qmk_firmware/quantum/led_matrix.c

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/* Copyright 2017 Jason Williams
* Copyright 2017 Jack Humbert
* Copyright 2018 Yiancar
* Copyright 2019 Clueboard
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
2020 November 28 Breaking Changes Update (#11053) * Branch point for 2020 November 28 Breaking Change * Remove matrix_col_t to allow MATRIX_ROWS > 32 (#10183) * Add support for soft serial to ATmega32U2 (#10204) * Change MIDI velocity implementation to allow direct control of velocity value (#9940) * Add ability to build a subset of all keyboards based on platform. * Actually use eeprom_driver_init(). * Make bootloader_jump weak for ChibiOS. (#10417) * Joystick 16-bit support (#10439) * Per-encoder resolutions (#10259) * Share button state from mousekey to pointing_device (#10179) * Add hotfix for chibios keyboards not wake (#10088) * Add advanced/efficient RGB Matrix Indicators (#8564) * Naming change. * Support for STM32 GPIOF,G,H,I,J,K (#10206) * Add milc as a dependency and remove the installed milc (#10563) * ChibiOS upgrade: early init conversions (#10214) * ChibiOS upgrade: configuration file migrator (#9952) * Haptic and solenoid cleanup (#9700) * XD75 cleanup (#10524) * OLED display update interval support (#10388) * Add definition based on currently-selected serial driver. (#10716) * New feature: Retro Tapping per key (#10622) * Allow for modification of output RGB values when using rgblight/rgb_matrix. (#10638) * Add housekeeping task callbacks so that keyboards/keymaps are capable of executing code for each main loop iteration. (#10530) * Rescale both ChibiOS and AVR backlighting. * Reduce Helix keyboard build variation (#8669) * Minor change to behavior allowing display updates to continue between task ticks (#10750) * Some GPIO manipulations in matrix.c change to atomic. (#10491) * qmk cformat (#10767) * [Keyboard] Update the Speedo firmware for v3.0 (#10657) * Maartenwut/Maarten namechange to evyd13/Evy (#10274) * [quantum] combine repeated lines of code (#10837) * Add step sequencer feature (#9703) * aeboards/ext65 refactor (#10820) * Refactor xelus/dawn60 for Rev2 later (#10584) * add DEBUG_MATRIX_SCAN_RATE_ENABLE to common_features.mk (#10824) * [Core] Added `add_oneshot_mods` & `del_oneshot_mods` (#10549) * update chibios os usb for the otg driver (#8893) * Remove HD44780 References, Part 4 (#10735) * [Keyboard] Add Valor FRL TKL (+refactor) (#10512) * Fix cursor position bug in oled_write_raw functions (#10800) * Fixup version.h writing when using SKIP_VERSION=yes (#10972) * Allow for certain code in the codebase assuming length of string. (#10974) * Add AT90USB support for serial.c (#10706) * Auto shift: support repeats and early registration (#9826) * Rename ledmatrix.h to match .c file (#7949) * Split RGB_MATRIX_ENABLE into _ENABLE and _DRIVER (#10231) * Split LED_MATRIX_ENABLE into _ENABLE and _DRIVER (#10840) * Merge point for 2020 Nov 28 Breaking Change
2020-11-28 21:02:18 +01:00
#include "led_matrix.h"
#include "progmem.h"
#include "config.h"
#include "eeprom.h"
#include <string.h>
#include <math.h>
#include "led_tables.h"
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#include <lib/lib8tion/lib8tion.h>
#if defined(LED_DISABLE_AFTER_TIMEOUT) && !defined(LED_DISABLE_TIMEOUT)
# define LED_DISABLE_TIMEOUT (LED_DISABLE_AFTER_TIMEOUT * 1200UL)
#endif
#ifndef LED_DISABLE_TIMEOUT
# define LED_DISABLE_TIMEOUT 0
#endif
#ifndef LED_DISABLE_WHEN_USB_SUSPENDED
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# define LED_DISABLE_WHEN_USB_SUSPENDED false
#endif
#if !defined(LED_MATRIX_MAXIMUM_BRIGHTNESS) || LED_MATRIX_MAXIMUM_BRIGHTNESS > UINT8_MAX
# undef LED_MATRIX_MAXIMUM_BRIGHTNESS
# define LED_MATRIX_MAXIMUM_BRIGHTNESS UINT8_MAX
#endif
