Importing character models: Difference between revisions
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This article covers the importing of new character models into Oni, but also how to export models from Oni. Generally speaking, you are going to want to use [[wp:COLLADA|COLLADA]] as the "passthrough" format between your 3D program and Oni. In this article, COLLADA is referred to as "Collada" (because who enjoys being shouted at?), or as a ".dae file" (the file suffix for COLLADA). | |||
==Modding tools== | ==Modding tools== | ||
===OniSplit=== | ===OniSplit=== | ||
[[OniSplit]] is the program that we use to get models into and out of Oni. It is a command line tool. There is a GUI wrapper for OniSplit that covers most of its functions called [[Vago (tool)|Vago]], but modders sometimes have to call OniSplit from the command line or use Vago's command-line input feature to take full advantage of its abilities. | |||
===3D programs=== | ===3D programs=== | ||
====Blender==== | ====Blender==== | ||
[ | [[Blender]] is the community's current software of choice for 3D modeling, animating, and more. | ||
Blender rocks when it comes to [[lightmapping levels]]. XSI is closed-source and can only lightmap one mesh at a time with one lightmap texture per mesh. Blender is more flexible because of its scripting API, and it supports radiosity, i.e., emissive materials – which is exactly how Oni's lighting was done before they tore out [[Pre-beta features#Lightmapping|the lightmap feature]]. | |||
====XSI==== | |||
Softimage XSI is Windows-only 3D software that was discontinued in 2014; [https://www.moddb.com/downloads/autodesk-softimage-mod-tool-75 a free version of it from 2008] used to to be the community's modding tool of choice before moving to Blender. A number of Oni-related add-ons, tools and tutorials were developed for it can be still found and used. It has detailed documentation and is versatile, whether working with characters or levels, though highly obsolete. | |||
===File converters=== | ===File converters=== | ||
====Autodesk FBX==== | ====Autodesk FBX==== | ||
Check out {{AutodeskFBX}} (primarily the FBX converter) if your tool can reliably import/export FBX but has trouble with | Check out {{AutodeskFBX}} (primarily the FBX converter) if your tool can reliably import/export FBX but has trouble with Collada. | ||
==Basic importing and exporting== | ==Basic importing and exporting== | ||
===Exporting from Oni to | ===Exporting from Oni to Collada=== | ||
OniSplit allows you to export .dae files from both [[TRBS]] and [[ONCC]]. Though all the 3D data is in the TRBS, the textures are listed in the [[TRMA]] file, which is only visible from the ONCC, not the TRBS. Thus, if you want to use the textures while editing the model, convert the ONCC, not the TRBS, into Collada. The instructions below assume that you want the textured model, and thus illustrate how to export the ONCC. | |||
: | First, you need to find the class name for the character you want to export. You can accomplish this by going into Oni, loading the level in which the desired character appears, and then enabling the shapeshifter cheat – but you have to do this by turning on [[Developer Mode]], not by entering the "shapeshifter" cheat code, because the regular cheat code does not display the console output that you need. Once Dev Mode is on, press F8 until you reach the desired character. You should see the message "character class ''number'' '''''string'''''". The number is unimportant, but write down the string, because that is the class name which provides the basis for the names of the ONCC and TRBS. | ||
:: | In this example, we'll export one of Konoko's models. For Konoko, we don't even need to open Oni to find the name of an ONCC because we have [[Konoko's outfits|this handy table]]. Let's use Konoko in her police uniform; you can see from the table that this is ONCCk3 and that it's found in level2_Final. | ||
Next, you need to decide on the pose in which your character will be exported. See the "Poses" section below for guidance. Without making this example more complicated, we only have two choices for pose: default (folded) and -noanim (standing at attention); we are going to use the second option, for a more visually pleasing result. Here are the steps for getting your desired character in .dae format. Substitute backward slashes for forward ones if you are in Windows. | |||
:1. Create a couple of folders in a convenient place. One folder will receive a whole bunch of files, and the second folder will hold the exported model. We'll call these paths "splitOutput/" and "modelOutput/" respectively. | |||
:2. On the command line, go to the directory "Oni/GameDataFolder/", where "Oni/" means the path to your game. | |||
:3. Split the desired level's data into its component resources with OniSplit. Where you see just "onisplit" in the following commands, you should take that to mean "C:\path\to\OniSplit.exe" in Windows or "mono /path/to/OniSplit.exe" on Macs (Mono is a third-party package that you need to run .NET applications in macOS): | |||
::<tt>onisplit -export splitOutput/ level2_Final.dat</tt> | |||
:4. Convert the desired character's model data into Collada: | |||
::<tt>onisplit -extract:dae modelOutput/ -noanim splitOutput/ONCCk3.oni</tt> | |||
This will create the file '''ONCCk3.dae''', and its supporting textures in TGA format, in modelOutput/. Note that only the highest level of detail (LOD) model will be exported using this method. See [[XML:TRBS]] for a method which exports all 5 LOD models. | |||
Note that if you want to extract the model with a pose besides folded or -noanim, you need to have the animation data (the [[TRAC]] and [[TRAM]] .oni files) in the same folder as the model data (the ONCC and its related files). In vanilla (un-modded) Oni, animations for many characters (including Konoko) are only in level0_Final, and, as you saw above, model data is found in whichever level that character appears in. Extracting a model in the pose of your choice will be simpler if you have the [[AE]] installed, as it globalizes character data, placing it all in the level0_Final files in the AE's GameDataFolder. With vanilla Oni, you will have to split both level0_Final and level''x''_Final and then combine their files into one folder before you can perform the "-extract:dae" operation using the "-anim" tag that is discussed below. | |||
===Importing from Collada into Oni=== | |||
When importing characters, the simplest method is to generate a whole body set ([[TRBS]]) from one .dae file. To convert your 3D model, let's say that you saved it in Collada format with the name "TRBSnewchar.dae". Run the command: | |||
:<tt>onisplit -create:trbs DAEtoONI/ TRBSnewchar.dae</tt> | |||
This will create '''TRBSnewchar.oni''' in the folder DAEtoONI. Because it was created from a single .dae file, this TRBS will contain 5 identical models for the 5 levels of detail (LOD) that Oni supports for each character. You have to import by XML in order to specify a different .dae for every LOD; see [[XML:TRBS]] for more info. | |||
Textures are currently ignored upon creating the TRBS (however, the TRBS will of course retain the changes you may have made to the UV coordinates if you were editing a model exported from Oni). Possibly a future version of OniSplit can automatically generate a TRMA and TXMPs if the .dae file has textures. | |||
Note that your file should be named appropriately if you want it to be looked up by name from one or more of Oni's existing ONCCs, or a new one of your own creation. | |||
To actually test the model in-game, you should [[Making a mod package|create a mod package]] for it, place the package in Oni/AE/packages/, and select it in the AE Installer. The older method of testing your work is to rebuild the level by running "onisplit -import" on a folder containing your TRBS and all the other .oni files for a level, but this only creates a set of level files that you can use on your computer, and is inherently a disorganized approach to keeping track of your work. Creating an AE package will allow you to share your work with other players. | |||
