551 lines
20 KiB
C
551 lines
20 KiB
C
/* Copyright 2017 Jason Williams (Wilba)
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include "dynamic_keymap.h"
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#include "keymap_introspection.h"
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#include "action.h"
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#include "eeprom.h"
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#include "progmem.h"
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#include "send_string.h"
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#include "keycodes.h"
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#include "action_tapping.h"
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#include "wait.h"
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#include <string.h>
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#ifdef VIA_ENABLE
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# include "via.h"
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# define DYNAMIC_KEYMAP_EEPROM_START (VIA_EEPROM_CONFIG_END)
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#else
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# include "eeconfig.h"
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# define DYNAMIC_KEYMAP_EEPROM_START (EECONFIG_SIZE)
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#endif
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#ifdef VIAL_ENABLE
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#include "vial.h"
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#endif
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#ifdef ENCODER_ENABLE
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# include "encoder.h"
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#else
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# define NUM_ENCODERS 0
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#endif
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#ifndef TOTAL_EEPROM_BYTE_COUNT
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# error Unknown total EEPROM size. Cannot derive maximum for dynamic keymaps.
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#endif
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#ifndef DYNAMIC_KEYMAP_EEPROM_MAX_ADDR
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# define DYNAMIC_KEYMAP_EEPROM_MAX_ADDR (TOTAL_EEPROM_BYTE_COUNT - 1)
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#endif
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#if DYNAMIC_KEYMAP_EEPROM_MAX_ADDR > (TOTAL_EEPROM_BYTE_COUNT - 1)
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# pragma message STR(DYNAMIC_KEYMAP_EEPROM_MAX_ADDR) " > " STR((TOTAL_EEPROM_BYTE_COUNT - 1))
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# error DYNAMIC_KEYMAP_EEPROM_MAX_ADDR is configured to use more space than what is available for the selected EEPROM driver
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#endif
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// Due to usage of uint16_t check for max 65535
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#if DYNAMIC_KEYMAP_EEPROM_MAX_ADDR > 65535
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# pragma message STR(DYNAMIC_KEYMAP_EEPROM_MAX_ADDR) " > 65535"
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# error DYNAMIC_KEYMAP_EEPROM_MAX_ADDR must be less than 65536
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#endif
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// If DYNAMIC_KEYMAP_EEPROM_ADDR not explicitly defined in config.h,
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#ifndef DYNAMIC_KEYMAP_EEPROM_ADDR
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# define DYNAMIC_KEYMAP_EEPROM_ADDR DYNAMIC_KEYMAP_EEPROM_START
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#endif
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// Encoders are located right after the dynamic keymap
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#define VIAL_ENCODERS_EEPROM_ADDR (DYNAMIC_KEYMAP_EEPROM_ADDR + (DYNAMIC_KEYMAP_LAYER_COUNT * MATRIX_ROWS * MATRIX_COLS * 2))
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#define DYNAMIC_KEYMAP_ENCODER_EEPROM_ADDR VIAL_ENCODERS_EEPROM_ADDR
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#define VIAL_ENCODERS_SIZE (NUM_ENCODERS * DYNAMIC_KEYMAP_LAYER_COUNT * 2 * 2)
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// QMK settings area is just past encoders
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#define VIAL_QMK_SETTINGS_EEPROM_ADDR (VIAL_ENCODERS_EEPROM_ADDR + VIAL_ENCODERS_SIZE)
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#ifdef QMK_SETTINGS
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#include "qmk_settings.h"
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#define VIAL_QMK_SETTINGS_SIZE (sizeof(qmk_settings_t))
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#else
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#define VIAL_QMK_SETTINGS_SIZE 0
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#endif
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// Tap-dance
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#define VIAL_TAP_DANCE_EEPROM_ADDR (VIAL_QMK_SETTINGS_EEPROM_ADDR + VIAL_QMK_SETTINGS_SIZE)
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#ifdef VIAL_TAP_DANCE_ENABLE
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#define VIAL_TAP_DANCE_SIZE (sizeof(vial_tap_dance_entry_t) * VIAL_TAP_DANCE_ENTRIES)
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#else
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#define VIAL_TAP_DANCE_SIZE 0
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#endif
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// Combos
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#define VIAL_COMBO_EEPROM_ADDR (VIAL_TAP_DANCE_EEPROM_ADDR + VIAL_TAP_DANCE_SIZE)
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#ifdef VIAL_COMBO_ENABLE
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#define VIAL_COMBO_SIZE (sizeof(vial_combo_entry_t) * VIAL_COMBO_ENTRIES)
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#else
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#define VIAL_COMBO_SIZE 0
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#endif
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// Key overrides
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#define VIAL_KEY_OVERRIDE_EEPROM_ADDR (VIAL_COMBO_EEPROM_ADDR + VIAL_COMBO_SIZE)
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#ifdef VIAL_KEY_OVERRIDE_ENABLE
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#define VIAL_KEY_OVERRIDE_SIZE (sizeof(vial_key_override_entry_t) * VIAL_KEY_OVERRIDE_ENTRIES)
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#else
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#define VIAL_KEY_OVERRIDE_SIZE 0
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#endif
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// Dynamic macro
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#ifndef DYNAMIC_KEYMAP_MACRO_EEPROM_ADDR
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# define DYNAMIC_KEYMAP_MACRO_EEPROM_ADDR (VIAL_KEY_OVERRIDE_EEPROM_ADDR + VIAL_KEY_OVERRIDE_SIZE)
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#endif
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// Sanity check that dynamic keymaps fit in available EEPROM
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// If there's not 100 bytes available for macros, then something is wrong.
