- Update to Loom 1.2 and FG 6.0. ForgeGradle has changed how it
generates the runXyz tasks, which makes running our tests much
harder. I've raised an issue upstream, but for now we do some nasty
poking of internals.
- Fix Sodium/Iris tests. Loom 1.1 changed how remapped configurations
are generated - we create a dummy source set and associate the
remapped configuration with that. All nasty stuff.
- Publish the common library. I'm not a fan of this, but given how much
internals I'm poking elsewhere, should probably get off my high
horse.
- Add renderdoc support to the client gametests, enabled with
-Prenderdoc.
- Split the front face of the computer model into two layers - one for
the main texture, and one for the cursor. This is actually a
simplification of what we had before, which is nice.
- Make the cursor layer render as an emissive quad, meaning it glows in
the dark. This is very easy on Forge (just some model JSON) and very
hard on Fabric (requires a custom model loader).
Modrinth proxies images hosted on non-trusted domains through wsrv.nl,
for understandable reasons. However, wsrv.nl blocks tweaked.cc - I'm not
sure why. Instead we reference the image on GH directly, which works!
Also:
- Fix the modrinthSyncBody task pointing to a missing file.
- Update the licenses of a few files, post getting permission from
people. <3 all.
- Standardise our badges a little, adding a modrinth badge.
- Mention Fabric and Forge support.
- Don't include MC version in the Modrinth version number. I feel this
was required at some point, but apparently not any more! This also
allows us to use Modrinth for the Forge update JSON.
- Add a new recipe type for turtle overlays, and recipe generator
support for this recipe.
- Add trans and rainbow flags.
- Exclude .license files from the generated jar. I'm not thrilled on
the whole .license file system, but it's kinda the easiest way.
- Regenerate data. Yes, this is 90% of the commit :D.
- Fix several inaccuracies with several files not marking Dan's
authorship. Most of these are new files, where the code was moved from
somewhere else:
- In the public API: IDynamicLuaObject, ILuaAPI, TaskCallbakc,
IDynamicPeripheral, UpgradeBase
- In the ROM: fs, http, require
- Do not mark Dan as an author for entirely new code. This affects
DetailHelpers, DropConsumer, FluidData, InventoryMethods, ItemDetails,
MonitorRenderState, NoTermComputerScreen, Palette, PlatformHelperImpl,
UploadFileMessage, the Terminal tests, and any speaker-related files.
- Relicence many files under the MPL where we have permission to do
so. See #1339 for further details.
Thank you to everyone who has contributed so far! Cannot overstate how
appreciated it is <3.
This adds SPDX license headers to all source code files, following the
REUSE[1] specification. This does not include any asset files (such as
generated JSON files, or textures). While REUSE does support doing so
with ".license" files, for now we define these licences using the
.reuse/dep5 file.
[1]: https://reuse.software/
While it is a really nice library, it ends up being a bit overkill for
our needs - we don't need config syncing or anything. By NIHing our own,
we can drop one dependency and ease the updating burden a little.
Closes#1296
Mostly in prep for 1.19.4.
- Update to Loom 1.1.
- Simplifies our handling of remapped configurations a little.
- Removes the need for a fake fabric.mod.json in the API jar.
For reasons I don't quite understand, this required us to bump the
Fabric API version. Otherwise interfaces are not injected.
- Update to Rollup 3.0.
- Do NOT update NullAway: It now correctly checks @Nullable fields in
inherited classes. This is good, but also a pain as Minecraft is a
little over-eager in where it puts @Nullable.
Just ran[^1] over the codebase. Turns out we'd duplicated one of the
changelog entries entirely - I suspect due to a version merge gone
wrong!
[^1]: https://github.com/crate-ci/typos/
- Ensure they're correctly synced to the client. This definitely isn't
comprehensive, but doing anything further probably involves multiple
players, which is tricky.
- Quick rendering test for in-hand computers.
I was originally pretty sceptical about this, but it actually ends up
being useful for the same reason any other form of datagen is: we can
ensure that names are well formed, and that every string is actually
translated.
There's some future work here to go through all the custom translation
keys and move them into constants (maybe also do something with the
/computercraft command?), but that's a separate chunk of work.
The main motivation for this is to add translation keys to our config:
the Fabric version of Forge Config API provides a config UI, so it's
useful to provide user-friendly strings. Our generator also
automatically copies comments over, turning them into tooltips.
