public static void process(FileData d, int type, int secOff, Animation.KeyNode node, String part, bool debug, Animation a)
{
int offset = d.readInt() + secOff;
int temp = d.pos();
d.seek(offset);
int max = 0;
int fCount = -1;
float scale = 0;
float[] frame = null, step = null, tan = null;
if (type == 0x1)
{
fCount = d.readShort();
d.skip(2);
scale = d.readFloat();
float stepb = d.readFloat();
float base2 = d.readFloat();
frame = new float[fCount];
step = new float[fCount];
tan = new float[fCount];
for (int i = 0; i < fCount; i++)
{
frame[i] = d.readByte();
int th = d.readThree();
step[i] = base2 + ((th >> 12) & 0xfff) * stepb;
tan[i] = (FileData.sign12Bit(th & 0xfff) / 32f);
if (frame[i] > max)
{
max = (int)frame[i];
}
}
}
if (type == 0x2)
{
fCount = d.readShort();
d.skip(2);
scale = d.readFloat();
float stepb = d.readFloat();
float base2 = d.readFloat();
frame = new float[fCount];
step = new float[fCount];
tan = new float[fCount];
for (int i = 0; i < fCount; i++)
{
frame[i] = d.readShort() / 32f;
step[i] = base2 + d.readShort() * stepb;
tan[i] = ((short)d.readShort() / 256f);
if (frame[i] > max)
{
max = (int)frame[i];
}
}
}
if (type == 0x3)
{
//if(debug)
//System.out.println(part + "\tInterpolated 12 " + Integer.toHexString(offset));
fCount = d.readShort();
d.skip(2);
scale = d.readFloat();
frame = new float[fCount];
step = new float[fCount];
tan = new float[fCount];
for (int i = 0; i < fCount; i++)
{
frame[i] = d.readFloat();
step[i] = d.readFloat();
tan[i] = d.readFloat();
if (frame[i] > max)
{
max = (int)frame[i];
}
}
}
//a.FrameCount = max;
float degrad = (float)(Math.PI / 180f);
if (frame != null)
{
for (int i = 0; i < fCount; i++)
{
Animation.KeyFrame f = new Animation.KeyFrame();
f.InterType = Animation.InterpolationType.HERMITE;
f.Value = step[i];
f.Frame = frame[i];
f.In = tan[i];
switch (part)
{
case "RX":
f.Value = step[i] * degrad;
node.XROT.Keys.Add(f);
f.Degrees = true;
break;
case "RY":
f.Value = step[i] * degrad;
node.YROT.Keys.Add(f);
f.Degrees = true;
break;
case "RZ":
f.Value = step[i] * degrad;
node.ZROT.Keys.Add(f);
f.Degrees = true;
break;
case "X":
node.XPOS.Keys.Add(f);
break;
case "Y":
node.YPOS.Keys.Add(f);
break;
case "Z":
node.ZPOS.Keys.Add(f);
break;
case "SX":
node.XSCA.Keys.Add(f);
break;
case "SY":
node.YSCA.Keys.Add(f);
break;
case "SZ":
node.ZSCA.Keys.Add(f);
break;
}
}
}
if (type == 0x4)
{
float stepb = d.readFloat();
float base2 = d.readFloat();
for (int i = 0; i < a.FrameCount; i++)
{
float v = base2 + stepb * (d.readByte());
Animation.KeyFrame f = new Animation.KeyFrame();
f.InterType = Animation.InterpolationType.LINEAR;
f.Value = v;
f.Frame = i;
switch (part)
{
case "RX":
f.Value = v * degrad;
node.XROT.Keys.Add(f);
break;
case "RY":
f.Value = v * degrad;
node.YROT.Keys.Add(f);
break;
case "RZ":
f.Value = v * degrad;
node.ZROT.Keys.Add(f);
break;
case "X":
node.XPOS.Keys.Add(f);
break;
case "Y":
node.YPOS.Keys.Add(f);
break;
case "Z":
node.ZPOS.Keys.Add(f);
break;
case "SX":
node.XSCA.Keys.Add(f);
break;
case "SY":
node.YSCA.Keys.Add(f);
break;
case "SZ":
node.ZSCA.Keys.Add(f);
break;
}
}
}
if (type == 0x6)
{
for (int i = 0; i < a.FrameCount; i++)
{
float v = d.readFloat();
Animation.KeyFrame f = new Animation.KeyFrame();
f.InterType = Animation.InterpolationType.LINEAR;
f.Value = v;
f.Frame = i;
switch (part)
{
case "RX":
f.Value = v * degrad;
node.XROT.Keys.Add(f);
break;
case "RY":
f.Value = v * degrad;
node.YROT.Keys.Add(f);
break;
case "RZ":
f.Value = v * degrad;
node.ZROT.Keys.Add(f);
break;
case "X":
node.XPOS.Keys.Add(f);
break;
