This implements an extension to the `TapDance` plugin, allowing us to store
`tapDanceActionKeys()`-esque lists in Storage. The core idea here is very
similar to that of `DynamicMacros`: we dump/restore the full list via Focus,
build a cached index on setup and any updates, and play back the selected key
when need be.
Unlike `DynamicMacros`,this plugin is built on top of `TapDance` and cannot
function without it.
Fixes#730.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
Unions are a C-reminiscense that are better avoided in modern C++.
They cause specific problems due to their nature of representing
independent types. The way they are used in Kaleidoscope, they
can easily be replaced by a class.
This enables it to properly work with Key objects in constexpr context
where with the old union-based implementation the compiler reported
errors when one Key was constructed based on a key_code/flags pair and
another one through raw-data. In such a case, the compiler assumes that
both Key instances represent something entirely different. This is
because unions were never meant for type conversions and the C++
standard considers their use for that purpose as undefined behavior.
The new class provides accessor methods for raw-data access and for
key_code/flags-data access.
This is a breaking change as it is is not possible to replace direct
member access patterns like
key.raw = 0xFFFF;
based on the raw-accessors.
For the .keyCode and .flags members, proxy objects are used
to enable the generation of suitable deprecations warnings.
All direct access via .raw, .keyCode and .flags have been replaced
throughout Kaleidoscope.
Information on how to upgrade is provided in UPGRADING.md
Signed-off-by: Florian Fleissner <florian.fleissner@inpartik.de>
Having to recompile and re-flash firmware to set the idle timeout of the plugin
isn't a fun or desired experience. It's fine when one already figured out the
timeout they want, and have no desire to change it. For everyone else, being
able to configure it at run-time via Focus, and have it persist to EEPROM is a
much nicer experience.
This change adds an alternative version of the plugin, `PersistentIdleLEDs`, a
subclass of the original one. This one provides the focus command and
persistence. It's a child class, because that results in a smaller footprint
than a separate plugin that calls the `IdleLEDs` object.
The code borrows from - but is not wire-compatible with - Dygma's implementation
by @mattvenn.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
The new device APIs were built on top of composition (instead of inheritance,
like the former one). At the highest level, we have `kaleidoscope::device::Base`
and `kaleidoscope::device::BaseProps`. The latter is a set of overrideable
properties, components that make up the device: the key scanner, LEDs, MCU, and
so on.
Many components - like the key scanner and LEDs - also come in a similar setup:
the base class and properties, because this allows us to make them fairly
efficient templates.
All of the existing devices have been ported to the new APIs. While the old
`Hardware` base class remains - for now, and deprecated - it is not guaranteed
to work.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
Instead of having to define `HARDWARE_IMPLEMENTATION` to the class name of the
device, and define `KeyboardHardware` from within the plugin, let all devices
set `kaleidoscope::Device` to their own class via a typedef. Furthermore,
instead of `KeyboardHardware`, use `Kaleidoscope.device()` instead. This makes
device plugins a little bit simpler, and our naming more consistent.
Because some parts of the firmware need to access the device object before the
`Kaleidoscope` object is available, we can't make it a member of that. For this
reason, the device object is `kaleidoscope_internal::device`, and
`Kaleidoscope.device()` wraps it. In general, the wrapper should be used. But if
access to the device is required before `Kaleidoscope` is available, then that's
also available.
The `Kaleidoscope` object grew a few more wrappers: `storage()` and
`serialPort()`, so that one doesn't need to use `Kaleidoscope.device()`
directly, but can use the wrappers, which are noticably shorter to write.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
In preparation for making Serial access configurable on a per-board basis,
introduce `KeyboardHardware.serialPort()`, which - for the time being - returns
the Serial object.
All users of Serial have been updated to use the new API.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
Instead of directly accessing the EEPROM, do so through
`KeyboardHardware.storage()`, which - for the time being - is a function that
simply returns the `EEPROM` object.
All plugins that were using EEPROM directly were updated, and so was the
EEPROM-Settings documentation.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
This implements a new plugin for Dynamic (EEPROM-stored) macros. Unlike the
Macros plugin, these macros are stored in EEPROM, and can't run custom code,
only the steps outlined in the Macros documentation.
The plugin provides two Focus commands (`macros.map` and `macros.trigger`) to
get or set the dynamic macros, and to trigger one without having to place them
on the keymap.
Fixes#370.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
This introduces two new macro action steps: `MACRO_ACTION_STEP_TAP_SEQUENCE`,
and `MACRO_ACTION_STEP_TAP_CODE_SEQUENCE`. Both of these will tap everything
that follows up to a terminating zero (or in case of the first, double zeroes).
