OBD:TRAM

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ONI BINARY DATA
TRAC << Other file types >> TRAS
TRAM : Totoro Animation Sequence
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Offset Type Raw Hex Value Description
0x000 res_id 01 49 07 00 1532 01865-KONCOMpunch_heavy.TRAM
0x004 lev_id 01 00 00 00 0 level 0
0x008 int32 00 00 00 00 0 runtime only; pointer to animation name
0x00C offset A0 B4 80 00 0x0080B4A0 .raw-address of the height track (Y-position of the pelvis above the root)
0x010 offset E0 B5 80 00 0x0080B5E0 .raw-address of the horizontal velocities of the character root
0x014 offset 60 B8 80 00 0x0080B860 .raw-address of the attack part
0x018 offset 00 00 00 00 unused .raw-address of the damage part (used only by "_tgt" animations (throw targets/victims)
0x01C offset A0 B8 80 00 0x0080B8A0 .raw-address of the motion blur part
0x020 offset C0 B8 80 00 0x0080B8C0 .raw-address of the shortcut data
0x024 offset 00 00 00 00 unused .raw-address of the throw data
0x028 offset E0 B8 80 00 0x0080B8E0 .raw-address of the footstep data
0x02C offset 00 B9 80 00 0x0080B900 .raw-address of the particle data (trails, dust, etc.)
0x030 offset 60 B9 80 00 0x0080B960 .raw-address of the position data (for basic prediction) )
0x034 offset 00 BD 80 00 0x0080BD00 .raw-address of the rotations (of all body parts)
0x038 offset 00 00 00 00 unused .raw-address of the sound data
0x03C bitset32 90 00 08 00 attack, atomic, dontAim flags; same as listed in StNAanim_flags; the bits are as follows:
0x01 00 00 00 - private1 (used at runtime only; marks that the animation was loaded)
0x02 00 00 00 - invulnerable
0x04 00 00 00 - blockHigh
0x08 00 00 00 - blockLow
0x10 00 00 00 - attack
0x20 00 00 00 - dropWeapon
0x40 00 00 00 - inAir
0x80 00 00 00 - atomic
0x00 01 00 00 - noTurn
0x00 02 00 00 - attackForward
0x00 04 00 00 - attackLeft
0x00 08 00 00 - attackRight
0x00 10 00 00 - attackBackward
0x00 20 00 00 - overlay
0x00 40 00 00 - dontInterpolateVelocity
0x00 80 00 00 - throwSource
0x00 00 01 00 - throwTarget
0x00 00 02 00 - realWorld
0x00 00 04 00 - doAim
0x00 00 08 00 - dontAim
0x00 00 10 00 - canPickup
0x00 00 20 00 - aim360
0x00 00 40 00 - disableShield
0x00 00 80 00 - noAIPickup
0x040 link 00 00 00 00 unused direct animation 0 (link to another TRAM file)
0x044 link 00 00 00 00 unused direct animation 1 (link to another TRAM file)
0x048 bitset32 00 00 00 00 0 used body parts; for original 19-bone hierarchy the bit layout is as follows:
0x00000001 - pelvis
0x00000002 - left thigh
0x00000004 - left calf
0x00000008 - left foot
0x00000010 - right thigh
0x00000020 - right calf
0x00000040 - right foot
0x00000080 - mid
0x00000100 - chest
0x00000200 - neck
0x00000400 - head
0x00000800 - left shoulder
0x00001000 - left arm
0x00002000 - left wrist
0x00004000 - left fist
0x00008000 - right shoulder
0x00010000 - right arm
0x00020000 - right wrist
0x00040000 - right fist

Aiming screen TRAMs "use" several bones here. Other overlay TRAMs use only "chest". Non-overlay TRAMs use none.

0x04C bitset32 00 00 00 00 0 replaced parts; same bitset layout as above; only overlay TRAMs other than aiming-screen ones "replace" parts.
0x050 float 00 00 00 00 0.000000 final rotation in radians (for anims that make you turn)
0x054 int16 01 00 1 main attack direction; the following directions are possible:
0 - none
1 - forward
2 - backward
3 - left
4 - right
0x056 uint16 06 00 6 = superpunch vocalization type (-1 if unused); references one of the 10 vocalization slots in ONCC
0 - taunt
1 - alert
2 - startle
3 - checkbody
4 - pursue
5 - cower
6 - superpunch
7 - superkick
8 - super3
9 - super4

In this case the value 6 triggers Konoko's "superpunch" vocalization, "Rising fury!"

