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|
/*
* Copyright (c) 2020 The ZMK Contributors
*
* SPDX-License-Identifier: MIT
*/
#define DT_DRV_COMPAT zmk_behavior_hold_tap
#include <zephyr/device.h>
#include <drivers/behavior.h>
#include <zmk/keys.h>
#include <dt-bindings/zmk/keys.h>
#include <zephyr/logging/log.h>
#include <zmk/behavior.h>
#include <zmk/matrix.h>
#include <zmk/endpoints.h>
#include <zmk/event_manager.h>
#include <zmk/events/position_state_changed.h>
#include <zmk/events/keycode_state_changed.h>
#include <zmk/behavior.h>
#include <zmk/keymap.h>
LOG_MODULE_DECLARE(zmk, CONFIG_ZMK_LOG_LEVEL);
#if DT_HAS_COMPAT_STATUS_OKAY(DT_DRV_COMPAT)
#define ZMK_BHV_HOLD_TAP_MAX_HELD 10
#define ZMK_BHV_HOLD_TAP_MAX_CAPTURED_EVENTS 40
// increase if you have keyboard with more keys.
#define ZMK_BHV_HOLD_TAP_POSITION_NOT_USED 9999
enum flavor {
FLAVOR_HOLD_PREFERRED,
FLAVOR_BALANCED,
FLAVOR_TAP_PREFERRED,
FLAVOR_TAP_UNLESS_INTERRUPTED,
};
enum status {
STATUS_UNDECIDED,
STATUS_TAP,
STATUS_HOLD_INTERRUPT,
STATUS_HOLD_TIMER,
};
enum decision_moment {
HT_KEY_UP,
HT_OTHER_KEY_DOWN,
HT_OTHER_KEY_UP,
HT_TIMER_EVENT,
HT_QUICK_TAP,
};
struct behavior_hold_tap_config {
int tapping_term_ms;
char *hold_behavior_dev;
char *tap_behavior_dev;
int quick_tap_ms;
bool global_quick_tap;
enum flavor flavor;
bool retro_tap;
bool hold_trigger_on_release;
int32_t hold_trigger_key_positions_len;
int32_t hold_trigger_key_positions[];
};
// this data is specific for each hold-tap
struct active_hold_tap {
int32_t position;
uint32_t param_hold;
uint32_t param_tap;
int64_t timestamp;
enum status status;
const struct behavior_hold_tap_config *config;
struct k_work_delayable work;
bool work_is_cancelled;
// initialized to -1, which is to be interpreted as "no other key has been pressed yet"
int32_t position_of_first_other_key_pressed;
};
// The undecided hold tap is the hold tap that needs to be decided before
// other keypress events can be released. While the undecided_hold_tap is
// not NULL, most events are captured in captured_events.
// After the hold_tap is decided, it will stay in the active_hold_taps until
// its key-up has been processed and the delayed work is cleaned up.
struct active_hold_tap *undecided_hold_tap = NULL;
struct active_hold_tap active_hold_taps[ZMK_BHV_HOLD_TAP_MAX_HELD] = {};
// We capture most position_state_changed events and some modifiers_state_changed events.
const zmk_event_t *captured_events[ZMK_BHV_HOLD_TAP_MAX_CAPTURED_EVENTS] = {};
// Keep track of which key was tapped most recently for the standard, if it is a hold-tap
// a position, will be given, if not it will just be INT32_MIN
struct last_tapped {
int32_t position;
int64_t timestamp;
};
struct last_tapped last_tapped = {INT32_MIN, INT64_MIN};
static void store_last_tapped(int64_t timestamp) {
if (timestamp > last_tapped.timestamp) {
last_tapped.position = INT32_MIN;
last_tapped.timestamp = timestamp;
}
}
static void store_last_hold_tapped(struct active_hold_tap *hold_tap) {
last_tapped.position = hold_tap->position;
last_tapped.timestamp = hold_tap->timestamp;
}
static bool is_quick_tap(struct active_hold_tap *hold_tap) {
if (hold_tap->config->global_quick_tap || last_tapped.position == hold_tap->position) {
return (last_tapped.timestamp + hold_tap->config->quick_tap_ms) > hold_tap->timestamp;
} else {
return false;
}
}
static int capture_event(const zmk_event_t *event) {
for (int i = 0; i < ZMK_BHV_HOLD_TAP_MAX_CAPTURED_EVENTS; i++) {
if (captured_events[i] == NULL) {
captured_events[i] = event;
return 0;
}
}
return -ENOMEM;
}
static struct zmk_position_state_changed *find_captured_keydown_event(uint32_t position) {
struct zmk_position_state_changed *last_match = NULL;
for (int i = 0; i < ZMK_BHV_HOLD_TAP_MAX_CAPTURED_EVENTS; i++) {
const zmk_event_t *eh = captured_events[i];
if (eh == NULL) {
return last_match;
}
struct zmk_position_state_changed *position_event = as_zmk_position_state_changed(eh);
if (position_event == NULL) {
continue;
}
if (position_event->position == position && position_event->state) {
last_match = position_event;
}
}
return last_match;
}
const struct zmk_listener zmk_listener_behavior_hold_tap;
static void release_captured_events() {
if (undecided_hold_tap != NULL) {
return;
}
// We use a trick to prevent copying the captured_events array.
