forked from forks/qmk_firmware
[Doc] Add example to keyboard housekeeping and some minor fixes (#19968)
Co-authored-by: jack <0x6a73@protonmail.com>
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@ -202,6 +202,62 @@ This function gets called at the end of all QMK processing, before starting the
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Similar to `matrix_scan_*`, these are called as often as the MCU can handle. To keep your board responsive, it's suggested to do as little as possible during these function calls, potentially throtting their behaviour if you do indeed require implementing something special.
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Similar to `matrix_scan_*`, these are called as often as the MCU can handle. To keep your board responsive, it's suggested to do as little as possible during these function calls, potentially throtting their behaviour if you do indeed require implementing something special.
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### Example `void housekeeping_task_user(void)` implementation
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This example will show you how to use `void housekeeping_task_user(void)` to turn off [RGB Light](feature_rgblight.md). For RGB Matrix, the [builtin](https://docs.qmk.fm/#/feature_rgb_matrix?id=additional-configh-options) `RGB_MATRIX_TIMEOUT` should be used.
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First, add the following lines to your keymap's `config.h`:
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```c
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#define RGBLIGHT_SLEEP // enable rgblight_suspend() and rgblight_wakeup() in keymap.c
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#define RGBLIGHT_TIMEOUT 900000 // ms to wait until rgblight time out, 900K ms is 15min.
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```
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Next, add the following code to your `keymap.c`:
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```c
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static uint32_t key_timer; // timer for last keyboard activity, use 32bit value and function to make longer idle time possible
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static void refresh_rgb(void); // refreshes the activity timer and RGB, invoke whenever any activity happens
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static void check_rgb_timeout(void); // checks if enough time has passed for RGB to timeout
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bool is_rgb_timeout = false; // store if RGB has timed out or not in a boolean
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void refresh_rgb(void) {
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key_timer = timer_read32(); // store time of last refresh
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if (is_rgb_timeout)
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{
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is_rgb_timeout = false;
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rgblight_wakeup();
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}
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}
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void check_rgb_timeout(void) {
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if (!is_rgb_timeout && timer_elapsed32(key_timer) > RGBLIGHT_TIMEOUT) // check if RGB has already timeout and if enough time has passed
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{
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rgblight_suspend();
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is_rgb_timeout = true;
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}
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}
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/* Then, call the above functions from QMK's built in post processing functions like so */
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/* Runs at the end of each scan loop, check if RGB timeout has occured or not */
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void housekeeping_task_user(void) {
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#ifdef RGBLIGHT_TIMEOUT
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check_rgb_timeout();
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#endif
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}
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/* Runs after each key press, check if activity occurred */
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void post_process_record_user(uint16_t keycode, keyrecord_t *record) {
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#ifdef RGBLIGHT_TIMEOUT
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if (record->event.pressed)
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refresh_rgb();
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#endif
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}
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/* Runs after each encoder tick, check if activity occurred */
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void post_encoder_update_user(uint8_t index, bool clockwise) {
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#ifdef RGBLIGHT_TIMEOUT
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refresh_rgb();
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#endif
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}
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```
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# Keyboard Idling/Wake Code
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# Keyboard Idling/Wake Code
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If the board supports it, it can be "idled", by stopping a number of functions. A good example of this is RGB lights or backlights. This can save on power consumption, or may be better behavior for your keyboard.
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If the board supports it, it can be "idled", by stopping a number of functions. A good example of this is RGB lights or backlights. This can save on power consumption, or may be better behavior for your keyboard.
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@ -209,7 +265,7 @@ If the board supports it, it can be "idled", by stopping a number of functions.
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This is controlled by two functions: `suspend_power_down_*` and `suspend_wakeup_init_*`, which are called when the system board is idled and when it wakes up, respectively.
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This is controlled by two functions: `suspend_power_down_*` and `suspend_wakeup_init_*`, which are called when the system board is idled and when it wakes up, respectively.
