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https://github.com/openstenoproject/qmk
synced 2024-11-09 01:39:12 +00:00
Improve state/chord handling and clean up namespace
Some values that can never, ever, change were held in local variables, rather than in PROGMEM. Fixed. Change "pressed" to a signed int so the test for < 0 makes sense, and to avoid possible weird failure modes in the case where a key release comes in when pressed is already zero. (Shouldn't happen, sure, but computers are weird.) A lot of things in process_steno had external linkage for no particular reason. They've been marked static. Stuff still builds. Distinguish between currently-held keys and keys that have been held, and expose these values through a nicely-named API so other code could, say, check on the current set of steno chording in order to make displays. Also in passing fix up the "state" value having external linkage so it could clash with other people's variable declarations. The API also provides hooks for key processing and steno chord events, so you can monitor those events without having to run in matrix_scan_user and recheck the values directly. Also document these. There is no path through processing a key that doesn't end with a return false, so the nested return foo() are gone and we just return false.
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3 changed files with 119 additions and 53 deletions
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@ -56,6 +56,29 @@ On the display tab click 'Open stroke display'. With Plover disabled you should
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* [Steno Jig](https://joshuagrams.github.io/steno-jig/)
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* [Steno Jig](https://joshuagrams.github.io/steno-jig/)
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* More resources at the Plover [Learning Stenography](https://github.com/openstenoproject/plover/wiki/Learning-Stenography) wiki
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* More resources at the Plover [Learning Stenography](https://github.com/openstenoproject/plover/wiki/Learning-Stenography) wiki
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## Interfacing with the code
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The steno code has three interceptible hooks. If you define these functions, they will be called at certain points in processing; if they return true, processing continues, otherwise it's assumed you handled things.
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```C
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bool send_steno_chord_user(steno_mode_t mode, uint8_t chord[6]);
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```
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This function is called when a chord is about to be sent. Mode will be one of `STENO_MODE_BOLT` or `STENO_MODE_GEMINI`. This represents the actual chord that would be sent via whichever protocol. You can modify the chord provided to alter what gets sent. Remember to return true if you want the regular sending process to happen.
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```C
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bool process_steno_user(uint16_t keycode, keyrecord_t *record) { return true; }
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```
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This function is called when a keypress has come in, before it is processed. The keycode should be one of `QK_STENO_BOLT`, `QK_STENO_GEMINI`, or one of the `STN_*` key values.
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```C
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bool postprocess_steno_user(uint16_t keycode, keyrecord_t *record, steno_mode_t mode, uint8_t chord[6], int8_t pressed);
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```
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This function is called after a key has been processed, but before any decision about whether or not to send a chord. If `IS_PRESSED(record->event)` is false, and `pressed` is 0 or 1, the chord will be sent shortly, but has not yet been sent. This is where to put hooks for things like, say, live displays of steno chords or keys.
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## Keycode Reference
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## Keycode Reference
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As defined in `keymap_steno.h`.
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As defined in `keymap_steno.h`.
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@ -106,3 +129,4 @@ As defined in `keymap_steno.h`.
