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qmk_firmware/quantum/keycode_string.c

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[MERGE][Core] get_keycode_string(): function to format keycodes as strings (24787)
2025-01-23 13:31:48 -08:00
// Copyright 2024-2025 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.
#include "keycode_string.h"
#include <string.h>
#include "bitwise.h"
#include "keycode.h"
#include "progmem.h"
#include "quantum_keycodes.h"
#include "util.h"
typedef int_fast8_t index_t;
// clang-format off
/** Packs a 7-char keycode name, ignoring the third char, as 3 words. */
#define KEYCODE_NAME7(c0, c1, unused_c2, c3, c4, c5, c6) \
((uint16_t)c0) | (((uint16_t)c1) << 8), \
((uint16_t)c3) | (((uint16_t)c4) << 8), \
((uint16_t)c5) | (((uint16_t)c6) << 8)
/**
* @brief Names of some common keycodes.
*
* Each (keycode, name) entry is stored flat in 8 bytes in PROGMEM. Names in
* this table must be at most 7 chars long and have an underscore '_' for the
* third char. This underscore is assumed and not actually stored.
*/
static const uint16_t common_names[] PROGMEM = {
KC_TRNS, KEYCODE_NAME7('K', 'C', '_', 'T', 'R', 'N', 'S'),
KC_ENT , KEYCODE_NAME7('K', 'C', '_', 'E', 'N', 'T', 0 ),
KC_ESC , KEYCODE_NAME7('K', 'C', '_', 'E', 'S', 'C', 0 ),
KC_BSPC, KEYCODE_NAME7('K', 'C', '_', 'B', 'S', 'P', 'C'),
KC_TAB , KEYCODE_NAME7('K', 'C', '_', 'T', 'A', 'B', 0 ),
KC_SPC , KEYCODE_NAME7('K', 'C', '_', 'S', 'P', 'C', 0 ),
KC_MINS, KEYCODE_NAME7('K', 'C', '_', 'M', 'I', 'N', 'S'),
KC_EQL , KEYCODE_NAME7('K', 'C', '_', 'E', 'Q', 'L', 0 ),
KC_LBRC, KEYCODE_NAME7('K', 'C', '_', 'L', 'B', 'R', 'C'),
KC_RBRC, KEYCODE_NAME7('K', 'C', '_', 'R', 'B', 'R', 'C'),
KC_BSLS, KEYCODE_NAME7('K', 'C', '_', 'B', 'S', 'L', 'S'),
KC_NUHS, KEYCODE_NAME7('K', 'C', '_', 'N', 'U', 'H', 'S'),
KC_SCLN, KEYCODE_NAME7('K', 'C', '_', 'S', 'C', 'L', 'N'),
KC_QUOT, KEYCODE_NAME7('K', 'C', '_', 'Q', 'U', 'O', 'T'),
KC_GRV , KEYCODE_NAME7('K', 'C', '_', 'G', 'R', 'V', 0 ),
KC_COMM, KEYCODE_NAME7('K', 'C', '_', 'C', 'O', 'M', 'M'),
KC_DOT , KEYCODE_NAME7('K', 'C', '_', 'D', 'O', 'T', 0 ),
KC_SLSH, KEYCODE_NAME7('K', 'C', '_', 'S', 'L', 'S', 'H'),
KC_CAPS, KEYCODE_NAME7('K', 'C', '_', 'C', 'A', 'P', 'S'),
KC_PSCR, KEYCODE_NAME7('K', 'C', '_', 'P', 'S', 'C', 'R'),
KC_PAUS, KEYCODE_NAME7('K', 'C', '_', 'P', 'A', 'U', 'S'),
KC_INS , KEYCODE_NAME7('K', 'C', '_', 'I', 'N', 'S', 0 ),