Extent info
0x058 float 8D 87 CF 41 25.941187 max horizontal extent of the attack
0x05C float DE E9 1A 40 2.420524 min Y of the attack
0x060 float 95 34 D3 41 26.400675 max Y of the attack
0x064 float 8D 87 CF 41 25.941187 max horizontal extent at 0° (front)
... ... ... ... ...
0x088 float DF 37 87 40 4.225570 max horizontal extent at 90° (left)
... ... ... ... ...
0x0AC float 5A D8 6D 40 3.716330 max horizontal extent at 180° (back)
... ... ... ... ...
0x0D0 float 98 95 E3 40 7.112011 max horizontal extent at 270° (right)
... ... ... ... ...
0x0F0 float 8D 87 CF 41 25.941187 max horizontal extent at 350°
First extent info - information about the first extent in the extent part
0x0F4 int16 05 00 5 frame; -1 if the attack part does not exist
0x0F6 int8 00 0 attack index; always 0
0x0F7 int8 00 0 attack frame offset; always 0
0x0F8 float 00 00 00 BF -0.500000 x location of the pelvis
0x0FC float 1E 85 6B BF -0.920000 z location of the pelvis
0x100 float 19 47 0C 41 8.767358 y location of the pelvis
0x104 float EB 51 F0 40 7.510000 extent length
0x108 float D7 A3 14 41 9.290000 extent min Y
0x10C float 0A D7 3B 41 11.740000 extent max Y
0x110 float 5E 93 BF 40 5.986739 extent angle (in radians)
Farthest extent info - information about the farthest reaching extent in the extent part
0x114 int16 2F 00 47 frame; -1 if there is no attack part of if the animation is for a throw target/victim ("_tgt")
0x116 int8 01 1 attack index to which the max extent belongs
0x117 int8 16 22 attack frame offset from the attack with index 0
0x118 float 85 EB 51 BF -1.850000 x location of the pelvis
0x11C float E1 7A 7C C1 -3.900000 z location of the pelvis
0x120 float 69 61 BF 40 16.874636 y location of the pelvis
0x124 float 70 3D 22 41 10.510000 extent length
0x128 float 47 E1 3A 40 8.860000 extent min Y
0x12C float 33 33 DB 40 18.460000 extent max Y
0x130 float F7 C0 2E 3E 0.055320 extent angle
End max extent info
0x134 int32 00 00 00 00 0 alternative move direction; used only when the previous move direction field is 0, that means never
0x138 int32 18 00 00 00 24 number of elements in the extent part
0x13C offset E0 BB 80 00 00 80 BB E0 at this position starts the extent part in the raw file
End extent info
0x140 char[16] konflash1 impact particle name (reference to 01018-.ONIA, which is called up in the ONCC file)
0x150 uint16 00 00 0 hard pause in game ticks (1/60 seconds)
0x152 uint16 12 00 18 soft pause in game ticks (1/60 seconds)
0x154 int32 00 00 00 00 0 number of elements in the sound part
0x158 int32 00 00 00 00 0 runtime only; pointer to the sound for this animation (initialised from SABD)
0x15C int16 00 00 0 runtime only; sound start frame (initialised from SABD)
0x15E int16 3C 00 60 animation frame rate (typically 60 frames per second)
0x160 int16 06 00 6 compression size
0x162 int16 16 00 22 animation type (from anim_types.StNA)
0x164 int16 16 00 22 aiming type
0x166 int16 00 00 0 from state
0x168 int16 07 00 7 to state
0x16A int16 13 00 19 number of bodyparts
0x16C int16 50 00 80 number of frames (at possibly custom frame rate)
0x16E int16 50 00 80 duration in game ticks (1/60 seconds)
0x170 bitset16 00 02 0x0200 = COM variant, the following bits are possible (values in hex):
0x0100 - "sprint" (SPRint animation)
0x0200 - "fight" (COMbat animation)
0x0400 - "shoulder" (not used by the engine; possibly for rocket launchers)
0x0800 - "righty pistol" (PIStol animation)
0x1000 - "lefty pistol" (NINja PIStol animation)
0x2000 - "righty rifle" (RIFle animation)
0x4000 - "lefty rifle" (NINja RIFle animation)
0x8000 - "panic" (PANic or SCRamble animation)
0x172 char[2] AD DE dead "varient end"; ignored by the engine
0x174 uint16 00 00 0 atomic start
0x176 uint16 FF FF 65535 atomic end
0x178 uint16 00 00 0 end interpolation
0x17A uint16 FF FF 65535 maximal interpolation
0x17C uint16 FF FF 65535 action frame
0x17E uint16 0A 00 10 first level where the animation is available
0x180 uint8 01 1 first "invulnerable" frame
0x181 uint8 1C 28 last "invulnerable" frame
0x182 uint8 02 2 number of elements in the attack part
0x183 uint8 00 0 number of elements in the take damage part
0x184 uint8 01 1 number of elements in the motion blur part
0x185 uint8 01 1 number of elements in the shortcut part
0x186 uint8 02 2 number of elements in the footstep part
0x187 uint8 04 4 number of elements in the particle part
0x188 char[24] AD DE dead unused (not part of the template)

