2019-01-13 11:30:19 +06:00
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// see https://github.com/pepaslabs/hexon38
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2019-03-20 01:57:40 +06:00
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#include QMK_KEYBOARD_H
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2019-01-13 11:30:19 +06:00
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#define A_ KC_A
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#define B_ KC_B
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#define C_ KC_C
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#define D_ KC_D
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#define E_ KC_E
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#define F_ KC_F
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#define G_ KC_G
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#define H_ KC_H
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#define I_ KC_I
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#define J_ KC_J
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#define K_ KC_K
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#define L_ KC_L
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#define M_ KC_M
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#define N_ KC_N
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#define O_ KC_O
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#define P_ KC_P
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#define Q_ KC_Q
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#define R_ KC_R
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#define S_ KC_S
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#define T_ KC_T
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#define U_ KC_U
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#define V_ KC_V
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#define W_ KC_W
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#define X_ KC_X
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#define Y_ KC_Y
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#define Z_ KC_Z
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// Dual-role keys: modifier when held, alpha when tapped.
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#define A_CTL CTL_T(KC_A)
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#define S_ALT ALT_T(KC_S)
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#define D_GUI GUI_T(KC_D)
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#define F_SFT SFT_T(KC_F)
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#define J_SFT SFT_T(KC_J)
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#define K_GUI GUI_T(KC_K)
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#define L_ALT ALT_T(KC_L)
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#define COLN_CTL CTL_T(KC_SCLN)
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#define ______ KC_TRNS
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#define LSHIFT KC_LSHIFT
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#define RSHIFT KC_RSHIFT
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#define COMMA KC_COMM
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#define SLASH KC_SLSH
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#define SPACE KC_SPC
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#define TAB KC_TAB
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#define BKSPC KC_BSPC
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#define ENTER KC_ENT
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#define PERIOD KC_DOT
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#define BASE_LAYER LAYOUT
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#define BLANK_LAYER LAYOUT
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const uint16_t PROGMEM keymaps[][MATRIX_ROWS][MATRIX_COLS] = {
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BASE_LAYER(
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// ,--------+--------+--------+--------. ,--------+--------+--------+--------.
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W_ , E_ , R_ , T_ , Y_ , U_ , I_ , O_ ,
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//|--------+--------+--------+--------+--------+--------| |--------+--------+--------+--------+--------+--------.
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Q_ , A_CTL , S_ALT , D_GUI , F_SFT , G_ , H_ , J_SFT , K_GUI , L_ALT ,COLN_CTL, P_ ,
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//|--------+--------+--------+--------+--------+--------' `--------+--------+--------+--------+--------+--------|
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B_ , Z_ , X_ , C_ , V_ , M_ , COMMA , PERIOD , SLASH , N_ ,
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//`--------+--------+--------+--------+--------' `--------+--------+--------+--------+--------'
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// ,--------+--------+--------+--------. ,--------+--------+--------+--------.
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LSHIFT , SPACE , TAB , DEBUG , SPACE , BKSPC , ENTER , RSHIFT
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// `--------+--------+--------+--------' `--------+--------+--------+--------'
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),
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BLANK_LAYER(
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// ,--------+--------+--------+--------. ,--------+--------+--------+--------.
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______ , ______ , ______ , ______ , ______ , ______ , ______ , ______ ,
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//|--------+--------+--------+--------+--------+--------| |--------+--------+--------+--------+--------+--------.
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______ , ______ , ______ , ______ , ______ , ______ , ______ , ______ , ______ , ______ , ______ , ______ ,
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//|--------+--------+--------+--------+--------+--------' `--------+--------+--------+--------+--------+--------|
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______ , ______ , ______ , ______ , ______ , ______ , ______ , ______ , ______ , ______ ,
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//`--------+--------+--------+--------+--------' `--------+--------+--------+--------+--------'
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// ,--------+--------+--------+--------. ,--------+--------+--------+--------.
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______ , ______ , ______ , ______ , ______ , ______ , ______ , ______
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// `--------+--------+--------+--------' `--------+--------+--------+--------'
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)
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};
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// a linked list of pending key events (press or release) which we haven't processed yet.
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struct _pending_key_t {
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uint16_t keycode;
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keyrecord_t record;
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struct _pending_key_t *next;
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};
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typedef struct _pending_key_t pending_key_t;
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// worst case is 10 down strokes and 1 up stroke before we can start disambiguating.
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#define RINGSIZE 11
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// a ring buffer and linked list to store pending key events (presses and releases).
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// (basically, this is a fixed-allocation linked list.)
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struct _kring_t {
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// the actual key events.
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pending_key_t items[RINGSIZE];
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// the index of the oldest item, or -1 if no items.
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int8_t ifirst;
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// the index of the most recently added item, or -1 if no items.
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int8_t ilast;
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// the number of items in the ring.
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uint8_t count;
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// the head of the linked list.
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pending_key_t *head;
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};
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typedef struct _kring_t kring_t;
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// safe accessor to the i-th item of the linked list (returns pointer or NULL).
