// I'm completely totally serious
public static Nud Create(VBN vbn)
{
Dictionary <string, string> files = new Dictionary <string, string>();
ZipArchive zip = ZipFile.OpenRead("lib\\Skapon.zip");
Random random = new Random();
int randomNumber = random.Next(0, 0xFFFFFF);
NUT nut = new NUT();
foreach (ZipArchiveEntry e in zip.Entries)
{
byte[] b;
using (BinaryReader br = new BinaryReader(e.Open()))
{
b = br.ReadBytes((int)e.Length);
}
var stream = new StreamReader(new MemoryStream(b));
string s = stream.ReadToEnd();
files.Add(e.Name, s);
if (e.Name.EndsWith(".dds"))
{
NutTexture tex = new Dds(new FileData(b)).ToNutTexture();
nut.Nodes.Add(tex);
tex.HashId = 0x40000000 + randomNumber;
nut.glTexByHashId.Add(tex.HashId, NUT.CreateTexture2D(tex));
}
}
Nud nud = new Nud();
Nud.Mesh head = new Nud.Mesh();
nud.Nodes.Add(head);
head.Text = "Skapon";
head.Nodes.Add(setToBone(scale(readPoly(files["head.obj"]), 1, 1, 1), vbn.bones[vbn.boneIndex("HeadN")], vbn));
head.Nodes.Add(setToBone(scale(readPoly(files["body.obj"]), 1, 1, 1), vbn.bones[vbn.boneIndex("BustN")], vbn));
head.Nodes.Add(setToBone(scale(readPoly(files["hand.obj"]), 1, 1, 1), vbn.bones[vbn.boneIndex("RHandN")], vbn));
head.Nodes.Add(setToBone(scale(readPoly(files["hand.obj"]), -1, -1, 1), vbn.bones[vbn.boneIndex("LHandN")], vbn));
head.Nodes.Add(setToBone(scale(readPoly(files["foot.obj"]), 1, 1, 1), vbn.bones[vbn.boneIndex("RFootJ")], vbn));
head.Nodes.Add(setToBone(scale(readPoly(files["foot.obj"]), -1, -1, -1), vbn.bones[vbn.boneIndex("LFootJ")], vbn));
foreach (Nud.Polygon p in head.Nodes)
{
p.materials[0].textures[0].hash = 0x40000000 + randomNumber;
}
nud.UpdateRenderMeshes();
return(nud);
}
public static Nud.Polygon setToBone(Nud.Polygon poly, Bone b, VBN vbn)
{
foreach (Nud.Vertex v in poly.vertices)
{
v.boneIds.Clear();
v.boneIds.Add(vbn.bones.IndexOf(b));
Vector3 newpos = Vector3.TransformVector(Vector3.Zero, b.transform);
v.pos += newpos;
}
return(poly);
}
public void Apply(VBN bone)
{
for (int i = 0; i < nodes.Count; i++)
{
List <AnimType> used = new List <AnimType>();
Bone b = bone.bones[i];
Vector3 erot = ANIM.quattoeul(b.rot);
foreach (DATAnimTrack track in nodes[i])
{
KeyNode node = track.keys[0];
if (Debug)
{
Console.WriteLine("Bone " + i + " " + track.type + " " + node.value);
}
switch (track.type)
{
case AnimType.XPOS:
b.pos.X = node.value;
break;
case AnimType.YPOS:
b.pos.Y = node.value;
break;
case AnimType.ZPOS:
b.pos.Z = node.value;
break;
case AnimType.XROT:
erot.X = node.value;
break;
case AnimType.YROT:
erot.Y = node.value;
break;
case AnimType.ZROT:
erot.Z = node.value;
break;
}
}
b.rot = VBN.FromEulerAngles(erot.Z, erot.Y, erot.X);
}
bone.update();
}
// temp stuff
public static Dictionary <string, SkelAnimation> LoadAJ(string fname, VBN vbn)
{
// a note, I know that the main player file has the offsets for
// animations, this is just for viewing
FileData f = new FileData(fname);
f.endian = System.IO.Endianness.Big;
int pos = 0;
Dictionary <string, SkelAnimation> animations = new Dictionary <string, SkelAnimation>();
AnimationGroupNode group = new AnimationGroupNode()
{
Text = fname
};
MainForm.Instance.animList.treeView1.Nodes.Add(group);
while (pos < f.Size())
{
Console.WriteLine(pos.ToString("x"));
int len = f.ReadInt();
DAT_Animation anim = new DAT_Animation();
anim.Read(new FileData(f.GetSection(pos, len)));
AnimTrack track = new AnimTrack(anim);
if (pos == 0)
{
//track.Show();
}
group.Nodes.Add(track.ToAnimation(vbn));
SkelAnimation sa = track.BakeToSkel(vbn);
//sa.Tag = track;
//Runtime.Animations.Add(anim.Name, sa);
// MainForm.Instance.animList.treeView1.Nodes.Add(anim.Name);
animations.Add(anim.Name, sa);
if (pos != 0)
{
track.Dispose();
track.Close();
}
f.Skip(len - 4);
f.Align(32);
pos = f.Pos();
}
return(animations);
}
public static Animation read(FileData d, VBN m)
{
d.endian = Endianness.Big;
d.Seek(0x8);
int versionNum = d.ReadInt();
d.Seek(0x10);
if (versionNum == 4)
{
return(readAnim(d, m));
}
return(null);
}
public bool essentialComparison(VBN compareTo)
{
// Because I don't want to override == just for a cursory bone comparison
if (this.bones.Count != compareTo.bones.Count)
{
return(false);
}
for (int i = 0; i < this.bones.Count; i++)
{
if (this.bones[i].Name != compareTo.bones[i].Name)
{
return(false);
}
if (this.bones[i].pos != compareTo.bones[i].pos)
{
return(false);
}
}
return(true);
}
public float GetBaseNodeValue(int nid, String type, VBN vbn)
{
//UNSAFE: Hacky fix
if (nid == -1)
{
return(0);
}
switch (type)
{
case "X":
return(vbn.bones[nid].position[0]);
case "Y":
return(vbn.bones[nid].position[1]);
case "Z":
return(vbn.bones[nid].position[2]);
case "RX":
return(vbn.bones[nid].rotation[0]);
case "RY":
return(vbn.bones[nid].rotation[1]);
case "RZ":
return(vbn.bones[nid].rotation[2]);
case "SX":
return(vbn.bones[nid].scale[0]);
case "SY":
return(vbn.bones[nid].scale[1]);
case "SZ":
return(vbn.bones[nid].scale[2]);
}
return(0);
}
public static void Save(Animation anim, VBN skeleton, String fname)
{
using (System.IO.StreamWriter file = new System.IO.StreamWriter(fname))
{
file.WriteLine("version 1");
file.WriteLine("nodes");
foreach (Bone b in skeleton.bones)
{
file.WriteLine(skeleton.bones.IndexOf(b) + " \"" + b.Text + "\" " + b.parentIndex);
}
file.WriteLine("end");
file.WriteLine("skeleton");
anim.SetFrame(0);
for (int i = 0; i <= anim.frameCount; i++)
{
anim.NextFrame(skeleton);
file.WriteLine("time " + i);
foreach (Animation.KeyNode sb in anim.bones)
{
Bone b = skeleton.getBone(sb.Text);
if (b == null)
{
continue;
}
Vector3 eul = ANIM.quattoeul(b.rot);
file.WriteLine(skeleton.bones.IndexOf(b) + " " + b.pos.X + " " + b.pos.Y + " " + b.pos.Z + " " + eul.X + " " + eul.Y + " " + eul.Z);
}
}
file.WriteLine("end");
file.Close();
}
}
public static void effectiveScale(Nud nud, VBN vbn, Matrix4 sca)
{
foreach (Bone b in vbn.bones)
{
Vector3 pos = Vector3.TransformVector(new Vector3(b.position[0], b.position[1], b.position[2]), sca);
b.position[0] = pos.X;
b.position[1] = pos.Y;
b.position[2] = pos.Z;
}
vbn.reset();
foreach (Nud.Mesh mesh in nud.Nodes)
{
foreach (Nud.Polygon poly in mesh.Nodes)
{
foreach (Nud.Vertex v in poly.vertices)
{
v.pos = Vector3.TransformVector(v.pos, sca);
}
}
}
nud.UpdateRenderMeshes();
}
public FsklTreePanel(VBN vbn) : this()
{
this.vbn = vbn;
TreeRefresh();
}
public static Animation read(string filename, VBN vbn)
{
Animation a = new Animation(filename);
Animation.KeyNode current = null;
Animation.KeyFrame att = new Animation.KeyFrame();
StreamReader reader = File.OpenText(filename);
string line;
AnimHeader header = new AnimHeader();
bool inHeader = true;
bool inKeys = false;
string type = "";
while ((line = reader.ReadLine()) != null)
{
string[] args = line.Replace(";", "").TrimStart().Split(' ');
if (inHeader)
{
if (args[0].Equals("anim"))