This also updates all of the other language files to match en_us.json
again: it's a very noisy diff as the file is now sorted alphabetically.
Hopefully this won't affect weblate though
[^1]: Amusing really that the Fabric port actually is more useful than
the original.
- Add a new ClientJavaExec Gradle task, which is used for client-side
tests. This:
- Copies the exec spec from another JavaExec task.
- Sets some additional system properties to configure on gametest framework.
- Runs Java inside an X framebuffer (when available), meaning we
don't need to spin up a new window.
We also configure this task so that only one instance can run at
once, meaning we don't spawn multiple MC windows at once!
- Port our 1.16 client test framework to 1.19. This is mostly the same
as before, but screenshots no longer do a golden test: they /just/
write to a folder. Screenshots are compared manually afterwards.
This is still pretty brittle, and there's a lot of sleeps scattered
around in the code. It's not clear how well this will play on CI.
- Roll our own game test loader, rather than relying on the mod loader
to do it for us. This ensures that loading is consistent between
platforms (we already had to do some hacks for Forge) and makes it
easier to provide custom logic for loading client-only tests.
- Run several client tests (namely those involving monitor rendering)
against Sodium and Iris too. There's some nastiness here to set up
new Loom run configurations and automatically configure Iris to use
Complementary Shaders, but it's not too bad. These tests /don't/ run
on CI, so it doesn't need to be as reliable.
This fixes several issues I had with consuming multi-loader CC:T in
various upstream mods.
- Include /all/ sources in the Forge/Fabric jar. Before it was just the
common classes, and not the core or API.
- Use some Gradle magic to remove superfluous dependencies from the POM
file. Also make sure Cobalt and Netty are present as dependencies.
- Start using minimize() in our shadow jar config again.
- Add support for Fabric. This is mostly pretty simple, though does
require a lot more mixins than Forge.
Half this diff is due to data generators: we run them separately as
some aspects (recipes mostly) are different between the loaders.
- Add integration with Iris (same as our Oculus support) and REI
(mostly the same as our JEI support).
- Generic peripherals only support inventories (or rather
InventoryStorage) right now. Supporting more of the Fabric storage
API is going to be tricky due to the slotted nature of the API: maybe
something to revisit after Transfer API V3 (V4?, I've lost track).
Note, this does /not/ mean I will be publishing a Fabric version of
CC:T. My plan is to rebase CC:R on top of this, hopefully simplifying
the maintenance work on their end and making the two mods a little more
consistent.
This commit got away from me, okay? No, I'm not proud of it either.
- Remove our overrides of handleUpdate tag: we now try to detect
whether we're on the client or server inside BlockEntity.load. Alas,
this is needed for Fabric.
- Remove BlockGeneric/TileGeneric entirely: we've slowly whittled this
down over the years, and nowadays we can get away with putting most
of its functionality into subclasses.
This allows us to do some nice things with overriding HorizontalBlock
(or our new HorizontalContainerBlock class), rather than
reimplementing functionality in each class. Though it would be nice
if Java had some sort of trait system :D:
- Simplify a lot of our container class so it's just defined in terms
of a NonNullList<ItemStack>. This also includes a total rewrite of
the disk drive which I'm not ... thrilled about. It ended up being
easier to copy the code from the mc-next branch :D:.
- Try to test some of the gnarly bits of this. Still a /lot/ more to be
done with testing this.
Closes#658
After several weeks of carefully arranging ribbons, we pull the string
and end up with, ... a bit of a messy bow. There were still some things
I'd missed.
- Split the mod into a common (vanilla-only) project and Forge-specific
project. This gives us room to add Fabric support later on.
- Split the project into main/client source sets. This is not currently
statically checked: we'll do that soon.
- Rename block/item/tile entities to use suffixes rather than prefixes.
- Add a new ContainerTransfer class to handle moving items between
containers. This is now used for turtle.drop/turtle.suck as well as
inventory methods.
- Any other usages of IItemHandler (which are mostly on turtle
inventories) now use Container and a couple of helper methods.
- Publish javadoc again: for now this is just the common-api
- Remove all dependencies from the published Forge jar. This is
technically not needed (fg.deobf does this anyway), but seems
sensible.
This adds two new modules: common-api and forge-api, which contain the
common and Forge-specific interfaces for CC's Minecraft-specific API.