Animation timeline

NOTE: The following assumes animation data sampled at 60 frames per second (i.e., in sync with game ticks). Different frame rates have not been studied, and OniSplit only works with 60 fps TRAMs.

The duration of an animation in game ticks is equal to the number of frames covered by the main animation data, i.e., it extends one tick past the last keyframe of the height track or rotation tracks. Over this last tick, the pelvis height and bone rotations are interpolated to the values supplied by the first frame of the following animation, whereas the horizontal position is advanced using the last velocity entry of the current animation.

Thus an important note about looping animations is that the poses at the start and end of an animation (a combination of height, bone rotation and the accumulated horizontal velocity) are generally not identical, but rather one tick apart. The same applies to animation pairs (locomotion loops) or any matching animation sequences (e.g., combos).

For the current example (KONCOMpunch_heavy), the duration is 80 ticks, and the main animation tracks are as follows:

  • The height track has 80 entries that are used to place the character vertically at every tick, starting at tick 0 and ending at tick 79. At tick 80, i.e., at the end of the current animation's duration, the height is supplied by the next animation. Between ticks 79 and 80, the height is interpolated between the last height entry of KONCOMpunch_heavy and the first height entry of the next animation.
  • The velocity tracks (horizontal motion of the root) also have 80 entries. However, unlike the height values, the velocities correspond not to ticks but to intervals between ticks, and thus span the whole range of the animation, from tick 0 to tick 80. Starting at tick 80, the first velocity entry of the following animation applies.
  • The rotation tracks are keyed at ticks (like the height track), but (unlike the height track) are typically not keyed at every tick: there are intervals (gaps) of variable size between the keys, over which the rotation of each bone is interpolated. Even so, the total duration of the intervals is the same as the time span of the height track, i.e., one tick shorter than the "duration" of the animation. In this example, the first rotation pose corresponds to tick 0 and the last pose corresponds to tick 79. At tick 80, the pose will be read from the following animation, and between ticks 79 and 80, the pose will be interpolated between the last pose of KONCOMpunch_heavy and the first pose of the next animation.

NOTE: The above description of how heights and rotations are interpolated during the last tick on an animation's duration does not only apply for most of Oni's transitions, which typically involve overlapping timelines and interpolation between two animations playing simultaneously. Nonetheless, the description is useful to understand why the time span of rotation and height data is one tick shorter than the supposed duration of the animation, and also what happens for loops, pairs or combo sequences.

Direct links

These fields work together with soft pause and hard pause fields when switching animations. When the current animation has a direct link to the new animation the soft pause and hard pause are both considered to be 0.

Example

01855-KONCOMcomb_p_p.TRAM links to:

  • 01856-KONCOMcomb_p_p_p.TRAM (direct animation 0)
  • 01857-KONCOMcomb_p_p_k.TRAM (direct animation 1)

That means that if a p_p_p or p_p_k animation follows after a p_p animation there will be no pause between them but for animations other than p_p_p and p_p_k there may be a pause of 'soft pause' frames between them.