{
inHeader = false;
}
else if (args[0].Equals("animVersion"))
{
header.animVersion = args[1];
}
else if (args[0].Equals("mayaVersion"))
{
header.mayaVersion = args[1];
}
else if (args[0].Equals("startTime"))
{
header.startTime = float.Parse(args[1]);
}
else if (args[0].Equals("endTime"))
{
header.endTime = float.Parse(args[1]);
}
else if (args[0].Equals("startUnitless"))
{
header.startUnitless = float.Parse(args[1]);
}
else if (args[0].Equals("endUnitless"))
{
header.endUnitless = float.Parse(args[1]);
}
else if (args[0].Equals("timeUnit"))
{
header.timeUnit = args[1];
}
else if (args[0].Equals("linearUnit"))
{
header.linearUnit = args[1];
}
else if (args[0].Equals("angularUnit"))
{
header.angularUnit = args[1];
}
}
if (!inHeader)
{
if (inKeys)
{
if (args[0].Equals("}"))
{
inKeys = false;
continue;
}
Animation.KeyFrame k = new Animation.KeyFrame();
//att.keys.Add (k);
if (type.Contains("translate"))
{
if (type.Contains("X"))
{
current.xpos.keys.Add(k);
}
if (type.Contains("Y"))
{
current.ypos.keys.Add(k);
}
if (type.Contains("Z"))
{
current.zpos.keys.Add(k);
}
}
if (type.Contains("rotate"))
{
if (type.Contains("X"))
{
current.xrot.keys.Add(k);
}
if (type.Contains("Y"))
{
current.yrot.keys.Add(k);
}
if (type.Contains("Z"))
{
current.zrot.keys.Add(k);
}
}
if (type.Contains("scale"))
{
if (type.Contains("X"))
{
current.xsca.keys.Add(k);
}
if (type.Contains("Y"))
{
current.ysca.keys.Add(k);
}
if (type.Contains("Z"))
{
current.zsca.keys.Add(k);
}
}
k.Frame = float.Parse(args[0]) - 1;
k.Value = float.Parse(args[1]);
if (type.Contains("rotate"))
{
k.Value *= (float)(Math.PI / 180f);
}
//k.intan = (args [2]);
//k.outtan = (args [3]);
if (args.Length > 7 && att.weighted)
{
k.In = float.Parse(args[7]) * (float)(Math.PI / 180f);
k.Out = float.Parse(args[8]) * (float)(Math.PI / 180f);
}
}
if (args[0].Equals("anim"))
{
inKeys = false;
if (args.Length == 5)
{
//TODO: finish this type
// can be name of attribute
}
if (args.Length == 7)
{
// see of the bone of this attribute exists
current = null;
foreach (Animation.KeyNode b in a.bones)
{
if (b.Text.Equals(args[3]))
{
current = b;
break;
}
}
if (current == null)
{
current = new Animation.KeyNode(args[3]);
current.rotType = Animation.RotationType.Euler;
a.bones.Add(current);
}
current.Text = args[3];
att = new Animation.KeyFrame();
att.interType = Animation.InterpolationType.Hermite;
type = args[2];
//current.Nodes.Add (att);
// row child attribute aren't needed here
}
}
/*if (args [0].Equals ("input"))
* att.input = args [1];
* if (args [0].Equals ("output"))
* att.output = args [1];
* if (args [0].Equals ("preInfinity"))
* att.preInfinity = args [1];
* if (args [0].Equals ("postInfinity"))
* att.postInfinity = args [1];*/
if (args[0].Equals("weighted"))
{
att.weighted = args[1].Equals("1");
}
// begining keys section
if (args[0].Contains("keys"))
{
inKeys = true;
}
}
}
int startTime = (int)Math.Ceiling(header.startTime);
int endTime = (int)Math.Ceiling(header.endTime);
a.frameCount = (endTime + 1) - startTime;
reader.Close();
return(a);
}
public static void CreateANIM(string fname, Animation a, VBN vbn)
{
using (System.IO.StreamWriter file = new System.IO.StreamWriter(@fname))
{
AnimHeader header = new AnimHeader();
file.WriteLine("animVersion " + header.animVersion + ";");
file.WriteLine("mayaVersion " + header.mayaVersion + ";");
file.WriteLine("timeUnit " + header.timeUnit + ";");
file.WriteLine("linearUnit " + header.linearUnit + ";");
file.WriteLine("angularUnit " + header.angularUnit + ";");
file.WriteLine("startTime " + 1 + ";");
file.WriteLine("endTime " + a.frameCount + ";");
a.SetFrame(a.frameCount - 1); //from last frame
for (int li = 0; li < a.frameCount; ++li) //go through each frame with nextFrame
{
a.NextFrame(vbn);
}
a.NextFrame(vbn); //go on first frame
int i = 0;
// writing node attributes
foreach (Bone b in vbn.getBoneTreeOrder())
{
i = vbn.boneIndex(b.Text);
if (a.HasBone(b.Text))
{
// write the bone attributes
// count the attributes
Animation.KeyNode n = a.GetBone(b.Text);
int ac = 0;
if (n.xpos.HasAnimation())
{
file.WriteLine("anim translate.translateX translateX " + b.Text + " 0 0 " + (ac++) + ";");
writeKey(file, n.xpos, n, a.Size(), "translateX");
file.WriteLine("}");
}
if (n.ypos.HasAnimation())
{
file.WriteLine("anim translate.translateY translateY " + b.Text + " 0 0 " + (ac++) + ";");
writeKey(file, n.ypos, n, a.Size(), "translateY");
file.WriteLine("}");
}
if (n.zpos.HasAnimation())
{
file.WriteLine("anim translate.translateZ translateZ " + b.Text + " 0 0 " + (ac++) + ";");
writeKey(file, n.zpos, n, a.Size(), "translateZ");
file.WriteLine("}");
}
if (n.xrot.HasAnimation())
{
file.WriteLine("anim rotate.rotateX rotateX " + b.Text + " 0 0 " + (ac++) + ";");
writeKey(file, n.xrot, n, a.Size(), "rotateX");
file.WriteLine("}");
}
if (n.yrot.HasAnimation())
{
file.WriteLine("anim rotate.rotateY rotateY " + b.Text + " 0 0 " + (ac++) + ";");
writeKey(file, n.yrot, n, a.Size(), "rotateY");
file.WriteLine("}");
}
if (n.zrot.HasAnimation())
{
file.WriteLine("anim rotate.rotateZ rotateZ " + b.Text + " 0 0 " + (ac++) + ";");
writeKey(file, n.zrot, n, a.Size(), "rotateZ");
file.WriteLine("}");
}
if (n.xsca.HasAnimation())
{
file.WriteLine("anim scale.scaleX scaleX " + b.Text + " 0 0 " + (ac++) + ";");
writeKey(file, n.xsca, n, a.Size(), "scaleX");
file.WriteLine("}");
}
if (n.ysca.HasAnimation())
{
file.WriteLine("anim scale.scaleY scaleY " + b.Text + " 0 0 " + (ac++) + ";");
writeKey(file, n.ysca, n, a.Size(), "scaleY");
file.WriteLine("}");
}
if (n.zsca.HasAnimation())
{
file.WriteLine("anim scale.scaleZ scaleZ " + b.Text + " 0 0 " + (ac++) + ";");
writeKey(file, n.zsca, n, a.Size(), "scaleZ");
file.WriteLine("}");
}
if (ac == 0)
{
file.WriteLine("anim " + b.Text + " 0 0 0;");
}
}
else
{
file.WriteLine("anim " + b.Text + " 0 0 0;");
}
}
}
}
public static byte[] CreateOMOFromAnimation(Animation a, VBN vbn)
{
if (vbn == null || a == null)
{
return new byte[] { }
}
;
// Test Actual Bones
//-------------------------
List <Animation.KeyNode> toRem = new List <Animation.KeyNode>();
for (int j = 0; j < a.bones.Count; j++)
{
Animation.KeyNode keynode = ((Animation.KeyNode)a.bones[j]);
Bone b = vbn.getBone(keynode.Text);
if (b == null)
{
toRem.Add(keynode);
}
}
foreach (Animation.KeyNode r in toRem)
{
Console.WriteLine("Removing " + r.Text);
a.bones.Remove(r);
}
//-------------------------
FileOutput o = new FileOutput();
o.endian = Endianness.Big;
FileOutput t1 = new FileOutput();
t1.endian = Endianness.Big;
FileOutput t2 = new FileOutput();
t2.endian = Endianness.Big;
o.WriteString("OMO ");
o.WriteShort(1); //idk
o.WriteShort(3); //idk
o.WriteInt(0x091E100C); //flags??
o.WriteShort(0); //padding
o.WriteShort(a.bones.Count); // numOfNodes
o.WriteShort(a.frameCount); // frame size
o.WriteShort(0); // frame start ??
