* Cleanup Mechmini keymap. Once the custom RGB function is defined, there is no need to manually handle RGB code.
* Change default to KEYMAP_MIT, not KEYMAP_OFFSET
* Add custom RGB code for JJ40
* Reset Mechmini advertised power draw to 500. Will have to test actual maximum power draw later.
* RGB working on JJ40.
* Fix: saturation increase/decrease flipped
* Add new directory for my custom keymap with RGB keycodes
* Swap LAlt and LGUI
* Update JJ40 max power draw with measured value
* Update: fun40 rules.mk to enable underglow; earlier failed Travis CI
* Fix: init RGB LEDs on boot. Also added HHKB-like keymap for XD60.
* Super rudimentary backlight test, init RGB LEDs on boot
* Backlighting works - stays on for now
* Toggling working
* Now can override backlight.c functions. Problem was functions in backlight.c weren't called before due to a lack of matrix_scan_quantum() in matrix.c
* Timers not working
* Delete global.h
* Cleanup
* Compiles
* Good sign: LEDs stop working again
* Handle timer1 overflow
* Progress: fix: forgot to init
* Backlighting fully working now except breathing.
* Revert keymap to original keycodes
* Update XD60 keymap README
* Update JJ40 keymap with backlight toggles
* Breathing working just fine.
* Update references
* Add backlight_set() call
* Cleanup code to disable backlight
* Fix: does not compile
* Fix: missing call to rgblight_task.
* Testing with BACKLIGHT_BREATHING
* Cleanup
* Cleanup comments
* More commenting cleanup.
* Do not enable BACKLIGHT_BREATHING by default
* add breathing to bananasplit
* backlight breathing overhaul
* fix the backlight_tick thing.
* fix for vision_division backlight
* fix a few keymaps and probably break breathing for some weirdly set-up boards.
* remove BL_x keycodes because they made unreasonable assumptions
* some fixes for BL keycodes
* integer cie lightness scaling
* use cie lightness for non-breathing backlight and make breathing able to reach true max brightness
* pull fuse settings for bootloader jump
* fix 32a chips
* make automatic bootloader selection optional
* quantify bootloaders
* fixs #164, speeds up dfu reset
* fix for chips w/o usb
* missing an n
* fix bootloader sizes, use words for addresses
* fix bmini, pearl, and [[ issue, make things quiet
* ignore avr errors on arm for now
* update settings for the light
* document bootloader stuff
* add bootloader title
This is particularly relevant for, e.g., the ergodox EZ and
other keyboards with slow scan rates. Without changing the API or
behavior of individual process_record() calls, we allow a
configuration flag to make multiple calls in a single scan.
This will probably have miniscule effects on non-steno users,
and it's not enabled by default for any keyboards. Added note
about it to ergodox README.
Signed-off-by: seebs <seebs@seebs.net>
avoid the following error when `UNICODEMAP_ENABLE = yes`:
```
quantum/process_keycode/process_unicodemap.c:52:21: error: implicit declaration of function 'pgm_read_dword'
```
* add RETRO_TAP: tap anyway, even after TAP_TERM, if no interruption
* consistent variable name
* add option doc
* change name for consistency
* make RETRO_TAPPING default to off
* initial clueboard_60 support
* LED lighting support
* fix the clueboard->clueboard_66 rename
* Add layout support to clueboard_60
* Fix the 60_iso layout so it's actually iso
* add a default keymap for AEK layout
* fix clueboard_17
* Fixup the ISO layouts
* Fix the `wait_ms()/wait_us()` definitions for chibios
* Fix up the wait_ms/wait_us hack. Reduce stack size.
* Add a missing #include "wait.h"
* commit files that should have already been comitted
Updated MiniDox split_util.h and eeprom files to reflect this change.
I recommend adding this to any split board that used these files, my changes will not effect them currently.
This protocol breaks out "duplicate" keys into their own entry in the packet so that more complicated logic can be done on the software side, including support for additional languages and alternative theories.
* Add 80ms delay for KC_CAPS when used as a tap key
Workaround for the macOS caps lock delay
* Revert "Increase TAPPING_TERM for the Clueboard"
This reverts commit a74e69e9fa.
The oneshot cancellation code do not depend on the
action_tapping_process and since process_record get called via the
action_tapping_process logic moved the oneshot cancellation code into
the action_exec function just before the action_tapping_process call
A macro key can now be easily set to act as a modifier on hold, and
press a shifted key when tapped. Or to switch layers when held, and
again press a shifted key when tapped.
Various other helper defines have been created which send macros when
the key is pressed, released and tapped, cleaning up the
action_get_macro function inside keymap definitions.
The layer switching macros require a GCC extension - 'compound
statements enclosed within parentheses'. The use of this extension is
already present within the macro subsystem of this project, so its use
in this commit should not cause any additional issues.
MACRO_NONE had to be cast to a (macro_t*) to suppress compiler
warnings within some tapping macros.
Since we can't read the real_mods and oneshot_mods static variable
directly within the update_user_visualizer_state
function (Threading and serial link). We are know storing the mods
states in the visualizer_keyboard_status_t structure. We can now
display the status of the modifier keys on the LCD display.
After setting a ONESHOT_TIMEOUT value, the oneshot layer state would
not expire without an event being triggered (key pressed). The reason
was that in the process_record function we would return priort to
execute the process_action function if it detected a NOEVENT cycle. The
process_action contained the codes to timeout the oneshot layer state.
The codes to clear the oneshot layer state have been move just in
front of where we check for the NOEVENT cycle in the process_record
function.
Adopt the macros for saving/restoring the interrupt state
that are provided by the avr gcc environment.
Removing intialization of the timer value; this shaves off
a few bytes because globals are default initialized to zero.
User print disables the normal print messages in the body of QMK/TMK
code and is meant as a lightweight alternative to NOPRINT. Use it when
you only want to do a spot of debugging but lack flash resources for
allowing all of the codebase to print (and store their wasteful
strings).