Rendering an item worked in principle, but had several caveats:
- The terminal did not fit well within the item's texture, so we had a
rather large border.
- The "correctness" of this was very tied to Minecraft's item rendering
code. This changed a little in 1.13, causing problems like #208.
Instead we effectively reuse the computer GUI rendering code, though
also handling coloured pocket computers and rendering the modem light.
This fixes#208, and hopefully fixes#212.
- os.time, when given a table, will act the same as PUC Lua - returning
the seconds since the epoch. We preserve the previous string/nil
behaviour though - os.epoch("local") is equivalent to PUC's
os.time().
- os.date will now act accept a string and (optional) time, returning
an appropriate table.
Somewhat resolves the madness which was dan200/ComputerCraft#183, and
hopefully (though probably not) makes @Vexatos happy.
This changes the previous behaviour a little, but hopefully is more
sane:
- Only require the socket to be open when first calling receive. This
means if it closes while receving, you won't get an error.
This behaviour is still not perfect - the socket could have closed,
but the event not reached the user yet, but it's better.
- Listen to websocket_close events while receiving, and return null
should it match ours.
See #201
We were using += instead of =, meaning the budget always grew,
rather than growing while there was still space. As a result, computers
were never correctly rate limited.
Further more, if a computer went into a deficit, we would continue to
increase the budget by a negative amount, exponentially decreasing until
overflowing!
Yes, this is a very embarrassing mistake. I'd been aware that rate
limiting wasn't working as expected for a while, I hadn't realised
the problem would be this stupid.
This uses the same behaviour that repeaters and comparators do for
determining their input, meaning that redstone directly connected to the
computer is read (as you would expect).
It's worth noting that this is a shift from previous behaviour.
Therefore, it runs the (small) risk of breaking existing builds.
However, I believe it is more consistent with the expected behaviour.
Originally introduced in 173ea72001, but
the underlying cause has been happening for much longer.
- Fix order of method name parameters. Looks like this has been broken
since 1.11. Woops.
- Catch RuntimeExceptions too, as Forge converts checked into unchecked
ones.
Fixes#179
I promise! The joys of using -SNAPSHOT I guess...
This will now correctly cause orphaned threads to be cleaned up,
reducing the risk of thread saturation.
If mod loading fails, we'll continue to load colour handlers. As
blocks/items have not been registered, then we'll throw an NPE.
See MinecraftForge/MinecraftForge#5682. Somewhat fixes#168.
Forge's config system will read the default values as integers, meaning
it fails to validate against the config spec. Ideally this'd be fixed in
forge, but this is a suitable work around.
Previously we just relied on magic int values, which was confusing and
potentially error-prone. We could use EnumFacing, but that's a)
dependent on MC and b) incorrect, as we're referring to local
coordinates.
Look, I originally had this split into several commits, but lots of
other cleanups got mixed in. I then backported some of the cleanups to
1.12, did other tidy ups there, and eventually the web of merges was
unreadable.
Yes, this is a horrible mess, but it's still nicer than it was. Anyway,
changes:
- Flatten everything. For instance, there are now three instances of
BlockComputer, two BlockTurtle, ItemPocketComputer. There's also no
more BlockPeripheral (thank heavens) - there's separate block classes
for each peripheral type.
- Remove pretty much all legacy code. As we're breaking world
compatibility anyway, we can remove all the code to load worlds from
1.4 days.
- The command system is largely rewriten to take advantage of 1.13's
new system. It's very fancy!
- WidgetTerminal now uses Minecraft's "GUI listener" system.
- BREAKING CHANGE: All the codes in keys.lua are different, due to the
move to LWJGL 3. Hopefully this won't have too much of an impact.
I don't want to map to the old key codes on the Java side, as there
always ends up being small but slight inconsistencies. IMO it's
better to make a clean break - people should be using keys rather
than hard coding the constants anyway.
- commands.list now allows fetching sub-commands. The ROM has already
been updated to allow fancy usage such as commands.time.set("noon").
- Turtles, modems and cables can be waterlogged.
Are most of these changes small and petty? Yes. However, IMO they do
make the code more readable. Anyway, a summary of some of the more
interesting changes:
- Expose Abstract*Upgrade classes in the API
- Fix the spelling of Jonathan in the API docs (*shakes fist*)
- Fix bug with printout not working in the offhand.