KC_HOME, KEYCODE_NAME7('K', 'C', '_', 'H', 'O', 'M', 'E'),
KC_PGUP, KEYCODE_NAME7('K', 'C', '_', 'P', 'G', 'U', 'P'),
KC_DEL , KEYCODE_NAME7('K', 'C', '_', 'D', 'E', 'L', 0 ),
KC_END , KEYCODE_NAME7('K', 'C', '_', 'E', 'N', 'D', 0 ),
KC_PGDN, KEYCODE_NAME7('K', 'C', '_', 'P', 'G', 'D', 'N'),
KC_RGHT, KEYCODE_NAME7('K', 'C', '_', 'R', 'G', 'H', 'T'),
KC_LEFT, KEYCODE_NAME7('K', 'C', '_', 'L', 'E', 'F', 'T'),
KC_DOWN, KEYCODE_NAME7('K', 'C', '_', 'D', 'O', 'W', 'N'),
KC_UP , KEYCODE_NAME7('K', 'C', '_', 'U', 'P', 0 , 0 ),
KC_NUBS, KEYCODE_NAME7('K', 'C', '_', 'N', 'U', 'B', 'S'),
#ifdef EXTRAKEY_ENABLE
KC_WHOM, KEYCODE_NAME7('K', 'C', '_', 'W', 'H', 'O', 'M'),
KC_WBAK, KEYCODE_NAME7('K', 'C', '_', 'W', 'B', 'A', 'K'),
KC_WFWD, KEYCODE_NAME7('K', 'C', '_', 'W', 'F', 'W', 'D'),
KC_WSTP, KEYCODE_NAME7('K', 'C', '_', 'W', 'S', 'T', 'P'),
KC_WREF, KEYCODE_NAME7('K', 'C', '_', 'W', 'R', 'E', 'F'),
KC_MNXT, KEYCODE_NAME7('K', 'C', '_', 'M', 'N', 'X', 'T'),
KC_MPRV, KEYCODE_NAME7('K', 'C', '_', 'M', 'P', 'R', 'V'),
KC_MPLY, KEYCODE_NAME7('K', 'C', '_', 'M', 'P', 'L', 'Y'),
KC_MUTE, KEYCODE_NAME7('K', 'C', '_', 'M', 'U', 'T', 'E'),
KC_VOLU, KEYCODE_NAME7('K', 'C', '_', 'V', 'O', 'L', 'U'),
KC_VOLD, KEYCODE_NAME7('K', 'C', '_', 'V', 'O', 'L', 'D'),
#endif // EXTRAKEY_ENABLE
#ifdef MOUSEKEY_ENABLE
MS_LEFT, KEYCODE_NAME7('M', 'S', '_', 'L', 'E', 'F', 'T'),
MS_RGHT, KEYCODE_NAME7('M', 'S', '_', 'R', 'G', 'H', 'T'),
MS_UP , KEYCODE_NAME7('M', 'S', '_', 'U', 'P', 0 , 0 ),
MS_DOWN, KEYCODE_NAME7('M', 'S', '_', 'D', 'O', 'W', 'N'),
MS_WHLL, KEYCODE_NAME7('M', 'S', '_', 'W', 'H', 'L', 'L'),
MS_WHLR, KEYCODE_NAME7('M', 'S', '_', 'W', 'H', 'L', 'R'),
MS_WHLU, KEYCODE_NAME7('M', 'S', '_', 'W', 'H', 'L', 'U'),
MS_WHLD, KEYCODE_NAME7('M', 'S', '_', 'W', 'H', 'L', 'D'),
#endif // MOUSEKEY_ENABLE
#ifdef SWAP_HANDS_ENABLE
SH_ON , KEYCODE_NAME7('S', 'H', '_', 'O', 'N', 0 , 0 ),
SH_OFF , KEYCODE_NAME7('S', 'H', '_', 'O', 'F', 'F', 0 ),
SH_MON , KEYCODE_NAME7('S', 'H', '_', 'M', 'O', 'N', 0 ),
SH_MOFF, KEYCODE_NAME7('S', 'H', '_', 'M', 'O', 'F', 'F'),
SH_TOGG, KEYCODE_NAME7('S', 'H', '_', 'T', 'O', 'G', 'G'),
SH_TT , KEYCODE_NAME7('S', 'H', '_', 'T', 'T', 0 , 0 ),
SH_OS , KEYCODE_NAME7('S', 'H', '_', 'O', 'S', 0 , 0 ),
#endif // SWAP_HANDS_ENABLE
#ifdef LEADER_ENABLE
QK_LEAD, KEYCODE_NAME7('Q', 'K', '_', 'L', 'E', 'A', 'D'),
#endif // LEADER_ENABLE
