OBD:OBAN: Difference between revisions
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{{OBD_File_Footer | type=OBAN | prev=Mtrl | next=OBDC | name=Object Animation | family=Level | align=center}} | {{OBD_File_Footer | type=OBAN | prev=Mtrl | next=OBDC | name=Object Animation | family=Level | align=center}} | ||
{{OBD}} | |||
Revision as of 00:14, 18 July 2010
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| Offset | Type | Raw Hex | Value | Description | ||||||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 0x00 | res_id | 01 86 00 00 | 134 | 00134-Blackvan_FB.OBAN | ||||||||||||||||||||||||
| 0x04 | lev_id | 01 00 00 06 | 3 | level 3 | ||||||||||||||||||||||||
| 0x08 | char[12] | 00 00 00 00 | 0 | padding | ||||||||||||||||||||||||
| 0x14 | int32 | 00 00 00 00 | 0 | flags; used values:
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| 0x18 | matrix |
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initial position transform matrix | ||||||||||||||||||||||||
| 0x48 | matrix |
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fixed transform matrix | ||||||||||||||||||||||||
| 0x78 | int16 | 50 00 | 80 | fubared animation frame length (in 1/60 seconds); does not work | ||||||||||||||||||||||||
| 0x7A | int16 | F5 01 | 501 | animation length in frames | ||||||||||||||||||||||||
| 0x7C | int16 | 00 00 | 0 | stop frame for the first "half" of the animation; used by door animations to distinguish between open and close sequences | ||||||||||||||||||||||||
| 0x7E | int16 | 65 00 | 10 | 101 keyframes in array | ||||||||||||||||||||||||
| First keyframe (black outline) | ||||||||||||||||||||||||||||
| 0x00 | quaternion |
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object rotation | ||||||||||||||||||||||||
| 0x10 | vector |
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object position | ||||||||||||||||||||||||
| 0x1C | int32 | 00 00 00 00 | 0 | elapsed time in frames | ||||||||||||||||||||||||
- Transform matrices
- Like all matrices in Oni, they are composed of 3 vectors defining rotation/scaling/shearing and a 4th vector defining a translation.
- In the above table the 4 vectors are presented as rows (Direct 3D convention), although OpenGL and Oni use them as columns.
- Affine transformations use a 4x4 matrix with 4 extra coefficients (in the presentation above, one would add one column on the right):
- three projection transform coefficients (all of them are zero here); one final coefficient (always 1.0 for an affine transform matrix).
- Alternatively, one can think of the 3x4 matrix as a 3x3 rotation/scaling matrix and a position vector
- Let X=(x, y, z) be the position of a vertex in the M3GM
- Let M=(m11, m21, m31; m12, m22, m32; m13, m23, m33) be the 3x3 matrix
- Let R=(m14, m24, m34) be the translation vector
- Then the absolute position of the vertex in the 3D world will be: X M + R
- (left multiplication is used because of the row-major notation above)
- Initial transform matrix
- It is used to position the object in the environment before the animation is played.
- When the animation is played, they use the fixed transform matrix and a quaternion.
- Fixed transform matrix
- This transformation is applied before the quaternion+position transform at every keyframe.
- The only transform that can't be handled by the quaternion+position is scaling/mirroring.
- Thus, the fixed transform is a scaling matrix most of the time (no rotation or translation).
- In the above example, the fixed transform scales the van up by 1.82 (along all three axes).
- Quaternions
- Those are used in Oni whenever interpolation of 3D rotation is involved (e.g., TRAM rotation)
- In this case, rotation at intermediate frames is interpolated from the keyframe quaternions.
| ONI BINARY DATA |
|---|
| Mtrl << Other file types >> OBDC |
| OBAN : Object Animation |
| Level file |