We add a new PlatformHelper interface, which abstracts over some of the
loader-specific functionality, such as reading registries[^1] or calling
Forge-specific methods. This interface is then implemented in the main
mod, and loaded via ServiceLoaders.
Some other notes on this:
- We now split shared and client-specific source code into separate
modules. This is to make it harder to reference client code on the
server, thus crashing the game.
Eventually we'll split the main mod up too into separate source sets
- this is, of course, a much bigger problem!
- There's currently some nastiness here due to wanting to preserve
binary compatibility of the API. We'll hopefully be able to remove
this when 1.19.3 releases.
- In order to build a separate Forge-specific API jar, we compile the
common sources twice: once for the common jar and once for the Forge
jar.
Getting this to play nicely with IDEs is a little tricky and so we
provide a cct.inlineProject(...) helper to handle everything.
[^1]: We /can/ do this with vanilla's APIs, but it gives a lot of
deprecation warnings. It just ends up being nicer to abstract over it.
We'll do this everywhere eventually, but much easier to do it
incrementally:
- Use checker framework to default all field/methods/parameters to
@Nonnull.
- Start using ErrorProne[1] and NullAway[2] to check for possible null
pointer issues. I did look into using CheckerFramework, but it's much
stricter (i.e. it's actually Correct). This is technically good, but
is a much steeper migration path, which I'm not sure we're prepared
for yet!
[1]: https://github.com/google/error-prone
[2]: https://github.com/uber/NullAway
It should be possible to consume the ComputerCraft's core (i.e.
non-Minecraft code) in other projects, such as emulators. While this
has been possible for years, it's somewhat tricky from a maintenance
perspective - it's very easy to accidentally add an MC dependency
somewhere!
By publishing a separate "core" jar, we can better distinguish the
boundaries between our Lua runtime and the Minecraft-specific code.
Ideally we could have one core project (rather than separate core and
core-api modules), and publish a separate "api" jar, like we do for the
main mod. However, this isn't really possible to express using Maven
dependencies, and so we must resort to this system.
Of course, this is kinda what the Java module system is meant to solve,
but unfortunately getting that working with Minecraft is infeasible.
- Switch to a fairly standard code format. This is largely based on
IntelliJ defaults, with some minor tweaks applied via editor config.
Should mean people don't need to import a config!
- Use "var" everywhere instead of explicit types. Type inference is a
joy, and I intend to use it to its fullest.
- Start using switch expressions: we couldn't use them before because
IntelliJ does silly things with our previous brace style, but now we
have the luxury of them!
This offers very few advantages now, but helps support the following in
the future:
- Reuse test support code across multiple projects (useful for
multi-loader).
- Allow using test fixture code in testMod. We've got a version of our
gametest which use Kotlin instead of Lua for asserting computer
behaviour.
We can't use java-test-fixtures here for Forge reasons, so have to roll
our own version. Alas.
- Add an ILuaMachine implementation which runs Kotlin coroutines
instead. We can use this for testing asynchronous APIs. This also
replaces the FakeComputerManager.
- Move most things in the .support module to .test.core. We need to use
a separate package in order to cope with Java 9 modules (again,
thanks Forge).
- Correctly handle Git commands failing. We need an actual default
value, not just null!
- Use run/ and build/tmp/ for temporary test locations, not
/test-files.
- Switch over to the Gradle GH action. Not expecting massive changes,
but might provide some better caching.
- Bump some GH action versions.
- Fix a Java 8 compatability issue in our build scripts.
- Add a new Node plugin. This automatically installs npm dependencies
and provides a "NpxExecToDir" to dir task. This allows us to make the
doc website task dependencies a little nicer, by simply chaining
tasks together, rather than doing dependsOn + `input.files(the other
task output)`.
- Switch over to CurseForgeGradle from CurseGradle. The latter is
super clunky to use in non-Groovy languages.
- Copy our Modrinth description body to our repo, and add support for
syncing it. We'll still have to do CF manually I think.
Look, I don't enjoy having 600 LOC long build.gradle files, it's just
very easy to do! This at least moves some of the complexity elsewhere,
so the build script is a little more declarative.
It's more verbose as the default license plugin doesn't support multiple
license headers. However, it also gives us some other goodies (namely
formatting Kotlin and removing unused imports), so worth doing.