#ifdef TRI_LAYER_ENABLE
TL_LOWR, KEYCODE_NAME7('T', 'L', '_', 'L', 'O', 'W', 'R'),
TL_UPPR, KEYCODE_NAME7('T', 'L', '_', 'U', 'P', 'P', 'R'),
#endif // TRI_LAYER_ENABLE
#ifdef GRAVE_ESC_ENABLE
QK_GESC, KEYCODE_NAME7('Q', 'K', '_', 'G', 'E', 'S', 'C'),
#endif // GRAVE_ESC_ENABLE
#ifdef CAPS_WORD_ENABLE
CW_TOGG, KEYCODE_NAME7('C', 'W', '_', 'T', 'O', 'G', 'G'),
#endif // CAPS_WORD_ENABLE
#ifdef LAYER_LOCK_ENABLE
QK_LLCK, KEYCODE_NAME7('Q', 'K', '_', 'L', 'L', 'C', 'K'),
#endif // LAYER_LOCK_ENABLE
EE_CLR , KEYCODE_NAME7('E', 'E', '_', 'C', 'L', 'R', 0 ),
QK_BOOT, KEYCODE_NAME7('Q', 'K', '_', 'B', 'O', 'O', 'T'),
DB_TOGG, KEYCODE_NAME7('D', 'B', '_', 'T', 'O', 'G', 'G'),
};
// clang-format on
__attribute__((weak)) const keycode_string_name_t empty_table[] = {KEYCODE_STRING_NAMES_END};
/** Users can override this to define names of additional keycodes. */
__attribute__((weak)) const keycode_string_name_t* keycode_string_names_user = empty_table;
/** Keyboard vendors can override this to define names of additional keycodes. */
__attribute__((weak)) const keycode_string_name_t* keycode_string_names_kb = empty_table;
/** Names of the 4 mods on each hand. */
static const char mod_names[] PROGMEM = "CTL\0SFT\0ALT\0GUI";
/** Internal buffer for holding a stringified keycode. */
static char buffer[32];
#define BUFFER_MAX_LEN (sizeof(buffer) - 1)
static index_t buffer_len;
/** Finds the name of a keycode in `common_names` or returns NULL. */
static const char* search_common_names(uint16_t keycode) {
static uint8_t buffer[8];
for (int16_t offset = 0; offset < ARRAY_SIZE(common_names); offset += 4) {
if (keycode == pgm_read_word(common_names + offset)) {
const uint16_t w0 = pgm_read_word(common_names + offset + 1);
const uint16_t w1 = pgm_read_word(common_names + offset + 2);
const uint16_t w2 = pgm_read_word(common_names + offset + 3);
buffer[0] = (uint8_t)w0;
buffer[1] = (uint8_t)(w0 >> 8);
buffer[2] = '_';
buffer[3] = (uint8_t)w1;
buffer[4] = (uint8_t)(w1 >> 8);
buffer[5] = (uint8_t)w2;
buffer[6] = (uint8_t)(w2 >> 8);
buffer[7] = 0;
return (const char*)buffer;
}
}
return NULL;
}
/**
* @brief Finds the name of a keycode in `table` or returns NULL.
*
* The last entry of the table must be `KEYCODE_STRING_NAMES_END`.
*
* @param table A table of keycode_string_name_t to be searched.
* @return Name string for the keycode, or NULL if not found.