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### Example suspend_power_down_user() and suspend_wakeup_init_user() Implementation
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### Example `suspend_power_down_user()` and `suspend_wakeup_init_user()` Implementation
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```c
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```c
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@ -160,6 +160,7 @@ bool process_record_user(uint16_t keycode, keyrecord_t *record) {
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return true;
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return true;
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};
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};
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```
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```
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Alternatively, this can be done with [Key Overrides](feature_key_overrides?id=simple-example).
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# Advanced topics :id=advanced-topics
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# Advanced topics :id=advanced-topics
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@ -180,3 +181,7 @@ This page used to encompass a large set of features. We have moved many sections
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## Tap-Hold Configuration Options :id=tap-hold-configuration-options
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## Tap-Hold Configuration Options :id=tap-hold-configuration-options
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* [Tap-Hold Configuration Options](tap_hold.md)
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* [Tap-Hold Configuration Options](tap_hold.md)
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## Key Overrides :id=key-overrides
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* [Key Overrides](feature_key_overrides.md)
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@ -1,4 +1,4 @@
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# Key Overrides
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# Key Overrides :id=key-overrides
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Key overrides allow you to override modifier-key combinations to send a different modifier-key combination or perform completely custom actions. Don't want `shift` + `1` to type `!` on your computer? Use a key override to make your keyboard type something different when you press `shift` + `1`. The general behavior is like this: If `modifiers w` + `key x` are pressed, replace these keys with `modifiers y` + `key z` in the keyboard report.
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Key overrides allow you to override modifier-key combinations to send a different modifier-key combination or perform completely custom actions. Don't want `shift` + `1` to type `!` on your computer? Use a key override to make your keyboard type something different when you press `shift` + `1`. The general behavior is like this: If `modifiers w` + `key x` are pressed, replace these keys with `modifiers y` + `key z` in the keyboard report.
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@ -10,13 +10,13 @@ You can use key overrides in a similar way to momentary layer/fn keys to activat
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- Create custom shortcuts or change existing ones: E.g. Send `ctrl`+`shift`+`z` when `ctrl`+`y` is pressed.
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- Create custom shortcuts or change existing ones: E.g. Send `ctrl`+`shift`+`z` when `ctrl`+`y` is pressed.
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- Run custom code when `ctrl` + `alt` + `esc` is pressed.
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- Run custom code when `ctrl` + `alt` + `esc` is pressed.
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## Setup
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## Setup :id=setup
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To enable this feature, you need to add `KEY_OVERRIDE_ENABLE = yes` to your `rules.mk`.
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To enable this feature, you need to add `KEY_OVERRIDE_ENABLE = yes` to your `rules.mk`.
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Then, in your `keymap.c` file, you'll need to define the array `key_overrides`, which defines all key overrides to be used. Each override is a value of type `key_override_t`. The array `key_overrides` is `NULL`-terminated and contains pointers to `key_override_t` values (`const key_override_t **`).
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Then, in your `keymap.c` file, you'll need to define the array `key_overrides`, which defines all key overrides to be used. Each override is a value of type `key_override_t`. The array `key_overrides` is `NULL`-terminated and contains pointers to `key_override_t` values (`const key_override_t **`).
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## Creating Key Overrides
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## Creating Key Overrides :id=creating-key-overrides
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The `key_override_t` struct has many options that allow you to precisely tune your overrides. The full reference is shown below. Instead of manually creating a `key_override_t` value, it is recommended to use these dedicated initializers:
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The `key_override_t` struct has many options that allow you to precisely tune your overrides. The full reference is shown below. Instead of manually creating a `key_override_t` value, it is recommended to use these dedicated initializers:
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@ -34,7 +34,7 @@ Additionally takes a bitmask `options` that specifies additional options. See `k
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For more customization possibilities, you may directly create a `key_override_t`, which allows you to customize even more behavior. Read further below for details and examples.
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For more customization possibilities, you may directly create a `key_override_t`, which allows you to customize even more behavior. Read further below for details and examples.
