This attempts to do a best-effort quick fix for the sprite alignment in
the menus and first person views on higher aspect ratios. This:
- Hides the binocular borders completely when using a non-standard ratio
![Screenshot 2024-07-20
021430](https://github.com/user-attachments/assets/c56d3a6c-13b0-43e1-b99b-83292993728c)
- Hides the borders in jak's first person view when using a non-standard
ratio
![Screenshot 2024-07-20
021310](https://github.com/user-attachments/assets/fefca993-960b-4741-87b7-6d7c17efe89d)
- Uses a combination of manual alignment and approximation to get the
pause menu closer.
![Screenshot 2024-07-20
151725](https://github.com/user-attachments/assets/2c8aa759-b33a-4fbe-abc6-b5861fc33208)
> 32:9 screenshot.
I accomplished the last one by manually aligning all of the core sprites
and text for the most popular aspect ratios. This means that from a
practical standpoint, things should align "perfectly". However, I then
used all of those values to derive a polynomial for each adjustment
based on the aspect ratio. This allows the game to do a half-decent
approximation/interpolation for every aspect ratio in-between the common
ones. It won't be perfect, but it will be better than this:
![image](https://github.com/user-attachments/assets/420b1e38-6f88-436a-8e8c-21df6b49428e)
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:
![Screenshot 2024-05-25
132900](https://github.com/open-goal/jak-project/assets/13153231/015e6f20-8d19-49b7-9951-97fa88ddc6c2)
> 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:
![image](https://github.com/open-goal/jak-project/assets/13153231/0edfaba1-6d36-40f5-ab23-0642209867c4)
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.
- `vector-h`
- `gravity-h`
- `bounding-box-h`
- `matrix-h`
- `quaternion-h`
- `euler-h`
- `transform-h`
- `geometry-h`
- `trigonometry-h`
- `transformq-h`
- `bounding-box`
- `matrix`
- `matrix-compose`
- `transform`
- `quaternion`
- `euler`
- `trigonometry`
Not a whole lot of changes, just a couple of new functions and one new
file (`matrix-compose`).
This sets out the bones of a Jak 3 build, many things are stubbed out,
guessed, or copied from Jak 2 but it should at least be good enough to:
run `task set-game-jak3`
launch the repl
run builds from the repl
build outputs themselves are untested but the build itself runs without
errors
---------
Co-authored-by: Tyler Wilding <xtvaser@gmail.com>
Some files were in the `banned_objects` list and were thus excluded from
the `all_objs` file.
Also implements the `pexcw` instruction which is only used in `hfrag`
code.
Updates the decompiler for the new format and there's new macros. This
new format should be easier to read/parse.
Also rewrote `sp-init-fields!` (both jak 1 and 2) from assembly to GOAL.
Hopefully I did not miss any regressions in Jak 1/2 while updating the
files, it's a lot.
Reasons for doing so include:
1. This should stop the confusion around editing the wrong config file's
flags -- when for example, extracting a level. Common settings can be in
one central place, with bespoke overrides being provided for each
version
2. Less verbose way of supporting multiple game versions. You don't have
to duplicate the entire `type_casts` file for example, just add or
override the json objects required.
3. Makes the folder structure consistent, Jak 1's `all-types` is now in
a `jak1` folder, etc.
When I cleaned up the `game.gp` some DGOs were no longer referenced
because my first dependency script omitted them -- thinking they weren't
required. From the perspective of the source files they indeed weren't
required but we still have to produce the DGO file.
also works around #2177
Effects the following files:
- [x] vehicle-rider
- [x] vehicle-control
- [x] vehicle-effects
- [x] vehicle
~~- [ ] vehicle-util~~
- [x] vehicle-physics
- [x] vehicle-states
~~- [ ] vehicle-guard~~
~~- [ ] traffic-engine~~
~~- [ ] traffic-manager~~
With the exception of traffic-engine, most of these files are either
done or have 1-3 stubborn functions remaining. Draft while I try to
resolve as many as possible / cleanup names and such.
Co-authored-by: water <awaterford111445@gmail.com>
A big one...
I figure even if we would like to change the way the particle/scene code
is output -- it'd be easier to find patterns with it all decompiled.
I've updated my script so it can easily be used to mass update these
files:
```bash
task update-gsrc-glob GLOB="**/*-part*.gc"
```
> for example will update gsrc files with `part` in their name -- if
they are in ref tests (so uncompleted ones aren't touched)
I found a few issues along the way that I'll have to make issues for
soon.
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.
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.
* sparticle-launcher
* d/jak2: large amount of `sparticle-launcher` done
* d/jak2: finish the majority of `sparticle`
* decomp: improve format code ignoring
* d/jak2: make bits unique in `sp-cpuinfo-flag`
* d/jak1: revert config change
* scripts: cleanup scripts directory some more
* stash, getting there
* stash again
* closer!
* it works! decently....cleanup time and add some extra features
* minor cleanup