#if !defined(LED_MATRIX_VAL_STEP)
# define LED_MATRIX_VAL_STEP 8
#endif
#if !defined(LED_MATRIX_SPD_STEP)
# define LED_MATRIX_SPD_STEP 16
#endif
#if !defined(LED_MATRIX_STARTUP_MODE)
# define LED_MATRIX_STARTUP_MODE LED_MATRIX_UNIFORM_BRIGHTNESS
#endif
#if !defined(LED_MATRIX_STARTUP_VAL)
# define LED_MATRIX_STARTUP_VAL LED_MATRIX_MAXIMUM_BRIGHTNESS
#endif
#if !defined(LED_MATRIX_STARTUP_SPD)
# define LED_MATRIX_STARTUP_SPD UINT8_MAX / 2
#endif
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// globals
bool g_suspend_state = false;
led_eeconfig_t led_matrix_eeconfig; // TODO: would like to prefix this with g_ for global consistancy, do this in another pr
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uint32_t g_led_timer;
#ifdef LED_MATRIX_FRAMEBUFFER_EFFECTS
uint8_t g_led_frame_buffer[MATRIX_ROWS][MATRIX_COLS] = {{0}};
#endif // LED_MATRIX_FRAMEBUFFER_EFFECTS
#ifdef LED_MATRIX_KEYREACTIVE_ENABLED
last_hit_t g_last_hit_tracker;
#endif // LED_MATRIX_KEYREACTIVE_ENABLED
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// internals
static uint8_t led_last_enable = UINT8_MAX;
static uint8_t led_last_effect = UINT8_MAX;
static effect_params_t led_effect_params = {0, LED_FLAG_ALL, false};
static led_task_states led_task_state = SYNCING;
#if LED_DISABLE_TIMEOUT > 0
static uint32_t led_anykey_timer;
#endif // LED_DISABLE_TIMEOUT > 0
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// double buffers
static uint32_t led_timer_buffer;
#ifdef LED_MATRIX_KEYREACTIVE_ENABLED
static last_hit_t last_hit_buffer;
#endif // LED_MATRIX_KEYREACTIVE_ENABLED
void eeconfig_read_led_matrix(void) { eeprom_read_block(&led_matrix_eeconfig, EECONFIG_LED_MATRIX, sizeof(led_matrix_eeconfig)); }
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void eeconfig_update_led_matrix(void) { eeprom_update_block(&led_matrix_eeconfig, EECONFIG_LED_MATRIX, sizeof(led_matrix_eeconfig)); }
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void eeconfig_update_led_matrix_default(void) {
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dprintf("eeconfig_update_led_matrix_default\n");
led_matrix_eeconfig.enable = 1;
led_matrix_eeconfig.mode = LED_MATRIX_STARTUP_MODE;
led_matrix_eeconfig.val = LED_MATRIX_STARTUP_VAL;
led_matrix_eeconfig.speed = LED_MATRIX_STARTUP_SPD;
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led_matrix_eeconfig.flags = LED_FLAG_ALL;
eeconfig_update_led_matrix();
}
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void eeconfig_debug_led_matrix(void) {
dprintf("led_matrix_eeconfig EEPROM\n");
dprintf("led_matrix_eeconfig.enable = %d\n", led_matrix_eeconfig.enable);
dprintf("led_matrix_eeconfig.mode = %d\n", led_matrix_eeconfig.mode);
dprintf("led_matrix_eeconfig.val = %d\n", led_matrix_eeconfig.val);
dprintf("led_matrix_eeconfig.speed = %d\n", led_matrix_eeconfig.speed);
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dprintf("led_matrix_eeconfig.flags = %d\n", led_matrix_eeconfig.flags);
}
__attribute__((weak)) uint8_t led_matrix_map_row_column_to_led_kb(uint8_t row, uint8_t column, uint8_t *led_i) { return 0; }
uint8_t led_matrix_map_row_column_to_led(uint8_t row, uint8_t column, uint8_t *led_i) {
uint8_t led_count = led_matrix_map_row_column_to_led_kb(row, column, led_i);
uint8_t led_index = g_led_config.matrix_co[row][column];
if (led_index != NO_LED) {
led_i[led_count] = led_index;
led_count++;
}
return led_count;
}
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void led_matrix_update_pwm_buffers(void) { led_matrix_driver.flush(); }
void led_matrix_set_value(int index, uint8_t value) {
#ifdef USE_CIE1931_CURVE
led_matrix_driver.set_value(index, pgm_read_byte(&CIE1931_CURVE[value]));
#else
led_matrix_driver.set_value(index, value);