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## Simple Example
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## Simple Example :id=simple-example
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This shows how the mentioned example of sending `delete` when `shift` + `backspace` are pressed is realized:
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This shows how the mentioned example of sending `delete` when `shift` + `backspace` are pressed is realized:
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@ -48,9 +48,9 @@ const key_override_t **key_overrides = (const key_override_t *[]){
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};
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};
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```
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```
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## Intermediate Difficulty Examples
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## Intermediate Difficulty Examples :id=intermediate-difficulty-examples
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### Media Controls & Screen Brightness
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### Media Controls & Screen Brightness :id=media-controls-amp-screen-brightness
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In this example a single key is configured to control media, volume and screen brightness by using key overrides.
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In this example a single key is configured to control media, volume and screen brightness by using key overrides.
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@ -102,7 +102,7 @@ const key_override_t **key_overrides = (const key_override_t *[]){
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};
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};
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```
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```
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### Flexible macOS-friendly Grave Escape
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### Flexible macOS-friendly Grave Escape :id=flexible-macos-friendly-grave-escape
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The [Grave Escape feature](feature_grave_esc.md) is limited in its configurability and has [bugs when used on macOS](feature_grave_esc.md#caveats). Key overrides can be used to achieve a similar functionality as Grave Escape, but with more customization and without bugs on macOS.
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The [Grave Escape feature](feature_grave_esc.md) is limited in its configurability and has [bugs when used on macOS](feature_grave_esc.md#caveats). Key overrides can be used to achieve a similar functionality as Grave Escape, but with more customization and without bugs on macOS.
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```c
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```c
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@ -121,8 +121,8 @@ const key_override_t **key_overrides = (const key_override_t *[]){
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In addition to not encountering unexpected bugs on macOS, you can also change the behavior as you wish. Instead setting `GUI` + `ESC` = `` ` `` you may change it to an arbitrary other modifier, for example `Ctrl` + `ESC` = `` ` ``.
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In addition to not encountering unexpected bugs on macOS, you can also change the behavior as you wish. Instead setting `GUI` + `ESC` = `` ` `` you may change it to an arbitrary other modifier, for example `Ctrl` + `ESC` = `` ` ``.
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## Advanced Examples
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## Advanced Examples :id=advanced-examples
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### Modifiers as Layer Keys
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### Modifiers as Layer Keys :id=modifiers-as-layer-keys
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Do you really need a dedicated key to toggle your fn layer? With key overrides, perhaps not. This example shows how you can configure to use `rGUI` + `rAlt` (right GUI and right alt) to access a momentary layer like an fn layer. With this you completely eliminate the need to use a dedicated layer key. Of course the choice of modifier keys can be changed as needed, `rGUI` + `rAlt` is just an example here.
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Do you really need a dedicated key to toggle your fn layer? With key overrides, perhaps not. This example shows how you can configure to use `rGUI` + `rAlt` (right GUI and right alt) to access a momentary layer like an fn layer. With this you completely eliminate the need to use a dedicated layer key. Of course the choice of modifier keys can be changed as needed, `rGUI` + `rAlt` is just an example here.
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@ -150,7 +150,7 @@ const key_override_t fn_override = {.trigger_mods = MOD_BIT(KC_RGUI) |
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.enabled = NULL};
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.enabled = NULL};
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```
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```
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## Keycodes
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## Keycodes :id=keycodes
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|Keycode |Aliases |Description |
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|Keycode |Aliases |Description |
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|------------------------|---------|----------------------|
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|------------------------|---------|----------------------|
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@ -158,7 +158,7 @@ const key_override_t fn_override = {.trigger_mods = MOD_BIT(KC_RGUI) |
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|`QK_KEY_OVERRIDE_ON` |`KO_ON` |Turn on key overrides |
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|`QK_KEY_OVERRIDE_ON` |`KO_ON` |Turn on key overrides |
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|`QK_KEY_OVERRIDE_OFF` |`KO_OFF` |Turn off key overrides|
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|`QK_KEY_OVERRIDE_OFF` |`KO_OFF` |Turn off key overrides|
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## Reference for `key_override_t`
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## Reference for `key_override_t` :id=reference-for-key_override_t
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Advanced users may need more customization than what is offered by the simple `ko_make` initializers. For this, directly create a `key_override_t` value and set all members. Below is a reference for all members of `key_override_t`.
