Fixes https://github.com/open-goal/jak-project/issues/3563
These users have the following spamming in logs:
> OpenGL error 0x502 S8246 T824C: GL_INVALID_OPERATION error generated.
Source and destination dimensions must be identical with the current
filtering modes.
And the solution is to correctly set their game-size. The way this
change accomplishes that is by confirming whether or not the set
`game-size` is a valid resolution informed by SDL, if not, it defaults
to the monitor's currently set display mode's resolution.
This also moves the selected display id, and the display mode into the
C++ settings -- closer to where it's actually managed and used. I'm
tempted to do this eventually for the resolutions as well but that stuff
is much more burdensome. This hopefully simplifies debugging, reduces
startup flickering, and removes back-and-forth complexity. Hopefully
this makes debugging display related problems easier. It also adds a
bunch more logging to the related code.
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)
A few minor fixes:
- Fix crash in overlord3 during final boss
https://github.com/open-goal/jak-project/issues/3605
- Update goal_src for `scene-actor.gc`, which was not updated after a
bug fix for decompiling skelgroups, making some cutscene actors
invisible due to using the wrong joint for culling checks.
- Stop using `-1` as an invalid value for texture id's in Merc.cpp. This
could sometimes cause Merc2.cpp to accidentally skip updating the OpenGL
texture. This fixes the bug where skull gems sometimes didn't have the
animated textures.
I found two issues with Jak 3 eyes. The first was simple - we were
missing a `-pc` texture upload in `texture.gc` for `pris2` textures,
which has eye textures for a few characters, like torn or damas.
The second was a little more annoying. Unlike jak 2 and jak 1, jak 3 can
dynamically assign eye slots when merc models are loaded. This involves
modifying eye data to tell the eye renderer where to render, and
modifying the merc model's adgif shaders to point to the correct eye
texture. The modification to the merc adgif shader is problematic since
our PC port of merc assumes this slot is constant.
My solution here was to bypass this whole slot system entirely for jak
3. I modified the GOAL eye renderer to tell the c++ eye renderer the
name of the merc-ctrl containing the eye. Then, the PC C++ Merc renderer
can just look up the merc-ctrl by name. To make this fit nicely in the
existing memory layout, I used a 64-bit fnv hash of the name. (which
honestly is how we should have handled a lot of other texture/model
names stuff...)
Unrelated fix to Overlord2 so it handles the case where file size
changes after the game starts, I had this in jak2/jak1 and forgot it for
jak 3.
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`.
- 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
![Screenshot 2024-06-22
000343](https://github.com/open-goal/jak-project/assets/13153231/2f7dfa41-d931-4170-a848-840cbed9be9f)
> An example of almost 1 million events. Results in a 4mb file.
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.
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
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.