#endif
}
void led_matrix_set_value_all(uint8_t value) {
#ifdef USE_CIE1931_CURVE
led_matrix_driver.set_value_all(pgm_read_byte(&CIE1931_CURVE[value]));
#else
led_matrix_driver.set_value_all(value);
#endif
}
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void process_led_matrix(uint8_t row, uint8_t col, bool pressed) {
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#if LED_DISABLE_TIMEOUT > 0
led_anykey_timer = 0;
#endif // LED_DISABLE_TIMEOUT > 0
#ifdef LED_MATRIX_KEYREACTIVE_ENABLED
uint8_t led[LED_HITS_TO_REMEMBER];
uint8_t led_count = 0;
# if defined(LED_MATRIX_KEYRELEASES)
if (!pressed)
# elif defined(LED_MATRIX_KEYPRESSES)
if (pressed)
# endif // defined(LED_MATRIX_KEYRELEASES)
{
led_count = led_matrix_map_row_column_to_led(row, col, led);
}
if (last_hit_buffer.count + led_count > LED_HITS_TO_REMEMBER) {
memcpy(&last_hit_buffer.x[0], &last_hit_buffer.x[led_count], LED_HITS_TO_REMEMBER - led_count);
memcpy(&last_hit_buffer.y[0], &last_hit_buffer.y[led_count], LED_HITS_TO_REMEMBER - led_count);
memcpy(&last_hit_buffer.tick[0], &last_hit_buffer.tick[led_count], (LED_HITS_TO_REMEMBER - led_count) * 2); // 16 bit
memcpy(&last_hit_buffer.index[0], &last_hit_buffer.index[led_count], LED_HITS_TO_REMEMBER - led_count);
last_hit_buffer.count--;
}
for (uint8_t i = 0; i < led_count; i++) {
uint8_t index = last_hit_buffer.count;
last_hit_buffer.x[index] = g_led_config.point[led[i]].x;
last_hit_buffer.y[index] = g_led_config.point[led[i]].y;
last_hit_buffer.index[index] = led[i];
last_hit_buffer.tick[index] = 0;
last_hit_buffer.count++;
}
#endif // LED_MATRIX_KEYREACTIVE_ENABLED
#if defined(LED_MATRIX_FRAMEBUFFER_EFFECTS) && !defined(DISABLE_LED_MATRIX_TYPING_HEATMAP)
if (led_matrix_eeconfig.mode == LED_MATRIX_TYPING_HEATMAP) {
process_led_matrix_typing_heatmap(row, col);
}
#endif // defined(LED_MATRIX_FRAMEBUFFER_EFFECTS) && !defined(DISABLE_LED_MATRIX_TYPING_HEATMAP)
}
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static bool led_matrix_none(effect_params_t *params) {
if (!params->init) {
return false;
}
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led_matrix_set_value_all(0);
return false;
}
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static bool led_matrix_uniform_brightness(effect_params_t *params) {
LED_MATRIX_USE_LIMITS(led_min, led_max);
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uint8_t val = led_matrix_eeconfig.val;
for (uint8_t i = led_min; i < led_max; i++) {
LED_MATRIX_TEST_LED_FLAGS();
led_matrix_set_value(i, val);
}
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return led_max < DRIVER_LED_TOTAL;
}
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static void led_task_timers(void) {
#if defined(LED_MATRIX_KEYREACTIVE_ENABLED) || LED_DISABLE_TIMEOUT > 0
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uint32_t deltaTime = sync_timer_elapsed32(led_timer_buffer);
#endif // defined(LED_MATRIX_KEYREACTIVE_ENABLED) || LED_DISABLE_TIMEOUT > 0
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led_timer_buffer = sync_timer_read32();
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// Update double buffer timers
#if LED_DISABLE_TIMEOUT > 0
if (led_anykey_timer < UINT32_MAX) {
if (UINT32_MAX - deltaTime < led_anykey_timer) {
led_anykey_timer = UINT32_MAX;
} else {
led_anykey_timer += deltaTime;
}
}
#endif // LED_DISABLE_TIMEOUT > 0
// Update double buffer last hit timers
#ifdef LED_MATRIX_KEYREACTIVE_ENABLED
uint8_t count = last_hit_buffer.count;
for (uint8_t i = 0; i < count; ++i) {
if (UINT16_MAX - deltaTime < last_hit_buffer.tick[i]) {
last_hit_buffer.count--;
continue;
}
last_hit_buffer.tick[i] += deltaTime;
}
#endif // LED_MATRIX_KEYREACTIVE_ENABLED
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}