- Rename any argments/variables accidentally named "m_*", and add an
inspection to prevent it happening again.
- Remove most of the Block*.Properties classes - just inline them in
the parent class.
- Return super.writeToNBT instead of reassigning at the top.
This is largely invisible (it's marked as a child of the main
"computercraft" mod), but allows other mods (such as Plethora) to add
hard/soft dependencies on CC:T in a user-friendly manner.
- Fire all the appropriate Forge hooks
- Crafting will now attempt to craft one item at a time in a loop,
instead of multiplying the resulting stack by the number of crafts.
This means we function as expected on recipes which consume
durability instead.
- Cache the recipe between crafting and getting the remainder (and each
craft loop). This should reduce any performance hit we would
otherwise get.
OK, so let's get this out of the way, there's some actual changes mixed
in here too. I'm really sorry:
- Turtles can now not be renamed with unnamed item tags (previously it
would clear the name, this seemed a little unideal).
- commands.getBlock(s)Data will also include NBT.
Now, onto the horror story which is these inspection changes:
- Make a lot of methods static
- Typo fixes
- Make utility classes final + private constructor
- Lots of reformatting (ifs -> ternary, invert control flow, etc...)
- ???
- Profit!
I'm so going to regret this - can pretty much guarantee this is going to
break something.
- Move container opening (and gui handling) into a separate class
- Move turtle/computer placement code onto the block
- GUIs now use gui{Left,Top} instead of calculating it manually.
- IPeripheralTile is now exposed in the API.
This uses a similar approach to ComputerThread: executors store how long
they've spent executing tasks. We then use that time to prioritise
executors.
One should note that we use the current runtime at the point of adding
to the queue - external tasks will not contribute towards it until a
later execution.
This effectively acts as a public interface to canExecuteExternal() and
consumeTime(). It's hopefully sufficiently general that we can mess
around with the backend as much as we like in the future.
One thing to note here is that this is based on a polling API, as it's
largely intended for people running work every tick. It would be
possible to adapt this with callbacks for when work is available,
etc..., but that was not needed immediately.
This also removes IComputerOwned, as Plethora no longer needs it.
Unlike ComputerThread, we do not have a single source of tasks, and so
need a smarter way to handle scheduling and rate limiting. This
introduces a cooldown system, which works on both a global and
per-computer level:
Each computer is allowed to do some work for 5ms. If they go over that
budget, then they are marked as "hot", and will not execute work on the
next tick, until they have cooled down. This ensures that _on average_
computers perform at most 5ms of work per tick.
Obviously this is a rather large time span, so we also apply a global
10ms to all computers. This uses the same cooldown principle, meaning we
keep to an average of 10ms, even if we go over budget.
We were not updating the property instances, so we never actually used
the new values. This changes the syncing method to just copy values from
the new config file, meaning comments and structure are preserved from
the old one.
Note, we cannot just call Config.load(File) again, as the defaults are
no longer accurate.
- We send special packets for key and mouse events, which are then
processed by the container's InputState.
- InputState keeps track of currently held keys and mouse buttons.
- When closing the container, we queue key_up/mouse_up events for any
pending buttons.
We attempted to simplify this 0bfb7049b0,
but that change now means that minimumVirtualRuntime is not updated. As
a result, new tasks will have a runtime of 0 when the queue is empty.
- Some performance improvements to JEI recipe resolver
- Use a shared map for upgrade items, meaning we only need one map
lookup.
- Cache the basic upgrade recipes.
- Use the MC version within project rather than version name.
Before IPocketAccess.getEntity would return the entity which last held
fthis computer, even if not holding it any more. As
ba823bae13 describes, this caused
pocket.equip/pocket.unequip to dupe items.
We move the validation from the PocketAPI into the main IPocketAccess
implementation, to ensure this issue does not occur elsewhere. Note, we
require a separate method, as this is no longer thread-safe.
We also now return ok, err instead of throwing an exception, in order to
be consistent with the turtle functions. See dan200/ComputerCraft#328.
This makes Pocket API not equip/unequip upgrades when the pocket
computer is outside of the player inventory (e.g. dragging,
dropped, placed in a chest).
Oh goodness, this is going to painful to update to 1.13.
