public long ParsePlanes(BSP bsp, BinaryReader reader, int count)
{
bsp.Planes = new List <BSP.Plane>();
var originalPos = reader.BaseStream.Position;
for (uint i = 0; i < count; ++i)
{
reader.BaseStream.Position = originalPos + (i * PLANE_SIZE);
var plane_i = BitConverter.ToSingle(reader.ReadBytes(4).Reverse().ToArray(), 0);
var plane_j = BitConverter.ToSingle(reader.ReadBytes(4).Reverse().ToArray(), 0);
var plane_k = BitConverter.ToSingle(reader.ReadBytes(4).Reverse().ToArray(), 0);
var plane_d = BitConverter.ToSingle(reader.ReadBytes(4).Reverse().ToArray(), 0);
var plane = new BSP.Plane();
plane.PlaneI = plane_i;
plane.PlaneJ = plane_j;
plane.PlaneK = plane_k;
plane.PlaneD = plane_d;
bsp.Planes.Add(plane);
}
return(originalPos + (count * PLANE_SIZE));
}
public long ParsePlanes(BSP bsp, BinaryReader reader, int count)
{
bsp.Planes = new List<BSP.Plane>();
var originalPos = reader.BaseStream.Position;
for (uint i = 0; i < count; ++i)
{
reader.BaseStream.Position = originalPos + (i * PLANE_SIZE);
var plane_i = BitConverter.ToSingle(reader.ReadBytes(4).Reverse().ToArray(), 0);
var plane_j = BitConverter.ToSingle(reader.ReadBytes(4).Reverse().ToArray(), 0);
var plane_k = BitConverter.ToSingle(reader.ReadBytes(4).Reverse().ToArray(), 0);
var plane_d = BitConverter.ToSingle(reader.ReadBytes(4).Reverse().ToArray(), 0);
var plane = new BSP.Plane();
plane.PlaneI = plane_i;
plane.PlaneJ = plane_j;
plane.PlaneK = plane_k;
plane.PlaneD = plane_d;
bsp.Planes.Add(plane);
}
return originalPos + (count * PLANE_SIZE);
}
/// <summary>
/// Creates a CollisionModel bsp from a Scenario StructureBsp.
/// This does not work for sbsps with > 65536 planes, which use a
/// larger encoding for their bsp related structs differing from the
/// struct used in common with collision model bsps.
/// </summary>
/// <returns></returns>
public static BSP fromSbsp(ScenarioStructureBsp sbsp, OpenTagCache info)
{
// Need to work out how to do that class attribute enumeration thing
// so all of this folds down to < 10 lines
BSP bsp = fromSbspInit(sbsp);
var resource = sbsp.Resource3;
var resourceManager = new ResourceDataManager();
try
{
resourceManager.LoadCachesFromDirectory(info.CacheFile.DirectoryName);
}
catch
{
Console.WriteLine("Unable to load the resource .dat files.");
Console.WriteLine("Make sure that they all exist and are valid.");
}
//Create a binary reader for the resource
Stream stream = new MemoryStream();
resourceManager.Extract(sbsp.Resource3, stream);
BinaryReader reader = new BinaryReader(stream);
reader.BaseStream.Position = 0;
Console.WriteLine("Stream position: {0:X8}", reader.BaseStream.Position);
for (int i = 0; i < bsp.Bsp3dNodes.Count; ++i)
{
BSP.Bsp3dNode node = new BSP.Bsp3dNode();
node.Plane = reader.ReadInt16();
node.BackChildLower = reader.ReadByte();
node.BackChildMid = reader.ReadByte();
node.BackChildUpper = reader.ReadByte();
node.FrontChildLower = reader.ReadByte();
node.FrontChildMid = reader.ReadByte();
node.FrontChildUpper = reader.ReadByte();
bsp.Bsp3dNodes[i] = node;
}
//Align to the next multiple of 16
reader.BaseStream.Position = -((-reader.BaseStream.Position) & ~0xf);
