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1 files changed, 18 insertions, 13 deletions
diff --git a/readme.md b/readme.md
index ed3da43bd0..1eb587dd4f 100644
--- a/readme.md
+++ b/readme.md
@@ -346,6 +346,8 @@ That's what `KC_LEAD` does. Here's an example:
3. Within your `matrix_scan_user` function, do something like this:
```
+LEADER_EXTERNS();
+
void matrix_scan_user(void) {
LEADER_DICTIONARY() {
leading = false;
@@ -373,7 +375,7 @@ As you can see, you have three function. you can use - `SEQ_ONE_KEY` for single-
### Tap Dance: A single key can do 3, 5, or 100 different things
-Hit the semicolon key once, send a semicolon. Hit it twice, rapidly -- send a colon. Hit it three times, and your keyboard's LEDs do a wild dance. That's just one example of what Tap Dance can do. It's one of the nicest community-contributed features in the firmware, conceived and created by [algernon](https://github.com/algernon) in [#451](https://github.com/jackhumbert/qmk_firmware/pull/451). Here's how Algernon describes the feature:
+Hit the semicolon key once, send a semicolon. Hit it twice, rapidly -- send a colon. Hit it three times, and your keyboard's LEDs do a wild dance. That's just one example of what Tap Dance can do. It's one of the nicest community-contributed features in the firmware, conceived and created by [algernon](https://github.com/algernon) in [#451](https://github.com/jackhumbert/qmk_firmware/pull/451). Here's how algernon describes the feature:
With this feature one can specify keys that behave differently, based on the amount of times they have been tapped, and when interrupted, they get handled before the interrupter.
@@ -389,7 +391,7 @@ First, you will need `TAP_DANCE_ENABLE=yes` in your `Makefile`, because the feat
This array specifies what actions shall be taken when a tap-dance key is in action. Currently, there are three possible options:
-* `ACTION_TAP_DANCE_DOUBLE(kc1, kc2)`: Sends the `kc1` keycode when tapped once, `kc2` otherwise.
+* `ACTION_TAP_DANCE_DOUBLE(kc1, kc2)`: Sends the `kc1` keycode when tapped once, `kc2` otherwise. When the key is held, the appropriate keycode is registered: `kc1` when pressed and held, `kc2` when tapped once, then pressed and held.
* `ACTION_TAP_DANCE_FN(fn)`: Calls the specified function - defined in the user keymap - with the final tap count of the tap dance action.
* `ACTION_TAP_DANCE_FN_ADVANCED(on_each_tap_fn, on_dance_finished_fn, on_reset_fn)`: Calls the first specified function - defined in the user keymap - on every tap, the second function on when the dance action finishes (like the previous option), and the last function when the tap dance action resets.
@@ -397,8 +399,6 @@ The first option is enough for a lot of cases, that just want dual roles. For ex
And that's the bulk of it!
-Do note, however, that this implementation does have some consequences: keys do not register until either they reach the tapping ceiling, or they time out. This means that if you hold the key, nothing happens, no repeat, no nothing. It is possible to detect held state, and register an action then too, but that's not implemented yet. Keys also unregister immediately after being registered, so you can't even hold the second tap. This is intentional, to be consistent.
-
And now, on to the explanation of how it works!
The main entry point is `process_tap_dance()`, called from `process_record_quantum()`, which is run for every keypress, and our handler gets to run early. This function checks whether the key pressed is a tap-dance key. If it is not, and a tap-dance was in action, we handle that first, and enqueue the newly pressed key. If it is a tap-dance key, then we check if it is the same as the already active one (if there's one active, that is). If it is not, we fire off the old one first, then register the new one. If it was the same, we increment the counter and the timer.
@@ -421,20 +421,25 @@ enum {
/* Have the above three on the keymap, TD(CT_SE), etc... */
-void dance_cln (qk_tap_dance_state_t *state) {
+void dance_cln_finished (qk_tap_dance_state_t *state, void *user_data) {
if (state->count == 1) {
register_code (KC_RSFT);
register_code (KC_SCLN);
- unregister_code (KC_SCLN);
- unregister_code (KC_RSFT);
} else {
register_code (KC_SCLN);
+ }
+}
+
+void dance_cln_reset (qk_tap_dance_state_t *state, void *user_data) {
+ if (state->count == 1) {
+ unregister_code (KC_RSFT);
+ unregister_code (KC_SCLN);
+ } else {
unregister_code (KC_SCLN);
- reset_tap_dance (state);
}
}
-void dance_egg (qk_tap_dance_state_t *state) {
+void dance_egg (qk_tap_dance_state_t *state, void *user_data) {
if (state->count >= 100) {
SEND_STRING ("Safety dance!");
reset_tap_dance (state);
@@ -443,7 +448,7 @@ void dance_egg (qk_tap_dance_state_t *state) {
// on each tap, light up one led, from right to left
// on the forth tap, turn them off from right to left
-void dance_flsh_each(qk_tap_dance_state_t *state) {
+void dance_flsh_each(qk_tap_dance_state_t *state, void *user_data) {
switch (state->count) {
case 1:
ergodox_right_led_3_on();
@@ -464,7 +469,7 @@ void dance_flsh_each(qk_tap_dance_state_t *state) {
}
// on the fourth tap, set the keyboard on flash state
-void dance_flsh_finished(qk_tap_dance_state_t *state) {
+void dance_flsh_finished(qk_tap_dance_state_t *state, void *user_data) {
if (state->count >= 4) {
reset_keyboard();
reset_tap_dance(state);
@@ -472,7 +477,7 @@ void dance_flsh_finished(qk_tap_dance_state_t *state) {
}
// if the flash state didnt happen, then turn off leds, left to right
-void dance_flsh_reset(qk_tap_dance_state_t *state) {
+void dance_flsh_reset(qk_tap_dance_state_t *state, void *user_data) {
ergodox_right_led_1_off();
_delay_ms(50);
ergodox_right_led_2_off();
@@ -482,7 +487,7 @@ void dance_flsh_reset(qk_tap_dance_state_t *state) {
const qk_tap_dance_action_t tap_dance_actions[] = {
[CT_SE] = ACTION_TAP_DANCE_DOUBLE (KC_SPC, KC_ENT)
- ,[CT_CLN] = ACTION_TAP_DANCE_FN (dance_cln)
+ ,[CT_CLN] = ACTION_TAP_DANCE_FN_ADVANCED (NULL, dance_cln_finished, dance_cln_reset)
,[CT_EGG] = ACTION_TAP_DANCE_FN (dance_egg)
,[CT_FLSH] = ACTION_TAP_DANCE_FN_ADVANCED (dance_flsh_each, dance_flsh_finished, dance_flsh_reset)
};