XML talk:TRAM
Parts of page in need of updating
I've placed the "update" template on this article for the following reasons:
- The Vago documentation is for v0.8 and is obsolete.
The part about Blender just says that it's theoretically possible to use the program for animations! Link to a modern tutorial please.- The part about extents says that Neo will have to make OniSplit calculate them automatically; doesn't it do that now?
- The "Excel macro" section was noted by someone (Paradox?) as needing an update.
- This talk page needs an updating too! The material should be incorporated into the article or deleted.
--Iritscen (talk) 00:12, 17 March 2021 (CET)
Additionally to the updates, I'd say the TRAM page should be marked "complete" when ...
- ... following things are done:
- motion blur (mini tutorial?)
- impact effects (mini tutorial?)
- throw pair animation table
- a simple tutorial to let a modder warm up with animations in Blender (it's okay if it rather resembles "round trip") since this page is about the file type itself (therefore: import and export)
--paradox-01 (talk) 16:53, 15 March 2023 (CET)
Throw pair animation table
Source and target anim types (pairs) aren't named in an intuitive pattern. So a table would be appropriate.
- Maybe recycle images from attack library. "TRAM macro."
Draft:
Using "forward" and "backward" in throw names can be ambiguous for newbies. For example Konoko can throw a foe seemingly backwards by her throw forward kick (TRAMKONCOMthrow_fw_k). Therefore I'm also describing throws how "source" and "target" are facing each other.
name | src-tgt-setup | key combo | anim type | image | |
---|---|---|---|---|---|
src | tgt | ||||
throw punch | face-to-face | p + w | |||
throw punch | face-to-back | p + w |
Another attempt - to sleep a few nights over and then decide.
This is like the player's combat table - but for modders.
Doublecheck disarms.
names | key combo | context | anim type | image | ||||
---|---|---|---|---|---|---|---|---|
varient | src state | tgt state | facing setup | src | tgt | |||
normal throws | ||||||||
static throw forward punch
|
p + w | COM | face-to-face | ThrowForwardPunch | Thrown1 | |||
static throw forward kick
|
k + w | COM | face-to-face | ThrowForwardKick | Thrown2 | |||
static throw backward punch
|
p + w | COM | face-to-back | ThrowBackwardPunch | Thrown3 | |||
static throw backward punch
|
k + w | COM | face-to-back | ThrowBackwardKick | Thrown4 | |||
run throws | ||||||||
run throw forward punch
|
p + w(w) | COM | face-to-face | RunThrowForwardPunch | Thrown5 | |||
run throw forward kick
|
k + w(w) | COM | face-to-face | RunThrowForwardKick | Thrown6 | |||
run throw backward punch
|
p + w(w) | COM | face-to-back | RunThrowBackwardPunch | Thrown7 | |||
run throw backward kick
|
k + w(w) | COM | face-to-back | RunThrowBackwardKick | Thrown8 | |||
catching throws | ||||||||
tackle throw backward kick? (never used) |
Thrown9 | |||||||
tackle throw backward punch
|
p + w(w) | COM | face-to-back | RunThrowBackwardPunch | Thrown10 | |||
disarm throws | ||||||||
pistol disarm throw forward punch
|
p + w | PIS | face-to-face | ThrowForwardPunch | Thrown11 | |||
pistol disarm throw forward kick
|
k + w | PIS | face-to-face | ThrowForwardKick | Thrown12 | |||
pistol disarm throw backward punch
|
p + w | PIS | face-to-back | ThrowBackwardPunch | Thrown13 | |||
(never used) | Thrown14 | |||||||
rifle disarm throw forward punch
|
p + w | RIF | face-to-face | ThrowForwardPunch | Thrown15 | |||
rifle disarm throw backward punch
|
p + w | RIF | face-to-back | ThrowBackwardPunch | Thrown16 | |||
(never used) | Thrown17 |
All important header data of STRCOMrun_thw_fw_p and STRCOMrun_thw_fw_pl are identical. That means the engine picks the correct TRAM by using an unkown context, possibly this is similar or part of the distiction of "forward" (face-to-face) and "backward" (face-to-back).