Extent info

The extent information is used by the AI to figure out if an attack can reach the enemy. This information is only present/used if the animation contains attacks. Many of the fields in the extent information can be computed from other available information like the attack/position/extent parts. The only "unique" information here is the "max horizontal extent 0° ... 360°" array and the extent part count/offset fields. The alternate move direction does not appear to be ever used.

From state, to state, animation type, variant, shortcuts

These are used to find specific animations. Each character has a current animation state and a current "varient". When the engine searches for an animation with a specific type it considers those that have a matching "from state" and "varient". For example both "comb_k_k" and "jump_fw_kick" animations have the type "kick" but one can be executed when the character is in the "standing" state and the other can be executed when the character is in "falling back" or "falling forward" states.

Aiming Type

Aiming type is used to find the aiming animation in TRSC and normally it is the same as the animation type. In a couple of cases this type is "none" meaning that no aiming animation should be used. It is pretty much equivalent to setting the "don't aim" flag.

Particles

While Oni can store a number as large as 255 in 0x187, Oni only allocates memory for 16 particles per TRAM, and it does not check to make sure that the actual number of particles is ≤ 16. Thus you can easily crash Oni by initiating a move which has 17 particles attached.

Limitations on animation length

Frame counts in Oni's TRAM are either absolute frame counts since the beginning of the animation, or intervals between events or keyframes.

(The following analysis assumes 60fps as an animation's frame rate. If the framerate can be reduced, the limiting time amounts will increase accordingly.)

16-bit frame counts

Most typically a frame count is an unsigned 16-bit integer, which allows for a comfortable range of 65535 frames = 1092.25 seconds = 18 m 12.25 s. Even if the integer is accidentally parsed as 16-bit signed, the wraparound to negative values only happens after 32767 frames = 546.13 seconds = 9 m 6.13 s. Oni has other contexts where frame counts are stored as 16-bit integers, e.g., SNDD and OBAN.

8-bit frame counts

Some of the frame counts inside a TRAM are stored as 8-bit integers (unsigned), which reduces the range to 255 frames = 4.25 seconds (or, in the event of signed interpretation, 127 frames = 2.116 seconds).
The contexts where 8-bit frame counts occur are as follows.

  • Motion blur, "Lifetime" and "Interval", meaning that "ghosts" can be spawned no more than 4.25 seconds apart and can last no more than 4.25 seconds before disappearing (LIMITATION SEVERITY: MINOR)
  • Rotation data, intervals between a bone's keyframes, meaning that rotation keyframes for a bone cannot be more than 4.25 seconds apart. (LIMITATION SEVERITY: MINOR)
  • "Max/farthest extent info" (main TRAM file, see above): the "attack frame offset from the attack with index 0" is an 8-bit frame interval, meaning that attacks belonging to a same TRAM cannot be more than 4.25 seconds apart, or the extent of the later attacks may not be taken into account properly by the AI. (LIMITATION SEVERITY: Can be an issue for very long special moves or throws, where damage is dealt both at the beginning and at the end of the animation.)
  • "Invulnerable" range (main TRAM file, see above): The invulnerability range is a pair of 8-bit frame indices, meaning that the invulnerability range cannot extend past 4.25 seconds. (LIMITATION SEVERITY: Can be an issue for very long crowd-clearing moves, like a much longer "Whirling Dervish" (ELICOMpunch_heavy) or long versions of Muro's "Breakdancer" or "Helicopter" moves; a possible workaround is to set invulnerability for the whole animation rather than for an 8-bit frame range)

16-bit raw data offsets

Unlike files like AGDB and SUBT (which use 32-bit pointers into the .raw data stored in the .dat part), a TRAM's rotation data starts off with a set of 16-bit offsets, stored in the .raw part and pointing into the following data (typically there are 19 such offsets, one for each bone in a skeleton).

For the last offset to work, it must be at most equal to 65535 and, since the first 38 bytes are taken up by the offsets, this leaves at most 65497 bytes for the cumulated size of the 18 first rotation tracks.