//
// Events for different mod-tap instances are separated by a NULL pointer.
//
// The first event popped will never be catched by the next active hold-tap
// because to start capturing a mod-tap-key-down event must first completely
// go through the events queue.
//
// Example of this release process;
// [mt2_down, k1_down, k1_up, mt2_up, null, ...]
// ^
// mt2_down position event isn't captured because no hold-tap is active.
// mt2_down behavior event is handled, now we have an undecided hold-tap
// [null, k1_down, k1_up, mt2_up, null, ...]
// ^
// k1_down is captured by the mt2 mod-tap
// !note that searches for find_captured_keydown_event by the mt2 behavior will stop at the
// first null encountered [mt1_down, null, k1_up, mt2_up, null, ...]
// ^
// k1_up event is captured by the new hold-tap:
// [k1_down, k1_up, null, mt2_up, null, ...]
// ^
// mt2_up event is not captured but causes release of mt2 behavior
// [k1_down, k1_up, null, null, null, ...]
// now mt2 will start releasing it's own captured positions.
for (int i = 0; i < ZMK_BHV_HOLD_TAP_MAX_CAPTURED_EVENTS; i++) {
const zmk_event_t *captured_event = captured_events[i];
if (captured_event == NULL) {
return;
}
captured_events[i] = NULL;
if (undecided_hold_tap != NULL) {
k_msleep(10);
}
struct zmk_position_state_changed *position_event;
struct zmk_keycode_state_changed *modifier_event;
if ((position_event = as_zmk_position_state_changed(captured_event)) != NULL) {
LOG_DBG("Releasing key position event for position %d %s", position_event->position,
(position_event->state ? "pressed" : "released"));
} else if ((modifier_event = as_zmk_keycode_state_changed(captured_event)) != NULL) {
LOG_DBG("Releasing mods changed event 0x%02X %s", modifier_event->keycode,
(modifier_event->state ? "pressed" : "released"));
}
ZMK_EVENT_RAISE_AT(captured_event, behavior_hold_tap);
}
}
static struct active_hold_tap *find_hold_tap(uint32_t position) {
for (int i = 0; i < ZMK_BHV_HOLD_TAP_MAX_HELD; i++) {
if (active_hold_taps[i].position == position) {
return &active_hold_taps[i];
}
}
return NULL;
}
static struct active_hold_tap *store_hold_tap(uint32_t position, uint32_t param_hold,
uint32_t param_tap, int64_t timestamp,
const struct behavior_hold_tap_config *config) {
for (int i = 0; i < ZMK_BHV_HOLD_TAP_MAX_HELD; i++) {
if (active_hold_taps[i].position != ZMK_BHV_HOLD_TAP_POSITION_NOT_USED) {
continue;
}
active_hold_taps[i].position = position;
active_hold_taps[i].status = STATUS_UNDECIDED;
active_hold_taps[i].config = config;
active_hold_taps[i].param_hold = param_hold;
active_hold_taps[i].param_tap = param_tap;
active_hold_taps[i].timestamp = timestamp;
active_hold_taps[i].position_of_first_other_key_pressed = -1;
return &active_hold_taps[i];
}
return NULL;
}
static void clear_hold_tap(struct active_hold_tap *hold_tap) {
hold_tap->position = ZMK_BHV_HOLD_TAP_POSITION_NOT_USED;
hold_tap->status = STATUS_UNDECIDED;
hold_tap->work_is_cancelled = false;
}
static void decide_balanced(struct active_hold_tap *hold_tap, enum decision_moment event) {
switch (event) {
case HT_KEY_UP:
hold_tap->status = STATUS_TAP;
return;
case HT_OTHER_KEY_UP:
hold_tap->status = STATUS_HOLD_INTERRUPT;
return;
case HT_TIMER_EVENT:
hold_tap->status = STATUS_HOLD_TIMER;
return;
case HT_QUICK_TAP:
hold_tap->status = STATUS_TAP;
return;
default:
return;
}
}
static void decide_tap_preferred(struct active_hold_tap *hold_tap, enum decision_moment event) {
switch (event) {
case HT_KEY_UP:
hold_tap->status = STATUS_TAP;
return;
case HT_TIMER_EVENT:
hold_tap->status = STATUS_HOLD_TIMER;
return;