- Maybe the algorithm checks always tgt's rotation and relative position to src at the same time but for most cases only tgt's rotation (facing) is relevant.
Also, STRCOMrun_thw_fw_p(l) routing to Thrown5 and Thrown6 shows that Thrown anim types might be used however we like. A src-tgt-anim-type-pairing might be simply a convention. Well, someone could check the source code...
Variants
Further research needed.
- The existence of STRCOMrun_thw_fw_p(_tgt) and STRCOMrun_thw_fw_pl(_t) means that we need extra research to understand the full extent of the throw system.
- The variant (varient [sic]) pickup system is not clear yet: is a RIFCOM idle and a RIFNAT idle both possible?
- Or do rightpistole, leftpistol, rightrifle and leftrifle variants count as subsets of combat?
What we know and not know
- Older brain dump.
Animations never stop, they flow from one to another.
The default case is a character getting spawned and then just standing there, he idles.
This brings us to the core attributes of an animation: type, state, variant. (In XML it is varient. [sic])
- Theoretically you could recycle all attribute and build your own animation system, but that would not much practical.
- The prone mode mod is an exception, in the context of the existing system it can be considered a logical expansion where BSL handles the transition.
Now then, the idle animation does not link to a specific followup animation - or for short "anim" - it rather links to a state being followed.
- Ironically all anims have a <FromState> and a <ToState>, but no obvious <CurrentState> which can cause confusion on what the current anim actually is.
- This gives us two options of how to think of the situation: either consider <FromState> being usually the <CurrentState>, or states exist only between anims and serve as transition rules.
Linking to a followup state allows for multiple choices of what specific anim comes next. An anim is picked up randomly from a pool of valid anims. Their probability or <Weight> is determined by TRAC - the anim collection.
The Ninja's Moonwalk anim (taunt2) has only a 5/(100+5)*100 = 4,76 % chance of getting picked.
<TRACAnimation> <Weight>100</Weight> <Animation>TRAMNINCOMtaunt1</Animation> </TRACAnimation> <TRACAnimation> <Weight>5</Weight> <Animation>TRAMNINCOMtaunt2</Animation> </TRACAnimation>
There's also a rare chance that Mai will sneeze if she stands for a long time.
Here's the sneeze anim with Weight 100, but the real chance of getting picked is still low. Why?
<TRACAnimation> <Weight>100</Weight> <Animation>TRAMKONOKOidle_spec3</Animation> </TRACAnimation>
That's because all idle anims are in fact of type Stand while Konoko's idle_spec3 is of type Idle.
The chance of idle type anims to be picked up is determined by ONCC values in <IdleAnimation1Timer> and <IdleAnimation2Timer>.
Anyway, to let an character flow from one anim state to another the <ToState> is used.
Let's say a SBG grenade hits Konoko. The particle's damage type is blownup, this and the direction of damage force an anim of type Blownup or BlownupBehind to play like TRAMKONOKOblownup1.
This all simply means she falls to her back, going into the FallenBack state. The engine picks up next anim with <FromState>FallenBack.
Also, receiving damage puts the character into Combat mode so further anims will be of variant Combat.
But if the player gives no input Mai will remain on the ground as <ToState>FallenBack creates a loop.
Question: Why is KONCOMgetup_lt not played automatically since it also has <FromState>FallenBack and <Varient>Combat?
It differs in its <Type>. Obviously most anim types are bound to user input and therefor are excluded from the automatically created pool of valid anims to follow.
A left mouse turn tells the engine to use an anim of type StandingTurnLeft.
This is true for KONOKOcomb_turnlt and KONCOMgetup_lt but only the latter matches the current <FromState> condition.
- KONOKOcomb_turnlt has in fact <Varient>Combat, comb stands here for combat, not combo. Following Oni's naming convention, the file should have been named KONCOMturn_lt.
Knowing this behavior we can deduce that anims types registered to user input will make the engine ignore all the automatic anims inside the pool, therefor breaking the loop of KONCOMfallen_back.
Since KONCOMgetup_lt has <ToState>Standing and Konoko is still in Combat mode the following idle anim must also have <Varient>Combat.