Please note that a final character mod package should contain multiple LOD models for your character. Filling all 5 slots with distinct models is not necessary; many modders create only two or three LOD models and fill the lower LOD slots with the simpler model(s) and the highest slot with the full-detail model, e.g.: | |||
:# TRBSnewchar_low.dae | |||
:# TRBSnewchar_low.dae | |||
:# TRBSnewchar_mid.dae | |||
:# TRBSnewchar_mid.dae | |||
:# TRBSnewchar_high.dae | |||
An ONCC contains much more information than just links to TRBS and TRMA, and thus cannot be generated automatically. See [[XML:ONCC]] on how to create such a file, and then import the character with this class data into Oni. The easiest way to try out an imported character in Oni is to name your imported TRBS so that it replaces an existing one and no ONCC editing is needed. The next step up is to clone an existing ONCC (in XML) and modify it to link to your new TRBS file(s). | |||
==Blender-specific OniSplit information== | |||
===Blender settings for importing and exporting COLLADA files=== | |||
====Importing==== | |||
In the Collada Import Data Options, make sure to check Import Units. Failure to do so will result in scaling issues, which are not easy to fix. | |||
Before importing TRAM files, set the scene frame rate to 60 FPS. Failure to do so will result in keyframes being placed incorrectly on the timeline. | |||
{| class="wikitable" | |||
|- | |||
! Collada import settings !! Scene settings | |||
|- | |||
| [[Image:Blender import settings.png|200px|frameless|center]] || [[Image:Blender scene settings.png|300px|frameless|center]] | |||
|- | |||
|} | |||
====Exporting==== | |||
When exporting TRBS, be sure to delete the default light and camera from the scene, or you can select all 19 body parts, then in the Export Main Tab, select Selection Only. | |||
When exporting TRAM, select all 19 body parts, then in the Collada export options, under the Main Tab: select Selection Only, Geom Tab: select Triangulate, Anim Tab: select Curves. | |||
{| class="wikitable" | |||
|- | |||
! Blender Collada export settings | |||
|- | |||
| [[Image:Blender Collada export settings.png|500px|frameless|center]] | |||
|- | |||
|} | |||
===Blender-specific OniSplit commands=== | |||
*Convert TRBS.oni to Blender compatible dae: | |||
-extract:'''dae''' To_blender -noanim -blender Original\TRBSkonoko_body_high.oni | |||
*Convert ONCC.oni to Blender compatible dae with textures: | |||
-extract:'''dae''' To_blender -noanim -blender Original\ONCCkonoko_generic.oni | |||
Be sure to include the TMXP.oni files with the ONCC.oni file. | |||
*Convert TRAM.oni to Blender compatible dae - '''textureless''', as exporting animations with textured models does not work yet: | |||
The | |||
-extract:'''xml''' To_blender -anim-body:Original\TRBSkonoko_body_high.oni -blender Original\TRAMKONCOMkick_heavy.oni | |||
This will create a TRAM.dae along with an .xml file, which is needed for importing back to Oni. You will be also able to tell that everything went okay when you see <mark><tt>AnimationDaeWriter: custom axis conversion</tt></mark> in the output. If you don’t, you’re most likely doing something wrong. | |||
*Convert TRBS.dae from Blender to .oni: | |||
-create:'''trbs''' From_blender -blender From_blender\TRBSkonoko_body_high.dae | |||
*Convert TRAM.dae from Blender to .oni | |||
-create From_blender -blender From_blender\TRAMKONCOMkick_heavy.xml | |||
The TRAMKONCOMkick_heavy.xml links to the TRAMKONCOMkick_heavy.dae from Blender which needs to be in the same location as the .xml file. | |||
===Troubleshooting=== | |||
Known Issues between Blender 2.83 and OniSplit 0.9.99.2: | |||
1) Importing a .dae file results in the following error message: | |||
"Schema validation (Error): Error: ERROR_REQUIRED_ATTRIBUTE_MISSING Element: technique, Attribute: sid" | |||
Solution: Open the .dae file in a text editor, find all instances of <tt><technique></tt> and replace with <tt><technique sid="common"></tt>. | |||
==Poses== | ==Poses== | ||
===Oni' s default orientation=== | ===Oni's default orientation=== | ||
The primary axis of a body part, in its own frame of reference, is X. When you move down an arm or leg, or up the spine, you are moving along the positive X direction of every body part. | This pose, where the body parts are all at zero rotation, is usually referred to in the community as the "folded pose". The primary axis of a body part, in its own frame of reference, is X. When you move down an arm or leg, or up the spine, you are moving along the positive X direction of every body part. | ||
When all the bones are aligned with their parents, you get something like this: | When all the bones are aligned with their parents, you get something like this: | ||
14-o-13-o-12-o-11-o 3-o-2-o-1-o ^ z | 14-o-13-o-12-o-11-o 3-o-2-o-1-o ^ z | ||
Line 59: | Line 131: | ||
| | x ^ | | | x ^ | ||
18-o-17-o-16-o-15-o 6-o-5-o-4-o ^ | 18-o-17-o-16-o-15-o 6-o-5-o-4-o ^ | ||
This is a | This is a convention used in all of Oni. For any animation of any character in Oni, the rotations of the body parts are calculated with respect to a default pose such as this one. This allows the characters to share animations, even if their "skeletons" ([[TRTA]]) have slightly different proportions. | ||
In the default pose, the XYZ axes of all the bones are oriented the same way. Thus, in the default pose, you can see the "true" translations (offsets) of every body part with respect to its parent, as stored in the "translation array" (TRTA). For example, in Konoko's case, the "mid" section (part 7), is translated by 1.67 WU along X (i.e., 16.7 cm towards the top of the spine), and by 0.25 along Y (i.e., 2.5 cm towards the front of the spine). Remember that this translation is ''in the "local" frame of reference of the pelvis'', i.e., with respect to the ''origin'' of the pelvis ''and'' to its local XYZ axes (which are generally different from the world axes). Basically, the local X of the pelvis always points up the spine, the local Y points forward, the local Z points left, and the same goes for "mid", "chest", "neck", and "head". | |||
===-noanim pose=== | ===-noanim pose=== | ||
[[Image:Konoko_bodyparts.png|thumbnail|right|283px]] | [[Image:Konoko_bodyparts.png|thumbnail|right|283px]] | ||
Supplying the '''-noanim''' switch to OniSplit yields the "standing at attention" pose, a much less visually awkward pose than the default "folded pose". Note that "-noanim" goes in between the destination directory and the source file name: | |||
:'''onisplit -extract:dae modelOutput/ -noanim ONCCkonoko_generic.oni''' | |||
: | |||
The result will look something the picture on the right, but the model will have her legs together and her arms by her side. | |||
The result will look something the picture on the right, but | |||
To produce this pose, these rotations are used: | |||
:(0,90,90) for the pelvis | :(0,90,90) for the pelvis | ||
:(0,180,0) for both thighs | :(0,180,0) for both thighs | ||
:( | :(90,90,90) for the left shoulder | ||
:(- | :(-90,-90,90) for the right shoulder | ||
:(0,90,0) for the left biceps | |||
:(0,-90,0) for the right biceps | |||
:(-90,0,0) for the left hand/fist | |||
:(90,0,0) for the right hand/fist | |||
:(0,0,0) for all other parts | |||
The placement of the pelvis is adjusted for Konoko, so that the soles of her feet are at Y=0. For male characters the feet will be at Y<0. | The placement of the pelvis is adjusted for Konoko, so that the soles of her feet are at Y=0. For male characters the feet will be at Y<0. | ||
===Idle pose=== | ===Idle pose=== | ||
If you use '''-extract:dae TargetFolder ONCCkonoko_generic.oni''' | If you use '''-extract:dae TargetFolder ONCCkonoko_generic.oni''', taking care that you have the TRAC/TRAM files next to the ONCC, OniSplit will look up the idle animation from the ONCC's TRAC and apply the rotations from the first frame of the animation to the body parts. | ||
