Fixes a couple of NaN bugs, making the Arena and Marauder Stronghold
missions, the leaper corralling mission and final boss playable:
- Fixes#3579:
- After catching a leaper, the `flut` that spawns would have a NaN
`world-sphere`
- Fixes#3580:
- `vf0` was being clobbered after a `suspend`, causing them to spawn at
the origin.
- The Terraformer's `world-sphere` would be NaN until an animation
started playing.
This centralizes the code that both `extractor` and the decompiler
executes. In the past this code was partially-duplicated, meaning that
the `extractor` could only do _some_ operations and not others (ie.
could not extract the audio files).
I also simplified the process to enable audio streaming in the
configuration. This is to support a new feature in the launcher that
allows you to enable these options for the decompiler:
- Can make the event buffer larger or smaller
- UI shows the current event index / size, so you know how fast it's
filling up
- Can save compressed, 10x reduction in filesize and Windows 11 explorer
actually supports ZSTD natively now so this isn't inconvenient at all
> An example of almost 1 million events. Results in a 4mb file.
Currently PS2 Actor Vis and FPS are only enforced when starting a run -
this enforces them on every frame similar to cheats.
In the progress menu, FPS is already disabled in speedrunner mode - this
adds the same restriction for PS2 Actor Vis.
Jak 2 already does this properly, no change needed there
This PR does two main things:
1. Work through the main low-hanging fruit issues in the formatter
keeping it from feeling mature and usable
2. Iterate and prove that point by formatting all of the Jak 1 code
base. **This has removed around 100K lines in total.**
- The decompiler will now format it's results for jak 1 to keep things
from drifting back to where they were. This is controlled by a new
config flag `format_code`.
How am I confident this hasn't broken anything?:
- I compiled the entire project and stored it's `out/jak1/obj` files
separately
- I then recompiled the project after formatting and wrote a script that
md5's each file and compares it (`compare-compilation-outputs.py`
- The results (eventually) were the same:
> This proves that the only difference before and after is non-critical
whitespace for all code/macros that is actually in use.
I'm still aware of improvements that could be made to the formatter, as
well as general optimization of it's performance. But in general these
are for rare or non-critical situations in my opinion and I'll work
through them before doing Jak 2. The vast majority looks great and is
working properly at this point. Those known issues are the following if
you are curious:
People seem to be translating lines that aren't in the base english one,
such as `mtn-plat-buried-rocks-a`
This is fine, but Crowdin will continue to remove these every sync PR
because they aren't in the base english file. So some kind of
segregation needs to happen.
If we didn't want these scenes translated, then they should be banned
from being translated via the editor / etc in the first place (shouldn't
have been included in the metadata).
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.
For now, this just adds sky (clouds and fog), darkjak, and skull gem.
There are some unknown issues with drawing the skull gems still, but I
think it's unrelated to texture animations.
Also fixes https://github.com/open-goal/jak-project/issues/3523
Adds a quick perf report feature to `goalc` that lets you compare how
much faster / slower it takes to compile the projects, with some simple
features like filtering the files, adjusting for how large of a margin
of error in the speeds you care about, and which test iteration you want
to compare against.
This is something I plan to use as I work more in `goalc` as an easy way
to track / show the results.
Relates to #1353
This adds no new functionality or overhead to the compiler, yet. This is
the preliminary work that has:
- added code to the compiler in several spots to flag when something is
used without being properly required/imported/whatever (disabled by
default)
- that was used to generate project wide file dependencies (some
circulars were manually fixed)
- then that graph underwent a transitive reduction and the result was
written to all `jak1` source files.
The next step will be making this actually produce and use a dependency
graph. Some of the reasons why I'm working on this:
- eliminates more `game.gp` boilerplate. This includes the `.gd` files
to some extent (`*-ag` files and `tpage` files will still need to be
handled) this is the point of the new `bundles` form. This should make
it even easier to add a new file into the source tree.
- a build order that is actually informed from something real and
compiler warnings that tell you when you are using something that won't
be available at build time.
- narrows the search space for doing LSP actions -- like searching for
references. Since it would be way too much work to store in the compiler
every location where every symbol/function/etc is used, I have to do
ad-hoc searches. By having a dependency graph i can significantly reduce
that search space.
- opens the doors for common shared code with a legitimate pattern.
Right now jak 2 shares code from the jak 1 folder. This is basically a
hack -- but by having an explicit require syntax, it would be possible
to reference arbitrary file paths, such as a `common` folder.
Some stats:
- Jak 1 has about 2500 edges between files, including transitives
- With transitives reduced at the source code level, each file seems to
have a modest amount of explicit requirements.
Known issues:
- Tracking the location for where `defmacro`s and virtual state
definitions were defined (and therefore the file) is still problematic.
Because those forms are in a macro environment, the reader does not
track them. I'm wondering if a workaround could be to search the
reader's text_db by not just the `goos::Object` but by the text
position. But for the purposes of finishing this work, I just statically
analyzed and searched the code with throwaway python code.
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.