o.WriteInt(0);
o.WriteInt(0);
o.WriteInt(0);
o.WriteIntAt(o.Size(), 0x14);
// ASSESSMENT
Vector3[] maxT = new Vector3[a.bones.Count], minT = new Vector3[a.bones.Count];
Vector4[] maxR = new Vector4[a.bones.Count], minR = new Vector4[a.bones.Count];
Vector3[] maxS = new Vector3[a.bones.Count], minS = new Vector3[a.bones.Count];
bool[] hasScale = new bool[a.bones.Count];
bool[] hasTrans = new bool[a.bones.Count];
bool[] hasRot = new bool[a.bones.Count];
bool[] conScale = new bool[a.bones.Count];
bool[] conTrans = new bool[a.bones.Count];
bool[] conRot = new bool[a.bones.Count];
a.SetFrame(0);
List <List <Bone> > Frames = new List <List <Bone> >();
{
for (int j = 0; j < a.bones.Count; j++)
{
Animation.KeyNode keynode = ((Animation.KeyNode)a.bones[j]);
if (keynode.xpos.HasAnimation() || keynode.ypos.HasAnimation() || keynode.zpos.HasAnimation())
{
hasTrans[j] = true;
}
if (keynode.xrot.HasAnimation())
{
hasRot[j] = true;
}
if (keynode.xsca.HasAnimation() || keynode.ysca.HasAnimation() || keynode.zsca.HasAnimation())
{
hasScale[j] = true;
}
maxT[j] = new Vector3(-999f, -999f, -999f);
minT[j] = new Vector3(999f, 999f, 999f);
maxS[j] = new Vector3(-999f, -999f, -999f);
minS[j] = new Vector3(999f, 999f, 999f);
maxR[j] = new Vector4(-999f, -999f, -999f, -999f);
minR[j] = new Vector4(999f, 999f, 999f, 999f);
foreach (Animation.KeyFrame key in keynode.xpos.keys)
{
maxT[j].X = Math.Max(maxT[j].X, key.Value);
minT[j].X = Math.Min(minT[j].X, key.Value);
}
foreach (Animation.KeyFrame key in keynode.ypos.keys)
{
maxT[j].Y = Math.Max(maxT[j].Y, key.Value);
minT[j].Y = Math.Min(minT[j].Y, key.Value);
}
foreach (Animation.KeyFrame key in keynode.zpos.keys)
{
maxT[j].Z = Math.Max(maxT[j].Z, key.Value);
minT[j].Z = Math.Min(minT[j].Z, key.Value);
}
foreach (Animation.KeyFrame key in keynode.xsca.keys)
{
maxS[j].X = Math.Max(maxS[j].X, key.Value);
minS[j].X = Math.Min(minS[j].X, key.Value);
}
foreach (Animation.KeyFrame key in keynode.ysca.keys)
{
maxS[j].Y = Math.Max(maxS[j].Y, key.Value);
minS[j].Y = Math.Min(minS[j].Y, key.Value);
}
foreach (Animation.KeyFrame key in keynode.zsca.keys)
{
maxS[j].Z = Math.Max(maxS[j].Z, key.Value);
minS[j].Z = Math.Min(minS[j].Z, key.Value);
}
Bone b = vbn.getBone(keynode.Text);
for (int i = 0; i < a.frameCount; i++)
{
Quaternion r = new Quaternion();
if (keynode.rotType == Animation.RotationType.Quaternion)
{
Animation.KeyFrame[] x = keynode.xrot.GetFrame(i);
Animation.KeyFrame[] y = keynode.yrot.GetFrame(i);
Animation.KeyFrame[] z = keynode.zrot.GetFrame(i);
Animation.KeyFrame[] w = keynode.wrot.GetFrame(i);
Quaternion q1 = new Quaternion(x[0].Value, y[0].Value, z[0].Value, w[0].Value);
Quaternion q2 = new Quaternion(x[1].Value, y[1].Value, z[1].Value, w[1].Value);
if (x[0].Frame == i)
{
r = q1;
}
else
if (x[1].Frame == i)
{
r = q2;
}
else
{
r = Quaternion.Slerp(q1, q2, (i - x[0].Frame) / (x[1].Frame - x[0].Frame));
}
}
else
if (keynode.rotType == Animation.RotationType.Euler)
{
float x = keynode.xrot.HasAnimation() ? keynode.xrot.GetValue(i) : b.rotation[0];
float y = keynode.yrot.HasAnimation() ? keynode.yrot.GetValue(i) : b.rotation[1];
float z = keynode.zrot.HasAnimation() ? keynode.zrot.GetValue(i) : b.rotation[2];
r = Animation.EulerToQuat(z, y, x);
}
r.Normalize();
maxR[j].X = Math.Max(maxR[j].X, r.X);
minR[j].X = Math.Min(minR[j].X, r.X);
maxR[j].Y = Math.Max(maxR[j].Y, r.Y);
minR[j].Y = Math.Min(minR[j].Y, r.Y);
maxR[j].Z = Math.Max(maxR[j].Z, r.Z);
minR[j].Z = Math.Min(minR[j].Z, r.Z);
}
//if (b == null)continue;
if (b != null)
{
if (maxT[j].X == -999)
{
maxT[j].X = b.position[0];
}
if (maxT[j].Y == -999)
{
maxT[j].Y = b.position[1];
}
if (maxT[j].Z == -999)
{
maxT[j].Z = b.position[2];
}
if (minT[j].X == -999)
{
minT[j].X = b.position[0];
}
if (minT[j].Y == -999)
{
minT[j].Y = b.position[1];
}
if (minT[j].Z == -999)
{
minT[j].Z = b.position[2];
}
if (maxS[j].X == -999)
{
maxS[j].X = b.scale[0];
}
if (maxS[j].Y == -999)
{
maxS[j].Y = b.scale[1];
}
if (maxS[j].Z == -999)
{
maxS[j].Z = b.scale[2];
}
if (minS[j].X == -999)
{
minS[j].X = b.scale[0];
}
if (minS[j].Y == -999)
{
minS[j].Y = b.scale[1];
}
if (minS[j].Z == -999)
{
minS[j].Z = b.scale[2];
}
}
}
}
//TODO: Euler Rotation Values
/*VBN tempvbn = new VBN();
* a.SetFrame(0);
* for (int i = 0; i < a.FrameCount; i++)
* {
* //Frames.Add(new List<Bone>());
* for (int j = 0; j < a.Bones.Count; j++)
* {
* Animation.KeyNode keynode = a.Bones[j];
* Bone b = vbn.getBone(keynode.Text);
* //if(b == null) continue;
* maxR[j].X = Math.Max(maxR[j].X, b.rot.X);
* minR[j].X = Math.Min(minR[j].X, b.rot.X);
* maxR[j].Y = Math.Max(maxR[j].Y, b.rot.Y);
* minR[j].Y = Math.Min(minR[j].Y, b.rot.Y);
* maxR[j].Z = Math.Max(maxR[j].Z, b.rot.Z);
* minR[j].Z = Math.Min(minR[j].Z, b.rot.Z);
*
* Bone f1 = new Bone(tempvbn);
* f1.pos = b.pos;
* f1.rot = b.rot;
* f1.sca = b.sca;
* //Frames[i].Add(f1);
* }
* a.NextFrame(vbn);
* }*/
// NODE INFO
int t2Size = 0;
for (int i = 0; i < a.bones.Count; i++)
{
int flag = 0;
conRot[i] = false;
conScale[i] = false;
conTrans[i] = false;
// check for constant
if (maxT[i].Equals(minT[i]))
{
conTrans[i] = true;
}
if (maxR[i].Equals(minR[i]))
{
conRot[i] = true;
}
if (maxS[i].Equals(minS[i]))
{
conScale[i] = true;
}
if (hasTrans[i])
{
flag |= 0x01000000;
}
if (hasRot[i])
{
flag |= 0x02000000;
}
if (hasScale[i])
{
flag |= 0x04000000;
}
if (conTrans[i] && hasTrans[i])
{
flag |= 0x00200000;
}
else
{
flag |= 0x00080000;
}
if (conRot[i] && hasRot[i])
{
flag |= 0x00007000;
}
else
{
flag |= 0x00005000;
}
if (conScale[i] && hasScale[i])
{
flag |= 0x00000200;
}
else
{
flag |= 0x00000080;
}
flag |= 0x00000001;
//uint id = 999;
Bone b = vbn.getBone(a.bones[i].Text);
int hash = -1;
if (MainForm.hashes.names.ContainsKey(a.bones[i].Text))
{
hash = (int)MainForm.hashes.names[a.bones[i].Text];
}
else
{
if (b != null)
{
hash = (int)b.boneId;
}
else
{
continue;
}
}
//if(hash == -1)
//hash = (int)FileData.crc32(getNodeId(nodeid.get(i)).name);
o.WriteInt(flag); // flags...