*/
static const char* search_table(const keycode_string_name_t* table, uint16_t keycode) {
for (; table->keycode; ++table) {
if (table->keycode == keycode) {
return table->name;
}
}
return NULL;
}
/** Formats `number` in `base`, either 10 or 16. */
static char* number_string(uint16_t number, int8_t base) {
static char result[7];
result[sizeof(result) - 1] = '\0';
index_t i = sizeof(result) - 1;
do {
const uint8_t digit = number % base;
number /= base;
result[--i] = (digit < 10) ? (char)(digit + UINT8_C('0')) : (char)(digit + (UINT8_C('A') - 10));
} while (number > 0 && i > 0);
if (base == 16 && i >= 2) {
result[--i] = 'x';
result[--i] = '0';
}
return result + i;
}
/** Appends `str` to `buffer`, truncating if the result would overflow. */
static void append(const char* str) {
char* dest = buffer + buffer_len;
index_t i;
for (i = 0; buffer_len + i < BUFFER_MAX_LEN && str[i]; ++i) {
dest[i] = str[i];
}
buffer_len += i;
buffer[buffer_len] = '\0';
}
/** Same as append(), but where `str` is a PROGMEM string. */
static void append_P(const char* str) {
char* dest = buffer + buffer_len;
index_t i;
for (i = 0; buffer_len + i < BUFFER_MAX_LEN; ++i) {
const char c = pgm_read_byte(&str[i]);
if (c == '\0') {
break;
}
dest[i] = c;
}
buffer_len += i;
buffer[buffer_len] = '\0';
}
/** Appends a single char to `buffer` if there is space. */
static void append_char(char c) {
if (buffer_len < BUFFER_MAX_LEN) {
buffer[buffer_len] = c;
buffer[++buffer_len] = '\0';
}
}
/** Formats `number` in `base`, either 10 or 16, and appends it to `buffer`. */
static void append_number(uint16_t number, int8_t base) {
append(number_string(number, base));
}
/** Stringifies 5-bit mods and appends it to `buffer`. */
static void append_5_bit_mods(uint8_t mods) {
const bool is_rhs = mods > 15;
mods &= 15;
if (mods != 0 && (mods & (mods - 1)) == 0) { // One mod is set.
append_P(PSTR("MOD_"));
append_char(is_rhs ? 'R' : 'L');
append_P(&mod_names[4 * biton(mods)]);
} else { // Fallback: write the mod as a hex value.
append_number(mods, 16);
}
}
/**
* @brief Writes a keycode of the format `name` + "(" + `param` + ")".
* @note `name` is a PROGMEM string, `param` is not.
*/
static void append_unary_keycode(const char* name, const char* param) {
append_P(name);
append_char('(');
append(param);
append_char(')');
}
/** Stringifies `keycode` and appends it to `buffer`. */
static void append_keycode(uint16_t keycode) {
// In case there is overlap among tables, search `keycode_string_names_user`
// first so that it takes precedence.
const char* keycode_name = search_table(keycode_string_names_user, keycode);
if (keycode_name) {
append(keycode_name);
return;
}
keycode_name = search_table(keycode_string_names_kb, keycode);
if (keycode_name) {
append(keycode_name);
return;
}
keycode_name = search_common_names(keycode);
if (keycode_name) {
append(keycode_name);
return;
}
if (keycode <= 255) { // Basic keycodes.
switch (keycode) {
// Modifiers KC_LSFT, KC_RCTL, etc.
case MODIFIER_KEYCODE_RANGE: {
const uint8_t i = keycode - KC_LCTL;
const bool is_rhs = i > 3;
append_P(PSTR("KC_"));
append_char(is_rhs ? 'R' : 'L');
append_P(&mod_names[4 * (i & 3)]);
}
return;
// Letters A-Z.
case KC_A ... KC_Z:
append_P(PSTR("KC_"));
append_char((char)(keycode + (UINT8_C('A') - KC_A)));
return;
// Digits 0-9 (NOTE: Unlike the ASCII order, KC_0 comes *after* KC_9.)