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// The keyboard should override DYNAMIC_KEYMAP_LAYER_COUNT to reduce it,
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// or DYNAMIC_KEYMAP_EEPROM_MAX_ADDR to increase it, *only if* the microcontroller has
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// more than the default.
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_Static_assert(DYNAMIC_KEYMAP_EEPROM_MAX_ADDR >= DYNAMIC_KEYMAP_MACRO_EEPROM_ADDR + 100, "Dynamic keymaps are configured to use more EEPROM than is available.");
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// Dynamic macros are stored after the keymaps and use what is available
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// up to and including DYNAMIC_KEYMAP_EEPROM_MAX_ADDR.
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#ifndef DYNAMIC_KEYMAP_MACRO_EEPROM_SIZE
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# define DYNAMIC_KEYMAP_MACRO_EEPROM_SIZE (DYNAMIC_KEYMAP_EEPROM_MAX_ADDR - DYNAMIC_KEYMAP_MACRO_EEPROM_ADDR + 1)
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#endif
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#ifndef DYNAMIC_KEYMAP_MACRO_DELAY
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# define DYNAMIC_KEYMAP_MACRO_DELAY TAP_CODE_DELAY
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#endif
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uint8_t dynamic_keymap_get_layer_count(void) {
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return DYNAMIC_KEYMAP_LAYER_COUNT;
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}
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void *dynamic_keymap_key_to_eeprom_address(uint8_t layer, uint8_t row, uint8_t column) {
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// TODO: optimize this with some left shifts
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return ((void *)DYNAMIC_KEYMAP_EEPROM_ADDR) + (layer * MATRIX_ROWS * MATRIX_COLS * 2) + (row * MATRIX_COLS * 2) + (column * 2);
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}
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uint16_t dynamic_keymap_get_keycode(uint8_t layer, uint8_t row, uint8_t column) {
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if (layer >= DYNAMIC_KEYMAP_LAYER_COUNT || row >= MATRIX_ROWS || column >= MATRIX_COLS) return KC_NO;
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void *address = dynamic_keymap_key_to_eeprom_address(layer, row, column);
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// Big endian, so we can read/write EEPROM directly from host if we want
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uint16_t keycode = eeprom_read_byte(address) << 8;
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keycode |= eeprom_read_byte(address + 1);
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return keycode;
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}
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void dynamic_keymap_set_keycode(uint8_t layer, uint8_t row, uint8_t column, uint16_t keycode) {
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if (layer >= DYNAMIC_KEYMAP_LAYER_COUNT || row >= MATRIX_ROWS || column >= MATRIX_COLS) return;
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void *address = dynamic_keymap_key_to_eeprom_address(layer, row, column);
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// Big endian, so we can read/write EEPROM directly from host if we want
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eeprom_update_byte(address, (uint8_t)(keycode >> 8));
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eeprom_update_byte(address + 1, (uint8_t)(keycode & 0xFF));
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}
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#ifdef ENCODER_MAP_ENABLE
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void *dynamic_keymap_encoder_to_eeprom_address(uint8_t layer, uint8_t encoder_id) {
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return ((void *)DYNAMIC_KEYMAP_ENCODER_EEPROM_ADDR) + (layer * NUM_ENCODERS * 2 * 2) + (encoder_id * 2 * 2);
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}
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uint16_t dynamic_keymap_get_encoder(uint8_t layer, uint8_t encoder_id, bool clockwise) {
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if (layer >= DYNAMIC_KEYMAP_LAYER_COUNT || encoder_id >= NUM_ENCODERS) return KC_NO;
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void *address = dynamic_keymap_encoder_to_eeprom_address(layer, encoder_id);
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// Big endian, so we can read/write EEPROM directly from host if we want
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uint16_t keycode = ((uint16_t)eeprom_read_byte(address + (clockwise ? 0 : 2))) << 8;
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keycode |= eeprom_read_byte(address + (clockwise ? 0 : 2) + 1);
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return keycode;
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}
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void dynamic_keymap_set_encoder(uint8_t layer, uint8_t encoder_id, bool clockwise, uint16_t keycode) {
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if (layer >= DYNAMIC_KEYMAP_LAYER_COUNT || encoder_id >= NUM_ENCODERS) return;
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void *address = dynamic_keymap_encoder_to_eeprom_address(layer, encoder_id);
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// Big endian, so we can read/write EEPROM directly from host if we want
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eeprom_update_byte(address + (clockwise ? 0 : 2), (uint8_t)(keycode >> 8));
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eeprom_update_byte(address + (clockwise ? 0 : 2) + 1, (uint8_t)(keycode & 0xFF));
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}
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#endif // ENCODER_MAP_ENABLE
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#ifdef QMK_SETTINGS