case HT_QUICK_TAP:
hold_tap->status = STATUS_TAP;
return;
default:
return;
}
}
static void decide_tap_unless_interrupted(struct active_hold_tap *hold_tap,
enum decision_moment event) {
switch (event) {
case HT_KEY_UP:
hold_tap->status = STATUS_TAP;
return;
case HT_OTHER_KEY_DOWN:
hold_tap->status = STATUS_HOLD_INTERRUPT;
return;
case HT_TIMER_EVENT:
hold_tap->status = STATUS_TAP;
return;
case HT_QUICK_TAP:
hold_tap->status = STATUS_TAP;
return;
default:
return;
}
}
static void decide_hold_preferred(struct active_hold_tap *hold_tap, enum decision_moment event) {
switch (event) {
case HT_KEY_UP:
hold_tap->status = STATUS_TAP;
return;
case HT_OTHER_KEY_DOWN:
hold_tap->status = STATUS_HOLD_INTERRUPT;
return;
case HT_TIMER_EVENT:
hold_tap->status = STATUS_HOLD_TIMER;
return;
case HT_QUICK_TAP:
hold_tap->status = STATUS_TAP;
return;
default:
return;
}
}
static inline const char *flavor_str(enum flavor flavor) {
switch (flavor) {
case FLAVOR_HOLD_PREFERRED:
return "hold-preferred";
case FLAVOR_BALANCED:
return "balanced";
case FLAVOR_TAP_PREFERRED:
return "tap-preferred";
case FLAVOR_TAP_UNLESS_INTERRUPTED:
return "tap-unless-interrupted";
default:
return "UNKNOWN FLAVOR";
}
}
static inline const char *status_str(enum status status) {
switch (status) {
case STATUS_UNDECIDED:
return "undecided";
case STATUS_HOLD_TIMER:
return "hold-timer";
case STATUS_HOLD_INTERRUPT:
return "hold-interrupt";
case STATUS_TAP:
return "tap";
default:
return "UNKNOWN STATUS";
}
}
static inline const char *decision_moment_str(enum decision_moment decision_moment) {
switch (decision_moment) {
case HT_KEY_UP:
return "key-up";
case HT_OTHER_KEY_DOWN:
return "other-key-down";
case HT_OTHER_KEY_UP:
return "other-key-up";
case HT_QUICK_TAP:
return "quick-tap";
case HT_TIMER_EVENT:
return "timer";
default:
return "UNKNOWN STATUS";
}
}
static int press_binding(struct active_hold_tap *hold_tap) {
if (hold_tap->config->retro_tap && hold_tap->status == STATUS_HOLD_TIMER) {
return 0;
}
struct zmk_behavior_binding_event event = {
.position = hold_tap->position,
.timestamp = hold_tap->timestamp,
};
struct zmk_behavior_binding binding = {0};
if (hold_tap->status == STATUS_HOLD_TIMER || hold_tap->status == STATUS_HOLD_INTERRUPT) {
binding.behavior_dev = hold_tap->config->hold_behavior_dev;
binding.param1 = hold_tap->param_hold;
} else {
binding.behavior_dev = hold_tap->config->tap_behavior_dev;
binding.param1 = hold_tap->param_tap;
store_last_hold_tapped(hold_tap);
}
return behavior_keymap_binding_pressed(&binding, event);
}
static int release_binding(struct active_hold_tap *hold_tap) {
if (hold_tap->config->retro_tap && hold_tap->status == STATUS_HOLD_TIMER) {
return 0;
}
struct zmk_behavior_binding_event event = {
.position = hold_tap->position,
.timestamp = hold_tap->timestamp,
};
struct zmk_behavior_binding binding = {0};
if (hold_tap->status == STATUS_HOLD_TIMER || hold_tap->status == STATUS_HOLD_INTERRUPT) {
binding.behavior_dev = hold_tap->config->hold_behavior_dev;
binding.param1 = hold_tap->param_hold;
} else {
binding.behavior_dev = hold_tap->config->tap_behavior_dev;
binding.param1 = hold_tap->param_tap;
}
return behavior_keymap_binding_released(&binding, event);
}
static bool is_first_other_key_pressed_trigger_key(struct active_hold_tap *hold_tap) {
for (int i = 0; i < hold_tap->config->hold_trigger_key_positions_len; i++) {
if (hold_tap->config->hold_trigger_key_positions[i] ==
hold_tap->position_of_first_other_key_pressed) {
return true;
}
}
return false;
}
// Force a tap decision if the positional conditions for a hold decision are not met.