We now translate:
- Computer/Disk ID tooltips
- /computercraft descriptions, synopsises and usages. The last of these
may not always be translated when in SMP, as it is sometimes done on
the server, but the alternative would be more complex than I'm happy
with.
- Tracking field names. Might be worth adding descriptions too in the
future.
Also cleanup a couple of other translation keys, so they're more
consistent with Minecraft.
Closes#141
- Turtle and pocket computers provide a "creator mod id" based on their
upgrade(s).
We track which mod was active when the upgrade was registered, and
use that to determine the owner. Technically we could use the
RegistryLocation ID, but this is not always correct (such as
Plethora's vanilla modules).
- We show all upgraded turtles/pocket computers in JEI now, rather than
just CC ones.
- We provide a custom IRecipeRegistryPlugin for upgrades, which
provides custom usage/recipes for any upgrade or upgraded item. We
also hide our generated turtle/pocket computer recipes in order to
prevent duplicates.
Previously we would register the recipes within our code, but the
advancements were written manually. This now generates JSON files for
both the advancement and recipe.
While this does mean we're shipping even more JSON, we'll need to do
this for 1.13 anyway, and means our advancements are guaranteed to be
consistent.
On a side note, a couple of other changes:
- Turtle upgrades are now mounted on the right in the creative
menu/fake recipes. This means the upgrade is now clearly visible in
the inventory.
- We no longer generate legacy turtle items at all: we'll always
construct turtle_expanded.
- Several peripheral items are no longer registered as having sub-types
(namely advanced and full-block modems).
- We only have one disk advancement now, which unlocks all 16 recipes.
- We have removed the disk conversion recipes - these can be
exposed through JEI if needed.
This allows wireless modems (advanced and normal) to be used in
multiparts. There's a very limited set of uses for this (mostly allows
using Chisel and Bits with them), but it's very simple to do.
I'd like to look into MCMP support for wired modems/cables in the
future, but this will be somewhat harder due to their pre-existing
multiblock structure.
Similarly, might be fun to look into CBMP compatibility.
- Share the ILuaContext across all method calls, as well as shifting it
into an anonymous class.
- Move the load/loadstring prefixing into bios.lua
- Be less militant in prefixing chunk names:
- load will no longer do any auto-prefixing.
- loadstring will not prefix when there no chunk name is supplied.
Before we would do `"=" .. supplied_program`, which made no sense.
- Only update all runtimes and the minimum runtime when queuing new
exectors. We only need to update the current executor's runtime.
- Fix overflows when comparing times within TimeoutState.
System.nanotime() may (though probably won't) return negative values.
- Hopefully explain how the scheduler works a little bit.
- Runners would set their active executor before starting resetting the
time, meaning it would be judged as running and terminated.
- Similarly, the cumulative time start was reset to 0, meaning the
computer had been judged to run for an impossibly long time.
- If a computer hit the terminate threshold, but not the hard abort
one, then we'd print the stack trace of the terminated thread - we
now do it before interrupting.
There's still race conditions here when terminating a computer, but
hopefully these changes will mean they never occur under normal
operations (only when a computer has run for far too long).
- Fix the timeout error message displaying utter rot.
- Don't resize the runner array. We don't handle this correctly, so
we shouldn't handle it at all.
- Increment virtualRuntime after a task has executed.
- The computer queue is a priority queue sorted by "virtual runtime".
- Virtual runtime is based on the time this task has executed, divided
by the number of pending tasks.
- We try to execute every task within a given period. Each computer is
allocated a fair share of that period, depending how many tasks are
in the queue. Once a computer has used more than that period, the
computer is paused and the next one resumed.
TimeoutState now introduces a TIMESLICE, which is the maximum period of
time a computer can run before we will look into pausing it.
When we have executed a task for more than this period, and if there are
other computers waiting to execute work, then we will suspend the
machine.
Suspending the machine sets a flag on the ComputerExecutor, and pauses
the "cumulative" time - the time spent handling this particular event.
When resuming the machine, we restart our timer and resume the machine.
Oh goodness, when will it end?
- Computer errors are shown in red.
- Lua machine operations provide whether they succeeded, and an
optional error message (reason bios failed to load, timeout error,
another Lua error), which is then shown to the user.
- Clear the Cobalt "thrown soft abort" flag when resuming, rather than
every n instructions.