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pending_key_t* kring_get(kring_t *ring, uint8_t i) {
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if (i >= ring->count) {
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return NULL;
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}
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uint8_t j = (ring->ifirst + i) % RINGSIZE;
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return &(ring->items[j]);
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}
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// return the last key in the list of buffered keys.
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pending_key_t* kring_last(kring_t *ring) {
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if (ring->count == 0) {
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return NULL;
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}
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return kring_get(ring, ring->count - 1);
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}
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// remove the oldest item from the ring (the head of the list).
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void kring_pop(kring_t *ring) {
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if (ring->count > 0) {
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ring->ifirst += 1;
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ring->ifirst %= RINGSIZE;
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ring->head = ring->head->next;
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ring->count -= 1;
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}
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}
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// add an item to the ring (append to the list).
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void kring_append(kring_t *ring, uint16_t keycode, keyrecord_t *record) {
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if (ring->count >= RINGSIZE) {
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// uh oh, we overflowed the capacity of our buffer :(
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return;
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}
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// if the ring is empty, insert at index 0.
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if (ring->count == 0) {
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ring->count += 1;
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ring->ifirst = 0;
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ring->ilast = 0;
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ring->head = &(ring->items[0]);
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}
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// else, append it onto the end.
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else {
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ring->count += 1;
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ring->ilast += 1;
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ring->ilast %= RINGSIZE;
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}
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// the index at which we should insert this item.
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int8_t i = ring->ilast;
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// insert the item.
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ring->items[i].keycode = keycode;
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ring->items[i].record.event = record->event;
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#ifndef NO_ACTION_TAPPING
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ring->items[i].record.tap = record->tap;
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#endif
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ring->items[i].next = NULL;
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// update the previous item to point to this item.
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if (ring->count > 1) {
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kring_get(ring, ring->count - 2)->next = &(ring->items[i]);
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}
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}
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kring_t g_pending;
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void matrix_init_user(void) {
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g_pending.ifirst = -1;
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g_pending.ilast = -1;
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g_pending.count = 0;
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g_pending.head = NULL;
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}
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/*
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a_ a-: emit a
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a_ b_ b- a-: emit SHIFT+b
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a_ b_ a- b-: emit a, b
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dual1down, dual1up -> norm1down, norm1up
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dual1down, norm2down, norm2up -> mod1down, norm2down, norm2up
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dual1down, norm2down, dual1up -> norm1down, norm2down, norm1up
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dual1down, dual2down, norm3down, norm3up -> mod1down, mod2down, norm3down, norm3up
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so, a dual key can't be disambiguated until the next keyup of a keydown (not including keyups from keys before it).
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*/
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bool is_ambiguous_kc(uint16_t kc) {
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// See the MT() define: https://github.com/qmk/qmk_firmware/blob/master/quantum/quantum_keycodes.h#L642
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// See the QK_MOD_TAP case: https://github.com/qmk/qmk_firmware/blob/master/quantum/keymap_common.c#L134
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uint8_t mod = mod_config((kc >> 0x8) & 0x1F);
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return mod != 0;
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}
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bool is_down(pending_key_t *k) {
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return k->record.event.pressed;
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}
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bool is_up(pending_key_t *k) {
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return !is_down(k);
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}
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bool keys_match(pending_key_t *a, pending_key_t *b) {
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return a->record.event.key.col == b->record.event.key.col
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&& a->record.event.key.row == b->record.event.key.row;
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}
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// both the down and corresponding upstroke of a keypress.
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struct _pending_pair_t {
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pending_key_t *down;
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pending_key_t *up;
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};
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typedef struct _pending_pair_t pending_pair_t;
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// returns true if this keydown event has a corresponding keyup event in the
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// list of buffered keys. also fills out 'p'.
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bool is_downup_pair(pending_key_t *k, pending_pair_t *p) {
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// first, make sure this event is keydown.
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if (!is_down(k)) {
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return false;
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}
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// now find its matching keyup.
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pending_key_t *next = k->next;
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while (next != NULL) {
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if (keys_match(k, next) && is_up(next)) {
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// found it.
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if (p != NULL) {
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p->down = k;
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p->up = next;
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}
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return true;
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}
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next = next->next;
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}
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// didn't find it.
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return false;
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}
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// given a QK_MOD_TAP keycode, return the KC_* version of the modifier keycode.
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uint16_t get_mod_kc(uint16_t keycode) {
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uint8_t mod = mod_config((keycode >> 0x8) & 0x1F);
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switch (mod) {
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case MOD_LCTL:
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return KC_LCTL;
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case MOD_RCTL:
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return KC_RCTL;
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case MOD_LSFT:
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return KC_LSFT;
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case MOD_RSFT:
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return KC_RSFT;
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case MOD_LALT:
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return KC_LALT;
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case MOD_RALT:
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return KC_RALT;
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case MOD_LGUI:
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return KC_LGUI;
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case MOD_RGUI:
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return KC_RGUI;
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default:
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// shrug? this shouldn't happen.