o.WriteInt(hash); //hash
o.WriteInt(t1.Size()); // Offset in 1 table
o.WriteInt(t2Size); // Offset in 2 table
// calculate size needed
if (hasTrans[i])
{
t1.WriteFloat(minT[i].X);
t1.WriteFloat(minT[i].Y);
t1.WriteFloat(minT[i].Z);
if (!conTrans[i])
{
maxT[i].X -= minT[i].X;
maxT[i].Y -= minT[i].Y;
maxT[i].Z -= minT[i].Z;
t1.WriteFloat(maxT[i].X);
t1.WriteFloat(maxT[i].Y);
t1.WriteFloat(maxT[i].Z);
t2Size += 6;
}
}
if (hasRot[i])
{
t1.WriteFloat(minR[i].X);
t1.WriteFloat(minR[i].Y);
t1.WriteFloat(minR[i].Z);
if (!conRot[i])
{
maxR[i].X -= minR[i].X;
maxR[i].Y -= minR[i].Y;
maxR[i].Z -= minR[i].Z;
t1.WriteFloat(maxR[i].X);
t1.WriteFloat(maxR[i].Y);
t1.WriteFloat(maxR[i].Z);
t2Size += 6;
}
}
if (hasScale[i])
{
t1.WriteFloat(minS[i].X);
t1.WriteFloat(minS[i].Y);
t1.WriteFloat(minS[i].Z);
if (!conScale[i])
{
maxS[i].X -= minS[i].X;
maxS[i].Y -= minS[i].Y;
maxS[i].Z -= minS[i].Z;
t1.WriteFloat(maxS[i].X);
t1.WriteFloat(maxS[i].Y);
t1.WriteFloat(maxS[i].Z);
t2Size += 6;
}
}
}
o.WriteIntAt(o.Size(), 0x18);
o.WriteOutput(t1);
o.WriteIntAt(o.Size(), 0x1C);
// INTERPOLATION
a.SetFrame(0);
bool go = true;
for (int i = 0; i < a.frameCount; i++)
{
//a.NextFrame(vbn);
for (int j = 0; j < a.bones.Count; j++)
{
Bone node = vbn.getBone(a.bones[j].Text);
Animation.KeyNode anode = a.bones[j];
//if (node == null) continue;
if (hasTrans[j] && !conTrans[j])
{
t2.WriteShort((int)(((anode.xpos.GetValue(i) - minT[j].X) / maxT[j].X) * 0xFFFF));
t2.WriteShort((int)(((anode.ypos.GetValue(i) - minT[j].Y) / maxT[j].Y) * 0xFFFF));
t2.WriteShort((int)(((anode.zpos.GetValue(i) - minT[j].Z) / maxT[j].Z) * 0xFFFF));
}
if (hasRot[j] && !conRot[j])
{
Quaternion r = new Quaternion();
if (anode.rotType == Animation.RotationType.Quaternion)
{
Animation.KeyFrame[] x = anode.xrot.GetFrame(i);
Animation.KeyFrame[] y = anode.yrot.GetFrame(i);
Animation.KeyFrame[] z = anode.zrot.GetFrame(i);
Animation.KeyFrame[] w = anode.wrot.GetFrame(i);
Quaternion q1 = new Quaternion(x[0].Value, y[0].Value, z[0].Value, w[0].Value);
Quaternion q2 = new Quaternion(x[1].Value, y[1].Value, z[1].Value, w[1].Value);
if (x[0].Frame == i)
{
r = q1;
}
else
if (x[1].Frame == i)
{
r = q2;
}
else
{
r = Quaternion.Slerp(q1, q2, (i - x[0].Frame) / (x[1].Frame - x[0].Frame));
}
}
else
if (anode.rotType == Animation.RotationType.Euler)
{
float x = anode.xrot.HasAnimation() ? anode.xrot.GetValue(i) : node.rotation[0];
float y = anode.yrot.HasAnimation() ? anode.yrot.GetValue(i) : node.rotation[1];
float z = anode.zrot.HasAnimation() ? anode.zrot.GetValue(i) : node.rotation[2];
r = Animation.EulerToQuat(z, y, x);
}
r.Normalize();
t2.WriteShort((int)(((r.X - minR[j].X) / maxR[j].X) * 0xFFFF));
t2.WriteShort((int)(((r.Y - minR[j].Y) / maxR[j].Y) * 0xFFFF));
t2.WriteShort((int)(((r.Z - minR[j].Z) / maxR[j].Z) * 0xFFFF));
}
if (hasScale[j] && !conScale[j])
{
t2.WriteShort((int)(((anode.xsca.GetValue(i) - minS[j].X) / maxS[j].X) * 0xFFFF));
t2.WriteShort((int)(((anode.ysca.GetValue(i) - minS[j].Y) / maxS[j].Y) * 0xFFFF));
t2.WriteShort((int)(((anode.zsca.GetValue(i) - minS[j].Z) / maxS[j].Z) * 0xFFFF));
}
}
if (go)
{
o.WriteShortAt(t2.Size(), 0x12);
go = false;
}
}
o.WriteOutput(t2);
return(o.GetBytes());
}
}
public override string ToString()
{
return(VBN.BoneNameFromHash(hash));
}
public AddBone(Bone parentBone = null, VBN vbn = null)
{
InitializeComponent();
this.vbn = vbn;
this.parent = parentBone;
}
public VBN GetVBN(FileData d)
{
VBN v = new VBN();
d.endian = Endianness.Big;
d.Seek(8);
int ver = d.ReadInt();
d.Skip(4); //outer offset to brres
int boneHeader = 0x40; // for version 9 only
int dlist = d.ReadInt();
int boneSec = d.ReadInt();
int vertSec = d.ReadInt();
int normSec = d.ReadInt();
int colrSec = d.ReadInt();
int texcSec = d.ReadInt();
d.Skip(8);
int polySec = d.ReadInt();
d.Seek(0x40);
d.Skip(16);
int vertCount = d.ReadInt();
int faceCount = d.ReadInt();
d.Skip(4);
int boneCount = d.ReadInt();
v.totalBoneCount = (uint)boneCount;
for (int i = 0; i < 3; i++)
{
v.boneCountPerType[i + 1] = 0;
}
d.Skip(4);
int bonetableoff = d.ReadInt() + boneHeader;
d.Seek(bonetableoff);
int bcount = d.ReadInt();
int[] nodeIndex = new int[bcount];
for (int i = 0; i < bcount; i++)
{
nodeIndex[i] = d.ReadInt();
}
Random rng = new Random();
uint boneID = (uint)rng.Next(1, 0xFFFFFF);
// BONES-----------------------------------------------
d.Seek(boneSec);
d.Skip(4); // length
int bseccount = d.ReadInt();
for (int i = 0; i < bseccount; i++)
{
Debug.Write(i);
d.Skip(4); // entry id and unknown
d.Skip(4); // left and right index
int name = d.ReadInt() + boneSec;
int data = d.ReadInt() + boneSec;
int temp = d.Pos();
if (name != boneSec && data != boneSec)
{
// read bone data
d.Seek(data);
d.Skip(8);
int nameOff = d.ReadInt() + data;
int index = d.ReadInt(); // id
d.Skip(4); // index
d.Skip(8); // idk billboard settings and padding
Bone n = new Bone(v);
n.scale = new float[3];
n.position = new float[3];
n.rotation = new float[3];
d.Skip(4); // index
n.scale[0] = d.ReadFloat();
n.scale[1] = d.ReadFloat();
n.scale[2] = d.ReadFloat();
n.rotation[0] = toRadians(d.ReadFloat());
n.rotation[1] = toRadians(d.ReadFloat());
n.rotation[2] = toRadians(d.ReadFloat());
n.position[0] = d.ReadFloat();
n.position[1] = d.ReadFloat();
n.position[2] = d.ReadFloat();
n.pos = new Vector3(n.position[0], n.position[1], n.position[2]);
n.sca = new Vector3(n.scale[0], n.scale[1], n.scale[2]);
n.rot = (VBN.FromEulerAngles(n.rotation [2], n.rotation [1], n.rotation [0]));
d.Skip(24);
d.Seek(data + 0x5C);
d.Seek(d.ReadInt() + data + 12);
int parentid = 0x0FFFFFFF;
if (d.Pos() != data + 12)
{
parentid = d.ReadInt();
}
n.parentIndex = (int)parentid;
n.Text = d.ReadString(nameOff, -1);
n.boneId = boneID;
boneID++;
v.bones.Add(n);
}
else
{
bseccount++;
}
d.Seek(temp);
}
v.update();
//v.updateChildren();
v.boneCountPerType[0] = (uint)v.bones.Count;
return(v);
}
public Smd()
{
bones = new VBN();
triangles = new List <SmdTriangle>();
}
public void Read(string fname)
{
StreamReader reader = File.OpenText(fname);
string line;
string current = "";
bones = new VBN();
triangles = new List <SmdTriangle>();
Dictionary <int, Bone> boneList = new Dictionary <int, Bone>();
int time = 0;
while ((line = reader.ReadLine()) != null)
{
line = Regex.Replace(line, @"\s+", " ");
string[] args = line.Replace(";", "").TrimStart().Split(' ');
if (args[0].Equals("triangles") || args[0].Equals("end") || args[0].Equals("skeleton") || args[0].Equals("nodes"))
{
current = args[0];
continue;
}
if (current.Equals("nodes"))
{
int id = int.Parse(args[0]);
Bone b = new Bone(bones);
b.Text = args[1].Replace('"', ' ').Trim();
int s = 2;
while (args[s].Contains("\""))
{
b.Text += args[s++];
}
b.parentIndex = int.Parse(args[s]);
boneList.Add(id, b);
}
if (current.Equals("skeleton"))
{
if (args[0].Contains("time"))
{
time = int.Parse(args[1]);
}
else
{
if (time == 0)
{
Bone b = boneList[int.Parse(args[0])];
b.position = new float[3];
b.rotation = new float[3];
b.scale = new float[3];
b.position[0] = float.Parse(args[1]);
b.position[1] = float.Parse(args[2]);
b.position[2] = float.Parse(args[3]);
b.rotation[0] = float.Parse(args[4]);