- Computers will clear their "should start" flag once the time has
expired, irrespective of whether it turned on or not. Before
computers would immediately restart after shutting down if the flag
had been set much earlier.
Errors within the Lua machine are displayed in a more friendly
When closing a BufferedWriter, we close the underlying writer. As we're
using channels, this is an instance of sun.nio.cs.StreamEncoder. This
will attempt to flush the pending character.
However, if throwing an exception within .write errors, the flush will
fail and so the underlying stream is not closed. This was causing us to
leak file descriptors.
We fix this by introducing ChannelWrappers - this holds the wrapper
object (say, a BufferedWriter) and underlying channel. When closed, we
dispose of the wrapper, and then the channel. You could think of this as
doing a nested try-with-resources, rather than a single one.
Note, this is not related to JDK-6378948 - this occurs in the underlying
stream encoder instead.
- TimeoutState uses nanoseconds rather than milliseconds. While this is
slightly less efficient on Windows, it's a) not the bottleneck of Lua
execution and b) we need a monotonic counter, otherwise we could
fail to terminate computers if the time changes.
- Add an exception handler to all threads.
- Document several classes a little better - I'm not sure how useful
all of these are, but _hopefully_ it'll make the internals a little
more accessible.
- Move state management (turnOn, shutdown, etc...) event handling and
the command queue into a ComputerExecutor
- This means the computer thread now just handles running "work" on
computer executors, rather than managing a separate command queue +
requeuing it.
- Instead of setting soft/hard timeouts on the ILuaMachine, we instead
provide it with a TimeoutState instance. This holds the current abort
flags, which can then be polled within debug hooks.
This means the Lua machine has to do less state management, but also
allows a more flexible implementation of aborts.
- Soft aborts are now handled by the TimeoutState - we track when the
task was started, and now only need to check we're more than 7s since
then.
Note, these timers work with millisecond granularity, rather than
nano, as this invokes substantially less overhead.
- Instead of having n runners being observed with n managers, we now
have n runners and 1 manager (or Monitor).
The runners are now responsible for pulling work from the queue. When
the start to execute a task, they set the time execution commenced.
The monitor then just checks each runner every 0.1s and handles hard
aborts (or killing the thread if need be).
- Rename unload -> close to be a little more consistent
- Make pollAndResetChanged be atomic, so we don't need to aquire a lock
- Get the computer queue from the task owner, rather than a separate
argument.
Ideally we'd add a couple more tests in the future, but this'll do for
now.
The bootstrap class is largely yoinked from CCTweaks-Lua, so is a tad
ugly. It works though.
Prior to this change we would schedule a new task which attached
peripherals on the ComputerThread on the empty task queue. This had a
couple of issues:
- Slow running tasks on the computer thread could result in delays in
peripherals being attached (technically, though rarely seen in
practice).
- Now that the ComputerThread runs tasks at once, there was a race
condition in computers being turned on/off and peripherals being
attached/detached.
Note, while the documentation said that peripherals would only be
(at|de)tached on the computer thread, wired modems would attach on the
server thread, so this was not the case in practice.
One should be aware that peripherals are still detached on the
computer thread, most notably when turning a computer on/off.
This is almost definitely going to break some less well-behaved mods,
and possible some of the well behaved ones. I've tested this on SC, so
it definitely works fine with Computronics and Plethora.
- 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.
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
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.
- For those where placement is stored in the metadata (computers),
don't also set it in onBlockPlacedBy.
- Remove .getDefaultState(int, EnumFacing) override, as this means we
have more control over what is passed to us (namely, placer's
direction too).
"/computercraf" auto-completes to "/computercraft_copy" instead of
"/computercraft", which is rather annoying, as the former is not meant
to be used normally.
It's rather embarassing that it's been restructured _again_, but I think
this is a nice middle-ground. The previous implementation was written
mostly for Fabric, which doesn't always map perfectly to Forge.
- Move the message identifier into the registration phrase. It's not
really a property of the message itself, rather a property of the
registry, so better suited there.
- Move message handling into the message itself. Honestly, it was just
ending up being rather messy mixing the logic in two places.
This also means we can drop some proxy methods, as it's easier to
have conditionally loaded methods.
- Move network registry into a dedicated class, as that's what we're
doing for everything else.