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|`STN_RES1`||(GeminiPR only)|
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|`STN_RES1`||(GeminiPR only)|
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|`STN_RES2`||(GeminiPR only)|
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|`STN_RES2`||(GeminiPR only)|
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|`STN_PWR`||(GeminiPR only)|
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|`STN_PWR`||(GeminiPR only)|
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@ -18,6 +18,7 @@
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#include "eeprom.h"
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#include "eeprom.h"
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#include "keymap_steno.h"
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#include "keymap_steno.h"
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#include "virtser.h"
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#include "virtser.h"
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#include <string.h>
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// TxBolt Codes
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// TxBolt Codes
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#define TXB_NUL 0
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#define TXB_NUL 0
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@ -57,11 +58,12 @@
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#define GEMINI_STATE_SIZE 6
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#define GEMINI_STATE_SIZE 6
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#define MAX_STATE_SIZE GEMINI_STATE_SIZE
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#define MAX_STATE_SIZE GEMINI_STATE_SIZE
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uint8_t state[MAX_STATE_SIZE] = {0};
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static uint8_t state[MAX_STATE_SIZE] = {0};
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uint8_t pressed = 0;
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static uint8_t chord[MAX_STATE_SIZE] = {0};
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steno_mode_t mode;
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static int8_t pressed = 0;
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static steno_mode_t mode;
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uint8_t boltmap[64] = {
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static const uint8_t boltmap[64] PROGMEM = {
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TXB_NUL, TXB_NUM, TXB_NUM, TXB_NUM, TXB_NUM, TXB_NUM, TXB_NUM,
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TXB_NUL, TXB_NUM, TXB_NUM, TXB_NUM, TXB_NUM, TXB_NUM, TXB_NUM,
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TXB_S_L, TXB_S_L, TXB_T_L, TXB_K_L, TXB_P_L, TXB_W_L, TXB_H_L,
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TXB_S_L, TXB_S_L, TXB_T_L, TXB_K_L, TXB_P_L, TXB_W_L, TXB_H_L,
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TXB_R_L, TXB_A_L, TXB_O_L, TXB_STR, TXB_STR, TXB_NUL, TXB_NUL,
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TXB_R_L, TXB_A_L, TXB_O_L, TXB_STR, TXB_STR, TXB_NUL, TXB_NUL,
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@ -70,8 +72,17 @@ uint8_t boltmap[64] = {
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TXB_NUM, TXB_NUM, TXB_NUM, TXB_NUM, TXB_NUM, TXB_NUM, TXB_Z_R
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TXB_NUM, TXB_NUM, TXB_NUM, TXB_NUM, TXB_NUM, TXB_NUM, TXB_Z_R
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};
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};
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void steno_clear_state(void) {
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static void steno_clear_state(void) {
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__builtin_memset(state, 0, sizeof(state));
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memset(state, 0, sizeof(state));
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memset(chord, 0, sizeof(chord));
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}
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static void send_steno_state(uint8_t size, bool send_empty) {
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for (uint8_t i = 0; i < size; ++i) {
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if (chord[i] || send_empty) {
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virtser_send(chord[i]);
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}
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}
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}
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}
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void steno_init() {
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void steno_init() {
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@ -87,79 +98,108 @@ void steno_set_mode(steno_mode_t new_mode) {
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eeprom_update_byte(EECONFIG_STENOMODE, mode);
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eeprom_update_byte(EECONFIG_STENOMODE, mode);
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}
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}
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void send_steno_state(uint8_t size, bool send_empty) {
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/* override to intercept chords right before they get sent.
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for (uint8_t i = 0; i < size; ++i) {
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* return zero to suppress normal sending behavior.
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if (state[i] || send_empty) {
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*/
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virtser_send(state[i]);
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__attribute__ ((weak))
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bool send_steno_chord_user(steno_mode_t mode, uint8_t chord[6]) { return true; }
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__attribute__ ((weak))
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bool postprocess_steno_user(uint16_t keycode, keyrecord_t *record, steno_mode_t mode, uint8_t chord[6], int8_t pressed) { return true; }
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__attribute__ ((weak))
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bool process_steno_user(uint16_t keycode, keyrecord_t *record) { return true; }
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static void send_steno_chord(void) {
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if (send_steno_chord_user(mode, chord)) {
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switch(mode) {
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case STENO_MODE_BOLT:
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send_steno_state(BOLT_STATE_SIZE, false);
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virtser_send(0); // terminating byte
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break;
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case STENO_MODE_GEMINI:
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chord[0] |= 0x80; // Indicate start of packet
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send_steno_state(GEMINI_STATE_SIZE, true);
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break;
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}
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}
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}
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}
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steno_clear_state();
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steno_clear_state();
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}
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}
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bool update_state_bolt(uint8_t key) {
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uint8_t *steno_get_state(void) {
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uint8_t boltcode = boltmap[key];
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return &state[0];
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state[TXB_GET_GROUP(boltcode)] |= boltcode;
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}
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uint8_t *steno_get_chord(void) {
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return &chord[0];
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}
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static bool update_state_bolt(uint8_t key, bool press) {
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uint8_t boltcode = pgm_read_byte(boltmap + key);
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if (press) {
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state[TXB_GET_GROUP(boltcode)] |= boltcode;
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chord[TXB_GET_GROUP(boltcode)] |= boltcode;
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} else {
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state[TXB_GET_GROUP(boltcode)] &= ~boltcode;
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}