The raw size of a rotation track depends on the number of keyframe intervals (let's call it N) and on the compression size (either 6 or 16 bytes): a size-6 rotation track takes up 7N+6 bytes, and a size-16 rotation track takes up 17N+16 bytes.

For a size-6 animation, the "average N" for the first 18 tracks cannot exceed 518.96, so that 126N+108 stays below 65497. For a size-16 animation, this "average N" for the first 18 tracks must not exceed 213.1013, so that 306N+288 stays below 65497.

For an animation that has a keyframe for every bone at each game tick, a 518-frame duration corresponds to 8.63 seconds, whereas 213 frames = 3.55 seconds. Typically, however, rotation tracks will have significant keyframe reduction, e.g., Konoko's "Rising Fury!" lasts 80 frames but the pelvis rotation has only 23 keyframe intervals. Assuming 4:1 keyframe reduction for typical animations, this means that the 16-bit offset won't be an issue (for size-6 animations) unless the animation is longer than about 30 seconds.

PS2 implementation

The PS2 implementation optimizes TRAM storage by splitting off combat-relevant data (extents etc) to a new instance type, TREX (Totoro Animation Extra, see below). As a result, the TRAM size (with header) is reduced from 392 to 80 bytes.

0x00:  01 C8 03 00 01 00 00 00 01 45 06 00 00 00 00 00  °È°°°°°°°E°°°°°°
0x10:  E0 EE 0F 00 20 F0 0F 00 80 F4 0F 00 A0 F4 0F 00  àî°° ð°° ô°° ô°°
0x20:  C0 F4 0F 00 40 F7 0F 00 90 00 08 00 00 00 00 00  Àô°°@÷°° °°°°°°°
0x30:  00 00 00 00 01 00 00 00 06 00 16 00 16 00 00 00  °°°°°°°°°°°°°°°°
0x40:  07 00 50 00 00 02 AD DE 00 00 FF FF 00 01 02 13  °°P°°°-Þ°°ÿÿ°°°°
0x50:  AD DE AD DE AD DE AD DE AD DE AD DE AD DE AD DE  -Þ-Þ-Þ-Þ-Þ-Þ-Þ-Þ


Offset Type Raw Hex Value Description
0x000 res_id 01 C8 03 00 968 00968-KONCOMpunch_heavy.TRAM
0x004 lev_id 01 00 00 00 0 level 0
0x008 link 01 45 06 00 1605 link to 01605-.TREX (combat-relevant data)
0x00C int32 00 00 00 00 0 runtime only; pointer to animation name
0x010 offset E0 EE 0F 00 0x000FEEE0 .raw-address of the height track (Y-position of the pelvis above the root)
0x014 offset 20 F0 0F 00 0x000FF020 .raw-address of the horizontal velocities of the character root
0x018 offset 80 F4 0F 00 0x000FF480 .raw-address of the shortcut data
0x01C offset A0 F4 0F 00 0x000FF4A0 .raw-address of the footstep data
0x020 offset C0 F4 0F 00 0x000FF4C0 .raw-address of the position data (for basic prediction)
0x024 offset 40 F7 0F 00 0x000FF740 .raw-address of the rotations (of all body parts)
0x028 bitset32 90 00 08 00 attack, atomic, dontAim flags (same as PC/Mac 0x03C)
0x02C bitset32 00 00 00 00 0 used body parts; used mostly by aiming overlays (same as PC/Mac 0x048)
0x030 bitset32 00 00 00 00 0 replaced parts; used by non-aiming overlays (same as PC/Mac 0x04C)
0x034 int32 01 00 00 00 1 unknown; moving direction?
0x038 int16 06 00 6 compression size
0x03A int16 16 00 22 animation type (from anim_types.StNA)
0x03C int16 16 00 22 aiming type
0x03E int16 00 00 0 from state
0x040 int16 07 00 7 to state
0x042 int16 50 00 80 number of frames (frame rate hardcoded at 60 Hz)
0x044 bitset16 00 02 0x0200 = COM variant (same as PC/Mac 0x170)
0x046 char[2] AD DE dead "varient end"; ignored by the engine
0x048 uint16 00 00 0 atomic start
0x04A uint16 FF FF 65535 atomic end
0x04C uint8 00 0 unknown
0x04D uint8 01 1 number of elements in the shortcut part
0x04E uint8 02 2 number of elements in the footstep part
0x04F uint8 13 19 number of bodyparts?
0x050 char[16] AD DE dead unused (not part of the template)

At the time of writing, some of the above data is merely an informed guess (not thoroughly confirmed), and the nature of 0x034 (int32?) and 0x04C (uint8?) needs to be clarified more particularly.