Keep in mind that this idle pose exported by OniSplit is just an arbitrary natural-looking pose, as opposed to the default orientation or the " | Keep in mind that this idle pose exported by OniSplit is just an arbitrary natural-looking pose, as opposed to the default "folded" orientation or the "at attention" '''-noanim''' pose. A frame from an idle animation is certainly ''not'' a standard pose for you to match when importing a new model (unless you are swapping body parts between Oni characters that use the same idle pose, in which case you don't have to match anything anyway). | ||
===Any pose=== | ===Any pose=== | ||
When exporting from ONCC, you can use the '''-anim''' tag to specify any | When exporting from ONCC, you can use the '''-anim''' tag to specify any TRAM, as long as it can be found in the character's TRAC (and as long as it's not an overlay animation). Or, you can just start from the -noanim or idle pose, and tweak the rotations to match any pose you like. | ||
==Things to | ==Things to try== | ||
===Bastardizing=== | ===Bastardizing=== | ||
This is possibly the easiest kind of modding, that doesn't require texturing skills or even, in most cases, attentive handling of poses and joints. The idea is to: | This is possibly the easiest kind of modding, that doesn't require texturing skills or even, in most cases, attentive handling of poses and joints. The idea is to: | ||
Line 106: | Line 180: | ||
Note that the shells may not be good-looking in every situation without some further tweaking. Rextract the TRBS or ONCC, tweak the shell, and reimport normally (without '''-cel''' this time). | Note that the shells may not be good-looking in every situation without some further tweaking. Rextract the TRBS or ONCC, tweak the shell, and reimport normally (without '''-cel''' this time). | ||
:Some examples of automatically generated shells (not tweaked in any way) can be seen here: http://geyser.oni2.net/edition/celshading | :Some examples of automatically generated shells (not tweaked in any way) can be seen here: http://geyser.oni2.net/edition/celshading/ | ||
===New models=== | ===New models=== | ||
Line 127: | Line 201: | ||
#*All the other body parts are done the same way. Be sure to proceed from the root of the hierarchy to the extremities, and check your results from time to time. Make sure you don't match the posing body parts to the new body parts instead of the other way round. In other words, look carefully at the first steps detailed above, and make sure that you know what you're doing. | #*All the other body parts are done the same way. Be sure to proceed from the root of the hierarchy to the extremities, and check your results from time to time. Make sure you don't match the posing body parts to the new body parts instead of the other way round. In other words, look carefully at the first steps detailed above, and make sure that you know what you're doing. | ||
All of the above is done in ModTool. I have no idea about how you'd do this in Blender, never tried. [[User:Geyser|AFAIK]], not only is Blender incapable of matching transforms in the local sense, but manual setting of transforms can be done in the global sense only. This means that you would probably need to reduce the new model to Oni's neutral pose, or use a skeleton. | All of the above is done in ModTool. I have no idea about how you'd do this in Blender, never tried. [[User:Geyser|AFAIK]], not only is Blender incapable of matching transforms in the local sense, but manual setting of transforms can be done in the global sense only. This means that you would probably need to reduce the new model to Oni's neutral pose, or use a skeleton. | ||
====Making joints look nice==== | ====Making joints look nice==== | ||
Apart from the consideration regarding the pose (see above), you should be aware of the specific nature of Oni's body parts. | Apart from the consideration regarding the pose (see above), you should be aware of the specific nature of Oni's body parts. | ||
Line 138: | Line 213: | ||
As for the spine, large overlaps (and clever overall decomposition into pelvis/mid/chest) are needed to allow for the extreme bending of the spine (think [[Backbreaker]]). | As for the spine, large overlaps (and clever overall decomposition into pelvis/mid/chest) are needed to allow for the extreme bending of the spine (think [[Backbreaker]]). | ||
Feet and fists can be resolved rather easily (you just extrude them a bit towards the calf/wrist), but you should also mind such things as two-handed aiming overlays. | Feet and fists can be resolved rather easily (you just extrude them a bit towards the calf/wrist), but you should also mind such things as two-handed aiming overlays. | ||
====Working example==== | ====Working example==== | ||
[[Image:Gally PSX model.png|right]] | |||
| | |||
For the sake of this sorta tutorial, we shall pretend three things: | For the sake of this sorta tutorial, we shall pretend three things: | ||
*Berserker Gally from GUNNM Martian Memory (a PSX game) is, like, the coolest model ever (see picture on the right); | *Berserker Gally from GUNNM Martian Memory (a PSX game) is, like, the coolest model ever (see picture on the right); | ||
Line 175: | Line 249: | ||
##*Work from the pelvis down the tree, because if you move, e.g., "mid", then all the upper body will move too. So, do "mid" first, and don't touch it afterward. | ##*Work from the pelvis down the tree, because if you move, e.g., "mid", then all the upper body will move too. So, do "mid" first, and don't touch it afterward. | ||
##*Use Gally's "skeleton" to pinpoint the supposed centers of her meshes. To see Konoko's centers while you move the objects, use the viewport's "eye" settings. | ##*Use Gally's "skeleton" to pinpoint the supposed centers of her meshes. To see Konoko's centers while you move the objects, use the viewport's "eye" settings. | ||
##*Shoulders, mid and chest can be tricky because the original Gally has no shoulders or mid, and chest has translation 0, unlike in Oni (probably the spine is meant only to twist, not to bend). Just try to place all those bones in proportion with the head-neck distance and approximate shoulder width (which is a bit narrower than Konoko's. Maybe it's better to use [[Shinatama Too]] instead of Konoko, here. In any case, don't be afraid to translate Konoko's body parts away from the original locations, as long as this "compact Konoko" gets close to Gally's proportions. | ##*Shoulders, mid and chest can be tricky because the original Gally has no shoulders or mid, and chest has translation 0, unlike in Oni (probably the spine is meant only to twist, not to bend). Just try to place all those bones in proportion with the head-neck distance and approximate shoulder width (which is a bit narrower than Konoko's. Maybe it's better to use [[Shinatama Too]] instead of Konoko, here. In any case, don't be afraid to translate Konoko's body parts away from the original locations, as long as this "compact Konoko" gets close to Gally's proportions. | ||
##*[http://geyser.oni2.net/edition/characters/gally/GLB_compact.zip HERE] is what you should get. Don't laugh too hard, and instead look at how well I matched the centers of Konoko's body parts with the tips of Gally's "bones". The only thing that's wrong at this point is that the shoulder parts are too far from their centers, and may end up sticking out of Gally's chest or back. To fix this, you can move, scale and rotate those parts in any way you like. Just remember to "Freeze all transforms" when you're done, especially if you've used scaling. | |||
#When you're happy with the overlap, you are ready to match Gally's body parts to Konoko's; both in terms of hierarchy ([[TRIA]]) and in terms of relative placement ([[TRTA]]). | #When you're happy with the overlap, you are ready to match Gally's body parts to Konoko's; both in terms of hierarchy ([[TRIA]]) and in terms of relative placement ([[TRTA]]). | ||