b.rotation[1] = float.Parse(args[5]);
b.rotation[2] = float.Parse(args[6]);
b.scale[0] = 1f;
b.scale[1] = 1f;
b.scale[2] = 1f;
b.pos = new Vector3(float.Parse(args[1]), float.Parse(args[2]), float.Parse(args[3]));
b.rot = VBN.FromEulerAngles(float.Parse(args[6]), float.Parse(args[5]), float.Parse(args[4]));
bones.bones.Add(b);
if (b.parentIndex != -1)
{
b.parentIndex = bones.bones.IndexOf(boneList[b.parentIndex]);
}
}
}
}
if (current.Equals("triangles"))
{
string meshName = args[0];
if (args[0].Equals(""))
{
continue;
}
SmdTriangle t = new SmdTriangle();
triangles.Add(t);
t.material = meshName;
for (int j = 0; j < 3; j++)
{
line = reader.ReadLine();
line = Regex.Replace(line, @"\s+", " ");
args = line.Replace(";", "").TrimStart().Split(' ');
int parent = int.Parse(args[0]);
SmdVertex vert = new SmdVertex();
vert.p = new Vector3(float.Parse(args[1]), float.Parse(args[2]), float.Parse(args[3]));
vert.n = new Vector3(float.Parse(args[4]), float.Parse(args[5]), float.Parse(args[6]));
vert.uv = new Vector2(float.Parse(args[7]), float.Parse(args[8]));
vert.bones = new int[0];
vert.weights = new float[0];
if (args.Length > 9)
{
int wCount = int.Parse(args[9]);
int w = 10;
vert.bones = new int[wCount];
vert.weights = new float[wCount];
for (int i = 0; i < wCount; i++)
{
vert.bones[i] = (int.Parse(args[w++]));
vert.weights[i] = (float.Parse(args[w++]));
}
}
switch (j)
{
case 0: t.v1 = vert; break;
case 1: t.v2 = vert; break;
case 2: t.v3 = vert; break;
}
}
}
}
bones.reset();
}
public static void generateInter(SkelAnimation anim, int max, int nid, String part, float[] frame, float[] tan, float[] step, VBN vbn)
{
int in2 = 0;
int out2 = 1;
float degrad = (float)(Math.PI / 180f);
for (int i = 0; i < max; i++)
{
KeyNode n = anim.GetNode(i, nid);
if (part.Contains("R"))
{
n.rType = 1;
}
else
if (part.Contains("S"))
{
n.sType = 1;
}
else
{
n.tType = 1;
}
if (i > frame[out2])
{
in2++;
out2++;
}
float inv = frame[in2];
float tanin = tan[in2];
float stepin = step[in2];
if (frame[0] > i)
{
inv = 0;
tanin = 0;
stepin = anim.GetBaseNodeValue(nid, part, vbn);
out2 = 0;
in2 = 0;
}
if (frame[0] == i && out2 == 0)
{
out2 = 1;
in2 = 0;
}
switch (part)
{
case "RX":
n.r.X = interHermite(i, inv, frame[out2], tanin, tan[out2], stepin, step[out2]) * degrad;
break;
case "RY":
n.r.Y = interHermite(i, inv, frame[out2], tanin, tan[out2], stepin, step[out2]) * degrad;
break;
case "RZ":
n.r.Z = interHermite(i, inv, frame[out2], tanin, tan[out2], stepin, step[out2]) * degrad;
break;
case "X":
n.t.X = interHermite(i, inv, frame[out2], tanin, tan[out2], stepin, step[out2]);
break;
case "Y":
n.t.Y = interHermite(i, inv, frame[out2], tanin, tan[out2], stepin, step[out2]);
break;
case "Z":
n.t.Z = interHermite(i, inv, frame[out2], tanin, tan[out2], stepin, step[out2]);
break;
case "SX":
n.s.X = interHermite(i, inv, frame[out2], tanin, tan[out2], stepin, step[out2]);
break;
case "SY":
n.s.Y = interHermite(i, inv, frame[out2], tanin, tan[out2], stepin, step[out2]);
break;
case "SZ":
n.s.Z = interHermite(i, inv, frame[out2], tanin, tan[out2], stepin, step[out2]);
break;
}
}
}
public static Animation readAnim(FileData d, VBN m)
{
int offset = d.ReadInt();
int nameoff = d.ReadInt();
d.Skip(4);
int fCount = d.ReadUShort();
int animDataCount = d.ReadUShort();
d.Skip(8);
Animation anim = new Animation(d.ReadString(nameoff, -1));
anim.frameCount = fCount;
//anim.setModel(m);
d.Seek(offset);
int sectionOffset = d.ReadInt() + offset;
int size = d.ReadInt(); // size again
for (int i = 0; i < size; i++)
{
// System.out.print(d.readShort()); // id
d.Skip(4); // id and unknown
d.ReadUShort(); //left
d.ReadUShort(); //right
int nameOffset = d.ReadInt() + offset;
int dataOffset = d.ReadInt() + offset;
if (dataOffset == offset)
{
i--;
continue;
// d.skip(8);
// nameOffset = d.readInt() + 4;
// dataOffset = d.readInt() + offset;
}
int temp = d.Pos();
d.Seek(dataOffset);
int pos = d.Pos();
int nameOff = d.ReadInt() + sectionOffset + (d.Pos() - sectionOffset) - 4;
int flags = d.ReadInt();
int t_type = (flags >> 0x1e) & 0x3;
int r_type = (flags >> 0x1b) & 0x7;
int s_type = (flags >> 0x19) & 0x3;
int hasT = (flags >> 0x18) & 0x1;
int hasR = (flags >> 0x17) & 0x1;
int hasS = (flags >> 0x16) & 0x1;
int Zfixed = (flags >> 0x15) & 0x1;
int Yfixed = (flags >> 0x14) & 0x1;
int Xfixed = (flags >> 0x13) & 0x1;
int RZfixed = (flags >> 0x12) & 0x1;
int RYfixed = (flags >> 0x11) & 0x1;
int RXfixed = (flags >> 0x10) & 0x1;
int SZfixed = (flags >> 0xf) & 0x1;
int SYfixed = (flags >> 0xe) & 0x1;
int SXfixed = (flags >> 0xd) & 0x1;
int Tiso = (flags >> 0x6) & 0x1;
int Riso = (flags >> 0x5) & 0x1;
int Siso = (flags >> 0x4) & 0x1;
Animation.KeyNode node = new Animation.KeyNode(d.ReadString(nameOff, -1));
anim.bones.Add(node);
node.rotType = Animation.RotationType.Euler;
if (hasS == 1)
{
if (Siso == 1)
{
float iss = d.ReadFloat();
node.xsca.keys.Add(new Animation.KeyFrame()
{
Frame = 0, Value = iss
});
node.ysca.keys.Add(new Animation.KeyFrame()
{
Frame = 0, Value = iss
});
node.zsca.keys.Add(new Animation.KeyFrame()
{
Frame = 0, Value = iss
});
}
else
{
if (SXfixed == 1)
{
node.xsca.keys.Add(new Animation.KeyFrame()
{
Frame = 0, Value = d.ReadFloat()
});
}
else
{
process(d, s_type, pos, node, "SX", false, anim);
}
if (SYfixed == 1)
{
node.ysca.keys.Add(new Animation.KeyFrame()
{
Frame = 0, Value = d.ReadFloat()
});
}
else
{
process(d, s_type, pos, node, "SY", false, anim);
}
if (SZfixed == 1)
{
node.zsca.keys.Add(new Animation.KeyFrame()
{
Frame = 0, Value = d.ReadFloat()
});
}
else
{
process(d, s_type, pos, node, "SZ", false, anim);
}
}
}
if (hasR == 1)
{
if (Riso == 1)
{
float iss = (float)((d.ReadFloat()) * Math.PI / 180f);
node.xrot.keys.Add(new Animation.KeyFrame()
{
Frame = 0, Value = iss
});
node.yrot.keys.Add(new Animation.KeyFrame()
{
Frame = 0, Value = iss
});
node.zrot.keys.Add(new Animation.KeyFrame()
{
Frame = 0, Value = iss
});
}
else
{
if (RXfixed == 1)
{
node.xrot.keys.Add(new Animation.KeyFrame()
{
Frame = 0, Value = (float)(Math.PI / 180f) * (d.ReadFloat())
});
}
else
{
process(d, r_type, pos, node, "RX", false, anim);
}
if (RYfixed == 1)
{
node.yrot.keys.Add(new Animation.KeyFrame()
{
Frame = 0, Value = (float)(Math.PI / 180f) * (d.ReadFloat())
});
}
else
{
process(d, r_type, pos, node, "RY", false, anim);
}
if (RZfixed == 1)
{
node.zrot.keys.Add(new Animation.KeyFrame()
{
Frame = 0, Value = (float)(Math.PI / 180f) * (d.ReadFloat())
});
}
else
{
process(d, r_type, pos, node, "RZ", false, anim);
}
}
}
if (hasT == 1)
{
if (Tiso == 1)
{
float iss = d.ReadFloat();
node.xpos.keys.Add(new Animation.KeyFrame()
{
Frame = 0, Value = iss
});
node.ypos.keys.Add(new Animation.KeyFrame()
{
Frame = 0, Value = iss
});
node.zpos.keys.Add(new Animation.KeyFrame()
{
Frame = 0, Value = iss
});
}
else
{
if (Xfixed == 1)
{
node.xpos.keys.Add(new Animation.KeyFrame()
{
Frame = 0, Value = d.ReadFloat()
});
}
else
{
process(d, t_type, pos, node, "X", false, anim);
}
if (Yfixed == 1)
{
node.ypos.keys.Add(new Animation.KeyFrame()
{
Frame = 0, Value = d.ReadFloat()
});
}
else
{
process(d, t_type, pos, node, "Y", false, anim);
}
if (Zfixed == 1)
{