case KC_1 ... KC_0:
append_P(PSTR("KC_"));
append_char('0' + (char)((keycode - (KC_1 - 1)) % 10));
return;
// Keypad digits.
case KC_KP_1 ... KC_KP_0:
append_P(PSTR("KC_KP_"));
append_char('0' + (char)((keycode - (KC_KP_1 - 1)) % 10));
return;
// Function keys. F1-F12 and F13-F24 are coded in separate ranges.
case KC_F1 ... KC_F12:
append_P(PSTR("KC_F"));
append_number(keycode - (KC_F1 - 1), 10);
return;
case KC_F13 ... KC_F24:
append_P(PSTR("KC_F"));
append_number(keycode - (KC_F13 - 13), 10);
return;
}
}
// clang-format off
switch (keycode) {
// A modified keycode, like S(KC_1) for Shift + 1 = !. This implementation
// only covers modified keycodes where one modifier is applied, e.g. a
// Ctrl + Shift + kc or Hyper + kc keycode is not formatted.
case QK_MODS ... QK_MODS_MAX: {
uint8_t mods = QK_MODS_GET_MODS(keycode);
const bool is_rhs = mods > 15;
mods &= 15;
if (mods != 0 && (mods & (mods - 1)) == 0) { // One mod is set.
const char* name = &mod_names[4 * biton(mods)];
if (is_rhs) {
append_char('R');
append_P(name);
} else {
append_char(pgm_read_byte(&name[0]));
}
append_char('(');
append_keycode(QK_MODS_GET_BASIC_KEYCODE(keycode));
append_char(')');
return;
}
} break;
// One-shot mod OSM(mod) key.
case QK_ONE_SHOT_MOD ... QK_ONE_SHOT_MOD_MAX:
append_P(PSTR("OSM("));
append_5_bit_mods(QK_ONE_SHOT_MOD_GET_MODS(keycode));
append_char(')');
return;
// Various layer switch keys.
case QK_LAYER_TAP ... QK_LAYER_TAP_MAX: // Layer-tap LT(layer,kc) key.
append_P(PSTR("LT("));
append_number(QK_LAYER_TAP_GET_LAYER(keycode), 10);
append_char(',');
append_keycode(QK_LAYER_TAP_GET_TAP_KEYCODE(keycode));
append_char(')');
return;
case QK_LAYER_MOD ... QK_LAYER_MOD_MAX: // LM(layer,mod) key.
append_P(PSTR("LM("));
append_number(QK_LAYER_MOD_GET_LAYER(keycode), 10);
append_char(',');
append_5_bit_mods(QK_LAYER_MOD_GET_MODS(keycode));
append_char(')');
return;
case QK_TO ... QK_TO_MAX: // TO(layer) key.
append_unary_keycode(PSTR("TO"), number_string(QK_TO_GET_LAYER(keycode), 10));
return;
case QK_MOMENTARY ... QK_MOMENTARY_MAX: // MO(layer) key.
append_unary_keycode(PSTR("MO"), number_string(QK_MOMENTARY_GET_LAYER(keycode), 10));
return;
case QK_DEF_LAYER ... QK_DEF_LAYER_MAX: // DF(layer) key.
append_unary_keycode(PSTR("DF"), number_string(QK_DEF_LAYER_GET_LAYER(keycode), 10));
return;
case QK_TOGGLE_LAYER ... QK_TOGGLE_LAYER_MAX: // TG(layer) key.
append_unary_keycode(PSTR("TG"), number_string(QK_TOGGLE_LAYER_GET_LAYER(keycode), 10));
return;
case QK_ONE_SHOT_LAYER ... QK_ONE_SHOT_LAYER_MAX: // OSL(layer) key.
append_unary_keycode(PSTR("OSL"), number_string(QK_ONE_SHOT_LAYER_GET_LAYER(keycode), 10));
return;
case QK_LAYER_TAP_TOGGLE ... QK_LAYER_TAP_TOGGLE_MAX: // TT(layer) key.