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Advanced users may need more customization than what is offered by the simple `ko_make` initializers. For this, directly create a `key_override_t` value and set all members. Below is a reference for all members of `key_override_t`.
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@ -175,7 +175,7 @@ Advanced users may need more customization than what is offered by the simple `k
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| `void *context` | A context that will be passed to the custom action function. |
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| `void *context` | A context that will be passed to the custom action function. |
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| `bool *enabled` | If this points to false this override will not be used. Set to NULL to always have this override enabled. |
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| `bool *enabled` | If this points to false this override will not be used. Set to NULL to always have this override enabled. |
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### Reference for `ko_option_t`
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## Reference for `ko_option_t` :id=reference-for-ko_option_t
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Bitfield with various options controlling the behavior of a key override.
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Bitfield with various options controlling the behavior of a key override.
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| `ko_option_no_reregister_trigger` | If set, the trigger key will never be registered again after the override is deactivated. |
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| `ko_option_no_reregister_trigger` | If set, the trigger key will never be registered again after the override is deactivated. |
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| `ko_options_default` | The default options used by the `ko_make_xxx` functions |
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| `ko_options_default` | The default options used by the `ko_make_xxx` functions |
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## For Advanced Users: Inner Workings
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## For Advanced Users: Inner Workings :id=for-advanced-users-inner-workings
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This section explains how a key override works in detail, explaining where each member of `key_override_t` comes into play. Understanding this is essential to be able to take full advantage of all the options offered by key overrides.
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This section explains how a key override works in detail, explaining where each member of `key_override_t` comes into play. Understanding this is essential to be able to take full advantage of all the options offered by key overrides.
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#### Activation
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#### Activation :id=activation
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When the necessary keys are pressed (`trigger_mods` + `trigger`), the override is 'activated' and the replacement key is registered in the keyboard report (`replacement`), while the `trigger` key is removed from the keyboard report. The trigger modifiers may also be removed from the keyboard report upon activation of an override (`suppressed_mods`). The override will not activate if any of the `negative_modifiers` are pressed.
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When the necessary keys are pressed (`trigger_mods` + `trigger`), the override is 'activated' and the replacement key is registered in the keyboard report (`replacement`), while the `trigger` key is removed from the keyboard report. The trigger modifiers may also be removed from the keyboard report upon activation of an override (`suppressed_mods`). The override will not activate if any of the `negative_modifiers` are pressed.
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In any case, a key override can only activate if the `trigger` key is the _last_ non-modifier key that was pressed down. This emulates the behavior of how standard OSes (macOS, Windows, Linux) handle normal key input (to understand: Hold down `a`, then also hold down `b`, then hold down `shift`; `B` will be typed but not `A`).
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In any case, a key override can only activate if the `trigger` key is the _last_ non-modifier key that was pressed down. This emulates the behavior of how standard OSes (macOS, Windows, Linux) handle normal key input (to understand: Hold down `a`, then also hold down `b`, then hold down `shift`; `B` will be typed but not `A`).
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#### Deactivation
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#### Deactivation :id=deactivation
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An override is 'deactivated' when one of the trigger keys (`trigger_mods`, `trigger`) is lifted, another non-modifier key is pressed down, or one of the `negative_modifiers` is pressed down. When an override deactivates, the `replacement` key is removed from the keyboard report, while the `suppressed_mods` that are still held down are re-added to the keyboard report. By default, the `trigger` key is re-added to the keyboard report if it is still held down and no other non-modifier key has been pressed since. This again emulates the behavior of how standard OSes handle normal key input (To understand: hold down `a`, then also hold down `b`, then also `shift`, then release `b`; `A` will not be typed even though you are holding the `a` and `shift` keys). Use the `option` field `ko_option_no_reregister_trigger` to prevent re-registering the trigger key in all cases.