static void decide_positional_hold(struct active_hold_tap *hold_tap) {
// Only force a tap decision if the positional hold/tap feature is enabled.
if (!(hold_tap->config->hold_trigger_key_positions_len > 0)) {
return;
}
// Only force a tap decision if another key was pressed after
// the hold/tap key.
if (hold_tap->position_of_first_other_key_pressed == -1) {
return;
}
// Only force a tap decision if the first other key to be pressed
// (after the hold/tap key) is not one of the trigger keys.
if (is_first_other_key_pressed_trigger_key(hold_tap)) {
return;
}
// Since the positional key conditions have failed, force a TAP decision.
hold_tap->status = STATUS_TAP;
}
static void decide_hold_tap(struct active_hold_tap *hold_tap,
enum decision_moment decision_moment) {
if (hold_tap->status != STATUS_UNDECIDED) {
return;
}
if (hold_tap != undecided_hold_tap) {
LOG_DBG("ERROR found undecided tap hold that is not the active tap hold");
return;
}
// If the hold-tap behavior is still undecided, attempt to decide it.
switch (hold_tap->config->flavor) {
case FLAVOR_HOLD_PREFERRED:
decide_hold_preferred(hold_tap, decision_moment);
break;
case FLAVOR_BALANCED:
decide_balanced(hold_tap, decision_moment);
break;
case FLAVOR_TAP_PREFERRED:
decide_tap_preferred(hold_tap, decision_moment);
break;
case FLAVOR_TAP_UNLESS_INTERRUPTED:
decide_tap_unless_interrupted(hold_tap, decision_moment);
break;
}
if (hold_tap->status == STATUS_UNDECIDED) {
return;
}
decide_positional_hold(hold_tap);
// Since the hold-tap has been decided, clean up undecided_hold_tap and
// execute the decided behavior.
LOG_DBG("%d decided %s (%s decision moment %s)", hold_tap->position,
status_str(hold_tap->status), flavor_str(hold_tap->config->flavor),
decision_moment_str(decision_moment));
undecided_hold_tap = NULL;
press_binding(hold_tap);
release_captured_events();
}
static void decide_retro_tap(struct active_hold_tap *hold_tap) {
if (!hold_tap->config->retro_tap) {
return;
}
if (hold_tap->status == STATUS_HOLD_TIMER) {
release_binding(hold_tap);
LOG_DBG("%d retro tap", hold_tap->position);
hold_tap->status = STATUS_TAP;
press_binding(hold_tap);
return;
}
}
static void update_hold_status_for_retro_tap(uint32_t ignore_position) {
for (int i = 0; i < ZMK_BHV_HOLD_TAP_MAX_HELD; i++) {
struct active_hold_tap *hold_tap = &active_hold_taps[i];
if (hold_tap->position == ignore_position ||
hold_tap->position == ZMK_BHV_HOLD_TAP_POSITION_NOT_USED ||
hold_tap->config->retro_tap == false) {
continue;
}
if (hold_tap->status == STATUS_HOLD_TIMER) {
LOG_DBG("Update hold tap %d status to hold-interrupt", hold_tap->position);
hold_tap->status = STATUS_HOLD_INTERRUPT;
press_binding(hold_tap);
}
}
}
static int on_hold_tap_binding_pressed(struct zmk_behavior_binding *binding,
struct zmk_behavior_binding_event event) {
const struct device *dev = device_get_binding(binding->behavior_dev);
const struct behavior_hold_tap_config *cfg = dev->config;
if (undecided_hold_tap != NULL) {
LOG_DBG("ERROR another hold-tap behavior is undecided.");
// if this happens, make sure the behavior events occur AFTER other position events.