append_unary_keycode(PSTR("TT"), number_string(QK_LAYER_TAP_TOGGLE_GET_LAYER(keycode), 10));
return;
case QK_PERSISTENT_DEF_LAYER ... QK_PERSISTENT_DEF_LAYER_MAX: // PDF(layer) key.
append_unary_keycode(PSTR("PDF"), number_string(QK_PERSISTENT_DEF_LAYER_GET_LAYER(keycode), 10));
return;
// Mod-tap MT(mod,kc) key. This implementation formats the MT keys where
// one modifier is applied. For MT keys with multiple modifiers, the mod
// arg is written numerically as a hex code.
case QK_MOD_TAP ... QK_MOD_TAP_MAX: {
uint8_t mods = QK_MOD_TAP_GET_MODS(keycode);
const bool is_rhs = mods > 15;
mods &= 15;
if (mods != 0 && (mods & (mods - 1)) == 0) { // One mod is set.
append_char(is_rhs ? 'R' : 'L');
append_P(&mod_names[4 * biton(mods)]);
append_P(PSTR("_T("));
} else {
append_P(PSTR("MT("));
append_number(mods, 16);
append_char(',');
}
append_keycode(QK_MOD_TAP_GET_TAP_KEYCODE(keycode));
append_char(')');
} return;
case QK_TAP_DANCE ... QK_TAP_DANCE_MAX: // Tap dance TD(i) key.
append_unary_keycode(PSTR("TD"), number_string(QK_TAP_DANCE_GET_INDEX(keycode), 10));
return;
#ifdef UNICODE_ENABLE
case QK_UNICODE ... QK_UNICODE_MAX: // Unicode UC(codepoint) key.
append_unary_keycode(PSTR("UC"), number_string(QK_UNICODE_GET_CODE_POINT(keycode), 16));
return;
#elif defined(UNICODEMAP_ENABLE)
case QK_UNICODEMAP ... QK_UNICODEMAP_MAX: // Unicode Map UM(i) key.
append_unary_keycode(PSTR("UM"), number_string(QK_UNICODEMAP_GET_INDEX(keycode), 10));
return;
case QK_UNICODEMAP_PAIR ... QK_UNICODEMAP_PAIR_MAX: { // UP(i,j) key.
const uint8_t i = QK_UNICODEMAP_PAIR_GET_UNSHIFTED_INDEX(keycode);
const uint8_t j = QK_UNICODEMAP_PAIR_GET_SHIFTED_INDEX(keycode);
append_P(PSTR("UP("));
append_number(i, 10);
append_char(',');
append_number(j, 10);
append_char(')');
} return dest;
#endif
#ifdef MOUSEKEY_ENABLE
case MS_BTN1 ... MS_BTN8: // Mouse button keycode.
append_P(PSTR("MS_BTN"));
append_number(keycode - (MS_BTN1 - 1), 10);
return;
#endif // MOUSEKEY_ENABLE
#ifdef SWAP_HANDS_ENABLE
case QK_SWAP_HANDS ... QK_SWAP_HANDS_MAX: // Swap Hands SH_T(kc) key.
if (!IS_SWAP_HANDS_KEYCODE(keycode)) {
append_P(PSTR("SH_T("));
append_keycode(QK_SWAP_HANDS_GET_TAP_KEYCODE(keycode));
append_char(')');
return;
}
break;
#endif // SWAP_HANDS_ENABLE
case KB_KEYCODE_RANGE: // Keyboard range keycode.
append_P(PSTR("QK_KB_"));
append_number(keycode - QK_KB_0, 10);
return;
case USER_KEYCODE_RANGE: // User range keycode.
append_P(PSTR("QK_USER_"));
append_number(keycode - QK_USER_0, 10);
return;
}
// clang-format on
append_number(keycode, 16); // Fallback: write keycode as hex value.
}
const char* get_keycode_string(uint16_t keycode) {
buffer_len = 0;
buffer[0] = '\0';
append_keycode(keycode);
return buffer;
}
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