisionLandEntries = new();
// For sa1/dx, of which a landentry can be used for both, collision and rendering
HashSet <LandEntry> hybridLandEntries = new();
foreach (LandEntry le in Geometry)
{
bool isCollision = le.SurfaceAttributes.IsCollision();
bool isVisual = !isCollision || le.SurfaceAttributes.HasFlag(SurfaceAttributes.Visible);
// if its neither, we'll just keep it as an invisible visual model. just in case
if (isCollision)
{
collisionAttaches.Add(le.Attach);
collisionLandEntries.Add(le);
}
if (isVisual)
{
visualAttaches.Add(le.Attach);
visualLandEntries.Add(le);
}
if (isVisual && isCollision)
{
hybridLandEntries.Add(le);
}
}
visualLandEntries.RemoveWhere(x => hybridLandEntries.Contains(x));
collisionLandEntries.RemoveWhere(x => hybridLandEntries.Contains(x));
Dictionary <Attach, Attach> visualAttachMap = new();
convertAttaches(newAtcFormat, visualAttaches, visualAttachMap, visualLandEntries);
Dictionary <Attach, Attach> collisionAttachMap = new();
convertAttaches(AttachFormat.BASIC, collisionAttaches, collisionAttachMap, collisionLandEntries);
foreach (LandEntry le in hybridLandEntries)
{
// the copy will act as collision
LandEntry copy = le.ShallowCopy();
copy.Attach = collisionAttachMap[le.Attach];
Geometry.Add(copy);
le.Attach = visualAttachMap[le.Attach];
}
}
else // when converting between sa2 formats
{
// the collision format for sa2 and sa2b is the same, no conversion needed
HashSet <LandEntry> visualGeometry = Geometry.Where(x => x.Attach.Format != AttachFormat.BASIC).ToHashSet();
HashSet <Attach> attaches = visualGeometry.Select(x => x.Attach).ToHashSet();
convertAttaches(newAtcFormat, attaches, new(), new(visualGeometry));
}
}
Format = newFormat;
}