This means we can avoid several rather ugly instances of getItemBlock
and a cast. We also derive the ItemBlock's registered name from the
block's name, which makes the register a little less ugly.
- Move the "world directory" getter out of the proxy - we can just use
Forge's code here.
- Remove the server proxies, as both were empty. We don't tend to
register any dedicated-server specific code, so I think we can leave
them out.
- All "named" entries (blocks, items, recipes, TEs and pocket/turtle
upgrades) are registeredin one place.
- Most client side models/textures are registered in ClientRegistry -
we can't do item colours or TEs for now, as these aren't event based.
- A little cleanup to how we handle ItemPocketComputer models.
This offers several advantages
- Less registration code: the subscribers are reigstered automatically,
and we don't need to worry about sided-proxies.
- We no longer have so many .instance() calls.
- Move SpeakerPeripheral's TileSpeaker functionality to a sub-class.
- Use Vec3d instead of BlockPos for speaker's positions.
- Use WorldUtil.dropItemStack to spawn in items.
- Remove redundant lock on ModemPeripheral.
- We now error if there are too many websockets, instead of queuing
them up. As these have a more explicit "lifetime", it could be
confusing if http.websocket just blocks indefinitely.
- Fix a CCME when cleaning up resources.
- Move all HTTP tasks to a unified "MonitoredResource" model. This
provides a uniform way of tracking object's lifetimes and disposing
of them when complete.
- Rewrite HTTP requests to use Netty instead of standard Java. This
offers several advantages:
- We have access to more HTTP verbs (mostly PATCH).
- We can now do http -> https redirects.
- We no longer need to spawn in a new thread for each HTTP request.
While we do need to run some tasks off-thread in order to resolve
IPs, it's generally a much shorter task, and so is less likely to
inflate the thread pool.
- Introduce several limits for the http API:
- There's a limit on how many HTTP requests and websockets may exist
at the same time. If the limit is reached, additional ones will be
queued up until pending requests have finished.
- HTTP requests may upload a maximum of 4Mib and download a maximum
of 16Mib (configurable).
- .getResponseCode now returns the status text, as well as the status
code.
While Plethora has been updated to no longer require these, it's
probably worth keeping them around a little longer, as people may not
upgrade them in sync.
We've had this on SC for most of a year now (and SC 1 for most of its
lifetime) and not seen any issues. I'm fairly confident that it does not
allow breaking the sandbox.
- Move configuration loading into a separate file, just so it doesn't
clutter up ComputerCraft.java.
- Normalise property names, so they're all snake_case.
- Split properties into separate categories (http, turtle, peripheral),
so the main one is less cluttered.
- Define an explicit ordering of each category.
- Provide whether a message was binary or text in websocket_message
and handle.receive(). (Fixes#96)
- Provide an optional reason and status code within the websocket_close
event.
Off topic, but also cleanup the file handles a little.
- Remove redundant constructors and super calls
- Standardise naming of texture fields
- Always use postfix notations for loops
- Cleanup several peripheral classes
Previously we would send computer state (labels, id, on/off) through the
ClientComputer rather than as part of the TE description. While this
mostly worked fine, it did end up making things more complex than they
needed to be.
We sync most data to the tile each tick, so there's little risk of
things getting out of date.
There's several reasons for this change:
- Try to make ComputerCraft.java less monolithic by moving
functionality into separate module-specific classes.
- Hopefully make the core class less Minecraft dependent, meaning
emulators are a little less dependent on anything outside of /core.
Note we still need /some/ methods in the main ComputerCraft class in
order to maintain backwards compatibility with Plethora and
Computronics.
Many bits of IInventory (open/close, fields, etc...) are not actually
needed most implementations, so we can clean things up a little with a
common interface.
Some methods act the same on both sides, and so can be in utility
classes. Others are only needed on one side, and so do not really need
to be part of the proxy.
- Remove TurtleVisionCamera. It would be possible to add this back in
the future, but for now it is unused and so should be removed.
- Move frame info (cursor blink, current render frame) into a
FrameInfo class.
- Move record methods (name, playing a record) into a RecordUtil class.
- getPickBlock is now implemented directly on computers and turtles,
rather than on the tile.
- Bounding boxes are handled on the block rather than tile. This ends
up being a little ugly in the case of BlockPeripheral, but it's not
the end of the world.