The purpose of these new steps is to allow one to store longer sequences of
tapped input in a more compact manner, without having to prefix each step with
an action.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
This is a complete rewrite of Qukeys, in order to implement several improvements
and new features:
- A new KeyAddrEventQueue class has been introduced, in order to store both key
press and release events in the queue.
- The direct dependence on KeyboardioHID is removed by only flushing one event
from the queue per cycle.
- The array of Qukey objects is now stored in PROGMEM instead of SRAM, and is
configured via an array reference template function in order to automatically
ensure the count will be correct.
- There is a new algorithm for determining which state a qukey will collapse
into in the case of rollover from qukey to another key, which should reduce
the rate of errors for "sloppy" typists.
- A Qukey with a primary key value that is a modifier (including layer shift
keys) is treated like a SpaceCadet key, with different semantics. The
alternate (non-modifier) key value is only used if the SpaceCadet key is
pressed and released on its own, without rolling over to any other key.
- The code is generally simpler and easier to understand, with better inline
comments explaining how it all works.
Fixes#626.
Signed-off-by: Michael Richters <gedankenexperimenter@gmail.com>
Some systems (I've confirmed this on an iMac and a MacBook Escape) have a long delay after
the host begins to "sleep" and the keyboard responding to the HostPowerManagement
plugin (i.e. turning off LEDs).
Signed-off-by: Michael Richters <gedankenexperimenter@gmail.com>
We want to be able to notice when the layout of the EEPROM *settings*
changed (which the CRC does not cover). For this reason, we're repurposing the
existing version setting, which wasn't widely used: it is now internal.
We use the version to determine whether the EEPROM has been written to yet, or
if it is uninitialized. This helps us make sure we're starting up with sensible
defaults.
Fixes#559, and fixes#558.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
Instead of having a single `keymap.map` Focus command that tries to be smart
about what layers it presents, we should have two separate commands: one to
query the defaults (PROGMEM), and one to get/set the custom keymap (EEPROM).
This makes `keymap.map` and `keymap.roLayers` obsolete, and they're now removed.
Furthermore, having to specify whether the EEPROM keymap extends the built-in
one or not proved to be unflexible. So we re-purposed the highest bit of the
first EEPROM byte, to signal whether we should use EEPROM layers only or not.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
Add `REDIAL` to `kaleidoscope::ranges`, so the plugin can define `Key_Redial`
itself, and won't need `Redial.key` to be set in the user sketch either. This is
a breaking change, but one that's easy to upgrade to, hence no effort was made
to make it at least partially backwards-compatible.
Fixes#519.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
While the rainbow colors are great, some may want to restrict the colors to a
single hue. For this purpose, the `ripple_hue` property was introduced. It
defaults to `Wavepool.rainbow_hue` (a special value that tells the plugin to use
multiple hues).
Inspired by @bjc's ToyKeeper/Kaleidoscope-LED-Wavepool#8.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
The examples were recently reorganized, but the documentation was not updated,
so some of them were pointing to dangling, obsolete places. This updates them
all to point to the correct locations.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
As the name implies, this makes it possible to set all leds to the same color
depending on which layer is the topmost active one.
Fixes#492.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
Based on a discussion on Discord, this implements a simple plugin that can
temporarily disable the Windows (GUI) keys.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
The ErgoDox typically uses a Teensy, and the Atreus has the option to as well.
In both cases, the flashing procedure (whether through the IDE or CLI) will
require the `teensy_loader_cli` tool installed.
Fixes#479.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
Make it possible to use the plugin for all known Atreus variants: the post-2016
PCB with A* and the FalbaTech handwired one with a Teensy (these two were the
only supported ones until now), the pre-2016 PCB with A*, and the legacy Teensy2
variant.
Fixes#430.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
Introduce a couple of helper methods that make it easier to work with Focus.
These abstract away the dependency on Serial as a side-effect. The intent is
that all traffic will go through Focus.
Fixes#476.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
When merging into the monorepo, all documentation links were updated to point at
the new documentation locations. Even those where the plugin wasn't merged, such
as `Focus` (`FocusSerial` was). Restore the link, so it points where it needs to.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
Sometimes we'd like to be in control of when reports are sent during macro
playback. This implements a way to achieve that.
Fixes#368.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
In certain cases we need to delay the unicode input sequence, otherwise the host
is unable to process the input properly. Introduce the `.input_delay()`
setter/getter for this purpose. We're defaulting to zero (no delay) nevertheless.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>