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uint8_t dynamic_keymap_get_qmk_settings(uint16_t offset) {
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if (offset >= VIAL_QMK_SETTINGS_SIZE)
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return 0;
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void *address = (void*)(VIAL_QMK_SETTINGS_EEPROM_ADDR + offset);
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return eeprom_read_byte(address);
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}
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void dynamic_keymap_set_qmk_settings(uint16_t offset, uint8_t value) {
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if (offset >= VIAL_QMK_SETTINGS_SIZE)
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return;
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void *address = (void*)(VIAL_QMK_SETTINGS_EEPROM_ADDR + offset);
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eeprom_update_byte(address, value);
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}
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#endif
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#ifdef VIAL_TAP_DANCE_ENABLE
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int dynamic_keymap_get_tap_dance(uint8_t index, vial_tap_dance_entry_t *entry) {
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if (index >= VIAL_TAP_DANCE_ENTRIES)
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return -1;
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void *address = (void*)(VIAL_TAP_DANCE_EEPROM_ADDR + index * sizeof(vial_tap_dance_entry_t));
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eeprom_read_block(entry, address, sizeof(vial_tap_dance_entry_t));
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return 0;
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}
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int dynamic_keymap_set_tap_dance(uint8_t index, const vial_tap_dance_entry_t *entry) {
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if (index >= VIAL_TAP_DANCE_ENTRIES)
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return -1;
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void *address = (void*)(VIAL_TAP_DANCE_EEPROM_ADDR + index * sizeof(vial_tap_dance_entry_t));
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eeprom_write_block(entry, address, sizeof(vial_tap_dance_entry_t));
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return 0;
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}
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#endif
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#ifdef VIAL_COMBO_ENABLE
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int dynamic_keymap_get_combo(uint8_t index, vial_combo_entry_t *entry) {
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if (index >= VIAL_COMBO_ENTRIES)
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return -1;
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void *address = (void*)(VIAL_COMBO_EEPROM_ADDR + index * sizeof(vial_combo_entry_t));
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eeprom_read_block(entry, address, sizeof(vial_combo_entry_t));
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return 0;
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}
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int dynamic_keymap_set_combo(uint8_t index, const vial_combo_entry_t *entry) {
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if (index >= VIAL_COMBO_ENTRIES)
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return -1;
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void *address = (void*)(VIAL_COMBO_EEPROM_ADDR + index * sizeof(vial_combo_entry_t));
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eeprom_write_block(entry, address, sizeof(vial_combo_entry_t));
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return 0;
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}
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#endif
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#ifdef VIAL_KEY_OVERRIDE_ENABLE
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int dynamic_keymap_get_key_override(uint8_t index, vial_key_override_entry_t *entry) {
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if (index >= VIAL_KEY_OVERRIDE_ENTRIES)
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return -1;
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void *address = (void*)(VIAL_KEY_OVERRIDE_EEPROM_ADDR + index * sizeof(vial_key_override_entry_t));
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eeprom_read_block(entry, address, sizeof(vial_key_override_entry_t));
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return 0;
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}
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int dynamic_keymap_set_key_override(uint8_t index, const vial_key_override_entry_t *entry) {
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if (index >= VIAL_KEY_OVERRIDE_ENTRIES)
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return -1;
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void *address = (void*)(VIAL_KEY_OVERRIDE_EEPROM_ADDR + index * sizeof(vial_key_override_entry_t));
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eeprom_write_block(entry, address, sizeof(vial_key_override_entry_t));
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return 0;
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}
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#endif
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void dynamic_keymap_reset(void) {
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#ifdef VIAL_ENABLE
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/* temporarily unlock the keyboard so we can set hardcoded QK_BOOT keycode */
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int vial_unlocked_prev = vial_unlocked;
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vial_unlocked = 1;
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#endif
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// Reset the keymaps in EEPROM to what is in flash.