#*Switch to "Center" in the "Select" panel, select "pelvis" (Gally's), then click "Match all transforms" in the "Transform" drop-down, and pick "pelvis2" (Konoko's). Check the result by alternatively selecting "pelvis" and "pelvis2". Look not only at the values in the "Transform" panel, but also, in any viewport, at the center (white circle) and the local axes (colored) lines. The rotation should be OK, but the translation may be off. If it is, just fix it manually, and check the result in the viewport, alternatively selecting "pelvis" and "pelvis2" until you're sure that both centers are the same. | #*Switch to "Center" in the "Select" panel, select "pelvis" (Gally's), then click "Match all transforms" in the "Transform" drop-down, and pick "pelvis2" (Konoko's). Check the result by alternatively selecting "pelvis" and "pelvis2". Look not only at the values in the "Transform" panel, but also, in any viewport, at the center (white circle) and the local axes (colored) lines. The rotation should be OK, but the translation may be off. If it is, just fix it manually, and check the result in the viewport, alternatively selecting "pelvis" and "pelvis2" until you're sure that both centers are the same. | ||
#*When you're done with "pelvis", move on to "left_thigh". Until now it was a sibling of "pelvis", and a child of "Scene_Root". Now that "pelvis" is done, you can make "left_thigh" a child of "pelvis", by drag-and-dropping it onto "pelvis" in the "Explorer" viewport. Then you need to match the relative transforms of this center with respect to the center of "pelvis". Make sure "Center" is selected in the "Select" panel, then select "left_thigh", choose "Match all transforms" in the "Transform" drop-down, and pick "left_thigh2" (Konoko's posing thigh). Again, the rotation will probably be correct, but the translation will probably be off, and you will have to fix it manually. Check the result by alternatively selecting "left_thigh" and "left_thigh2", until you're happy. | #*When you're done with "pelvis", move on to "left_thigh". Until now it was a sibling of "pelvis", and a child of "Scene_Root". Now that "pelvis" is done, you can make "left_thigh" a child of "pelvis", by drag-and-dropping it onto "pelvis" in the "Explorer" viewport. Then you need to match the relative transforms of this center with respect to the center of "pelvis". Make sure "Center" is selected in the "Select" panel, then select "left_thigh", choose "Match all transforms" in the "Transform" drop-down, and pick "left_thigh2" (Konoko's posing thigh). Again, the rotation will probably be correct, but the translation will probably be off, and you will have to fix it manually. Check the result by alternatively selecting "left_thigh" and "left_thigh2", until you're happy. | ||
#*Now that you've gotten the idea, do the same for all the other body parts (reparent Gally's, and then match Gally's centers to Konoko's). Make sure you do one mesh at a time, and progress from the root of the tree (the pelvis) towards the extremities. Try not to forget any mesh, especially early on, or you will have to start over. | #*Now that you've gotten the idea, do the same for all the other body parts (reparent Gally's, and then match Gally's centers to Konoko's). Make sure you do one mesh at a time, and progress from the root of the tree (the pelvis) towards the extremities. Try not to forget any mesh, especially early on, or you will have to start over. | ||
#When the matching is over, select all of Gally's meshes, export to Collada ("selection only"), import into Oni and it should Just Work. | #When the reparenting and matching is over, you should get something like [http://geyser.oni2.net/edition/characters/gally/GLB_matched.zip THIS]. You can check that everything is OK simply by enabling the drawing of centers (either with the "eye" menu of a viewport, or with the "Center" filter), and then by alternatively middle-clicking "pelvis" and "pelvis2" (this selects the whole tree of either Gally, which we are unsure about, or the "compact Konoko", which we know to be OK because we only tweaked her [[TRTA]] a bit). If the centers and the local axes look the same for both Gally and Konoko, then Gally is OK too. | ||
#And that's it, we're done. Now select all of Gally's meshes (as a tree, with Ctrl+T or middle-click), export to Collada ("selection only"), import into Oni (DAE to TRBS, TGA to TXMP, ONCC from '''konoko_generic''' and TRMA from '''ninjabot_tx''') and it should Just Work. And indeed it does. [http://geyser.oni2.net/edition/characters/gally/GLB_ready.zip HERE] is the input and [http://geyser.oni2.net/edition/characters/gally/level0_GUNNM.zip HERE] is the Oni-ready plugin (Windows only). | |||
#If there's a problem with any of these steps, just say so. I'm not sure how I could explain it any better without screenshots. | #If there's a problem with any of these steps, just say so. I'm not sure how I could explain it any better without screenshots. | ||
#This can be done in well under an hour - if you don't have to type a tutorial as you go, that is. Once you get the hang of this, you can save some time by completely skipping the "compact Konoko" part, and placing the new character's centers directly where you want them -- especially if the pose is as simple as this one, and/or if the model comes with a skeleton, or very clear anatomy, such as a robot. Challenges such as the [[AE:Iron Demon]] or the [[AE:BGI|BGI]] troopers/mecha come readily to mind, and could both use a tutorial. | |||
[[Category:Modding tutorials]] | [[Category:Modding tutorials]] |
Latest revision as of 15:47, 13 May 2024
This article covers the importing of new character models into Oni, but also how to export models from Oni. Generally speaking, you are going to want to use COLLADA as the "passthrough" format between your 3D program and Oni. In this article, COLLADA is referred to as "Collada" (because who enjoys being shouted at?), or as a ".dae file" (the file suffix for COLLADA).
Modding tools
OniSplit
OniSplit is the program that we use to get models into and out of Oni. It is a command line tool. There is a GUI wrapper for OniSplit that covers most of its functions called Vago, but modders sometimes have to call OniSplit from the command line or use Vago's command-line input feature to take full advantage of its abilities.
3D programs
Blender
Blender is the community's current software of choice for 3D modeling, animating, and more.
Blender rocks when it comes to lightmapping levels. XSI is closed-source and can only lightmap one mesh at a time with one lightmap texture per mesh. Blender is more flexible because of its scripting API, and it supports radiosity, i.e., emissive materials – which is exactly how Oni's lighting was done before they tore out the lightmap feature.
XSI
Softimage XSI is Windows-only 3D software that was discontinued in 2014; a free version of it from 2008 used to to be the community's modding tool of choice before moving to Blender. A number of Oni-related add-ons, tools and tutorials were developed for it can be still found and used. It has detailed documentation and is versatile, whether working with characters or levels, though highly obsolete.
File converters
Autodesk FBX
Check out Autodesk FBX Tools (primarily the FBX converter) if your tool can reliably import/export FBX but has trouble with Collada.
Basic importing and exporting
Exporting from Oni to Collada
OniSplit allows you to export .dae files from both TRBS and ONCC. Though all the 3D data is in the TRBS, the textures are listed in the TRMA file, which is only visible from the ONCC, not the TRBS. Thus, if you want to use the textures while editing the model, convert the ONCC, not the TRBS, into Collada. The instructions below assume that you want the textured model, and thus illustrate how to export the ONCC.
