Difference between revisions of "Internal Animation Format"

Revision as of 09:24, 29 June 2022

Tools

If you're coming here to find out about how to take advantage of Second Life's internal animation format (.anim), you may find the below tools of use.

.anim file format utilities
Name	Notes
Anim-converter	Converts .bvh files into Second Life .anim files.
Anim2BVH	Inverse of the above, converts .anim files into .bvh files.
Anim Hacker	Tool for manipulating .anim files. Can be used to edit joint priorities, add constraints, and more!
AnimMaker	Older tool, equivalent to AnimHacker. (Source Code available in archive)

Overview

From a programming perspective, there are several steps to uploading an animation from a BVH (BioVision Hierarchy) file:

Read and parse the BVH file, creating an LLKeyframeMotion object containing the motion data.
Gather input from the user (via the upload preview floater) for things like animation priority, facial expression, and looping; these settings are stored in the LLKeyframeMotion object.
Serialize the LLKeyframeMotion object as LLSD.
Upload the serialized data to the asset server.

Before other viewers can play an animation, they must:

Download the serialized data from the asset server.
Deserialize it to an LLKeyframeMotion object.

Relevant source files:

Note: the binary file is little endian.

Header

The first part of the animation data is a header describing various details about the animation as a whole. The elements, in order, are:

field name	LLSD type	C++ type	Note
version	integer	U16
sub_version	integer	U16
base_priority	integer	S32	Is informational only, and does not affect the animation. The animation system always follows individual joint priority.
duration	real	F32
emote_name	string	char *	NULL-terminated character sequence
loop_in_point	real	F32
loop_out_point	real	F32
loop	integer	S32	0: not looped, 1: looped
ease_in_duration	real	F32
ease_out_duration	real	F32
hand_pose	integer	U32	Enum defined in [1]
num_joints	integer	U32

Joint Data

After the header is data for each joint in the skeleton: Note: Unused bones need not be included in the file.

field name	description	LLSD type	C++ type	Note
joint_name		string	char *	NULL-terminated character sequence
joint_priority		integer	S32

Joint Rotation Keys

At the start of the rotation data for each bone is the total number of rotation keys: If the bone has no rotation based keyframes, this value must be 0.

field name	description	LLSD type	C++ type	Note
num_rot_keys		integer	S32

Then, for each rotation key:

Note: These three values X Y Z appear to be the first three values of a truncated quaternion with the W term being calculated afterwards. Since a quaternion is X² + Y² + Z² + W² = 1 as long as you assume the W term has a consistent sign the X Y Z terms will be accurate.

field name	LLSD type	C++ type	Note
time	integer	U16	0: first frame, 65535: last frame
rot_x	integer	U16	0:-1, 32767:0, 65535:+1
rot_y	integer	U16
rot_z	integer	U16

Joint Position Keys

At the start of the position data is the total number of position keys: If the bone has no position based animations, this value must be 0.

field name	description	LLSD type	C++ type	Note
num_pos_keys		integer	S32

Then, for each position key, position data is measured from Avatar Center ( mPelvis ), not joint resting position ( IE [0,0,0] is not joint resting position, it'll be the bone's position in parent coordinate space) with the exception of the mPelvis bone which is stored in world space coordinates.:

field name	description	LLSD type	C++ type	Note
time		integer	U16	0: first frame, 65535: last frame
pos_x	position measured from avatar root, not joint offset	integer	U16	0:-5m, 32767:0m, 65535:+5m (m for metres)
pos_y		integer	U16
pos_z		integer	U16

Constraints

After the joint data are a number of entries for joint constraints. Constraints can target an avatar's parts in relation to each other or the ground (IK).

field name	description	LLSD type	C++ type	Note
num_constraints		integer	S32

Then, for each joint constraint:

field name	description	LLSD type	C++ type	Note
chain_length		integer	U8	number of attached joints to include
constraint_type		integer	U8	0: point*, 1: plane
source_volume	skeleton collision volume name	string	char[16]	Always 16 bytes, but if shorter, it's interpreted as NULL-terminated and the remaining bytes ignored.
source_offset		string (?)	LLVector3
target_volume	skeleton collision volume name	string	char[16]	Always 16 bytes, but if shorter, it's interpreted as NULL-terminated and the remaining bytes ignored.
target_offset		string (?)	LLVector3
target_dir		string (?)	LLVector3	value is currently ignored
ease_in_start		real	F32
ease_in_stop		real	F32
ease_out_start		real	F32
ease_out_stop		real	F32

* The implementation of constraint type Point is incomplete, and is considered non-functional. Until further notice, all constraints should use the Plane type.

@@ Line 18: / Line 18: @@
 |-
 | [https://github.com/LGGGreg/par/releases/tag/v1 '''AnimMaker''']
-| Older tool, equivalent to AnimHacker.
+| Older tool, equivalent to AnimHacker. ([http://web.archive.org/web/20100526180459/http://code.google.com/p/par/source/browse#svn/branches/AnimMaker Source Code available in archive])
 |}