return ZMK_BEHAVIOR_OPAQUE;
}
struct active_hold_tap *hold_tap =
store_hold_tap(event.position, binding->param1, binding->param2, event.timestamp, cfg);
if (hold_tap == NULL) {
LOG_ERR("unable to store hold-tap info, did you press more than %d hold-taps?",
ZMK_BHV_HOLD_TAP_MAX_HELD);
return ZMK_BEHAVIOR_OPAQUE;
}
LOG_DBG("%d new undecided hold_tap", event.position);
undecided_hold_tap = hold_tap;
if (is_quick_tap(hold_tap)) {
decide_hold_tap(hold_tap, HT_QUICK_TAP);
}
// if this behavior was queued we have to adjust the timer to only
// wait for the remaining time.
int32_t tapping_term_ms_left = (hold_tap->timestamp + cfg->tapping_term_ms) - k_uptime_get();
k_work_schedule(&hold_tap->work, K_MSEC(tapping_term_ms_left));
return ZMK_BEHAVIOR_OPAQUE;
}
static int on_hold_tap_binding_released(struct zmk_behavior_binding *binding,
struct zmk_behavior_binding_event event) {
struct active_hold_tap *hold_tap = find_hold_tap(event.position);
if (hold_tap == NULL) {
LOG_ERR("ACTIVE_HOLD_TAP_CLEANED_UP_TOO_EARLY");
return ZMK_BEHAVIOR_OPAQUE;
}
// If these events were queued, the timer event may be queued too late or not at all.
// We insert a timer event before the TH_KEY_UP event to verify.
int work_cancel_result = k_work_cancel_delayable(&hold_tap->work);
if (event.timestamp > (hold_tap->timestamp + hold_tap->config->tapping_term_ms)) {
decide_hold_tap(hold_tap, HT_TIMER_EVENT);
}
decide_hold_tap(hold_tap, HT_KEY_UP);
decide_retro_tap(hold_tap);
release_binding(hold_tap);
if (work_cancel_result == -EINPROGRESS) {
// let the timer handler clean up
// if we'd clear now, the timer may call back for an uninitialized active_hold_tap.
LOG_DBG("%d hold-tap timer work in event queue", event.position);
hold_tap->work_is_cancelled = true;
} else {
LOG_DBG("%d cleaning up hold-tap", event.position);
clear_hold_tap(hold_tap);
}
return ZMK_BEHAVIOR_OPAQUE;
}
static const struct behavior_driver_api behavior_hold_tap_driver_api = {
.binding_pressed = on_hold_tap_binding_pressed,
.binding_released = on_hold_tap_binding_released,
};
static int position_state_changed_listener(const zmk_event_t *eh) {
struct zmk_position_state_changed *ev = as_zmk_position_state_changed(eh);
update_hold_status_for_retro_tap(ev->position);
if (undecided_hold_tap == NULL) {
LOG_DBG("%d bubble (no undecided hold_tap active)", ev->position);
return ZMK_EV_EVENT_BUBBLE;
}
// Store the position of pressed key for positional hold-tap purposes.
if ((undecided_hold_tap->config->hold_trigger_on_release !=
ev->state) // key has been pressed and hold_trigger_on_release is not set, or key
// has been released and hold_trigger_on_release is set
&& (undecided_hold_tap->position_of_first_other_key_pressed ==
-1) // no other key has been pressed yet
) {
undecided_hold_tap->position_of_first_other_key_pressed = ev->position;
}
if (undecided_hold_tap->position == ev->position) {
if (ev->state) { // keydown
LOG_ERR("hold-tap listener should be called before before most other listeners!");
return ZMK_EV_EVENT_BUBBLE;
} else { // keyup
LOG_DBG("%d bubble undecided hold-tap keyrelease event", undecided_hold_tap->position);
return ZMK_EV_EVENT_BUBBLE;
}
}
// If these events were queued, the timer event may be queued too late or not at all.
// We make a timer decision before the other key events are handled if the timer would
// have run out.
if (ev->timestamp >
(undecided_hold_tap->timestamp + undecided_hold_tap->config->tapping_term_ms)) {
decide_hold_tap(undecided_hold_tap, HT_TIMER_EVENT);
}
if (undecided_hold_tap == NULL) {
return ZMK_EV_EVENT_BUBBLE;
}
if (!ev->state && find_captured_keydown_event(ev->position) == NULL) {
// no keydown event has been captured, let it bubble.
