Instead of having to include `device/key_indexes.h` from every single hardware
plugin, include it from `Kaleidoscope.h` instead. This also allows us to get rid
of the redundant `KeyAddr` typedef, by including `kaleidoscope/KeyAddr.h` from
`key_indexes.h` instead.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
Move all the hardware plugins from the `kaleidoscope::hardware` namespace to
`kaleidoscope::device`, in perparation for deeper changes to come later.
This is merely a restructuring, there are no functional changes. The one
breaking change is that `ATMegaKeyboard` moved too, and we do not provide any
backward compatibility there.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
While we made attempts at forcing Arduino to use the current copy (that's what
all the `current-libraries` stuff are), it apparently doesn't work anymore. As a
quick workaround, delete the bundled Kaleidoscope's `library.properties`, so
Arduino won't find it, and will use the current one instead.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
While we technically only support AVR for now, most of the code is
arch-agnostic, and we'll soon have ARM boards too. This is a preparation step to
unlock that architecture.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
When deciding how much data to work with, store the number of LEDs on the board,
not the number of keys. Boards may have less or more LEDs than keys, and since
the plugin is supposed to support theming the LEDs, that number is the one we want.
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>
We want to keep `key_hue` below 255, without clipping it there, otherwise the
effect will come out glitchy. To achieve that, we simply substract 255 until
we're above the cap. This results in the rainbow being laid out in a kind of
wave.
Previously, we didn't do this in a loop, which only worked when the device had
less than 128 LEDs. For devices with more, we need to do this in a loop, until
we get below the cap.
Based on #664 by @mattvenn.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
To make it easier to test hardware plugin changes, and compile only their
example firmware, add a Makefile for the ErgoDox EZ and the Keyboardio Model01.
All the other devices already have one, these two should have one too.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
Moved all of the Devices into vendor subdirectories, and named the board
directories after the board itself.
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>
The correct KeyAddr type is not known to class ATMegaKeyboard
as key matrix dimentions (matrix_rows/matrix_columns) and
type KeyAddr are only defined in derived hardware classes. To deal with
this problem, some of the KeyAddr related methods are moved to
derived hardware classes.
The necessary boilerplate code is synthesized through a macro
ATMEGA_KEYBOARD_MATRIX_ACCESS_METHODS that is automatically included
by all derived classes of class ATMegaKeyboard through the already used
macro ATMEGA_KEYBOARD_CONFIG.
Signed-off-by: Florian Fleissner <florian.fleissner@inpartik.de>
By forcing an explicit type conversion between
two template class instances of template
MatrixAddr<...>, we prevent undesired implicit
construction of the wrong MatrixAddr type.
Before this change, the following would have been possible
typedef MatrixAddr<5, 5> KeyAddr;
void f(KeyAddr k) {} // uses MatrixAddr<5, 5>
void g() {
typedef MatrixAddr<0, 0> KeyAddr; // Stupid but possible
f(KeyAddr(1, 12)); // Would instantiate MatrixAddr<0, 0> and
// implicitly convert it to MatrixAddr<5, 5>
}
With this commit, the compiler will emit an error and explicit type
conversion is required.
typedef MatrixAddr<5, 5> KeyAddr1;
typedef MatrixAddr<2, 2> KeyAddr2;
void f(KeyAddr1 k) {} // uses MatrixAddr<5, 5>
void g() {
f(KeyAddr1(KeyAddr2(1, 1)); // Now an explicit type conversion is
// required.
}
This commit also introduces a compile time check that prevents
conversion from a matrix type with greater extension to one with
smaller extension.
Signed-off-by: Florian Fleissner <florian.fleissner@inpartik.de>
The "new" code we've backed out caused all key events to be about key
0,0. I suspect that this is GCC doing something crazy with that one
function. I don't understand what's going on. @noseglasses: any idea?
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>