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An override is 'deactivated' when one of the trigger keys (`trigger_mods`, `trigger`) is lifted, another non-modifier key is pressed down, or one of the `negative_modifiers` is pressed down. When an override deactivates, the `replacement` key is removed from the keyboard report, while the `suppressed_mods` that are still held down are re-added to the keyboard report. By default, the `trigger` key is re-added to the keyboard report if it is still held down and no other non-modifier key has been pressed since. This again emulates the behavior of how standard OSes handle normal key input (To understand: hold down `a`, then also hold down `b`, then also `shift`, then release `b`; `A` will not be typed even though you are holding the `a` and `shift` keys). Use the `option` field `ko_option_no_reregister_trigger` to prevent re-registering the trigger key in all cases.
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#### Key Repeat Delay
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#### Key Repeat Delay :id=key-repeat-delay
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A third way in which standard OS-handling of modifier-key input is emulated in key overrides is with a ['key repeat delay'](https://www.dummies.com/computers/pcs/set-your-keyboards-repeat-delay-and-repeat-rate/). To explain what this is, let's look at how normal keyboard input is handled by mainstream OSes again: If you hold down `a`, followed by `shift`, you will see the letter `a` is first typed, then for a short moment nothing is typed and then repeating `A`s are typed. Take note that, although shift is pressed down just after `a` is pressed, it takes a moment until `A` is typed. This is caused by the aforementioned key repeat delay, and it is a feature that prevents unwanted repeated characters from being typed.
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A third way in which standard OS-handling of modifier-key input is emulated in key overrides is with a ['key repeat delay'](https://www.dummies.com/computers/pcs/set-your-keyboards-repeat-delay-and-repeat-rate/). To explain what this is, let's look at how normal keyboard input is handled by mainstream OSes again: If you hold down `a`, followed by `shift`, you will see the letter `a` is first typed, then for a short moment nothing is typed and then repeating `A`s are typed. Take note that, although shift is pressed down just after `a` is pressed, it takes a moment until `A` is typed. This is caused by the aforementioned key repeat delay, and it is a feature that prevents unwanted repeated characters from being typed.
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The duration of the key repeat delay is controlled with the `KEY_OVERRIDE_REPEAT_DELAY` macro. Define this value in your `config.h` file to change it. It is 500ms by default.
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The duration of the key repeat delay is controlled with the `KEY_OVERRIDE_REPEAT_DELAY` macro. Define this value in your `config.h` file to change it. It is 500ms by default.
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## Difference to Combos
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## Difference to Combos :id=difference-to-combos
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Note that key overrides are very different from [combos](https://docs.qmk.fm/#/feature_combo). Combos require that you press down several keys almost _at the same time_ and can work with any combination of non-modifier keys. Key overrides work like keyboard shortcuts (e.g. `ctrl` + `z`): They take combinations of _multiple_ modifiers and _one_ non-modifier key to then perform some custom action. Key overrides are implemented with much care to behave just like normal keyboard shortcuts would in regards to the order of pressed keys, timing, and interacton with other pressed keys. There are a number of optional settings that can be used to really fine-tune the behavior of each key override as well. Using key overrides also does not delay key input for regular key presses, which inherently happens in combos and may be undesirable.
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Note that key overrides are very different from [combos](https://docs.qmk.fm/#/feature_combo). Combos require that you press down several keys almost _at the same time_ and can work with any combination of non-modifier keys. Key overrides work like keyboard shortcuts (e.g. `ctrl` + `z`): They take combinations of _multiple_ modifiers and _one_ non-modifier key to then perform some custom action. Key overrides are implemented with much care to behave just like normal keyboard shortcuts would in regards to the order of pressed keys, timing, and interacton with other pressed keys. There are a number of optional settings that can be used to really fine-tune the behavior of each key override as well. Using key overrides also does not delay key input for regular key presses, which inherently happens in combos and may be undesirable.
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# Gray Studio 65 R3
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# Gray Studio Space65 R3
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A 65% keyboard by Graystudio. PCB designed and manufactured by DEMO Studio.
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A 65% keyboard by Graystudio. PCB designed and manufactured by DEMO Studio.
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