Mostly easy / particle def files. I did a bit in `ruins` but CFG
failures and missing `drawable` functions make it untestable for now so
I've put that on pause.
- You can define a `startup.gc` in your user folder, each line will be
executed on startup (deprecates the usefulness of some cli flags)
- You can define a `repl-config.json` file to override REPL settings.
Long-term this is a better approach than a bunch of CLI flags as well
- Via this, you can override the amount of time the repl will attempt to
listen for the target
- At the same time, I think i may have found why on Windows it can
sometimes take forever to timeout when the game dies, will dig into this
later
- Added some keybinds for common operations, shown here
https://user-images.githubusercontent.com/13153231/202890278-1ff2bb06-dddf-4bde-9178-aa0883799167.mp4
> builds the game, connects to it, attaches a debugger and continues,
launches it, gets the backtrace, stops the target -- all with only
keybinds.
If you want these keybinds to work inside VSCode's integrated terminal,
you need to add the following to your settings file
```json
"terminal.integrated.commandsToSkipShell": [
"-workbench.action.quickOpen",
"-workbench.action.quickOpenView"
]
```
- target-part
- ;; ERROR: Failed to convert to atomic ops: Variable could not be
constructed from register r0 in `process-drawable-shock-wall-effect`
- gun-part
- missing sparticle decompiling case it seems related to `L155`
This is pretty rough but...im excited to see it working :)
The VU programs for the ocean renderer have changed a bit and
`ocean-texture` has a bunch of new stuff, otherwise things are
relatively similar to Jak 1.
This is the first time I used mips2c and I'm not sure I did it 100%
right, so that should be double-checked.
The only interesting one is `collide-hash`, which is untested.
The other two are very likely unused. I skipped the annoying code in
`collide-probe` because it's not used and the same as jak 1.
Couldn't finish any of the enemy/nav-enemy related files for one reason
or another, but quite a bit of work that will be easier to merge and
iterate on instead of keeping track of the branch.
enemy/idle-control has some very weird focus related code.
nav-mesh/nav-control still has a bunch of CFG resolution problems that
need to be manually resolved.
Co-authored-by: water <awaterford111445@gmail.com>
- fix issue described in
https://github.com/open-goal/jak-project/issues/1939
- fix `text`, which was manually patched with the wrong offset (was
reading the symbol value off by one byte)
- clean up some random useless prints
- make the offline tests keep trying if there's a comparison error,
clean up the output a bit so the diffs are all at the end.
Almost done:
- `target-handler` (`(none)` event handler casts and CFG error)
- `target2` (`(none)` event handler casts)
- `powerups` (`cloud-track` does some weird stuff with `handle`s)
- `gun-states` (CFG error)
Some progress in:
- `water-flow`
Additionally:
- Clean up the two year old Jak 3 config file and add a config skeleton
(disassembling seems to not have worked, but I was able to dump obj
files and the `all_scripts` file)
- Fix automatic skelgroup detection and `defskelgroup` macro for Jak 2
(closes#1950)
- When a function decompiles without any major errors, a warning is
generated with the op id for each unresolved load and store that will
likely fail to compile (closes#1933)
Generates the `game.gp` code for all DGOs, code added to the project
file has been commented out for now.
In my opinion, this is way too much in a single file -- it would be nice
if this code would live directly inside the `.gd` files themselves, then
everything is nicely organized. But this approach might have issues I'm
not aware of.
I think this got removed awhile back, not sure if it was intentional,
but thought it was nice to have. Feel free to close if it's not
supported for a good reason 👍
The type makes no sense when compared to the actual data there. This
modifies the type slightly, which I think is better than spending a
bunch of effort to special case this in the compiler/decompiler.
If we try this, and it turns out it doesn't work, we can always revisit
it. But I think this will work.
This PR does a few main things:
- finish decompiling the progress related code
- implemented changes necessary to load the text files end-to-end
- japanese/korean character encodings were not added
- finish more camera code, which is required to spawn the progress menu
/ init the default language settings needed for text
- initialized the camera as well
Still havn't opened the menu as there are a lot of checks around
`*target*` which I havn't yet gone through and attempted to comment out.