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.
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.
- 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 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.
- 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.
- 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.
- 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.
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.
- 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.
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).