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for (int layer = 0; layer < DYNAMIC_KEYMAP_LAYER_COUNT; layer++) {
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for (int row = 0; row < MATRIX_ROWS; row++) {
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for (int column = 0; column < MATRIX_COLS; column++) {
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dynamic_keymap_set_keycode(layer, row, column, keycode_at_keymap_location_raw(layer, row, column));
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}
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}
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#ifdef ENCODER_MAP_ENABLE
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for (int encoder = 0; encoder < NUM_ENCODERS; encoder++) {
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dynamic_keymap_set_encoder(layer, encoder, true, keycode_at_encodermap_location_raw(layer, encoder, true));
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dynamic_keymap_set_encoder(layer, encoder, false, keycode_at_encodermap_location_raw(layer, encoder, false));
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}
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#endif // ENCODER_MAP_ENABLE
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}
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#ifdef QMK_SETTINGS
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qmk_settings_reset();
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#endif
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#ifdef VIAL_TAP_DANCE_ENABLE
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vial_tap_dance_entry_t td = { KC_NO, KC_NO, KC_NO, KC_NO, TAPPING_TERM };
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for (size_t i = 0; i < VIAL_TAP_DANCE_ENTRIES; ++i) {
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dynamic_keymap_set_tap_dance(i, &td);
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}
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#endif
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#ifdef VIAL_COMBO_ENABLE
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vial_combo_entry_t combo = { 0 };
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for (size_t i = 0; i < VIAL_COMBO_ENTRIES; ++i)
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dynamic_keymap_set_combo(i, &combo);
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#endif
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#ifdef VIAL_KEY_OVERRIDE_ENABLE
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vial_key_override_entry_t ko = { 0 };
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ko.layers = ~0;
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ko.options = vial_ko_option_activation_negative_mod_up | vial_ko_option_activation_required_mod_down | vial_ko_option_activation_trigger_down;
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for (size_t i = 0; i < VIAL_KEY_OVERRIDE_ENTRIES; ++i)
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dynamic_keymap_set_key_override(i, &ko);
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#endif
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#ifdef VIAL_ENABLE
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/* re-lock the keyboard */
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vial_unlocked = vial_unlocked_prev;
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#endif
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}
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void dynamic_keymap_get_buffer(uint16_t offset, uint16_t size, uint8_t *data) {
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uint16_t dynamic_keymap_eeprom_size = DYNAMIC_KEYMAP_LAYER_COUNT * MATRIX_ROWS * MATRIX_COLS * 2;
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void * source = (void *)(DYNAMIC_KEYMAP_EEPROM_ADDR + offset);
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uint8_t *target = data;
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for (uint16_t i = 0; i < size; i++) {
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if (offset + i < dynamic_keymap_eeprom_size) {
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*target = eeprom_read_byte(source);
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} else {
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*target = 0x00;
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}
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source++;
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target++;
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}
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}
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void dynamic_keymap_set_buffer(uint16_t offset, uint16_t size, uint8_t *data) {
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uint16_t dynamic_keymap_eeprom_size = DYNAMIC_KEYMAP_LAYER_COUNT * MATRIX_ROWS * MATRIX_COLS * 2;
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void * target = (void *)(DYNAMIC_KEYMAP_EEPROM_ADDR + offset);
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uint8_t *source = data;
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#ifdef VIAL_ENABLE
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/* ensure the writes are bounded */
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if (offset >= dynamic_keymap_eeprom_size || dynamic_keymap_eeprom_size - offset < size)
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return;
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#ifndef VIAL_INSECURE
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/* Check whether it is trying to send a QK_BOOT keycode; only allow setting these if unlocked */
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if (!vial_unlocked) {
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/* how much of the input array we'll have to check in the loop */
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uint16_t chk_offset = 0;
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uint16_t chk_sz = size;
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/* initial byte misaligned -- this means the first keycode will be a combination of existing and new data */
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if (offset % 2 != 0) {
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uint16_t kc = (eeprom_read_byte((uint8_t*)target - 1) << 8) | data[0];
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if (kc == QK_BOOT)
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data[0] = 0xFF;
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/* no longer have to check the first byte */
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chk_offset += 1;
