// Copyright 2022-2023 Google LLC // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // https://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. /** * @file sentence_case.c * @brief Sentence Case implementation * * For full documentation, see * */ #include "sentence_case.h" #include #ifdef NO_ACTION_ONESHOT // One-shot keys must be enabled for Sentence Case. One-shot keys are enabled // by default, but are disabled by `#define NO_ACTION_ONESHOT` in config.h. If // your config.h includes such a line, please remove it. #error "Sentence case: Please enable oneshot." #else // Number of keys of state history to retain for backspacing. #define STATE_HISTORY_SIZE 6 // clang-format off /** States in matching the beginning of a sentence. */ enum { STATE_INIT, /**< Initial enabled state. */ STATE_WORD, /**< Within a word. */ STATE_ABBREV, /**< Within an abbreviation like "e.g.". */ STATE_ENDING, /**< Sentence ended. */ STATE_PRIMED, /**< "Primed" state, in the space following an ending. */ STATE_DISABLED, /**< Sentence Case is disabled. */ }; // clang-format on #if SENTENCE_CASE_TIMEOUT > 0 static uint16_t idle_timer = 0; #endif // SENTENCE_CASE_TIMEOUT > 0 #if SENTENCE_CASE_BUFFER_SIZE > 1 static uint16_t key_buffer[SENTENCE_CASE_BUFFER_SIZE] = {0}; #endif // SENTENCE_CASE_BUFFER_SIZE > 1 static uint8_t state_history[STATE_HISTORY_SIZE]; static uint16_t suppress_key = KC_NO; static uint8_t sentence_state = STATE_INIT; // Sets the current state to `new_state`. static void set_sentence_state(uint8_t new_state) { #ifndef NO_DEBUG if (debug_enable && sentence_state != new_state) { static const char* state_names[] = { "INIT", "WORD", "ABBREV", "ENDING", "PRIMED", "DISABLED", }; dprintf("Sentence case: %s\n", state_names[new_state]); } #endif // NO_DEBUG const bool primed = (new_state == STATE_PRIMED); if (primed != (sentence_state == STATE_PRIMED)) { sentence_case_primed(primed); } sentence_state = new_state; } void sentence_case_clear(void) { #if SENTENCE_CASE_TIMEOUT > 0 idle_timer = 0; #endif // SENTENCE_CASE_TIMEOUT > 0 #if SENTENCE_CASE_BUFFER_SIZE > 1 memset(key_buffer, 0, sizeof(key_buffer)); #endif // SENTENCE_CASE_BUFFER_SIZE > 1 memset(state_history, 0, sizeof(state_history)); suppress_key = KC_NO; if (sentence_state != STATE_DISABLED) { set_sentence_state(STATE_INIT); } } void sentence_case_on(void) { if (sentence_state == STATE_DISABLED) { sentence_state = STATE_INIT; sentence_case_clear(); } } void sentence_case_off(void) { if (sentence_state != STATE_DISABLED) { set_sentence_state(STATE_DISABLED); } } void sentence_case_toggle(void) { if (sentence_state != STATE_DISABLED) { sentence_case_off(); } else { sentence_case_on(); } } bool is_sentence_case_on(void) { return sentence_state != STATE_DISABLED; } #if SENTENCE_CASE_TIMEOUT > 0 #if SENTENCE_CASE_TIMEOUT < 100 || SENTENCE_CASE_TIMEOUT > 30000 // Constrain timeout to a sensible range. With the 16-bit timer, the longest // representable timeout is 32768 ms, rounded here to 30000 ms = half a minute. #error "sentence_case: SENTENCE_CASE_TIMEOUT must be between 100 and 30000 ms" #endif void sentence_case_task(void) { if (idle_timer && timer_expired(timer_read(), idle_timer)) { sentence_case_clear(); // Timed out; clear all state. } } #endif // SENTENCE_CASE_TIMEOUT > 0 bool process_sentence_case(uint16_t keycode, keyrecord_t* record) { // Only process while enabled, and only process press events. if (sentence_state == STATE_DISABLED || !record->event.pressed) { return true; } #if SENTENCE_CASE_TIMEOUT > 0 idle_timer = (record->event.time + SENTENCE_CASE_TIMEOUT) | 1; #endif // SENTENCE_CASE_TIMEOUT > 0 switch (keycode) { #ifndef NO_ACTION_TAPPING case QK_MOD_TAP ... QK_MOD_TAP_MAX: if (record->tap.count == 0) { return true; } keycode = QK_MOD_TAP_GET_TAP_KEYCODE(keycode); break; #ifndef NO_ACTION_LAYER case QK_LAYER_TAP ... QK_LAYER_TAP_MAX: #endif // NO_ACTION_LAYER if (record->tap.count == 0) { return true; } keycode = QK_LAYER_TAP_GET_TAP_KEYCODE(keycode); break; #endif // NO_ACTION_TAPPING #ifdef SWAP_HANDS_ENABLE case QK_SWAP_HANDS ... QK_SWAP_HANDS_MAX: if (IS_SWAP_HANDS_KEYCODE(keycode) || record->tap.count == 0) { return true; } keycode = QK_SWAP_HANDS_GET_TAP_KEYCODE(keycode); break; #endif // SWAP_HANDS_ENABLE } if (keycode == KC_BSPC) { // Backspace key pressed. Rewind the state and key buffers. set_sentence_state(state_history[STATE_HISTORY_SIZE - 1]); memmove(state_history + 