- Restrict what items can be inserted into printers. They're now closer
to brewing stands or furnaces: nothing can go in the output slot,
only ink in the ink slot, and only paper in the paper slot.
- Fix build.gradle using the wrong version
- Trim the width of tables to fit when displaying on the client. Closes
#45. Note, our solution isn't perfect, as it will wordwrap too, but
it's adaquate for now.
- Reword elements of the README, mostly changing the elements about
vanilla ComputerCraft.
- Change versioning scheme: we'll now do 1.x.y, with 1.81.0 being the
next version.
- Include MC version in the file name
- Stop bundling javadoc with the jar. We'll look into hosting this on
squiddev.cc if really needed.
- Remove the LuaJ license from the root - we no longer bundle the
sources, so it's not needed here.
I realise this change looks a little dodgey on its own, so see #113 for
the full rationale.
When a turtle was unloaded but not actually disposed of, the
m_peripheral map hangs around. As a result, when creating a new
ServerComputer, the peripherals aren't considered changed and so they're
never attached.
Fixes#50.
Also fix that blumin' deprecated method which has been around for a wee
while now.
The Computer class currently has several resposiblities such as storing
id/label, managing redstone/peirpherals, handling management of the
computer (on/off/events) and updating the output.
In order to simplify this a little bit, we move our IAPIEnvironment
implementation into a separate file, and store all "world state"
(redstone + peripherals) in there. While we still need to have some
level of updating them within the main Computer instance, it's
substantially simpler.
- Fire close events instead of failure when open websockets error.
- Handle ping events. I thought I was doing this already, but this
requires a WebsocketProtocolHandler. Fixes#118
- Run optipng on all our images. This has very little effect on most of
them (as they're all so small anyway), but has resulted in a 50%
reduction in some cases.
- Run Proguard on our shadowed dependencies (Cobalt).
- Minify our JSON files, stripping all whitespace. This is mostly
useful for FML's annotation cache, as that's a massive file, but
still a semi-useful optimisation to make.
This has helped reduce the jar by about 110kb, which isn't much but
still feels somewhat worth it.
The latest version of Cobalt has several major changes, which I'm
looking forward to taking advantage of in the coming months:
- The Lua interpreter has been split up from the actual LuaClosure
instance. It now runs multiple functions within one loop, handling
pushing/popping and resuming method calls correctly.
This means we have a theoretically infinite call depth, as we're no
longer bounded by Java's stack size. In reality, this is limited to
32767 (Short.MAX_VALUE), as that's a mostly equivalent to the limits
PUC Lua exposes.
- The stack is no longer unwound in the event of errors. This both
simplifies error handling (not that CC:T needs to care about that)
but also means one can call debug.traceback on a now-dead coroutine
(which is more useful for debugging than using xpcall).
- Most significantly, coroutines are no longer each run on a dedicated
thread. Instead, yielding or resuming throws an exception to unwind
the Java stack and switches to a different coroutine.
In order to preserve compatability with CC's assumption about LuaJ's
threading model (namely that yielding blocks the thread), we also
provide a yieldBlock method (which CC:T consumes). This suspends the
current thread and switches execution to a new thread (see
SquidDev/Cobalt@b5ddf164f1 for more
details). While this does mean we need to use more than 1 thread,
it's still /substantially/ less than would otherwise be needed.
We've been running these changes on SwitchCraft for a few days now and
haven't seen any issues. One nice thing to observe is that the number of
CC thread has gone down from ~1.9k to ~100 (of those, ~70 are dedicated
to running coroutines). Similarly, the server has gone from generating
~15k threads over its lifetime, to ~3k. While this is still a lot, it's
a substantial improvement.
This is far more elegant than our weird method of baking things and
manually inserting them into the model map. Also means we no longer need
the whole turtle_dynamic thing.
We moved the direction call within the if block, but never actally
updated the condition! I'm on a roll of stupid bug fixes today, which
really isn't a good sign.
- Only have computers implement custom block drop logic: everything
else only drops in creative mode.
- Fix redstone inputs not being received correctly. Introduced in
8b86a954ee, yes I'm a silly billy.
- Only update the neighbour which changed.
- Convert terminals from a polling-based system to a more event-driven
one: they now accept an onChanged callback, which marks the parent as
dirty.
- Schedule ticks when monitors are marked as dirty.
- Add several missing @Overrides. This has nothing to do with the rest
of the changes, but I'm bad at good git practice.
- Merge BlockPeripheralBase and BlockPeripheral, as no other classes
extended the former.
- Make BlockPeripheral use ITilePeripheral instead of
TilePeripheralBase. This allows us to use other, non-ticking tiles
instead.
- Convert advanced and normal modems to extend from a generic
TileWirelessModemBase class, and thus neither now tick.
- Move getPeripheralType and getLabel from IPeripheralTile to
TilePeripheralBase. These were mostly constant on all other tiles, so
were rather redundant.
- Make TileAdvancedModem extend TileGeneric, and be non-ticking (using
similar logic to all other blocks).
- Move updateTick onto BlockGeneric/TileGeneric instead of the full
wired modem, as it is used by several tiles now.
- Make *Cable extend from *Generic, and schedule ticks instead of
running every tick.
We currently generate the crafting item once when the upgrade is first
created, and cache it for the duration of the game. As the item never
changes throughout the game, and constructing a stack is a little
expensive (we need to fire an event, etc...), the caching is worth
having.
However, some mods may register capabilities after we've constructed our
ItemStack. This means the capability will be present on other items but
not ours, meaning they are not considered equivalent, and thus the item
cannot be equipped.
In order to avoid this, we use compare items using their share-tag, like
Forge's IngredientNBT. This means the items must still be "mostly" the
same (same enchantements, etc...), but allow differing capabilities.
See NillerMedDild/Enigmatica2Expert#655 for the original bug report -
in this case, Astral Sourcery was registering the capability in init,
but we construct upgrades just before then.
- Move IDirectionalTile constraint from IPeripheralTile to
TilePeripheralBase.
- Make *WiredModemFull no longer inherit from *PeripheralBase. While
there is still some shared logic (namely in the syncing of "anim"),
it's largely fine as we don't store label or direction in NBT.
- Add a TickScheduler. This is a thread-safe version of
World.scheduleUpdate. We simply build a set of all TEs, and schedule
them to be updated the next tick.
- Make ModemState receive an "onChanged" listener, which is fired
whenever the modem changes.
- Make WiredModemFull no longer tick, instead scheduling updates when
it is first loaded and whenever the modem changes.
FileSystemMount was originally added to allow using ReadableByteChannels
instead of InputStreams. However, as zip files do not allow seeking,
there is no benefit of using them over the original JarMount (which we
need to preserve for backwards compatibility).
Instead of maintaining two near-identical mounts, we remove the
FileSystemMount and rewrite the JarMount implementation with several
improvements:
- Rewrite the jar scanning algorithm to be closer to 1.13+'s data pack
mount. This means we no longer require the jar file to have
directories before the file (though this was not a problem in
practice).
- Add all JarMounts to a ReferenceQueue, closing up the ZipFile when
they have been garbage collected (fixes#100).
- Cache the contents of all files for 60 seconds (with some constraints
on size). This allows us to seek on ROM files too (assuming they are
small), by reading the whole thing into memory.
The cache is shared across all mounts, and has a 64MiB limit, and
thus should not have an adverse impact on memory.
This is done in 1.13+ for items and blocks, so we might as well do it
for upgrades now. Note we can't do it for ender pocket modems, as the
upgrade ID is spelled incorrectly there.