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return false;
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return false;
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}
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}
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bool send_state_bolt(void) {
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static bool update_state_gemini(uint8_t key, bool press) {
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send_steno_state(BOLT_STATE_SIZE, false);
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int idx = key / 7;
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virtser_send(0); // terminating byte
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uint8_t bit = 1 << (6 - (key % 7));
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return false;
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if (press) {
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}
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state[idx] |= bit;
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chord[idx] |= bit;
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bool update_state_gemini(uint8_t key) {
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} else {
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state[key / 7] |= 1 << (6 - (key % 7));
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state[idx] &= ~bit;
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return false;
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}
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}
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bool send_state_gemini(void) {
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state[0] |= 0x80; // Indicate start of packet
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send_steno_state(GEMINI_STATE_SIZE, true);
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return false;
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return false;
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}
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}
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bool process_steno(uint16_t keycode, keyrecord_t *record) {
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bool process_steno(uint16_t keycode, keyrecord_t *record) {
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switch (keycode) {
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switch (keycode) {
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case QK_STENO_BOLT:
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case QK_STENO_BOLT:
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if (!process_steno_user(keycode, record)) {
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return false;
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}
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if (IS_PRESSED(record->event)) {
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if (IS_PRESSED(record->event)) {
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steno_set_mode(STENO_MODE_BOLT);
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steno_set_mode(STENO_MODE_BOLT);
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}
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}
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return false;
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return false;
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case QK_STENO_GEMINI:
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case QK_STENO_GEMINI:
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if (!process_steno_user(keycode, record)) {
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return false;
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}
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if (IS_PRESSED(record->event)) {
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if (IS_PRESSED(record->event)) {
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steno_set_mode(STENO_MODE_GEMINI);
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steno_set_mode(STENO_MODE_GEMINI);
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}
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}
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return false;
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return false;
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case STN__MIN...STN__MAX:
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case STN__MIN...STN__MAX:
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if (IS_PRESSED(record->event)) {
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if (!process_steno_user(keycode, record)) {
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uint8_t key = keycode - QK_STENO;
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return false;
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++pressed;
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switch(mode) {
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case STENO_MODE_BOLT:
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return update_state_bolt(key);
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case STENO_MODE_GEMINI:
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return update_state_gemini(key);
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default:
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return false;
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}
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} else {
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--pressed;
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if (pressed <= 0) {
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pressed = 0;
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switch(mode) {
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case STENO_MODE_BOLT:
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return send_state_bolt();
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case STENO_MODE_GEMINI:
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return send_state_gemini();
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default:
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return false;
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}
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}
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}
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}
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switch(mode) {
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case STENO_MODE_BOLT:
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update_state_bolt(keycode - QK_STENO, IS_PRESSED(record->event));
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case STENO_MODE_GEMINI:
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update_state_gemini(keycode - QK_STENO, IS_PRESSED(record->event));
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}
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// allow postprocessing hooks
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if (postprocess_steno_user(keycode, record, mode, chord, pressed)) {
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if (IS_PRESSED(record->event)) {
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++pressed;
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} else {
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--pressed;
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if (pressed <= 0) {
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pressed = 0;
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send_steno_chord();
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}
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}
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}
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return false;
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}
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}
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return true;
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return true;
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}
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}
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@ -27,5 +27,7 @@ typedef enum { STENO_MODE_BOLT, STENO_MODE_GEMINI } steno_mode_t;
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bool process_steno(uint16_t keycode, keyrecord_t *record);
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bool process_steno(uint16_t keycode, keyrecord_t *record);
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void steno_init(void);
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void steno_init(void);
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void steno_set_mode(steno_mode_t mode);
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void steno_set_mode(steno_mode_t mode);
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uint8_t *steno_get_state(void);
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uint8_t *steno_get_chord(void);
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#endif
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#endif
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