1, state_history, STATE_HISTORY_SIZE - 1); state_history[0] = STATE_INIT; #if SENTENCE_CASE_BUFFER_SIZE > 1 memmove(key_buffer + 1, key_buffer, (SENTENCE_CASE_BUFFER_SIZE - 1) * sizeof(uint16_t)); key_buffer[0] = KC_NO; #endif // SENTENCE_CASE_BUFFER_SIZE > 1 return true; } const uint8_t mods = get_mods() | get_weak_mods() | get_oneshot_mods(); uint8_t new_state = STATE_INIT; // We search for sentence beginnings using a simple finite state machine. It // matches things like "a. a" and "a. a" but not "a.. a" or "a.a. a". The // state transition matrix is: // // 'a' '.' ' ' '\'' // +------------------------------------- // INIT | WORD INIT INIT INIT // WORD | WORD ENDING INIT WORD // ABBREV | ABBREV ABBREV INIT ABBREV // ENDING | ABBREV INIT PRIMED ENDING // PRIMED | match! INIT PRIMED PRIMED char code = sentence_case_press_user(keycode, record, mods); dprintf("Sentence Case: code = '%c' (%d)\n", code, (int)code); switch (code) { case '\0': // Current key should be ignored. return true; case 'a': // Current key is a letter. switch (sentence_state) { case STATE_ABBREV: case STATE_ENDING: new_state = STATE_ABBREV; break; case STATE_PRIMED: // This is the start of a sentence. if (keycode != suppress_key) { suppress_key = keycode; set_oneshot_mods(MOD_BIT(KC_LSFT)); // Shift mod to capitalize. new_state = STATE_WORD; } break; default: new_state = STATE_WORD; } break; case '.': // Current key is sentence-ending punctuation. switch (sentence_state) { case STATE_WORD: new_state = STATE_ENDING; break; default: new_state = STATE_ABBREV; } break; case ' ': // Current key is a space. if (sentence_state == STATE_PRIMED || (sentence_state == STATE_ENDING #if SENTENCE_CASE_BUFFER_SIZE > 1 && sentence_case_check_ending(key_buffer) #endif // SENTENCE_CASE_BUFFER_SIZE > 1 )) { new_state = STATE_PRIMED; suppress_key = KC_NO; } break; case '\'': // Current key is a quote. new_state = sentence_state; break; } // Slide key_buffer and state_history buffers one element to the left. // Optimization note: Using manual loops instead of memmove() here saved // ~100 bytes on AVR. #if SENTENCE_CASE_BUFFER_SIZE > 1 for (int8_t i = 0; i < SENTENCE_CASE_BUFFER_SIZE - 1; ++i) { key_buffer[i] = key_buffer[i + 1]; } #endif // SENTENCE_CASE_BUFFER_SIZE > 1 for (int8_t i = 0; i < STATE_HISTORY_SIZE - 1; ++i) { state_history[i] = state_history[i + 1]; } #if SENTENCE_CASE_BUFFER_SIZE > 1 key_buffer[SENTENCE_CASE_BUFFER_SIZE - 1] = keycode; if (new_state == STATE_ENDING && !sentence_case_check_ending(key_buffer)) { dprintf("Not a real ending.\n"); new_state = STATE_INIT; } #endif // SENTENCE_CASE_BUFFER_SIZE > 1 state_history[STATE_HISTORY_SIZE - 1] = sentence_state; set_sentence_state(new_state); return true; } bool sentence_case_just_typed_P(const uint16_t* buffer, const uint16_t* pattern, int8_t pattern_len) { #if SENTENCE_CASE_BUFFER_SIZE > 1 buffer += SENTENCE_CASE_BUFFER_SIZE - pattern_len; for (int8_t i = 0; i < pattern_len; ++i) { if (buffer[i] != pgm_read_word(pattern + i)) { return false; } } return true; #else return false; #endif // SENTENCE_CASE_BUFFER_SIZE > 1 } __attribute__((weak)) bool sentence_case_check_ending(const uint16_t* buffer) { #if SENTENCE_CASE_BUFFER_SIZE >= 5 // Don't consider the abbreviations "vs." and "etc." to end the sentence. if (SENTENCE_CASE_JUST_TYPED(KC_SPC, KC_V, KC_S, KC_DOT) || SENTENCE_CASE_JUST_TYPED(KC_SPC, KC_E, KC_T, KC_C, KC_DOT)) { return false; // Not a real sentence ending. } #endif // SENTENCE_CASE_BUFFER_SIZE >= 5 return true; // Real sentence ending; capitalize next letter. } __attribute__((weak)) char sentence_case_press_user(uint16_t keycode, keyrecord_t* record, uint8_t mods) { if ((mods & ~(MOD_MASK_SHIFT | MOD_BIT(KC_RALT))) == 0) { const bool shifted = mods & MOD_MASK_SHIFT; switch (keycode) { case KC_LCTL ... KC_RGUI: // Mod keys. return '\0'; // These keys are ignored. case KC_A ... KC_Z: return 'a'; // Letter key. case KC_DOT: // . is punctuation, Shift . is a symbol (>) return !shifted ? '.' : '#'; case KC_1: case KC_SLSH: return shifted ? '.' : '#'; case KC_2 ... KC_0: // 2 3 4 5 6 7 8 9 0 case KC_MINS ... KC_SCLN: // - = [ ] ; backslash case KC_GRV: case KC_COMM: return '#'; // Symbol key. case KC_SPC: return ' '; // Space key. case KC_QUOT: return '\''; // Quote key. } } // Otherwise clear Sentence Case to initial state. sentence_case_clear(); return '\0'; } __attribute__((weak)) void sentence_case_primed(bool primed) {} #endif // NO_ACTION_ONESHOT