node.zpos.keys.Add(new Animation.KeyFrame()
{
Frame = 0, Value = d.ReadFloat()
});
}
else
{
process(d, t_type, pos, node, "Z", false, anim);
}
}
}
d.Seek(temp);
}
return(anim);
}
public Bone(VBN v)
{
vbnParent = v;
ImageKey = "bone";
SelectedImageKey = "bone";
}
public Animation ToAnimation(VBN vbn)
{
Animation animation = new Animation(anim.Name);
animation.frameCount = anim.frameCount;
int i = 0;
foreach (Bone b in vbn.bones)
{
i = vbn.boneIndex(b.Text);
if (i < anim.nodes.Count)
{
List <DAT_Animation.DATAnimTrack> tracks = anim.nodes[i];
Animation.KeyNode node = new Animation.KeyNode(b.Text);
node.rotType = Animation.RotationType.Euler;
foreach (DAT_Animation.DATAnimTrack track in tracks)
{
switch (track.type)
{
case DAT_Animation.AnimType.XPOS:
node.xpos = CreateKeyGroup(i, track, false);
break;
case DAT_Animation.AnimType.YPOS:
node.ypos = CreateKeyGroup(i, track, false);
break;
case DAT_Animation.AnimType.ZPOS:
node.zpos = CreateKeyGroup(i, track, false);
break;
case DAT_Animation.AnimType.XROT:
node.xrot = CreateKeyGroup(i, track, false);
break;
case DAT_Animation.AnimType.YROT:
node.yrot = CreateKeyGroup(i, track, false);
break;
case DAT_Animation.AnimType.ZROT:
node.zrot = CreateKeyGroup(i, track, false);
break;
case DAT_Animation.AnimType.XSCA:
node.xsca = CreateKeyGroup(i, track, false);
break;
case DAT_Animation.AnimType.YSCA:
node.ysca = CreateKeyGroup(i, track, false);
break;
case DAT_Animation.AnimType.ZSCA:
node.zsca = CreateKeyGroup(i, track, false);
break;
}
}
if (node.xsca.HasAnimation() || node.ysca.HasAnimation() || node.zsca.HasAnimation() ||
node.xpos.HasAnimation() || node.ypos.HasAnimation() || node.zpos.HasAnimation() ||
node.xrot.HasAnimation() || node.yrot.HasAnimation() || node.zrot.HasAnimation())
{
animation.bones.Add(node);
}
}
}
return(animation);
}
public void CreateAnim(string fname, VBN vbn)
{
using (System.IO.StreamWriter file = new System.IO.StreamWriter(@fname))
{
file.WriteLine("animVersion 1.1;");
file.WriteLine("mayaVersion 2014 x64;\ntimeUnit ntscf;\nlinearUnit cm;\nangularUnit deg;\nstartTime 1;\nendTime " + (anim.frameCount + 1) + ";");
int i = 0;
// writing node attributes
foreach (Bone b in vbn.getBoneTreeOrder())
{
i = vbn.boneIndex(b.Text);
if (i < anim.nodes.Count)
{
// write the bone attributes
// count the attributes
List <DAT_Animation.DATAnimTrack> tracks = anim.nodes[i];
int tracknum = 0;
if (tracks.Count == 0)
{
file.WriteLine("anim " + b.Text + " 0 0 0;");
}
foreach (DAT_Animation.DATAnimTrack track in tracks)
{
switch (track.type)
{
case DAT_Animation.AnimType.XPOS:
file.WriteLine("anim translate.translateX translateX " + b.Text + " 0 0 " + (tracknum++) + ";");
WriteAnimKey(file, i, track, false);
break;
case DAT_Animation.AnimType.YPOS:
file.WriteLine("anim translate.translateY translateY " + b.Text + " 0 0 " + (tracknum++) + ";");
WriteAnimKey(file, i, track, false);
break;
case DAT_Animation.AnimType.ZPOS:
file.WriteLine("anim translate.translateZ translateZ " + b.Text + " 0 0 " + (tracknum++) + ";");
WriteAnimKey(file, i, track, false);
break;
case DAT_Animation.AnimType.XROT:
file.WriteLine("anim rotate.rotateX rotateX " + b.Text + " 0 0 " + (tracknum++) + ";");
WriteAnimKey(file, i, track, true);
break;
case DAT_Animation.AnimType.YROT:
file.WriteLine("anim rotate.rotateY rotateY " + b.Text + " 0 0 " + (tracknum++) + ";");
WriteAnimKey(file, i, track, true);
break;
case DAT_Animation.AnimType.ZROT:
file.WriteLine("anim rotate.rotateZ rotateZ " + b.Text + " 0 0 " + (tracknum++) + ";");
WriteAnimKey(file, i, track, true);
break;
case DAT_Animation.AnimType.XSCA:
file.WriteLine("anim scale.scaleX scaleX " + b.Text + " 0 0 " + (tracknum++) + ";");
WriteAnimKey(file, i, track, false);
break;
case DAT_Animation.AnimType.YSCA:
file.WriteLine("anim scale.scaleY scaleY " + b.Text + " 0 0 " + (tracknum++) + ";");
WriteAnimKey(file, i, track, false);
break;
case DAT_Animation.AnimType.ZSCA:
file.WriteLine("anim scale.scaleZ scaleZ " + b.Text + " 0 0 " + (tracknum++) + ";");
WriteAnimKey(file, i, track, false);
break;
}
}
}
else
{
file.WriteLine("anim " + b.Text + " 0 0 0;");
}
}
}
}
public static void Read(string fname, Animation a, VBN v)
{
StreamReader reader = File.OpenText(fname);
string line;
string current = "";
bool readBones = false;
int frame = 0, prevframe = 0;
KeyFrame k = new KeyFrame();
VBN vbn = v;
if (v != null && v.bones.Count == 0)
{
readBones = true;
}
else
{
vbn = new VBN();
}
while ((line = reader.ReadLine()) != null)
{
line = Regex.Replace(line, @"\s+", " ");
string[] args = line.Replace(";", "").TrimStart().Split(' ');
if (args[0].Equals("nodes") || args[0].Equals("skeleton") || args[0].Equals("end") || args[0].Equals("time"))
{
current = args[0];
if (args.Length > 1)
{
prevframe = frame;
frame = int.Parse(args[1]);
/*if (frame != prevframe + 1) {
* Console.WriteLine ("Needs interpolation " + frame);
* }*/
k = new KeyFrame();
k.frame = frame;
//a.addKeyframe(k);
}
continue;
}
if (current.Equals("nodes"))
{
Bone b = new Bone(vbn);
b.Text = args[1].Replace("\"", "");
b.parentIndex = int.Parse(args[2]);
//b.children = new System.Collections.Generic.List<int> ();
vbn.totalBoneCount++;
vbn.bones.Add(b);
Animation.KeyNode node = new Animation.KeyNode(b.Text);
a.bones.Add(node);
}
if (current.Equals("time"))
{
//Animation.KeyFrame n = new Animation.KeyFrame();
/*n.id = v.boneIndex(vbn.bones[int.Parse(args[0])].Text);
* if (n.id == -1)
* {
* continue;
* }
* else
* n.hash = v.bones[n.id].boneId;*/
// only if it finds the node
//k.addNode(n);
// reading the skeleton if this isn't an animation
if (readBones && frame == 0)
{
Bone b = vbn.bones[int.Parse(args[0])];
b.position = new float[3];
b.rotation = new float[3];
b.scale = new float[3];
b.position[0] = float.Parse(args[1]);
b.position[1] = float.Parse(args[2]);
b.position[2] = float.Parse(args[3]);
b.rotation[0] = float.Parse(args[4]);
b.rotation[1] = float.Parse(args[5]);
b.rotation[2] = float.Parse(args[6]);
b.scale[0] = 1f;
b.scale[1] = 1f;
b.scale[2] = 1f;
b.pos = new Vector3(float.Parse(args[1]), float.Parse(args[2]), float.Parse(args[3]));
b.rot = VBN.FromEulerAngles(float.Parse(args[6]), float.Parse(args[5]), float.Parse(args[4]));
if (b.parentIndex != -1)
{
vbn.bones [b.parentIndex].Nodes.Add(b);
}
}
Animation.KeyNode bone = a.GetBone(vbn.bones[int.Parse(args[0])].Text);
bone.rotType = Animation.RotationType.Euler;
Animation.KeyFrame n = new Animation.KeyFrame();
n.Value = float.Parse(args[1]);
n.Frame = frame;
bone.xpos.keys.Add(n);
n = new Animation.KeyFrame();
n.Value = float.Parse(args[2]);
n.Frame = frame;
bone.ypos.keys.Add(n);
n = new Animation.KeyFrame();
n.Value = float.Parse(args[3]);
n.Frame = frame;
bone.zpos.keys.Add(n);
n = new Animation.KeyFrame();
n.Value = float.Parse(args[4]);
n.Frame = frame;
bone.xrot.keys.Add(n);
n = new Animation.KeyFrame();
n.Value = float.Parse(args[5]);
n.Frame = frame;
bone.yrot.keys.Add(n);
n = new Animation.KeyFrame();
n.Value = float.Parse(args[6]);
n.Frame = frame;
bone.zrot.keys.Add(n);
if (args.Length > 7)
{
n = new Animation.KeyFrame();
n.Value = float.Parse(args[7]);
n.Frame = frame;