case "Y":
node.YPOS.Keys.Add(f);
break;
case "Z":
node.ZPOS.Keys.Add(f);
break;
case "SX":
node.XSCA.Keys.Add(f);
break;
case "SY":
node.YSCA.Keys.Add(f);
break;
case "SZ":
node.ZSCA.Keys.Add(f);
break;
}
}
}
d.seek(temp);
}
public static void process(FileData d, int type, int secOff, SkelAnimation anim, String part, int nid, bool debug, VBN vbn)
{
int offset = d.readInt() + secOff;
int temp = d.pos();
d.seek(offset);
// System.out.println(d.pos());
int max = 0;
int fCount = -1;
float scale = 0;
float[] frame = null, step = null, tan = null;
if (type == 0x1)
{
fCount = d.readShort();
d.skip(2);
scale = d.readFloat();
float stepb = d.readFloat();
float base2 = d.readFloat();
frame = new float[fCount];
step = new float[fCount];
tan = new float[fCount];
for (int i = 0; i < fCount; i++)
{
frame[i] = d.readByte();
int th = d.readThree();
step[i] = base2 + ((th >> 12) & 0xfff) * stepb;
tan[i] = (FileData.sign12Bit(th & 0xfff) / 32f);
if (frame[i] > max)
{
max = (int)frame[i];
}
}
}
if (type == 0x2)
{
//if(debug)
//System.out.println(part + "\tInterpolated 6\t" + Integer.toHexString(offset));
fCount = d.readShort();
d.skip(2);
scale = d.readFloat();
float stepb = d.readFloat();
float base2 = d.readFloat();
frame = new float[fCount];
step = new float[fCount];
tan = new float[fCount];
for (int i = 0; i < fCount; i++)
{
frame[i] = d.readShort() / 32f;
step[i] = base2 + d.readShort() * stepb;
tan[i] = ((short)d.readShort() / 256f);
if (frame[i] > max)
{
max = (int)frame[i];
}
}
}
if (type == 0x3)
{
//if(debug)
//System.out.println(part + "\tInterpolated 12 " + Integer.toHexString(offset));
fCount = d.readShort();
d.skip(2);
scale = d.readFloat();
frame = new float[fCount];
step = new float[fCount];
tan = new float[fCount];
for (int i = 0; i < fCount; i++)
{
frame[i] = d.readFloat();
step[i] = d.readFloat();
tan[i] = d.readFloat();
if (frame[i] > max)
{
max = (int)frame[i];
}
}
}
if (frame != null)
{
generateInter(anim, max, nid, part, frame, tan, step, vbn);
}
if (type == 0x4)
{
//if(debug)
//System.out.println(part + "\tLkin 1 " + Integer.toHexString(offset) + " " + anim.size());
float stepb = d.readFloat();
float base2 = d.readFloat();
for (int i = 0; i < anim.size(); i++)
{
KeyNode n = anim.getNode(i, nid);
if (part.Contains("R"))
{
n.r_type = 1;
}
else
if (part.Contains("S"))
{
n.s_type = 1;
}
else
{
n.t_type = 1;
}
float v = base2 + stepb * (d.readByte());
// float f = d.readFloat();
// System.out.println(stepb + " " + base + " " + (byte)d.readByte());
switch (part)
{
case "RX":
n.r.X = (float)(Math.PI / 180f) * (v);
break;
case "RY":
n.r.Y = (float)(Math.PI / 180f) * (v);
break;
case "RZ":
n.r.Z = (float)(Math.PI / 180f) * (v);
break;
case "X":
n.t.X = v;
break;
case "Y":
n.t.Y = v;
break;
case "Z":
n.t.Z = v;
break;
case "SX":
n.s.X = v;
break;
case "SY":
n.s.Y = v;
break;
case "SZ":
n.s.Z = v;
break;
}
}
// System.out.println(d.pos());
}
if (type == 0x6)
{
//if(debug)
//System.out.println(part + "\tLin 4");
for (int i = 0; i < anim.size(); i++)
{
KeyNode n = anim.getNode(i, nid);
if (part.Contains("R"))
{
n.r_type = 1;
}
else
if (part.Contains("S"))
{
n.s_type = 1;
}
else
{
n.t_type = 1;
}
float v = d.readFloat();
switch (part)
{
case "RX":
n.r.X = (float)(Math.PI / 180) * (v);
break;
case "RY":
n.r.Y = (float)(Math.PI / 180) * (v);
break;
case "RZ":
n.r.Z = (float)(Math.PI / 180) * (v);
break;
case "X":
n.t.X = v;
break;
case "Y":
n.t.Y = v;
break;
case "Z":
n.t.Z = v;
break;
case "SX":
n.s.X = v;
break;
case "SY":
n.s.Y = v;
break;
case "SZ":
n.s.Z = v;
break;
}
}
}
d.seek(temp);
}