- Explosion resistance is only implemented for turtles now.
- Replace BlockCableCableVariant with a boolean, removing any custom
logic around it.
- Replace our previous cable Forge-blockstate with a vanilla one, which
handles cable connections in the model logic.
This ends up being slightly cleaner as we can rely on Minecraft's own
model dependency system. Also reduces reliance on Forge's APIs, which
_potentially_ makes porting a little easier.
- Remove the two redstone commands. These are not used (maybe only by
CCEdu), and so are somewhat redundant.
- Inline the select command, converting it to a lambda.
- Inline the attack/dig commands, as they did little more than wrap the
tool command.
As CCEdu has not been updated, and is unlikely to be updated as Dan does
not have the rights to open source it, we're removing explicit support
for now.
If an alternative arises in the future, it would be good to support, but
in a way which requires less workarounds in CC's core.
Most upgrades provides a couple of constant getters (upgrade ID,
adjective, crafting item). We move the getters into a parent class and
pass the values in via the constructor instead.
Also do a tiny bit of cleanup to the upgrades. Mostly just reducing
nesting, renaming fields, etc...
- Only generate resource pack mounts if the desired directory exists.
- Allow mounting files, as well as directories (fixes#90).
As always, also a wee bit of cleanup to some of the surrounding code.
This allows us to block JEI processing key events such as "o", meaning
the GUI is not constantly toggled when interacting with a turtle.
Also clean up the widget code, as there's a lot of functionality here
which only is needed in CCEdu.
This is implemented in a rather ugly way: we register a client command
(/computercraft_copy) which updates the clipboard, and run that via a
click handler on the chat message.
This hopefully makes wired modems a little easier to use. We'll see.
I don't think anyone has actually ended up using this, so it's unlikely
to break anything (though do tell me if this is the case). On the flip
side, this allows us to queue events on multiple computers, and means
we can provide a little more documentation.
Using turtle.suck on an inventory filled with tools would fill the
entire chest with said item, rather than extracting a single item. In
order to avoid that, we clamp the extract limit to the max stack size
when first extracting an item.
This also inlines the makeSlotList logic, which means we can avoid
creating an array for each inventory operation. This probably won't
have any meaninful performance impact (even on large inventories), but
is a nice optimisation to make.
- Remove a redundant logger
- Provide a getter for the ComputerCraft thread group. This allows us
to monitor child threads within prometheus.
- Replace a deprecated call with a fastutils alternative.
Some mods (*cough* Computronics *cough*) directly access this class,
rather than using the API. We add this back to ensure they still behave
as expected.
Truth be told, I can't really complain, as Plethora also does dodgy
thing with CC internals.
- Keep track of the number of created and destroyed coroutines for each
computer.
- Run coroutines with a thread pool executor, which will keep stale
threads around for 60 seconds. This substantially reduces the
pressure from short-lived coroutines.
- Update to the latest Cobalt version.
- Introduce a ModemState, which shares the open channels across all
modem instances of a wired modem.
- Keep a set of computers for all modem peripherals.
- Keep a map of computers -> (string, peripheral) for wired modem
peripherals. We shouldn't need this one, as you cannot attach one
modem to another, but it's good to be consistent.
One major change here is that modems will continue to be "on", even if
no computers are attached. This would substantially increase
implementation complexity, so I think this is an acceptable compromise
for now.
Should fix#74
Java configured the charset decoders/encoders for streams to REPLACE
malformed characters rather than the default REPORT. It does not do the
same for channels, and so we were catching an IO exception and returning
null.
We'd somehow added spaces, which means they weren't registered under the
computercraft domain (rather, the "computercraft " one). We also create
a datafixer to ensure old worlds are handled correctly.
- Rename openStreamFor* methods to more accurate openChannelFor*
- Fix ArrayByteChannel having an incorrect .position() implementation
Cherry-picked from the PR against dan200/ComputerCraft
- Add an argument to send which controls whether it's a binary message
or not. This is a little ugly, but it's probably more effective than
anything else.
- Fix binary frames not correctly queueing the correct data in the
message event.
Closes#69
The method to register new SoundEvents is private, which means that few
(if any) mods actually register them. Consequently, one could not use
the speaker to play any modded sound, as they weren't registered on the
server side.