// we'll catch modifiers later in modifier_state_changed_listener
LOG_DBG("%d bubbling %d %s event", undecided_hold_tap->position, ev->position,
ev->state ? "down" : "up");
return ZMK_EV_EVENT_BUBBLE;
}
LOG_DBG("%d capturing %d %s event", undecided_hold_tap->position, ev->position,
ev->state ? "down" : "up");
capture_event(eh);
decide_hold_tap(undecided_hold_tap, ev->state ? HT_OTHER_KEY_DOWN : HT_OTHER_KEY_UP);
return ZMK_EV_EVENT_CAPTURED;
}
static int keycode_state_changed_listener(const zmk_event_t *eh) {
// we want to catch layer-up events too... how?
struct zmk_keycode_state_changed *ev = as_zmk_keycode_state_changed(eh);
if (ev->state && !is_mod(ev->usage_page, ev->keycode)) {
store_last_tapped(ev->timestamp);
}
if (undecided_hold_tap == NULL) {
// LOG_DBG("0x%02X bubble (no undecided hold_tap active)", ev->keycode);
return ZMK_EV_EVENT_BUBBLE;
}
if (!is_mod(ev->usage_page, ev->keycode)) {
// LOG_DBG("0x%02X bubble (not a mod)", ev->keycode);
return ZMK_EV_EVENT_BUBBLE;
}
// only key-up events will bubble through position_state_changed_listener
// if a undecided_hold_tap is active.
LOG_DBG("%d capturing 0x%02X %s event", undecided_hold_tap->position, ev->keycode,
ev->state ? "down" : "up");
capture_event(eh);
return ZMK_EV_EVENT_CAPTURED;
}
int behavior_hold_tap_listener(const zmk_event_t *eh) {
if (as_zmk_position_state_changed(eh) != NULL) {
return position_state_changed_listener(eh);
} else if (as_zmk_keycode_state_changed(eh) != NULL) {
return keycode_state_changed_listener(eh);
}
return ZMK_EV_EVENT_BUBBLE;
}
ZMK_LISTENER(behavior_hold_tap, behavior_hold_tap_listener);
ZMK_SUBSCRIPTION(behavior_hold_tap, zmk_position_state_changed);
// this should be modifiers_state_changed, but unfrotunately that's not implemented yet.
ZMK_SUBSCRIPTION(behavior_hold_tap, zmk_keycode_state_changed);
void behavior_hold_tap_timer_work_handler(struct k_work *item) {
struct active_hold_tap *hold_tap = CONTAINER_OF(item, struct active_hold_tap, work);
if (hold_tap->work_is_cancelled) {
clear_hold_tap(hold_tap);
} else {
decide_hold_tap(hold_tap, HT_TIMER_EVENT);
}
}
static int behavior_hold_tap_init(const struct device *dev) {
static bool init_first_run = true;
if (init_first_run) {
for (int i = 0; i < ZMK_BHV_HOLD_TAP_MAX_HELD; i++) {
k_work_init_delayable(&active_hold_taps[i].work, behavior_hold_tap_timer_work_handler);
active_hold_taps[i].position = ZMK_BHV_HOLD_TAP_POSITION_NOT_USED;
}
}
init_first_run = false;
return 0;
}
#define KP_INST(n) \
static struct behavior_hold_tap_config behavior_hold_tap_config_##n = { \
.tapping_term_ms = DT_INST_PROP(n, tapping_term_ms), \
.hold_behavior_dev = DT_LABEL(DT_INST_PHANDLE_BY_IDX(n, bindings, 0)), \
.tap_behavior_dev = DT_LABEL(DT_INST_PHANDLE_BY_IDX(n, bindings, 1)), \
.quick_tap_ms = DT_INST_PROP(n, quick_tap_ms), \
.global_quick_tap = DT_INST_PROP(n, global_quick_tap), \
.flavor = DT_ENUM_IDX(DT_DRV_INST(n), flavor), \
.retro_tap = DT_INST_PROP(n, retro_tap), \
.hold_trigger_on_release = DT_INST_PROP(n, hold_trigger_on_release), \
.hold_trigger_key_positions = DT_INST_PROP(n, hold_trigger_key_positions), \
.hold_trigger_key_positions_len = DT_INST_PROP_LEN(n, hold_trigger_key_positions), \
}; \
DEVICE_DT_INST_DEFINE(n, behavior_hold_tap_init, NULL, NULL, &behavior_hold_tap_config_##n, \
APPLICATION, CONFIG_KERNEL_INIT_PRIORITY_DEFAULT, \
&behavior_hold_tap_driver_api);
DT_INST_FOREACH_STATUS_OKAY(KP_INST)
#endif /* DT_HAS_COMPAT_STATUS_OKAY(DT_DRV_COMPAT) */
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