The TREX file has all the combat-relevant stuff as well as some stuff that isn't necessary combat-related (e.g., vocalizations).

0x000:  01 45 06 00 01 00 00 00 8D 87 CF 41 DE E9 1A 40  °E°°°°°° ÏAÞé°@
0x010:  95 34 D3 41 8D 87 CF 41 8D 87 CF 41 8D 87 CF 41   4ÓA ÏA ÏA ÏA
0x020:  8D 87 CF 41 9D E4 11 41 14 BA 04 41 6B 77 D4 40   ÏA°°°°°°°°°°°°
0x030:  50 5A B3 40 74 4B 9C 40 DF 37 87 40 70 75 84 40  °°°°°°°°°°°°°°°°
0x040:  8E ED 6A 40 16 40 5F 40 16 40 5F 40 BF CD 45 40  °°°°°°°°°°°°°°°°
0x050:  34 2B 49 40 34 2B 49 40 34 2B 49 40 5A D8 6D 40  °°°°°°°°°°°°°°°°
0x0060:  5A D8 6D 40 5A D8 6D 40 8F D9 96 40 8F D9 96 40  °°°°°°°°°°°°°°°°
0x070:  B7 7B AB 40 F0 81 BF 40 98 95 E3 40 98 95 E3 40  °°°°°°°°°°°°°°°°
0x080:  98 95 E3 40 98 95 E3 40 98 95 E3 40 98 95 E3 40  °°°°°°°°°°°°°°°°
0x090:  ED E7 14 41 D4 2E 9E 41 8F FB CC 41 8D 87 CF 41  °°°°°°°°°°°°°°°°
0x0A0:  8D 87 CF 41 05 00 00 00 00 00 00 BF 1E 85 6B BF  °°°°°°°°°°°°°°°°
0x0B0:  19 47 0C 41 EB 51 F0 40 D7 A3 14 41 0A D7 3B 41  °°°°°°°°°°°°°°°°
0x0C0:  5E 93 BF 40 2F 00 01 16 85 EB 51 BF E1 7A 7C C1  °°°°°°°°°°°°°°°°
0x0D0:  69 61 BF 40 70 3D 22 41 47 E1 3A 40 33 33 DB 40  °°°°°°°°°°°°°°°°
0x0E0:  F7 C0 2E 3E 00 00 00 00 18 00 00 00 60 F3 0F 00  °°°°°°°°°°°°°°°°
0x0F0:  E0 F2 0F 00 00 00 00 00 A0 F2 0F 00 00 00 00 00  °°°°°°°°°°°°°°°°
0x100:  00 F3 0F 00 00 00 00 00 6B 6F 6E 66 6C 61 73 68  °°°°°°°°konflash
0x110:  31 00 AD DE AD DE AD DE 00 00 00 00 00 00 00 00  1°°°°°°°°°°°°°°°
0x120:  00 00 00 00 00 00 00 00 00 00 00 00 00 00 12 00  °°°°°°°°°°°°°°°°
0x130:  FF FF 0A 00 06 00 02 00 01 04 01 1C AD DE AD DE  °°°°°°°°°°°°°°°°