Using SPacketCustomSound does mean we can no longer determine if a sound
exists or not, but I think a price I'm willing to pay in order to allow
playing modded sounds.
This replaces the existing IMount openFor* method with openChannelFor*
ones, which return an appropriate byte channel instead.
As channels are not correctly closed when GCed, we introduce a
FileSystemWrapper. We store a weak reference to this, and when it is
GCed or the file closed, we will remove it from our "open file" set and
ensure any underlying buffers are closed.
While this change may seem a little odd, it does introduce some
benefits:
- We can replace JarMount with a more general FileSystemMount. This
does assume a read-only file system, but could technically be used
for other sources.
- Add support for seekable (binary) handles. We can now look for
instances of SeekableByteChannel and dynamically add it. This works
for all binary filesystem and HTTP streams.
- Rewrite the io library to more accurately emulate PUC Lua's
implementation. We do not correctly implement some elements (most
noticably "*n", but it's a definite improvement.
A lot of these don't actually have any effect as they'll only be called
on the main thread or they are getters where the state is guaranteed to
be consistent whenever it is accessed.
Hopefully this'll reduce the chance of world updates being blocked by
waiting for peripheral locks to be released.
- Bump MinecraftForge version so we don't crash on load. Oh boy, all
the deprecation warnings.
- Inject IBundledEmitter and IBundledReceiver capabilities onto all
TileGenerics.
- Register a IBundledRedstoneProvider instance for IBundledEmitter.
This is a preliminary for updating to 1.13, as many of the name changes
apply to both. This will make it harder to remain consistent with
actual CC, though that will be less of a consideration when 1.13 hits.
When placing a sign against a tile entity (such as a turtle or chest),
we would consider that block the "placed" one instead, meaning the text
was never set. This solution isn't entirely ideal either, but short of
capturing block snapshots I'm not sure of a better solution.
Fixes#552
Effectively shift extracting the computer away from Plethora into CC:T.
Ideally we wouldn't need this at all, but Plethora does some funky
things with tick timings.
See SquidDev-CC/plethora#125
Player construction can get a little expensive, and this is exacerbated
by Sponge. We now cache a turtle's fake player (updating the position
every time it is requested) in order to reduce this overhead.
- The current page is always centred when rendering in a GUI, with
the turned pages moving from the sides.
- Pages are no longer evenly distributed from the centre - they follow
an exponential decay curve, so ones further out are closer together
(a bit like an open book).
- Render pages and books in item frames/in-hand (rather than just
single pages).
This currently does some very dirty things with z values in order to
prevent z-fighting. It would be nice to avoid that, though turning off
writing to the z buffer causes issues with the bounding box.
- Try to make drop capturing a little more generic. This now allows for
capturing a block's drop at a given position, as well as any drop
within a bounding box (for things which don't play nicely).
- Use as much of Minecraft's block breaking logic as possible,
hopefully simplifying things and making it more consistent with other
mods.
As we only send the terminal to players using the GUI, the map interface
was never updated. We now will also send the terminal state to whoever
has the computer in their inventory.
This also marks the terminal as dirty when a new player picks the pocket
computer up, hopefully preventing any desync issues which might occur
then.
Fixes#42.
- Fix text table only showing the first row (fixes#40)
- Do not emit alignment characters in monospace environments
- Reduce padding in monospace environments
Also make the output of dump consistent with that of the profiler: we
provide tp and view shortcuts for each computer.
This uses a custom ComputerCraft packet to send chat messages to the
client. When received, we delete all messages of the same category
before sending the new ones.
This avoids cluttering the chat with near-identical messages, and helps
make working with the "individual dump" command easier, as the previous
computer's dump output is deleted.
Also change the max height of the TextTable to 18, so it fits within
Minecraft's default chat limit.
This implements an argument format similar to LuaReqeust, as described
in dan200/ComputerCraft#515. The Lua argument checking code is a little
verbose and repetitive, but I'm not sure how to avoid that - we should
look into improving it in the future.
Closes#21
Whilst the legacy ones are important for backwards compatibility, they
cannot have an ID of 0, which introduces issues when they are the first
disk created in the world.
This allows us to track how much work various peripherals are doing.
This will not work with all systems, such as Plethora, as that has its
own execution system.