First, you need to find the class name for the character you want to export. You can accomplish this by going into Oni, loading the level in which the desired character appears, and then enabling the shapeshifter cheat – but you have to do this by turning on Developer Mode, not by entering the "shapeshifter" cheat code, because the regular cheat code does not display the console output that you need. Once Dev Mode is on, press F8 until you reach the desired character. You should see the message "character class number string". The number is unimportant, but write down the string, because that is the class name which provides the basis for the names of the ONCC and TRBS.
In this example, we'll export one of Konoko's models. For Konoko, we don't even need to open Oni to find the name of an ONCC because we have this handy table. Let's use Konoko in her police uniform; you can see from the table that this is ONCCk3 and that it's found in level2_Final.
Next, you need to decide on the pose in which your character will be exported. See the "Poses" section below for guidance. Without making this example more complicated, we only have two choices for pose: default (folded) and -noanim (standing at attention); we are going to use the second option, for a more visually pleasing result. Here are the steps for getting your desired character in .dae format. Substitute backward slashes for forward ones if you are in Windows.
- 1. Create a couple of folders in a convenient place. One folder will receive a whole bunch of files, and the second folder will hold the exported model. We'll call these paths "splitOutput/" and "modelOutput/" respectively.
- 2. On the command line, go to the directory "Oni/GameDataFolder/", where "Oni/" means the path to your game.
- 3. Split the desired level's data into its component resources with OniSplit. Where you see just "onisplit" in the following commands, you should take that to mean "C:\path\to\OniSplit.exe" in Windows or "mono /path/to/OniSplit.exe" on Macs (Mono is a third-party package that you need to run .NET applications in macOS):
- onisplit -export splitOutput/ level2_Final.dat
- 4. Convert the desired character's model data into Collada:
- onisplit -extract:dae modelOutput/ -noanim splitOutput/ONCCk3.oni
This will create the file ONCCk3.dae, and its supporting textures in TGA format, in modelOutput/. Note that only the highest level of detail (LOD) model will be exported using this method. See XML:TRBS for a method which exports all 5 LOD models.
Note that if you want to extract the model with a pose besides folded or -noanim, you need to have the animation data (the TRAC and TRAM .oni files) in the same folder as the model data (the ONCC and its related files). In vanilla (un-modded) Oni, animations for many characters (including Konoko) are only in level0_Final, and, as you saw above, model data is found in whichever level that character appears in. Extracting a model in the pose of your choice will be simpler if you have the AE installed, as it globalizes character data, placing it all in the level0_Final files in the AE's GameDataFolder. With vanilla Oni, you will have to split both level0_Final and levelx_Final and then combine their files into one folder before you can perform the "-extract:dae" operation using the "-anim" tag that is discussed below.
Importing from Collada into Oni
When importing characters, the simplest method is to generate a whole body set (TRBS) from one .dae file. To convert your 3D model, let's say that you saved it in Collada format with the name "TRBSnewchar.dae". Run the command:
- onisplit -create:trbs DAEtoONI/ TRBSnewchar.dae
This will create TRBSnewchar.oni in the folder DAEtoONI. Because it was created from a single .dae file, this TRBS will contain 5 identical models for the 5 levels of detail (LOD) that Oni supports for each character. You have to import by XML in order to specify a different .dae for every LOD; see XML:TRBS for more info.
Textures are currently ignored upon creating the TRBS (however, the TRBS will of course retain the changes you may have made to the UV coordinates if you were editing a model exported from Oni). Possibly a future version of OniSplit can automatically generate a TRMA and TXMPs if the .dae file has textures.
Note that your file should be named appropriately if you want it to be looked up by name from one or more of Oni's existing ONCCs, or a new one of your own creation.
To actually test the model in-game, you should create a mod package for it, place the package in Oni/AE/packages/, and select it in the AE Installer. The older method of testing your work is to rebuild the level by running "onisplit -import" on a folder containing your TRBS and all the other .oni files for a level, but this only creates a set of level files that you can use on your computer, and is inherently a disorganized approach to keeping track of your work. Creating an AE package will allow you to share your work with other players.
Please note that a final character mod package should contain multiple LOD models for your character. Filling all 5 slots with distinct models is not necessary; many modders create only two or three LOD models and fill the lower LOD slots with the simpler model(s) and the highest slot with the full-detail model, e.g.:
- TRBSnewchar_low.dae
- TRBSnewchar_low.dae
- TRBSnewchar_mid.dae
- TRBSnewchar_mid.dae
- TRBSnewchar_high.dae
An ONCC contains much more information than just links to TRBS and TRMA, and thus cannot be generated automatically. See XML:ONCC on how to create such a file, and then import the character with this class data into Oni. The easiest way to try out an imported character in Oni is to name your imported TRBS so that it replaces an existing one and no ONCC editing is needed. The next step up is to clone an existing ONCC (in XML) and modify it to link to your new TRBS file(s).
Blender-specific OniSplit information
Blender settings for importing and exporting COLLADA files
Importing
In the Collada Import Data Options, make sure to check Import Units. Failure to do so will result in scaling issues, which are not easy to fix.
Before importing TRAM files, set the scene frame rate to 60 FPS. Failure to do so will result in keyframes being placed incorrectly on the timeline.
Collada import settings | Scene settings |
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Exporting
When exporting TRBS, be sure to delete the default light and camera from the scene, or you can select all 19 body parts, then in the Export Main Tab, select Selection Only.
When exporting TRAM, select all 19 body parts, then in the Collada export options, under the Main Tab: select Selection Only, Geom Tab: select Triangulate, Anim Tab: select Curves.
Blender Collada export settings |
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Blender-specific OniSplit commands
- Convert TRBS.oni to Blender compatible dae:
-extract:dae To_blender -noanim -blender Original\TRBSkonoko_body_high.oni
- Convert ONCC.oni to Blender compatible dae with textures:
-extract:dae To_blender -noanim -blender Original\ONCCkonoko_generic.oni
Be sure to include the TMXP.oni files with the ONCC.oni file.
- Convert TRAM.oni to Blender compatible dae - textureless, as exporting animations with textured models does not work yet:
-extract:xml To_blender -anim-body:Original\TRBSkonoko_body_high.oni -blender Original\TRAMKONCOMkick_heavy.oni
This will create a TRAM.dae along with an .xml file, which is needed for importing back to Oni. You will be also able to tell that everything went okay when you see AnimationDaeWriter: custom axis conversion in the output. If you don’t, you’re most likely doing something wrong.
- Convert TRBS.dae from Blender to .oni:
-create:trbs From_blender -blender From_blender\TRBSkonoko_body_high.dae
- Convert TRAM.dae from Blender to .oni
-create From_blender -blender From_blender\TRAMKONCOMkick_heavy.xml
The TRAMKONCOMkick_heavy.xml links to the TRAMKONCOMkick_heavy.dae from Blender which needs to be in the same location as the .xml file.