bone.xsca.keys.Add(n);
n = new Animation.KeyFrame();
n.Value = float.Parse(args[8]);
n.Frame = frame;
bone.ysca.keys.Add(n);
n = new Animation.KeyFrame();
n.Value = float.Parse(args[9]);
n.Frame = frame;
bone.zsca.keys.Add(n);
}
}
}
a.frameCount = frame;
vbn.boneCountPerType[0] = (uint)vbn.bones.Count;
vbn.update();
}
public void NextFrame(VBN skeleton, bool isChild = false)
{
if (frame >= frameCount)
{
return;
}
if (frame == 0 && !isChild)
{
skeleton.reset();
}
foreach (object child in children)
{
if (child is Animation)
{
((Animation)child).SetFrame(frame);
((Animation)child).NextFrame(skeleton, isChild: true);
}
if (child is MTA)
{
//foreach (ModelContainer con in Runtime.ModelContainers)
{
if (((ModelContainer)skeleton.Parent).NUD != null)
{
((ModelContainer)skeleton.Parent).NUD.ApplyMta(((MTA)child), (int)frame);
}
}
}
if (child is BFRES.MTA) //For BFRES
{
{
if (((ModelContainer)skeleton.Parent).Bfres != null)
{
((ModelContainer)skeleton.Parent).Bfres.ApplyMta(((BFRES.MTA)child), (int)frame);
}
}
}
}
bool updated = false; // no need to update skeleton of animations that didn't change
foreach (KeyNode node in bones)
{
// Get Skeleton Node
Bone b = null;
if (node.hash == -1)
{
b = skeleton.getBone(node.Text);
}
else
{
b = skeleton.GetBone((uint)node.hash);
}
if (b == null)
{
continue;
}
updated = true;
if (node.xpos.HasAnimation() && b.boneType != 3)
{
b.pos.X = node.xpos.GetValue(frame);
}
if (node.ypos.HasAnimation() && b.boneType != 3)
{
b.pos.Y = node.ypos.GetValue(frame);
}
if (node.zpos.HasAnimation() && b.boneType != 3)
{
b.pos.Z = node.zpos.GetValue(frame);
}
if (node.xsca.HasAnimation())
{
b.sca.X = node.xsca.GetValue(frame);
}
else
{
b.sca.X = 1;
}
if (node.ysca.HasAnimation())
{
b.sca.Y = node.ysca.GetValue(frame);
}
else
{
b.sca.Y = 1;
}
if (node.zsca.HasAnimation())
{
b.sca.Z = node.zsca.GetValue(frame);
}
else
{
b.sca.Z = 1;
}
if (node.xrot.HasAnimation() || node.yrot.HasAnimation() || node.zrot.HasAnimation())
{
if (node.rotType == RotationType.Quaternion)
{
KeyFrame[] x = node.xrot.GetFrame(frame);
KeyFrame[] y = node.yrot.GetFrame(frame);
KeyFrame[] z = node.zrot.GetFrame(frame);
KeyFrame[] w = node.wrot.GetFrame(frame);
Quaternion q1 = new Quaternion(x[0].Value, y[0].Value, z[0].Value, w[0].Value);
Quaternion q2 = new Quaternion(x[1].Value, y[1].Value, z[1].Value, w[1].Value);
if (x[0].Frame == frame)
{
b.rot = q1;
}
else
if (x[1].Frame == frame)
{
b.rot = q2;
}
else
{
b.rot = Quaternion.Slerp(q1, q2, (frame - x[0].Frame) / (x[1].Frame - x[0].Frame));
}
}
else
if (node.rotType == RotationType.Euler)
{
float x = node.xrot.HasAnimation() ? node.xrot.GetValue(frame) : b.rotation[0];
float y = node.yrot.HasAnimation() ? node.yrot.GetValue(frame) : b.rotation[1];
float z = node.zrot.HasAnimation() ? node.zrot.GetValue(frame) : b.rotation[2];
b.rot = EulerToQuat(z, y, x);
}
}
}
frame += 1f;
if (frame >= frameCount)
{
frame = 0;
}
if (!isChild && updated)
{
skeleton.update();
}
}
public static byte[] createOMO(SkelAnimation a, VBN vbn)
{
List <int> nodeid = a.GetNodes(true, vbn);
int startNode = 0;
int sizeNode = nodeid.Count;
FileOutput o = new FileOutput();
o.endian = Endianness.Big;
FileOutput t1 = new FileOutput();
t1.endian = Endianness.Big;
FileOutput t2 = new FileOutput();
t2.endian = Endianness.Big;
o.WriteString("OMO ");
o.WriteShort(1); //idk
o.WriteShort(3); //idk
o.WriteInt(0x091E100C); //flags??
o.WriteShort(0); //padding
o.WriteShort(sizeNode); // numOfNodes
o.WriteShort(a.frames.Count); // frame size
o.WriteShort(0); // frame start ??
o.WriteInt(0);
o.WriteInt(0);
o.WriteInt(0);
o.WriteIntAt(o.Size(), 0x14);
// ASSESSMENT
KeyNode[] minmax = new KeyNode[sizeNode];
bool[] hasScale = new bool[sizeNode];
bool[] hasTrans = new bool[sizeNode];
bool[] hasRot = new bool[sizeNode];
bool[] conScale = new bool[sizeNode];
bool[] conTrans = new bool[sizeNode];
bool[] conRot = new bool[sizeNode];
a.SetFrame(0);
List <List <Bone> > Frames = new List <List <Bone> >();
VBN tempvbn = new VBN();
for (int i = 0; i < a.Size(); i++)
{
a.NextFrame(vbn, true);
List <Bone> bonelist = new List <Bone>();
for (int j = 0; j < nodeid.Count; j++)
{
Bone node = getNodeId(vbn, nodeid[j]);
Bone f1 = new Bone(tempvbn);
f1.pos = node.pos;
f1.rot = node.rot;
f1.sca = node.sca;
bonelist.Add(f1);
if (minmax[j] == null)
{
hasRot[j] = false;
hasScale[j] = false;
hasTrans[j] = false;
KeyNode n = a.GetFirstNode(nodeid[j]);
if (n != null)
{
if (n.rType != -1)
{
hasRot[j] = true;
}
if (n.tType != -1)
{
hasTrans[j] = true;
}
if (n.sType != -1)
{
hasScale[j] = true;
}
}
minmax[j] = new KeyNode();
minmax[j].t = new Vector3(999f, 999f, 999f);
minmax[j].r = new Quaternion(999f, 999f, 999f, 999f);
minmax[j].s = new Vector3(999f, 999f, 999f);
minmax[j].t2 = new Vector3(-999f, -999f, -999f);
minmax[j].r2 = new Quaternion(-999f, -999f, -999f, -999f);
minmax[j].s2 = new Vector3(-999f, -999f, -999f);
}
if (node.pos.X < minmax[j].t.X)
{
minmax[j].t.X = node.pos.X;
}
if (node.pos.X > minmax[j].t2.X)
{
minmax[j].t2.X = node.pos.X;
}
if (node.pos.Y < minmax[j].t.Y)
{
minmax[j].t.Y = node.pos.Y;
}
if (node.pos.Y > minmax[j].t2.Y)
{
minmax[j].t2.Y = node.pos.Y;
}
if (node.pos.Z < minmax[j].t.Z)
{
minmax[j].t.Z = node.pos.Z;
}
if (node.pos.Z > minmax[j].t2.Z)
{
minmax[j].t2.Z = node.pos.Z;
}
// float[] fix = Node.fix360(node.nrx, node.nry, node.nrz);
//float[] f = Bone.CalculateRotation(node.nrx, node.nry, node.nrz);
Quaternion r = node.rot;
if (r.X < minmax[j].r.X)
{
minmax[j].r.X = r.X;
}
if (r.X > minmax[j].r2.X)
{
minmax[j].r2.X = r.X;
}
if (r.Y < minmax[j].r.Y)
{
minmax[j].r.Y = r.Y;
}
if (r.Y > minmax[j].r2.Y)
{
minmax[j].r2.Y = r.Y;
}
if (r.Z < minmax[j].r.Z)
{
minmax[j].r.Z = r.Z;
}
if (r.Z > minmax[j].r2.Z)
{
minmax[j].r2.Z = r.Z;
}
if (node.sca.X < minmax[j].s.X)
{
minmax[j].s.X = node.sca.X;
}
if (node.sca.X > minmax[j].s2.X)
{
minmax[j].s2.X = node.sca.X;
}
if (node.sca.Y < minmax[j].s.Y)
{
minmax[j].s.Y = node.sca.Y;
}
if (node.sca.Y > minmax[j].s2.Y)
{
minmax[j].s2.Y = node.sca.Y;
}
if (node.sca.Z < minmax[j].s.Z)
{
minmax[j].s.Z = node.sca.Z;
}
if (node.sca.Z > minmax[j].s2.Z)
{
minmax[j].s2.Z = node.sca.Z;
}
}
}
// NODE INFO
int t2Size = 0;
for (int i = 0; i < sizeNode; i++)
{
int flag = 0;
conRot[i] = false;
conScale[i] = false;
conTrans[i] = false;
// check for constant
if (minmax[i].t.Equals(minmax[i].t2))
{
conTrans[i] = true;
}
if (minmax[i].r.Equals(minmax[i].r2))
{
conRot[i] = true;
}
if (minmax[i].s.Equals(minmax[i].s2))
{
conScale[i] = true;
}
if (hasTrans[i])
{
flag |= 0x01000000;
}
if (hasRot[i])
{
flag |= 0x02000000;
}
if (hasScale[i])
{
flag |= 0x04000000;
}
if (conTrans[i] && hasTrans[i])
{
flag |= 0x00200000;
}
else
{
flag |= 0x00080000;
}
if (conRot[i] && hasRot[i])
{
flag |= 0x00007000;
}
else
{
flag |= 0x00005000;
}
if (conScale[i] && hasScale[i])
{
flag |= 0x00000200;
}
else
{
flag |= 0x00000080;
}
flag |= 0x00000001;
int hash = -1;
if (MainForm.hashes.names.ContainsKey(getNodeId(vbn, nodeid[i]).Text))
{
hash = (int)MainForm.hashes.names[getNodeId(vbn, nodeid[i]).Text];
}
//else hash = (int)FileData.crc12(getNodeId(vbn, nodeid[i]).Text);
o.WriteInt(flag); // flags...