The limit was added to prevent people creating arbitrarily large buffers
(for instance, handle.read(2^31) would create a 2GB char array). For
"large" counts, we now read in blocks of size 8192, adding to an
extendable buffer.
- Add additional maven metadata and strip dependencies
- Shift ICommand registration into the proxy, to avoid class loading
issues. This is probably rather temperamental, but classloading
always is.
- Trackers are created per-user, meaning multiple people can run
/computercraft track at once.
- Allow sorting the tracking information by arbitrary fields.
- Add support for tracking arbitrary fields (though none are currently
implemented).
- Abstract peripheral ID and type checking into separate class
- Update peripherals directly rather than marking as invalid then
fetching from the network.
- Update peripherals when adjacent tiles change
This does result in a slightly more ugly interface, but reduces the
amount of work needed to perform partial updates of peripherals, such as
those done by neighbouring tile updates.
Forge's default fake player implementation doesn't override all methods
which use the connection. As it is not set, we get an NPE and thus crash
the server. We simply stub those methods out ourselves to prevent such
an issue.
When initially attaching a modem, the adjacent computer would not show
up on its own peripheral list (like in vanilla CC). However, it would
show up when the chunk was reloaded as peripherals were added through a
different method.
This prevents such behaviour, always hiding the remote peripheral from
the object which provides it.
Closes#20
Shaders appear to ignore all the other subtle (and not-so-subtle) hints
we drop that monitors shouldn't be rendered with shadows. This solution
isn't optimal, as monitors may still be tinted due to sunlight, but
there is nothing we can do about that.
Many thanks to ferreusveritas for their help in diagnosing, fixing and
testing this issue.
Shader mods may perform multiple passes when rendering a tile, so
monitors will be drawn transparently on later passes. In order to
prevent this we allow drawing the a single tile multiple times in a
tick.
The two recipes are pretty similar, so this allows us to substantially
simplify the code. This now introduces the additional requirement that
computers must be used to create turtles, rather than pocket computers
or another turtle.
This adds IComputerItem.withFamily(ItemStack, ComputerFamily) as well as
a ComputerFamilyRecipe class. Each type of computer (normal, turtle,
pocket) defines a recipe using this class, as they require a different
number of gold ingots to upgrade.
These act similarly to conventional wired modems, but with the advantage
that they are a full block. This means they can be attached to
peripherals which are not solid (such as chests). Further more, as they
do not have a direction, they allow wrapping peripherals on all 6 sides.
It's worth noting that wired modems do not require a cable - they will
automatically form connections to adjacent network elements when placed.
There are several important things to note here:
- The network element is associated with the cable, whilst the
peripheral (and so packet sender/receiver) is associated with the
modem. This allows us to have the main element be in the centre of
the cable block, whilst the modem is in the centre of the adjacent
computer.
- Cables will connect to any adjacent network element, not just
other cables.
- Rednet messages are now sent on the computer thread, rather than the
cable tick.
The API is composed of three primary classes:
- IWiredElement: Represents some physical entity in the network. This
will generally be a block (such as a cable or modem), but it is not
required to be.
Each element can provide a series of peripherals, which will be
exposed to other elements on the network.
- IWiredNode: Every wired element has a unique wired node. This acts
as a thread-safe proxy for communicating with the rest of the
network (such as sending packets). Each node is also its own packet
network.
- IWiredNetwork: This is responsible for keeping track of nodes and
peripherals in the network. It provides methods for forming and
breaking connections, correctly joining and splitting networks where
needed.
Tiles which wish to be part of a wired network should implement
IWiredElementTile or register a custom IWiredProvider. When loaded into
the world, it should connect to adjacent nodes. Similarly, when removed
(either due to being broken or chunk unloads), it should break those
connections.
There is no method to query the layout of the network, as that offers
greater flexibility in changing or extending the implementation later
on.
This provides a mechanism for peripherals to see what else a computer is
connected to - and then interact with those peripherals.
We also add the ability to query what block or tile a peripheral
targets. This allows one to interact with the original block of adjacent
peripherals instead.
Mostly intended for those people who don't like .inspect() or
.getItemDetail(), but could allow modpacks to block equipping upgrades,
placing blocks, etc...
The main aim of this is to allow for greater extensibility for other
mods. For instance, you can now prevent turtles placing dirt blocks, or
turning when on gravel.