Troubleshooting
Known Issues between Blender 2.83 and OniSplit 0.9.99.2:
1) Importing a .dae file results in the following error message:
"Schema validation (Error): Error: ERROR_REQUIRED_ATTRIBUTE_MISSING Element: technique, Attribute: sid"
Solution: Open the .dae file in a text editor, find all instances of <technique> and replace with <technique sid="common">.
Poses
Oni's default orientation
This pose, where the body parts are all at zero rotation, is usually referred to in the community as the "folded pose". The primary axis of a body part, in its own frame of reference, is X. When you move down an arm or leg, or up the spine, you are moving along the positive X direction of every body part. When all the bones are aligned with their parents, you get something like this:
14-o-13-o-12-o-11-o 3-o-2-o-1-o ^ z | | ^ :)10-o-9-o-8-o-7-o-0 < < <^< < < | | x ^ 18-o-17-o-16-o-15-o 6-o-5-o-4-o ^
This is a convention used in all of Oni. For any animation of any character in Oni, the rotations of the body parts are calculated with respect to a default pose such as this one. This allows the characters to share animations, even if their "skeletons" (TRTA) have slightly different proportions.
In the default pose, the XYZ axes of all the bones are oriented the same way. Thus, in the default pose, you can see the "true" translations (offsets) of every body part with respect to its parent, as stored in the "translation array" (TRTA). For example, in Konoko's case, the "mid" section (part 7), is translated by 1.67 WU along X (i.e., 16.7 cm towards the top of the spine), and by 0.25 along Y (i.e., 2.5 cm towards the front of the spine). Remember that this translation is in the "local" frame of reference of the pelvis, i.e., with respect to the origin of the pelvis and to its local XYZ axes (which are generally different from the world axes). Basically, the local X of the pelvis always points up the spine, the local Y points forward, the local Z points left, and the same goes for "mid", "chest", "neck", and "head".
-noanim pose
Supplying the -noanim switch to OniSplit yields the "standing at attention" pose, a much less visually awkward pose than the default "folded pose". Note that "-noanim" goes in between the destination directory and the source file name:
- onisplit -extract:dae modelOutput/ -noanim ONCCkonoko_generic.oni
The result will look something the picture on the right, but the model will have her legs together and her arms by her side.
To produce this pose, these rotations are used:
- (0,90,90) for the pelvis
- (0,180,0) for both thighs
- (90,90,90) for the left shoulder
- (-90,-90,90) for the right shoulder
- (0,90,0) for the left biceps
- (0,-90,0) for the right biceps
- (-90,0,0) for the left hand/fist
- (90,0,0) for the right hand/fist
- (0,0,0) for all other parts
The placement of the pelvis is adjusted for Konoko, so that the soles of her feet are at Y=0. For male characters the feet will be at Y<0.
Idle pose
If you use -extract:dae TargetFolder ONCCkonoko_generic.oni, taking care that you have the TRAC/TRAM files next to the ONCC, OniSplit will look up the idle animation from the ONCC's TRAC and apply the rotations from the first frame of the animation to the body parts.
Keep in mind that this idle pose exported by OniSplit is just an arbitrary natural-looking pose, as opposed to the default "folded" orientation or the "at attention" -noanim pose. A frame from an idle animation is certainly not a standard pose for you to match when importing a new model (unless you are swapping body parts between Oni characters that use the same idle pose, in which case you don't have to match anything anyway).
Any pose
When exporting from ONCC, you can use the -anim tag to specify any TRAM, as long as it can be found in the character's TRAC (and as long as it's not an overlay animation). Or, you can just start from the -noanim or idle pose, and tweak the rotations to match any pose you like.
Things to try
Bastardizing
This is possibly the easiest kind of modding, that doesn't require texturing skills or even, in most cases, attentive handling of poses and joints. The idea is to:
- take two Oni characters (for simplicity, two characters who use the same skeleton: e.g., the Konokos from CHAPTER 13 . PHOENIX RISING and CHAPTER 10 . CAT AND MOUSE)
- load both of them simultaneously into Mod Tool or Blender. In Mod Tool, just drag-and-drop the .dae files, but "Select none" (Ctrl+Shift+A) before you do, to make sure that you drop both into "Scene_Root")
- reparent some body parts (rename if needed) and trim the rest (since the orientations and joint offsets match, you don't need to rotate/move anything)
- export, adapt the TRMA if needed, rebuild the level and play
This allows one to recombine Oni's characters into "new" ones very easily. Probably the easiest thing is to add sunglasses to any Konoko model ^_^ (or Konoko's head to any female character)
Cel-shading
An effect similar to cel-shading can be obtained by enclosing the mesh in a shell painted in black and facing inwards.
- As of 0.9.8, OniSplit can perform this operation with every body part, in an automatic way, with one control parameter (a sorta "margin", or effective thickness of the "shell").
The syntax is as follows:
- FolderWhereOniSplitIs\OniSplit.exe -create:trbs TargetFolderForCreatedTRBS -cel FolderWhereTheModelIs\name_of_the_model.dae
- or FolderWhereOniSplitIs\OniSplit.exe -create:trbs TargetFolderForCreatedTRBS -cel:0.1 FolderWhereTheModelIs\name_of_the_model.dae
The -cel option enables the generation of the shell. The optional parameter (default 0.07) defines the thickness of the shell.
Note that the shells may not be good-looking in every situation without some further tweaking. Rextract the TRBS or ONCC, tweak the shell, and reimport normally (without -cel this time).
- Some examples of automatically generated shells (not tweaked in any way) can be seen here: http://geyser.oni2.net/edition/celshading/
New models
Matching body part centers
There is actually no such thing as a "standard" pose for 3D characters: the width of the stance, the stiffness of the spine, the angle at which the arms extend from the body - all that varies a lot between models. Therefore the model of your dreams (Gally, Master Chief, Eva-01, whatever) will typically come with a somewhat "random" pose, which has nothing to do with either Oni's default pose, or even with the -noanim "standard" exported by OniSplit. Another problem is that, if you roundtripped your character through OBJ (which doesn't support relative placement and rotation), then all the bones are essentially defined in world space, i.e., their centers are at the world's origin, and their axes are aligned with the world axes.
What can we do about this? Here's what:
- First, make sure that the model that you want to import into Oni is split into 19 separate body parts, and that they overlap nicely even under extreme rotations (see below). The "extremes" are something that you can fix later, but you really need the character to be split into 19 body parts. If some of those parts are missing (e.g., Barabas has no visible shoulder parts), you will still need placeholder meshes (see Barabas as an example). So, get all those meshes ready, alongside each other, at the root of the scene (no hierarchy needed right now).
- Now, load an Oni character exported with OniSplit into the same scene. This character will be your posing figure, so make sure it is similar (in height and "width") to the one that you want to import (i.e., don't use Konoko to match Master Chief, and don't use Barabas to match Gally). Tweak the rotations of the Oni character until it overlaps with the "random" pose of the new character.
- Sometimes you can't make everything overlap just with rotations, and in that case you have to actually translate bones with respect to their parents. By doing this you are actually modifying the skeleton of the Oni character, bringing it closer to the proportions of the new character. If this is the case, and if you want the new character to use Oni's animations, you will have to make sure that the length of the legs stays roughly the same. If the legs of the new character have about the same length as those of an Oni character (measured between the hip joint and the sole of the feet, or between the pelvis center and the sole of the feet), then the animations may look a bit different, but at least during basic stances and movements the feet will stay roughly in contact with the ground, not above or below.