So, next anim played will be KONCOMidle1 or KONCOMidle2.
Konoko will eventually calm down when her ONCC<FightModeTimer> run down and then KONOKOidle1 or KONOKOidle2 will be played.
Actually the COMidle will continue until an non-combat anim will break that loop.
That is the fallback behavior of anims getting picked: if the engine cannot find an anim for an active variant (or "mode") it will choose the normal (non-variant) version.
Anims can be in the following variants: Combat, LeftPistol, LeftRifle, Panic, RightPistol, RightRifle and Sprint.
As for combinations of variants, it's possible, yes, but rarely and only Sprint and one weapon variant at a time.
[...]
Problem with exporting a textured character with non-native TRAC animation
This problem occurs with OniSplit v0.9.99.0 and earlier.
There are basically two commands:
OniSplit -extract:dae outputPath -anim:TRAMname.oni inputPath/ONCCorTRBSname.oni
OniSplit -extract:xml outputPath -anim-body:inputPath/ONCCorTRBS.oni inputPath/TRAMname.oni
First one cannot export TRAMs that aren't listed in character's TRAC.
The second cannot export characters with textures at all.
A textual comparison with WinMerge reveals that the outputs of native TRAMs are almost the same.
Except the chunks of <library_images>, <library_effects> and <library_materials> are missing in the second dae.
It follows <visual_scene> where the id has a different name which is not that interesting.
Inside, there are <instance_geometry> nodes which are pretty much empty for the second dae.
I restored only a few bones. Proof of concept.
In other words: for a complete textured and animated character you need to post-edit the dae which is actually xml code.
If we doesn't get Neo to fix it we will have to export the character twice automatically and let the OniSplit GUI provide the final dae.
I added a "Repair character textures" option to "Simple OniSplit GUI", though that feature wasn't tested very much.
old
how convert dae to xml / oni ...
... using batch files
Download this modding environment so you know that the following lines are about.
Before you can run those files you need to put your source files into the "input_folder".
"dae + xml(not 41) to oni.bat" will generate files with QKeys.
"dae to xml(41).bat" will generate files with EKeys.
... using the Windows address bar
If you use the windows address bar you should have onisplit always alongside your essential modding folders to have short commands like
- onisplit41 -create:tram output_folder input_folder/*.dae
We want to type as less as necessary, don't we? =)
... using onisplit GUI
Keep in mind that the GUI is only a mask for onisplit. New onisplit versions - v0.52.9.0 or newer don't have the command -create:tram.
normal animations
You can convert such animation by choosing one of the two methods. (normal = no overlay anims)
- - To create QKeyed-animation you need a helper xml file to be placed alongside the dae animation file.
- - EKeyed-animations don't need a helper xml file but edits afterwards the creation.
In any case the amount of needed hand work is quite the same for both methods.
QKeyed-animation refuse to become edited. There's somehow a bug like Samer pointed out on the forums. (Is this still the case? - 5th Dec 2011) But that's not so tragic. You can edit the dae or the xml helper file and then merge them into an oni file again.
Like EdT said an advantage of the xml helper method is that you can breakdown a single dae file into smaller pieces. It's a comfortable way to create multiple animations from one source. E.g. you make combo animations in one dae - let's say punch (p), kick (pk), punch (pkp) - then you make 3 xml helpers. First file goes from frame 0 to 40, second file from 41 to 86, and third file from 77 to 140. The dae file has 120 frames but not the 3 oni files that will be created.
Some lines for the hypothetical second combo animation:
<DaeImport> <Path>TRAM######combo.dae</Path> <Start>41</Start> <End>78</End> </DaeImport> <Lookup> <Type>PK</Type> <AimingType>PK</AimingType> <FromState>Standing</FromState> <ToState>Standing</ToState> <Varient>Combat</Varient> <FirstLevel>0</FirstLevel> <Shortcuts /> </Lookup> <Flags>Attack</Flags>
Don't forget to add types, variants, particle etc. to your xml file before you convert it to the oni format.
testing the created files
Either put them into an AE package or create a plugin.
There's a batch file available that create level0 plugins. Put the created plugin files in your GameDataFolder and run the game.