Offset Type Raw Hex Value Description
0x000 res_id 01 49 07 00 1532 01865-KONCOMpunch_heavy.TRAM
0x004 lev_id 01 00 00 00 0 level 0
Extent info
0x008 float 8D 87 CF 41 25.941187 max horizontal extent of the attack
0x00C float DE E9 1A 40 2.420524 min Y of the attack
0x010 float 95 34 D3 41 26.400675 max Y of the attack
0x014 float 8D 87 CF 41 25.941187 max horizontal extent at 0° (front)
... ... ... ... ...
0x0A0 float 8D 87 CF 41 25.941187 max horizontal extent at 350°
First extent info - information about the first extent in the extent part
0x0A4 int16 05 00 5 frame; -1 if the attack part does not exist
0x0A6 int8 00 0 attack index; always 0
0x0A7 int8 00 0 attack frame offset; always 0
0x0A8 float 00 00 00 BF -0.500000 x location of the pelvis
0x0AC float 1E 85 6B BF -0.920000 z location of the pelvis
0x0B0 float 19 47 0C 41 8.767358 y location of the pelvis
0x0B4 float EB 51 F0 40 7.510000 extent length
0x0B8 float D7 A3 14 41 9.290000 extent min Y
0x0BC float 0A D7 3B 41 11.740000 extent max Y
0x0C0 float 5E 93 BF 40 5.986739 extent angle (in radians)
Farthest extent info - information about the farthest reaching extent in the extent part
0x0C4 int16 2F 00 47 frame; -1 if there is no attack part of if the animation is for a throw target/victim ("_tgt")
0x0C6 int8 01 1 attack index to which the max extent belongs
0x0C7 int8 16 22 attack frame offset from the attack with index 0
0x0C8 float 85 EB 51 BF -1.850000 x location of the pelvis
0x0CC float E1 7A 7C C1 -3.900000 z location of the pelvis
0x0D0 float 69 61 BF 40 16.874636 y location of the pelvis
0x0D4 float 70 3D 22 41 10.510000 extent length
0x0D8 float 47 E1 3A 40 8.860000 extent min Y
0x0DC float 33 33 DB 40 18.460000 extent max Y
0x0E0 float F7 C0 2E 3E 0.055320 extent angle
End max extent info
0x0E4 int32 00 00 00 00 0 alternative move direction; used only when the previous move direction field is 0, that means never
0x0E8 int32 18 00 00 00 24 number of elements in the extent part
0x0EC offset E0 BB 80 00 00 80 BB E0 at this position starts the extent part in the raw file
End extent info
0x0F0 offset 60 B8 80 00 0x0080B860 .raw-address of the attack part
0x0F4 offset 00 00 00 00 unused .raw-address of the damage part (used only by "_tgt" animations (throw targets/victims)
0x0F8 offset A0 B8 80 00 0x0080B8A0 .raw-address of the motion blur part
0x0FC offset 00 00 00 00 unused .raw-address of the throw data
0x100 offset 00 B9 80 00 0x0080B900 .raw-address of the particle data (trails, dust, etc.)
0x104 offset 00 00 00 00 unused .raw-address of the sound data
0x108 char[16] konflash1 impact particle name (reference to 01018-.ONIA, which is called up in the ONCC file)
0x118 link 00 00 00 00 unused direct animation 0 (link to a TRAM file)
0x11C link 00 00 00 00 unused direct animation 1 (link to a TRAM file)
0x120 int32 00 00 00 00 0 unknown
0x124 int32 00 00 00 00 0 number of elements in the sound part
0x128 int32 00 00 00 00 0 unknown; runtime pointer to the sound?
0x12C uint16 00 00 0 hard pause in game ticks (1/60 seconds)
0x12E uint16 12 00 18 soft pause in game ticks (1/60 seconds)
0x130 uint16 FF FF 65535 action frame
0x132 uint16 0A 00 10 first level where the animation is available
0x134 uint16 06 00 6 = superpunch vocalization type (-1 if unused)
0x136 uint8 02 2 number of elements in the attack part
0x137 uint8 00 0 number of elements in the take damage part
0x138 uint8 01 1 number of elements in the motion blur part
0x139 uint8 04 4 number of elements in the particle part
0x13A uint8 01 1 first "invulnerable" frame
0x13B uint8 1C 28 last "invulnerable" frame
0x13C char[4] AD DE dead unused (not part of the template)

At the time of writing, some of the above data is merely an informed guess (not thoroughly confirmed), and the nature of 0x120 (int32?) and 0x128 (int32?) needs to be clarified more particularly. Probably it will all be clarified after locating fields like "final rotation", "main attack direction" and "end/maximal interpolation".


ONI BINARY DATA
TRAC << Other file types >> TRAS
TRAM : Totoro Animation Sequence
Character file