- Now, you can inspect the Oni character, which you have posed in a way that is consistent with the "random" arrangement of the new body parts. Try selecting the body parts of the "posing" Oni character, one at a time, and inspect the values of the translation and rotation of the mesh with respect to its parent (i.e., "Local"), in the "Transform" panel (far right). Try switching to "Center" in the "Select" panel (top right corner), and inspect not only the values in the "Transform" panel, but also the color-coded local axes, which can be seen sticking out of the center of every selected mesh, in the viewport. Try to interpret all this, in terms of the "translation array" (TRTA) and Oni's conventional neutral pose (see above).
- The next (and last) step is to ensure that every part of the new character is parented correctly (the thighs to the pelvis, the calves to the thighs, etc), and that the center of every new body part is placed in the same way as the center of the corresponding body part of the "posed" Oni character. To see the centers of all body parts of the Oni character, all at once, just select all of its meshes, and either select "Center" in the "Select" panel, top right, or check "Centers" in the drop-down "eye" menu, in the viewport.
- Basically, the only thing that you will be doing is: reparenting the bodyparts of the new character to each other (by drag-and-dropping them in the "Explorer/Scene_Root" viewport), and matching the translations and rotations of their respective centers to the centers of their counterparts in the posing mesh, which we know to be correct. Therefore, make sure that "Center" is selected the whole time: we are not moving the meshes themselves, only redefining their relation to each other and their local frames of reference. Some of the matching can be done automatically, but it won't always work, so be ready to copy some values by hand, from one mesh to the other.
- The basic order in which you proceed is this.
- Select the new pelvis. It already overlaps with the "posing" pelvis, and it needs no parent. The only thing that's wrong with it is the position and rotation of its center. So, what you do is, you select the new pelvis (or rather its "Center"), and then in the drop-down Transform menu, click "Match all transforms", and immediately pick the pelvis of the posing Oni character (in "Explorer"). This should make the center of the new pelvis collapse onto the center of the posing pelvis, which is where we want it to be.
- Actually it seems that, in the latest version of ModTool, the automating matching of transformations is done in global coordinates, not in the local frame of reference. (IIRC, in previous versions of XSI, it was possible to match transforms in the "Local" sense.) This means that the rotation will probably match correctly, but the translations will typically be off, so you may have to copy them manually.
- Basically, after you "Match all transforms", check the orientation of the new pelvis's center (the triplet of Euler angles in the "Transform" panel, and the color-coded axes sticking out of the center, in the viewport). Make sure that the axes look the same as for the posing pelvis. If the Euler angles look different but the axes look OK, then you are probably looking at equivalent Euler angles.
- Now, select the left thigh (which is not parented to the new pelvis yet). Drag and drop it into the new pelvis in the "Explorer" viewport (i.e., reparent it). Normally, no meshes should move when you do this. But if you move or rotate the center of the new pelvis now, the new left thigh will also move and rotate, because it is already relative to the pelvis. This is why you need to do the pelvis first.
- There is still one thing wrong with the left thigh, and that is the placement and rotation of its center - it is still, e.g., at the world's origin (in this pose), and we want it to be where the center of the posing left thigh is. So, we select the new left thigh's center, then choose "Match all transforms" in the Transform drop-down, and pick the "posing" left thigh in "Explorer". Same as above, check the rotation (Euler angles and local axes), and fix the translation manually if needed. Now our new left thigh should also be OK.
- All the other body parts are done the same way. Be sure to proceed from the root of the hierarchy to the extremities, and check your results from time to time. Make sure you don't match the posing body parts to the new body parts instead of the other way round. In other words, look carefully at the first steps detailed above, and make sure that you know what you're doing.
All of the above is done in ModTool. I have no idea about how you'd do this in Blender, never tried. AFAIK, not only is Blender incapable of matching transforms in the local sense, but manual setting of transforms can be done in the global sense only. This means that you would probably need to reduce the new model to Oni's neutral pose, or use a skeleton.
Making joints look nice
Apart from the consideration regarding the pose (see above), you should be aware of the specific nature of Oni's body parts. Have a good look at an Oni model before you import a new one. Especially look at the generous overlaps between the body parts.
If you're importing a skinned character, you may have to completely remodel the following regions: elbows, knees, waist, diaphragm. E.g., it's not enough to just cut the leg at the knee. Both the thigh part and the calf part should wrap around the knee joint, and intersect with the other mesh over about 1 world unit (10 cm). Same for the elbow.
The bulk of the shoulder parts (except for Barabas, who doesn't have any) is supposed to bridge the gap between the chest and the arms for the more "extreme" kind of animations. Oni's characters mostly use capsule-shaped primitives for shoulders, so if your new model doesn't have anything that you can use, you can always borrow shoulder parts from an Oni thug, or whoever.
As for the spine, large overlaps (and clever overall decomposition into pelvis/mid/chest) are needed to allow for the extreme bending of the spine (think Backbreaker). Feet and fists can be resolved rather easily (you just extrude them a bit towards the calf/wrist), but you should also mind such things as two-handed aiming overlays.
Working example
For the sake of this sorta tutorial, we shall pretend three things:
- Berserker Gally from GUNNM Martian Memory (a PSX game) is, like, the coolest model ever (see picture on the right);
- we want to make into, like, the coolest Oni character mod ever made, or die trying;
- as the provider of the (ripped) model, I am not your
bitchhousemaid (meaning that, although I could rip an OniSplit-ready DAE or even an Oni-ready TRBS, I will not); - as the writer of the tutorial, I am not your maid either (maybe I could explain it better, with screenshots at every step, but then you wouldn't suffer, and you wouldn't learn half as well).
We shall proceed in steps. The ripped model is provided as-is HERE (well, not really as-is; I roundtripped it through 3D Exploration)
- Start a "File/New scene" in XSI, and open this thing with "File/Import/OBJ file". In an "Explorer" window you shall see that there are 15 "bone-something" objects, and 19 "part-something" objects.
- Don't go thinking that the 19 "parts" are the ones you need for Oni, because they're not. They're just meshes. As you will soon find out,
- there are no shoulder parts,
- parts 7 to 11 part all belong to the head,
- part 18 is pelvis, mid and chest combined, and
- the open hands are in a separate OBJ file.
- There is a bunch of basic things that you want to do before actually adapting this character for Oni
- The first thing you want to do is combine the head meshes into one. Just comment out the "g" tags for parts 8 through 11, in the OBJ file, and you should get THIS. Reimport it into a new scene, and see what changed.
- Don't mind the "bone" objects for now. I just happened to include them in the rip, but I'm not sure why.
- Sooner or later you'll want to select all the objects (or just "Select all" and deselect the light and camera) and rotate them by -90° along X, so that Gally is upright.
- Now you want to split the body mesh (part 18) into three parts and to add some placeholder meshes for the shoulders.
- The shoulders you can get from Barabas. Drop his DAE into the "Scene_Root", reparent the shoulders to "Scene_Root", delete the rest of Barabas, and then scale/move the shoulders around until they fit inside Gally's chest. Try to keep them symmetric.