Console.WriteLine("Stream position: {0:X8}", reader.BaseStream.Position);
for (int i = 0; i < bsp.Planes.Count; ++i)
{
BSP.Plane plane = new BSP.Plane();
plane.PlaneI = reader.ReadSingle();
plane.PlaneJ = reader.ReadSingle();
plane.PlaneK = reader.ReadSingle();
plane.PlaneD = reader.ReadSingle();
bsp.Planes[i] = plane;
}
//Put here for consistency
reader.BaseStream.Position = -((-reader.BaseStream.Position) & ~0xf);
Console.WriteLine("Stream position: {0:X8}", reader.BaseStream.Position);
for (int i = 0; i < bsp.Leaves.Count; ++i)
{
BSP.Leaf leaf = new BSP.Leaf();
leaf.Flags = reader.ReadInt16();
leaf.Bsp2dReferenceCount = reader.ReadInt16();
leaf.Unknown = reader.ReadInt16();
leaf.FirstBsp2dReference = reader.ReadInt16();
bsp.Leaves[i] = leaf;
}
//Align to the next multiple of 16
reader.BaseStream.Position = -((-reader.BaseStream.Position) & ~0xf);
Console.WriteLine("Stream position: {0:X8}", reader.BaseStream.Position);
for (int i = 0; i < bsp.Bsp2dReferences.Count; ++i)
{
BSP.Bsp2dReference bsp2dref = new BSP.Bsp2dReference();
bsp2dref.Plane = reader.ReadInt16();
bsp2dref.Bsp2dNode = reader.ReadInt16();
bsp.Bsp2dReferences[i] = bsp2dref;
}
//Align to the next multiple of 16
reader.BaseStream.Position = -((-reader.BaseStream.Position) & ~0xf);
Console.WriteLine("Stream position: {0:X8}", reader.BaseStream.Position);
for (int i = 0; i < bsp.Bsp2dNodes.Count; ++i)
{
BSP.Bsp2dNode node = new BSP.Bsp2dNode();
node.PlaneI = reader.ReadSingle();
node.PlaneJ = reader.ReadSingle();
node.PlaneD = reader.ReadSingle();
node.LeftChild = reader.ReadInt16();
node.RightChild = reader.ReadInt16();
bsp.Bsp2dNodes[i] = node;
}
//Put here for consistency
reader.BaseStream.Position = -((-reader.BaseStream.Position) & ~0xf);
Console.WriteLine("Stream position: {0:X8}", reader.BaseStream.Position);
for (int i = 0; i < bsp.Surfaces.Count; ++i)
{
BSP.Surface surface = new BSP.Surface();
surface.Plane = reader.ReadUInt16();
surface.FirstEdge = reader.ReadUInt16();
surface.Material = reader.ReadInt16();
surface.Unknown = reader.ReadInt16();
surface.BreakableSurface = reader.ReadInt16();
surface.Unknown2 = reader.ReadInt16();
bsp.Surfaces[i] = surface;
}
//Align to the next multiple of 16
reader.BaseStream.Position = -((-reader.BaseStream.Position) & ~0xf);
Console.WriteLine("Stream position: {0:X8}", reader.BaseStream.Position);
for (int i = 0; i < bsp.Edges.Count; ++i)
{
BSP.Edge edge = new BSP.Edge();
edge.StartVertex = reader.ReadUInt16();
edge.EndVertex = reader.ReadUInt16();
edge.ForwardEdge = reader.ReadUInt16();
edge.ReverseEdge = reader.ReadUInt16();
edge.LeftSurface = reader.ReadUInt16();
edge.RightSurface = reader.ReadUInt16();
bsp.Edges[i] = edge;
}
//Align to the next multiple of 16
reader.BaseStream.Position = -((-reader.BaseStream.Position) & ~0xf);
Console.WriteLine("Stream position: {0:X8}", reader.BaseStream.Position);
for (int i = 0; i < bsp.Vertices.Count; ++i)
{
BSP.Vertex vert = new BSP.Vertex();
vert.PointX = reader.ReadSingle();
vert.PointY = reader.ReadSingle();
vert.PointZ = reader.ReadSingle();
vert.FirstEdge = reader.ReadInt16();
vert.Unknown = reader.ReadInt16();
bsp.Vertices[i] = vert;
}
return bsp;
}