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}
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/* final byte misaligned -- this means the last keycode will be a combination of new and existing data */
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if ((offset + size) % 2 != 0) {
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uint16_t kc = (data[size - 1] << 8) | eeprom_read_byte((uint8_t*)target + size);
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if (kc == QK_BOOT)
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data[size - 1] = 0xFF;
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/* no longer have to check the last byte */
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chk_sz -= 1;
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}
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/* check the entire array, replace any instances of QK_BOOT with invalid keycode 0xFFFF */
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for (uint16_t i = chk_offset; i < chk_sz; i += 2) {
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uint16_t kc = (data[i] << 8) | data[i + 1];
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if (kc == QK_BOOT) {
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data[i] = 0xFF;
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data[i + 1] = 0xFF;
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}
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}
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}
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#endif
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#endif
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for (uint16_t i = 0; i < size; i++) {
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if (offset + i < dynamic_keymap_eeprom_size) {
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eeprom_update_byte(target, *source);
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}
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source++;
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target++;
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}
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}
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uint16_t keycode_at_keymap_location(uint8_t layer_num, uint8_t row, uint8_t column) {
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if (layer_num < DYNAMIC_KEYMAP_LAYER_COUNT && row < MATRIX_ROWS && column < MATRIX_COLS) {
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return dynamic_keymap_get_keycode(layer_num, row, column);
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}
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return KC_NO;
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}
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#ifdef ENCODER_MAP_ENABLE
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uint16_t keycode_at_encodermap_location(uint8_t layer_num, uint8_t encoder_idx, bool clockwise) {
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if (layer_num < DYNAMIC_KEYMAP_LAYER_COUNT && encoder_idx < NUM_ENCODERS) {
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return dynamic_keymap_get_encoder(layer_num, encoder_idx, clockwise);
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}
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return KC_NO;
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}
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#endif // ENCODER_MAP_ENABLE
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uint8_t dynamic_keymap_macro_get_count(void) {
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return DYNAMIC_KEYMAP_MACRO_COUNT;
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}
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|
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uint16_t dynamic_keymap_macro_get_buffer_size(void) {
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return DYNAMIC_KEYMAP_MACRO_EEPROM_SIZE;
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}
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|
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void dynamic_keymap_macro_get_buffer(uint16_t offset, uint16_t size, uint8_t *data) {
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|
void * source = (void *)(DYNAMIC_KEYMAP_MACRO_EEPROM_ADDR + offset);
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uint8_t *target = data;
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|
for (uint16_t i = 0; i < size; i++) {
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if (offset + i < DYNAMIC_KEYMAP_MACRO_EEPROM_SIZE) {
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*target = eeprom_read_byte(source);
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|
} else {
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|
*target = 0x00;
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|
}
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|
source++;
|
|
target++;
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|
}
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|
}
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|
|
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void dynamic_keymap_macro_set_buffer(uint16_t offset, uint16_t size, uint8_t *data) {
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void * target = (void *)(DYNAMIC_KEYMAP_MACRO_EEPROM_ADDR + offset);
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|
uint8_t *source = data;
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|
for (uint16_t i = 0; i < size; i++) {
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|
if (offset + i < DYNAMIC_KEYMAP_MACRO_EEPROM_SIZE) {
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|
eeprom_update_byte(target, *source);
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|
}
|
|
source++;
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|
target++;
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|
}
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|
}
|
|
|
|
void dynamic_keymap_macro_reset(void) {
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|
void *p = (void *)(DYNAMIC_KEYMAP_MACRO_EEPROM_ADDR);
|
|
void *end = (void *)(DYNAMIC_KEYMAP_MACRO_EEPROM_ADDR + DYNAMIC_KEYMAP_MACRO_EEPROM_SIZE);
|
|
while (p != end) {
|
|
eeprom_update_byte(p, 0);
|
|
++p;
|
|
}
|
|
}
|
|
|
|
static uint16_t decode_keycode(uint16_t kc) {
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|
/* map 0xFF01 => 0x0100; 0xFF02 => 0x0200, etc */
|
|
if (kc > 0xFF00)
|
|
return (kc & 0xFF) << 8;
|
|
return kc;
|
|
}
|
|
|
|
void dynamic_keymap_macro_send(uint8_t id) {
|
|
if (id >= DYNAMIC_KEYMAP_MACRO_COUNT) {
|
|
return;
|
|
}
|
|
|
|
// Check the last byte of the buffer.
