This only applies to the background for now:
- support for alpha for vertex colors in custom levels
- switch time of day palette generation from octree to k-d tree
- support for alpha masking in custom levels
- support for transparent textures
- support for envmap in custom levels
---------
Co-authored-by: water111 <awaterford1111445@gmail.com>
This adds a feature to `build_actor` to support importing skeletons and
animations from .glb files.
Multiple animations are handled and will use the name in the GLB. The
default `viewer` process will end up playing back the first animation.
There are a few limitations:
- You can only have around 100 bones. It is technically possibly to have
slightly more, but certain animations may fail to compress when there
are more than ~100 bones.
- Currently, all animations have 60 keyframes per second. This is a
higher quality than what is normally used. If animation size becomes
problematic, we could make this customizable somehow.
- There is no support for the `align` bone.
---------
Co-authored-by: water111 <awaterford1111445@gmail.com>
This adds support for replacing existing merc models in FR3 files with
custom GLB model files. The replacements go in
`custom_assets/<GAME>/merc_replacements`, similar to texture
replacements. When a `.glb` file with a file name that matches any model
present in an FR3 is detected (e.g. `eichar-lod0` for Jak), all merc
model data is replaced with the given model.
Additionally, models for custom actors can now also be added to vanilla
FR3s. The models for this go in
`custom_assets/<GAME>/models/<LEVEL_NAME>` (e.g.
`custom_assets/jak1/models/jungleb/test-actor-lod0.glb`) and will be
added to the FR3 that has a matching name (exception: to add things to
the common level file, the folder should be named `common` instead of
`GAME`).
For custom levels, these now go in
`custom_assets/<GAME>/models/custom_levels` (previously
`custom_assets/<GAME>/models`).
Another small change: When level ripping is enabled, the resulting model
files will now be stored in game name subfolders inside of `glb_out`.
This adds support for generating collide meshes when importing custom
models. A couple of things to keep in mind:
- A single `collide-mesh` may only have up to 255 vertices.
- When exporting a GLTF file in Blender, a `collide-mesh` will be
generated for every mesh object that has collision properties applied
(ideally, you would set all visual meshes to `ignore` and your collision
meshes to `invisible` in the OpenGOAL plugin's custom properties).
- Ensure that your actor using the model properly allocates enough
`collide-shape-prim-mesh`es for each `collide-mesh` ([example from the
original game that uses multiple
meshes](f6688659f2/goal_src/jak1/levels/finalboss/robotboss.gc (L2628-L2806))).
~One annoying problem that I haven't fully figured out yet (unrelated to
the actual functionality):
`collide-mesh`es are stored in art groups as an `(array collide-mesh)`
in the `art-joint-geo`'s `extra`, so I had to add a new `Res` type to
support this. The way that `array`s are stored in `res-lump`s is a bit
of a hack right now. The lump only stores a pointer to the array, so the
size of that is 4 bytes, but because we have to generate all the actual
array data too, the current `ResLump` code in C++ doesn't handle this
case well and would assert, so I decided to omit the asserts if an
`array` tag is present and "fake" the size so the object file is
generated more closely to how the game expects it until we figure out
something better.~
This was fixed by generating the array data beforehand and creating a
`ResRef` class that takes the pointer to the array data and adds it to
the lump.
This does a couple of things:
- The `custom_levels` folder was renamed to `custom_assets` and contains
`levels`, `models` and `texture_replacements` folders for Jak 1, 2 and 3
in order to keep everything regarding custom stuff in one place.
- With this, texture replacements now use separate folders for all games
- A build actor tool was added that generates art groups for custom
actors
- Custom levels can now specify what custom models from the `models`
folder they want to import, this will add them to the level's FR3.
- A `test-zone-obs.gc` file was added, containing a `test-actor` process
that uses a custom model as an example.
The build actor tool is still very WIP, the joints and the default
animation are hardcoded, but it allows for importing any GLB file as a
merc model.
This adds hfrag, but with a few remaining issues:
- The textures aren't animated. Instead, it just uses one texture.
- The texture filtering isn't as good as at it could be.
I also cleaned up a few issues with the background renderers:
- Cleaned up some stuff that is common to hfrag, tie, tfrag, shrub
- Moved time-of-day color packing stuff to FR3 creation, rather than at
level load. This appears to reduce the frame time spikes when a level is
first drawn by about 5 or 6 ms in big levels.
- Cleaned up the x86 specific stuff used in time of day. Now there's
only one place where we have an `ifdef`, rather than spreading it all
over the rendering code.
This updates `fmt` to the latest version and moves to just being a copy
of their repo to make updating easier (no editing their cmake / figuring
out which files to minimally include).
The motivation for this is now that we switched to C++ 20, there were a
ton of deprecated function usages that is going away in future compiler
versions. This gets rid of all those warnings.
Adds two new lump types: `cell-info` and `buzzer-info`.
`cell-info` takes a `game-task` enum value and defines an `eco-info`
lump for power cells.
`buzzer-info` takes a `game-task` enum value and an integer and
automatically calculates the required value for the buzzer task with the
formula `task + buzzer * (1 << 16)`.
This adds support for using enums in lumps using the new lump types
`enum-int32` and `enum-uint32`. Also adds these other new lump types:
- `water-height` (takes 3 meter floats, an enum and another optional
meter float)
- `eco-info` (takes an enum and an int)
- `vector3m` (3 meter floats + `w` set to 1.0)
