private void GetSolids()
{
var options = new Options
{
ComputeReferences = true // Обязательно ставить true, так как по Reference строятся размеры
};
foreach (var geometryObject in Wall.get_Geometry(options).GetTransformed(Transform.Identity))
{
var solid = geometryObject as Solid;
if (solid != null && solid.Volume > 0.0)
{
Solids.Add(solid);
}
}
}
public PhysModel(int modelIndex, int solidCount, byte[] collisionData, byte[] keyData)
{
ModelIndex = modelIndex;
KeyData = System.Text.Encoding.ASCII.GetString(keyData);
using (var ms = new MemoryStream(collisionData))
{
using (var br = new BinaryReader(ms))
{
for (int i = 0; i < solidCount; i++)
{
var solid = new PhysModelSolid();
Solids.Add(solid);
var size = br.ReadInt32();
var maxPos = br.BaseStream.Position + size;
solid.PhysicsId = br.ReadInt16(); // ??
solid.Version = br.ReadInt16();
var idk = br.ReadInt16();
solid.Type = br.ReadInt16();
if (solid.Type != 0x0)
{
continue;
}
// ???
br.BaseStream.Seek(68, SeekOrigin.Current);
while (true)
{
var cc = new PhysModelConvex();
solid.Convexes.Add(cc);
var pos = br.BaseStream.Position;
var vertexOffset = (int)(pos + br.ReadUInt32());
cc.idk1 = br.ReadInt32();
cc.idk2 = br.ReadByte();
cc.idk3 = br.ReadByte();
cc.idk4 = br.ReadUInt16();
var triCount = br.ReadInt16();
cc.idk5 = br.ReadUInt16();
for (int j = 0; j < triCount; j++)
{
br.BaseStream.Seek(4, SeekOrigin.Current);
var index1 = br.ReadInt16();
var idk4 = br.ReadInt16();
var index2 = br.ReadInt16();
var idk5 = br.ReadInt16();
var index3 = br.ReadInt16();
var idk6 = br.ReadInt16();
var v1 = collisionData.ReadAtPosition <UnityEngine.Vector3>(vertexOffset + index1 * 16);
var v2 = collisionData.ReadAtPosition <UnityEngine.Vector3>(vertexOffset + index2 * 16);
var v3 = collisionData.ReadAtPosition <UnityEngine.Vector3>(vertexOffset + index3 * 16);
cc.Triangles.Add(cc.Verts.Count);
cc.Triangles.Add(cc.Verts.Count + 1);
cc.Triangles.Add(cc.Verts.Count + 2);
cc.Verts.Add(v1);
cc.Verts.Add(v2);
cc.Verts.Add(v3);
}
if (br.BaseStream.Position >= vertexOffset)
{
break;
}
}
var remainder = maxPos - br.BaseStream.Position;
if (remainder > 0)
{
br.BaseStream.Seek(remainder, SeekOrigin.Current);
}
}
}
}
KeyValues = KeyValues.Parse(KeyData);
}
public PhysModel(Int32 modelIndex, Int32 solidCount, Byte[] collisionData, Byte[] keyData)
{
ModelIndex = modelIndex;
KeyData = System.Text.Encoding.ASCII.GetString(keyData);
using (var ms = new MemoryStream(collisionData))
{
using (var br = new uReader(ms))
{
for (Int32 i = 0; i < solidCount; i++)
{
var solid = new PhysModelSolid();
Solids.Add(solid);
var size = br.ReadInt32();
var maxPos = br.BaseStream.Position + size;
solid.vphysicsID = br.ReadInt16(); // ??
solid.version = br.ReadInt16();
br.ReadInt16();
solid.modelType = br.ReadInt16();
if (solid.modelType != 0x0)
{
br.BaseStream.Seek(maxPos - br.BaseStream.Position, SeekOrigin.Current);
continue;
}
// ???
br.BaseStream.Seek(68, SeekOrigin.Current);
while (true)
{
var cc = new PhysModelConvex();
solid.Convexes.Add(cc);
var pos = br.BaseStream.Position;
var vertexOffset = (Int32)(pos + br.ReadUInt32());
cc.BrushIndex = br.ReadInt32();
cc.idk2 = br.ReadByte();
cc.idk3 = br.ReadByte();
cc.idk4 = br.ReadUInt16();
var triCount = br.ReadInt16();
cc.idk5 = br.ReadUInt16();
for (Int32 j = 0; j < triCount; j++)
{
br.BaseStream.Seek(4, SeekOrigin.Current);
var index1 = br.ReadInt16();
br.ReadInt16();
var index2 = br.ReadInt16();
br.ReadInt16();
var index3 = br.ReadInt16();
br.ReadInt16();
try
{
Vector3 v1 = collisionData.ReadAtPosition <Vector3>(vertexOffset + index1 * 16);
Vector3 v2 = collisionData.ReadAtPosition <Vector3>(vertexOffset + index2 * 16);
Vector3 v3 = collisionData.ReadAtPosition <Vector3>(vertexOffset + index3 * 16);
cc.Triangles.Add(cc.Verts.Count);
cc.Triangles.Add(cc.Verts.Count + 1);
cc.Triangles.Add(cc.Verts.Count + 2);
cc.Verts.Add(v1);
cc.Verts.Add(v2);
cc.Verts.Add(v3);
}
catch (System.Exception e)
{
Debug.Log("Error on solid type: " + solid.modelType);
Debug.LogError(e);
}
}
if (br.BaseStream.Position >= vertexOffset)
{
break;
}
}
Int64 remainder = maxPos - br.BaseStream.Position;
if (remainder > 0)
{
br.BaseStream.Seek(remainder, SeekOrigin.Current);
}
}
}
}
KeyValues = KeyValues.Parse(KeyData);
}