o.WriteInt(hash); //hash
o.WriteInt(t1.Size()); // Offset in 1 table
o.WriteInt(t2Size); // Offset in 2 table
// calculate size needed
if (hasTrans[i])
{
t1.WriteFloat(minmax[i].t.X);
t1.WriteFloat(minmax[i].t.Y);
t1.WriteFloat(minmax[i].t.Z);
if (!conTrans[i])
{
minmax[i].t2.X -= minmax[i].t.X;
minmax[i].t2.Y -= minmax[i].t.Y;
minmax[i].t2.Z -= minmax[i].t.Z;
t1.WriteFloat(minmax[i].t2.X);
t1.WriteFloat(minmax[i].t2.Y);
t1.WriteFloat(minmax[i].t2.Z);
t2Size += 6;
}
}
if (hasRot[i])
{
t1.WriteFloat(minmax[i].r.X);
t1.WriteFloat(minmax[i].r.Y);
t1.WriteFloat(minmax[i].r.Z);
if (!conRot[i])
{
minmax[i].r2.X -= minmax[i].r.X;
minmax[i].r2.Y -= minmax[i].r.Y;
minmax[i].r2.Z -= minmax[i].r.Z;
t1.WriteFloat(minmax[i].r2.X);
t1.WriteFloat(minmax[i].r2.Y);
t1.WriteFloat(minmax[i].r2.Z);
t2Size += 6;
}
}
if (hasScale[i])
{
t1.WriteFloat(minmax[i].s.X);
t1.WriteFloat(minmax[i].s.Y);
t1.WriteFloat(minmax[i].s.Z);
if (!conScale[i])
{
minmax[i].s2.X -= minmax[i].s.X;
minmax[i].s2.Y -= minmax[i].s.Y;
minmax[i].s2.Z -= minmax[i].s.Z;
t1.WriteFloat(minmax[i].s2.X);
t1.WriteFloat(minmax[i].s2.Y);
t1.WriteFloat(minmax[i].s2.Z);
t2Size += 6;
}
}
}
o.WriteIntAt(o.Size(), 0x18);
o.WriteOutput(t1);
o.WriteIntAt(o.Size(), 0x1C);
// INTERPOLATION
//a.setFrame(0);
bool go = false;
foreach (List <Bone> bonelist in Frames)
{
//a.nextFrame(vbn);
int j = 0;
foreach (Bone node in bonelist)
{
//Bone node = getNodeId(vbn, nodeid[j]);
if (hasTrans[j] && !conTrans[j])
{
t2.WriteShort((int)(((node.pos.X - minmax[j].t.X) / minmax[j].t2.X) * 0xFFFF));
t2.WriteShort((int)(((node.pos.Y - minmax[j].t.Y) / minmax[j].t2.Y) * 0xFFFF));
t2.WriteShort((int)(((node.pos.Z - minmax[j].t.Z) / minmax[j].t2.Z) * 0xFFFF));
}
if (hasRot[j] && !conRot[j])
{
// float[] fix = Node.fix360(node.nrx, node.nry, node.nrz);
//float[] f = CalculateRotation(node.nrx, node.nry, node.nrz);
Quaternion r = node.rot;
t2.WriteShort((int)(((r.X - minmax[j].r.X) / minmax[j].r2.X) * 0xFFFF));
t2.WriteShort((int)(((r.Y - minmax[j].r.Y) / minmax[j].r2.Y) * 0xFFFF));
t2.WriteShort((int)(((r.Z - minmax[j].r.Z) / minmax[j].r2.Z) * 0xFFFF));
}
if (hasScale[j] && !conScale[j])
{
t2.WriteShort((int)(((node.sca.X - minmax[j].s.X) / minmax[j].s2.X) * 0xFFFF));
t2.WriteShort((int)(((node.sca.Y - minmax[j].s.Y) / minmax[j].s2.Y) * 0xFFFF));
t2.WriteShort((int)(((node.sca.Z - minmax[j].s.Z) / minmax[j].s2.Z) * 0xFFFF));
}
j++;
}
if (!go)
{
o.WriteShortAt(t2.Size(), 0x12);
go = true;
}
}
o.WriteOutput(t2);
return(o.GetBytes());
}
public void RenderHurtboxes(float frame, int scriptId, ForgeAcmdScript acmdScript, VBN vbn)
{
if (Hurtboxes.Count > 0)
{
GL.Enable(EnableCap.DepthTest);
GL.Enable(EnableCap.Blend);
if (acmdScript != null)
{
if (acmdScript.BodyIntangible)
{
return;
}
}
if (scriptId != -1)
{
if (frame + 1 >= MovesData[scriptId].IntangibilityStart && frame + 1 < MovesData[scriptId].IntangibilityEnd)
{
return;
}
}
foreach (var pair in Hurtboxes)
{
var h = pair.Value;
if (!h.Visible)
{
continue;
}
var va = new Vector3(h.X, h.Y, h.Z);
Bone b = ForgeAcmdScript.GetBone(h.Bone, vbn);
if (b == null)
{
continue;
}
if (acmdScript != null)
{
if (acmdScript.IntangibleBones.Contains(h.Bone))
{
continue;
}
}
//va = Vector3.Transform(va, b.transform);
GL.Color4(Color.FromArgb(Runtime.hurtboxAlpha, Runtime.hurtboxColor));
if (Runtime.renderHurtboxesZone)
{
switch (h.Zone)
{
case Hurtbox.LwZone:
GL.Color4(Color.FromArgb(Runtime.hurtboxAlpha, Runtime.hurtboxColorLow));
break;
case Hurtbox.NZone:
GL.Color4(Color.FromArgb(Runtime.hurtboxAlpha, Runtime.hurtboxColorMed));
break;
case Hurtbox.HiZone:
GL.Color4(Color.FromArgb(Runtime.hurtboxAlpha, Runtime.hurtboxColorHi));
break;
}
}
if (acmdScript != null)
{
if (acmdScript.SuperArmor)
{
GL.Color4(Color.FromArgb(Runtime.hurtboxAlpha, 0x73, 0x0a, 0x43));
}
if (acmdScript.BodyInvincible)
{
GL.Color4(Color.FromArgb(Runtime.hurtboxAlpha, Color.White));
}
if (acmdScript.InvincibleBones.Contains(h.Bone))
{
GL.Color4(Color.FromArgb(Runtime.hurtboxAlpha, Color.White));
}
}
var va2 = new Vector3(h.X2, h.Y2, h.Z2);
//if (h.Bone != -1)va2 = Vector3.Transform(va2, b.transform);
if (h.IsSphere)
{
Rendering.ShapeDrawing.DrawSphereTransformedVisible(va, h.Size, 30, b.transform);
}
else
{
Rendering.ShapeDrawing.DrawReducedCylinderTransformed(va, va2, h.Size, b.transform);
}
if (Runtime.SelectedHurtboxId == h.Id)
{
GL.Color4(Color.FromArgb(Runtime.hurtboxAlpha, Runtime.hurtboxColorSelected));
if (h.IsSphere)
{
Rendering.ShapeDrawing.DrawWireframeSphereTransformedVisible(va, h.Size, 20, b.transform);
}
else
{
Rendering.ShapeDrawing.DrawWireframeCylinderTransformed(va, va2, h.Size, b.transform);
}
}
}
GL.Disable(EnableCap.Blend);
GL.Disable(EnableCap.DepthTest);
}
}
public static void createOMO(Animation a, VBN vbn, String fname)
{
File.WriteAllBytes(fname, CreateOMOFromAnimation(a, vbn));
}
public static Bone getNodeId(VBN vbn, int node)
{
return(vbn.bones[node]);
}
public void NextFrame(VBN vbn, bool isChild = false)
{
if (frame >= frames.Count)
{
return;
}
if (frame == 0 && (!isChild || children.Count > 0))
{
vbn.reset();
/*foreach (ModelContainer con in Runtime.ModelContainers)
* {
* if (con.NUD != null && con.mta != null)
* {
* con.NUD.applyMTA(con.mta, 0);
* }
* }*/
}
foreach (object child in children)
{
if (child is SkelAnimation)
{
((SkelAnimation)child).SetFrame(frame);
((SkelAnimation)child).NextFrame(vbn, isChild: true);
}
if (child is MTA)
{
/*foreach(ModelContainer con in Runtime.ModelContainers)
* {
* if(con.NUD != null)
* {
* con.NUD.applyMTA(((MTA)child), frame);
* }
* }*/
}
}
KeyFrame key = frames[frame];
foreach (KeyNode n in key.nodes)
{
//if (n.id == -1)
// continue;
//if (n.hash == 0) {
//continue;
//n.hash = vbn.bones [n.id].boneId;
//}
int id = -1;
foreach (Bone bo in vbn.bones)
{
if (bo.boneId == n.hash)
{
id = vbn.bones.IndexOf(bo);
n.id = id;
break;
}
}
if (id == -1)
{
continue;
}
Bone b = vbn.bones[id];
if (n.tType != -1)// !b.isSwingBone)
{
b.pos = n.t;
}
// We don't do the same swingBone check on rotation because as of yet
// I have not seen an example of the rotation data being garbage, and it's
// actually used properly in the animations - Struz
if (n.rType != -1)
{
if (b.Text.Equals("HeadN"))
{
//Console.WriteLine(b.transform.ExtractRotation().ToString());
//Console.WriteLine(VBN.FromEulerAngles(b.rotation[0], b.rotation[1], b.rotation[2]).ToString());
//Console.WriteLine(n.r.ToString() + " " + Math.Sqrt(n.r.X* n.r.X + n.r.Y* n.r.Y + n.r.Z* n.r.Z + n.r.W*n.r.W) + " " + n.r.Normalized().ToString());
}
//Console.WriteLine(new string(b.boneName) + " " + b.rot.ToString() + " " + n.r.ToString() + "\n" + (n.r.X + n.r.Y + n.r.X + n.r.W));
b.rot = n.r;
}
if (n.sType != -1)
{
b.sca = n.s;
}
else
{
b.sca = new Vector3(b.scale[0], b.scale[1], b.scale[2]);
}
}
frame++;
if (frame >= frames.Count)
{
frame = 0;
}
vbn.update();
}
