forked from forks/qmk_firmware
134 lines
3.7 KiB
C
134 lines
3.7 KiB
C
#include "stanrc85.h"
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static td_state_t td_state;
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__attribute__ ((weak))
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bool process_record_keymap(uint16_t keycode, keyrecord_t *record) {
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return true;
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}
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// determine the tapdance state to return
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int cur_dance (qk_tap_dance_state_t *state) {
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if (state->count == 1) {
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if (state->interrupted || !state->pressed) { return SINGLE_TAP; }
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else { return SINGLE_HOLD; }
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}
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if (state->count == 2) { return DOUBLE_TAP; }
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else { return 3; } // any number higher than the maximum state value you return above
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}
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// handle the possible states for each tapdance keycode you define:
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void ctl_copy_finished (qk_tap_dance_state_t *state, void *user_data) {
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td_state = cur_dance(state);
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switch (td_state) {
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case SINGLE_TAP:
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SEND_STRING(SS_LCTRL("c"));
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break;
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case SINGLE_HOLD:
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register_mods(MOD_BIT(KC_RCTL));
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break;
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case DOUBLE_TAP:
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SEND_STRING(SS_LCTRL("v"));
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}
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}
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void ctl_copy_reset (qk_tap_dance_state_t *state, void *user_data) {
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switch (td_state) {
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case SINGLE_TAP:
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break;
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case SINGLE_HOLD:
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unregister_mods(MOD_BIT(KC_RCTL));
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break;
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case DOUBLE_TAP:
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break;
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}
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}
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#if defined(HAS_ROTARY)
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bool encoder_update_user(uint8_t index, bool clockwise) {
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if (index == 0) { /* First encoder */
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if (clockwise) {
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tap_code(KC_VOLD);
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} else {
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tap_code(KC_VOLU);
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}
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}
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return true;
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}
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#endif
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#if defined(HAS_INDICATORS)
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static uint8_t led_user = 0;
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#endif
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void lock_unlock (qk_tap_dance_state_t *state, void *user_data) {
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td_state = cur_dance(state);
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switch (td_state) {
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case SINGLE_TAP: // Ctl + Alt + Del to unlock workstation
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tap_code16(KC_CAD);
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#if defined(HAS_INDICATORS)
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led_user = 0;
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#if defined(KEYBOARD_sneakbox_aliceclone) || defined(KEYBOARD_mechlovin_adelais_standard_led_arm_rev4_stm32f303)
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led_user = 1;
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#endif
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writePin(INDICATOR_PIN_0, !led_user);
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wait_ms(200);
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writePin(INDICATOR_PIN_1, !led_user);
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wait_ms(200);
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writePin(INDICATOR_PIN_2, !led_user);
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#endif
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break;
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case SINGLE_HOLD:
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break;
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case DOUBLE_TAP: //Lock workstation
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tap_code16(KC_LOCK);
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#if defined(HAS_INDICATORS)
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led_user = 1;
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#if defined(KEYBOARD_sneakbox_aliceclone) || defined(KEYBOARD_mechlovin_adelais_standard_led_arm_rev4_stm32f303)
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led_user = 0;
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#endif
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writePin(INDICATOR_PIN_2, !led_user);
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wait_ms(200);
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writePin(INDICATOR_PIN_1, !led_user);
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wait_ms(200);
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writePin(INDICATOR_PIN_0, !led_user);
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#endif
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break;
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}
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}
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qk_tap_dance_action_t tap_dance_actions[] = {
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[TD_WIN] = ACTION_TAP_DANCE_FN(lock_unlock),
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[TD_ESC] = ACTION_TAP_DANCE_DOUBLE(KC_ESC, KC_GRV),
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[TD_RCTL] = ACTION_TAP_DANCE_FN_ADVANCED(NULL, ctl_copy_finished, ctl_copy_reset)
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};
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bool process_record_user(uint16_t keycode, keyrecord_t *record) {
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switch (keycode) {
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case KC_MAKE:
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if (!record->event.pressed) {
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uint8_t mods = get_mods();
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clear_mods();
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if (mods & MOD_MASK_SHIFT) {
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send_string_with_delay_P(PSTR("qmk flash -j 6 -kb " QMK_KEYBOARD " -km " QMK_KEYMAP "\n"), 10); //New way
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reset_keyboard();
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}
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else
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send_string_with_delay_P(PSTR("qmk compile -j 6 -kb " QMK_KEYBOARD " -km " QMK_KEYMAP "\n"), 10); //New way
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set_mods(mods);
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}
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break;
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case KC_RDP: //Opens Windows RDP
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if (!record->event.pressed) {
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register_code(KC_LGUI);
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tap_code(KC_R);
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unregister_code(KC_LGUI);
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wait_ms(200);
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send_string_with_delay_P(PSTR("mstsc"), 10);
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send_string_with_delay_P(PSTR(SS_TAP(X_ENTER)), 10);
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}
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break;
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}
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return process_record_keymap(keycode, record);
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}
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