- As for the splitting, here is what you do. You duplicate part 18, twice, then hide all the duplicates but one, delete faraway polys, move the adjacent vertices around a bit, and then close the mesh with new polygons (N for making a new triangle, then Esc and Ctrl+Shift+A before creating a new one, to avoid making a quad). While you're editing the body, you may notice that some quads were apparently triangulated even though they are not perfectly flat, and the triangulation is not done the same way on both sides of the body. You can fix it now (Dissolve, Subdivide, re-Dissolve), or you can save it for later.
- When you're done, you can add the hand meshes from the extra OBJ file. To place them correctly, you can use the coordinates of the tips of "bone_4" and "bone_7" (aha! I knew they'd come in handy)
- When you're done with that too, you want to get her ready for a "matching session" with an Oni character such as Konoko. Select all objects, then "Freeze all transforms" (from the drop-down menu of the "Transform" panel), then scale the whole bunch by 2 along all axes (don't ask, just do it), and "Freeze all transforms" again.
- Now every object (including Barabas's shoulders) has unit scaling, 0 rotation and 0 translation. Since all the meshes are parented to the scene root, "0 rotation and 0 translation" means that all their centers are at the world's origin, and the axes of the centers are aligned with the world axes (you can check that by switching to "Center" in the "Select" panel, or by enabling the drawing of Centers in the "eye" drop-down menu of any viewport). If you haven't done it already, you can rename the "part-something" meshes to the standard names used by OniSplit.
- Now is a good time to save your work, either as an XSI scene or model, or as Collada. I prefer Collada for some reason, but you must be careful to export only the selection (you don't want the "Scene_Root" to be exported, or the camera, or the light). Just select all the objects (including the "bone-somethings", because they might come in handy again), then "File/Crosswalk/Export", set the exported type to COLLADA, the filename to something sensible, and in the Settings, make sure that "Selection Only" and "Keep Referenced Paths Relative" are ON, and that "Verbose" and "XSI Extra" are OFF. You should get something like THIS (tweaked a bit in a text editor, to remove the link to TXMPTextures_babamid, and to make the hands and the rest of Gally use the same material GLB).
- Now there's only a few things left to do. Our last step will be the "matching" of Gally's body parts to those of a modified Konoko. But before that, there are some preliminaries.
- Start a new scene in XSI, and drag-drop the Gally you just saved into it. Delete the fists if you want to, and name everything according to OniSplit's standard, if you haven't already.
- Use OniSplit to "extract" ONCCkonoko_generic to .dae, with the -noanim tag, and drag-and-drop her into the same scene.
- If you named Gally's meshes correctly, then Konoko's meshes will be disambiguated with a "2". This is not a problem.
- Note how the height of Konoko's pelvis (and hip joints) is consistent with Gally's. That's what the factor 2 was for.
- Also note that Gally's upper body is rather small in proportion to her legs, and that her calves are slightly longer.
- Rotate Konoko's arms and shoulders to match Gally's pose. Try (0, +-65, 180) for shoulders and (0, +-65, 0) for arms.
- Now translate Konoko's body parts (not the centers) so that their centers match the supposed centers of Gally's.
- Work from the pelvis down the tree, because if you move, e.g., "mid", then all the upper body will move too. So, do "mid" first, and don't touch it afterward.
- Use Gally's "skeleton" to pinpoint the supposed centers of her meshes. To see Konoko's centers while you move the objects, use the viewport's "eye" settings.
- Shoulders, mid and chest can be tricky because the original Gally has no shoulders or mid, and chest has translation 0, unlike in Oni (probably the spine is meant only to twist, not to bend). Just try to place all those bones in proportion with the head-neck distance and approximate shoulder width (which is a bit narrower than Konoko's. Maybe it's better to use Shinatama Too instead of Konoko, here. In any case, don't be afraid to translate Konoko's body parts away from the original locations, as long as this "compact Konoko" gets close to Gally's proportions.
- HERE is what you should get. Don't laugh too hard, and instead look at how well I matched the centers of Konoko's body parts with the tips of Gally's "bones". The only thing that's wrong at this point is that the shoulder parts are too far from their centers, and may end up sticking out of Gally's chest or back. To fix this, you can move, scale and rotate those parts in any way you like. Just remember to "Freeze all transforms" when you're done, especially if you've used scaling.
- When you're happy with the overlap, you are ready to match Gally's body parts to Konoko's; both in terms of hierarchy (TRIA) and in terms of relative placement (TRTA).
- Switch to "Center" in the "Select" panel, select "pelvis" (Gally's), then click "Match all transforms" in the "Transform" drop-down, and pick "pelvis2" (Konoko's). Check the result by alternatively selecting "pelvis" and "pelvis2". Look not only at the values in the "Transform" panel, but also, in any viewport, at the center (white circle) and the local axes (colored) lines. The rotation should be OK, but the translation may be off. If it is, just fix it manually, and check the result in the viewport, alternatively selecting "pelvis" and "pelvis2" until you're sure that both centers are the same.
- When you're done with "pelvis", move on to "left_thigh". Until now it was a sibling of "pelvis", and a child of "Scene_Root". Now that "pelvis" is done, you can make "left_thigh" a child of "pelvis", by drag-and-dropping it onto "pelvis" in the "Explorer" viewport. Then you need to match the relative transforms of this center with respect to the center of "pelvis". Make sure "Center" is selected in the "Select" panel, then select "left_thigh", choose "Match all transforms" in the "Transform" drop-down, and pick "left_thigh2" (Konoko's posing thigh). Again, the rotation will probably be correct, but the translation will probably be off, and you will have to fix it manually. Check the result by alternatively selecting "left_thigh" and "left_thigh2", until you're happy.
- Now that you've gotten the idea, do the same for all the other body parts (reparent Gally's, and then match Gally's centers to Konoko's). Make sure you do one mesh at a time, and progress from the root of the tree (the pelvis) towards the extremities. Try not to forget any mesh, especially early on, or you will have to start over.
- When the reparenting and matching is over, you should get something like THIS. You can check that everything is OK simply by enabling the drawing of centers (either with the "eye" menu of a viewport, or with the "Center" filter), and then by alternatively middle-clicking "pelvis" and "pelvis2" (this selects the whole tree of either Gally, which we are unsure about, or the "compact Konoko", which we know to be OK because we only tweaked her TRTA a bit). If the centers and the local axes look the same for both Gally and Konoko, then Gally is OK too.
- And that's it, we're done. Now select all of Gally's meshes (as a tree, with Ctrl+T or middle-click), export to Collada ("selection only"), import into Oni (DAE to TRBS, TGA to TXMP, ONCC from konoko_generic and TRMA from ninjabot_tx) and it should Just Work. And indeed it does. HERE is the input and HERE is the Oni-ready plugin (Windows only).
- If there's a problem with any of these steps, just say so. I'm not sure how I could explain it any better without screenshots.
- This can be done in well under an hour - if you don't have to type a tutorial as you go, that is. Once you get the hang of this, you can save some time by completely skipping the "compact Konoko" part, and placing the new character's centers directly where you want them -- especially if the pose is as simple as this one, and/or if the model comes with a skeleton, or very clear anatomy, such as a robot. Challenges such as the AE:Iron Demon or the BGI troopers/mecha come readily to mind, and could both use a tutorial.