|
|
// If it's not zero, then we are in the middle
|
|
// of buffer writing, possibly an aborted buffer
|
|
// write. So do nothing.
|
|
void *p = (void *)(DYNAMIC_KEYMAP_MACRO_EEPROM_ADDR + DYNAMIC_KEYMAP_MACRO_EEPROM_SIZE - 1);
|
|
if (eeprom_read_byte(p) != 0) {
|
|
return;
|
|
}
|
|
|
|
// Skip N null characters
|
|
// p will then point to the Nth macro
|
|
p = (void *)(DYNAMIC_KEYMAP_MACRO_EEPROM_ADDR);
|
|
void *end = (void *)(DYNAMIC_KEYMAP_MACRO_EEPROM_ADDR + DYNAMIC_KEYMAP_MACRO_EEPROM_SIZE);
|
|
while (id > 0) {
|
|
// If we are past the end of the buffer, then the buffer
|
|
// contents are garbage, i.e. there were not DYNAMIC_KEYMAP_MACRO_COUNT
|
|
// nulls in the buffer.
|
|
if (p == end) {
|
|
return;
|
|
}
|
|
if (eeprom_read_byte(p) == 0) {
|
|
--id;
|
|
}
|
|
++p;
|
|
}
|
|
|
|
// Send the macro string one or three chars at a time
|
|
// by making temporary 1 or 3 char strings
|
|
char data[4] = {0, 0, 0, 0};
|
|
// We already checked there was a null at the end of
|
|
// the buffer, so this cannot go past the end
|
|
while (1) {
|
|
data[0] = eeprom_read_byte(p++);
|
|
data[1] = 0;
|
|
// Stop at the null terminator of this macro string
|
|
if (data[0] == 0) {
|
|
break;
|
|
}
|
|
if (data[0] == SS_QMK_PREFIX) {
|
|
// If the char is magic, process it as indicated by the next character
|
|
// (tap, down, up, delay)
|
|
data[1] = eeprom_read_byte(p++);
|
|
if (data[1] == 0)
|
|
break;
|
|
if (data[1] == SS_TAP_CODE || data[1] == SS_DOWN_CODE || data[1] == SS_UP_CODE) {
|
|
// For tap, down, up, just stuff it into the array and send_string it
|
|
data[2] = eeprom_read_byte(p++);
|
|
if (data[2] != 0)
|
|
send_string(data);
|
|
} else if (data[1] == VIAL_MACRO_EXT_TAP || data[1] == VIAL_MACRO_EXT_DOWN || data[1] == VIAL_MACRO_EXT_UP) {
|
|
data[2] = eeprom_read_byte(p++);
|
|
if (data[2] != 0) {
|
|
data[3] = eeprom_read_byte(p++);
|
|
if (data[3] != 0) {
|
|
uint16_t kc;
|
|
memcpy(&kc, &data[2], sizeof(kc));
|
|
kc = decode_keycode(kc);
|
|
switch (data[1]) {
|
|
case VIAL_MACRO_EXT_TAP:
|
|
vial_keycode_tap(kc);
|
|
break;
|
|
case VIAL_MACRO_EXT_DOWN:
|
|
vial_keycode_down(kc);
|
|
break;
|
|
case VIAL_MACRO_EXT_UP:
|
|
vial_keycode_up(kc);
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
} else if (data[1] == SS_DELAY_CODE) {
|
|
// For delay, decode the delay and wait_ms for that amount
|
|
uint8_t d0 = eeprom_read_byte(p++);
|
|
uint8_t d1 = eeprom_read_byte(p++);
|
|
if (d0 == 0 || d1 == 0)
|
|
break;
|
|
// we cannot use 0 for these, need to subtract 1 and use 255 instead of 256 for delay calculation
|
|
int ms = (d0 - 1) + (d1 - 1) * 255;
|
|
while (ms--) wait_ms(1);
|
|
}
|
|
} else {
|
|
// If the char wasn't magic, just send it
|
|
send_string_with_delay(data, DYNAMIC_KEYMAP_MACRO_DELAY);
|
|
}
|
|
}
|
|
}
|