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return keycode;
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}
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}
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bool is_mod_kc(uint16_t keycode) {
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switch (keycode) {
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case QK_MODS ... QK_MODS_MAX:
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return true;
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default:
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return false;
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}
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}
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void interpret_as_mod(pending_pair_t *p) {
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// see https://github.com/qmk/qmk_firmware/issues/1503
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pending_key_t *k;
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k = p->down;
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if (k != NULL) {
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k->keycode = get_mod_kc(k->keycode);
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}
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k = p->up;
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if (k != NULL) {
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k->keycode = get_mod_kc(k->keycode);
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}
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}
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void interpret_as_normal(pending_pair_t *p) {
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pending_key_t *k;
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k = p->down;
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if (k != NULL) {
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k->keycode = k->keycode & 0xFF;
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}
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k = p->up;
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if (k != NULL) {
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k->keycode = k->keycode & 0xFF;
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}
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}
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void execute_head_and_pop(kring_t *ring) {
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pending_key_t *head = kring_get(ring, 0);
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uint16_t kc = head->keycode;
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if (is_mod_kc(kc)) {
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if (is_down(head)) {
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dprintf(" %s: mod down 0x%04X\n", __func__, kc);
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set_mods(get_mods() | MOD_BIT(kc));
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} else {
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dprintf(" %s: mod up 0x%04X\n", __func__, kc);
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set_mods(get_mods() & ~MOD_BIT(kc));
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}
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} else {
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if (is_down(head)) {
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dprintf(" %s: key down 0x%04X\n", __func__, kc);
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register_code16(kc);
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} else {
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dprintf(" %s: key up 0x%04X\n", __func__, kc);
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unregister_code16(kc);
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}
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}
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kring_pop(ring);
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}
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// try to figure out what the next pending keypress means.
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bool parse_next(kring_t *pending) {
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pending_pair_t p;
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pending_key_t *first = kring_get(pending, 0);
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if (!is_ambiguous_kc(first->keycode)) {
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// this pending key isn't ambiguous, so execute it.
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dprintf(" %s: found unambiguous key\n", __func__);
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execute_head_and_pop(pending);
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return true;
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} else if (is_ambiguous_kc(first->keycode) && is_up(first)) {
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dprintf(" %s: interpreting keyup as mod\n", __func__);
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p.down = NULL;
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p.up = first;
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interpret_as_mod(&p);
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execute_head_and_pop(pending);
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return true;
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} else if (is_downup_pair(first, &p)) {
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// 'first' was released before any other pressed key, so treat this as
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// a rolling series of normal key taps.
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dprintf(" %s: found down-up pair, interpreting as normal key\n", __func__);
|
|
|
|
interpret_as_normal(&p);
|
|
|
|
execute_head_and_pop(pending);
|
|
|
|
return true;
|
|
|
|
} else {
|
|
|
|
// if another key was pressed and released while 'first' was held, then we
|
|
|
|
// should treat it like a modifier.
|
|
|
|
pending_key_t *next = first->next;
|
|
|
|
while (next != NULL) {
|
|
|
|
if (is_downup_pair(next, NULL)) {
|
|
|
|
dprintf(" %s: found subsequent downup pair, interpreting head as mod\n", __func__);
|
|
|
|
p.down = first;
|
|
|
|
p.up = NULL;
|
|
|
|
interpret_as_mod(&p);
|
|
|
|
execute_head_and_pop(pending);
|
|
|
|
return true;
|
|
|
|
}
|
|
|
|
next = next->next;
|
|
|
|
}
|
|
|
|
|
|
|
|
// we can't disambiguate 'first' yet. wait for another keypress.
|
|
|
|
dprintf(" %s: can't disambiguate (yet)\n", __func__);
|
|
|
|
return false;
|
|
|
|
}
|
|
|
|
}
|
|
|
|
|
|
|
|
bool process_record_user(uint16_t keycode, keyrecord_t *record) {
|
|
|
|
if (keycode == DEBUG) {
|
|
|
|
return true;
|
|
|
|
}
|
|
|
|
|
|
|
|
if (g_pending.count == 0 && !is_ambiguous_kc(keycode)) {
|
|
|
|
// we have no pending keys and this key isn't ambiguous, so we should
|
|
|
|
// just let QMK take care of it.
|
|
|
|
dprintf("%s: handled by qmk\n", __func__);
|
|
|
|
return true;
|
|
|
|
} else {
|
|
|
|
dprintf("%s: got dual-role key\n", __func__);
|
|
|
|
// append the keypress and then try parsing all pending keypresses.
|
|
|
|
kring_append(&g_pending, keycode, record);
|
|
|
|
while (g_pending.count > 0) {
|
|
|
|
dprintf("%s: looping through %d keys...\n", __func__, g_pending.count);
|
|
|
|
if (!parse_next(&g_pending)) {
|
|
|
|
// one of our keypresses is ambiguous and we can't proceed until
|
|
|
|
// we get further keypresses to disambiguate it.
|
|
|
|
dprintf("%s: %d pending keys are ambiguous\n", __func__, g_pending.count);
|
|
|
|
break;
|
|
|
|
}
|
|
|
|
}
|
|
|
|
return false;
|
|
|
|
}
|
|
|
|
}
|