static void led_task_sync(void) {
// next task
if (sync_timer_elapsed32(g_led_timer) >= LED_MATRIX_LED_FLUSH_LIMIT) led_task_state = STARTING;
}
static void led_task_start(void) {
// reset iter
led_effect_params.iter = 0;
// update double buffers
g_led_timer = led_timer_buffer;
#ifdef LED_MATRIX_KEYREACTIVE_ENABLED
g_last_hit_tracker = last_hit_buffer;
#endif // LED_MATRIX_KEYREACTIVE_ENABLED
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// next task
led_task_state = RENDERING;
}
static void led_task_render(uint8_t effect) {
bool rendering = false;
led_effect_params.init = (effect != led_last_effect) || (led_matrix_eeconfig.enable != led_last_enable);
if (led_effect_params.flags != led_matrix_eeconfig.flags) {
led_effect_params.flags = led_matrix_eeconfig.flags;
led_matrix_set_value_all(0);
}
// each effect can opt to do calculations
// and/or request PWM buffer updates.
switch (effect) {
case LED_MATRIX_NONE:
rendering = led_matrix_none(&led_effect_params);
break;
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case LED_MATRIX_UNIFORM_BRIGHTNESS:
rendering = led_matrix_uniform_brightness(&led_effect_params);
break;
}
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led_effect_params.iter++;
// next task
if (!rendering) {
led_task_state = FLUSHING;
if (!led_effect_params.init && effect == LED_MATRIX_NONE) {
// We only need to flush once if we are LED_MATRIX_NONE
led_task_state = SYNCING;
}
}
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}
static void led_task_flush(uint8_t effect) {
// update last trackers after the first full render so we can init over several frames
led_last_effect = effect;
led_last_enable = led_matrix_eeconfig.enable;
// update pwm buffers
led_matrix_update_pwm_buffers();
// next task
led_task_state = SYNCING;
}
void led_matrix_task(void) {
led_task_timers();
// Ideally we would also stop sending zeros to the LED driver PWM buffers
// while suspended and just do a software shutdown. This is a cheap hack for now.
bool suspend_backlight =
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#if LED_DISABLE_WHEN_USB_SUSPENDED == true
g_suspend_state ||
#endif // LED_DISABLE_WHEN_USB_SUSPENDED == true
#if LED_DISABLE_TIMEOUT > 0
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(led_anykey_timer > (uint32_t)LED_DISABLE_TIMEOUT) ||
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#endif // LED_DISABLE_TIMEOUT > 0
false;
uint8_t effect = suspend_backlight || !led_matrix_eeconfig.enable ? 0 : led_matrix_eeconfig.mode;
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switch (led_task_state) {
case STARTING:
led_task_start();
break;
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case RENDERING:
led_task_render(effect);
if (effect) {
led_matrix_indicators();
led_matrix_indicators_advanced(&led_effect_params);
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}
break;
case FLUSHING:
led_task_flush(effect);
break;
case SYNCING:
led_task_sync();
break;
}
}
void led_matrix_indicators(void) {
led_matrix_indicators_kb();
led_matrix_indicators_user();
}
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__attribute__((weak)) void led_matrix_indicators_kb(void) {}
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__attribute__((weak)) void led_matrix_indicators_user(void) {}
void led_matrix_indicators_advanced(effect_params_t *params) {
/* special handling is needed for "params->iter", since it's already been incremented.
* Could move the invocations to led_task_render, but then it's missing a few checks
* and not sure which would be better. Otherwise, this should be called from
* led_task_render, right before the iter++ line.
*/
#if defined(LED_MATRIX_LED_PROCESS_LIMIT) && LED_MATRIX_LED_PROCESS_LIMIT > 0 && LED_MATRIX_LED_PROCESS_LIMIT < DRIVER_LED_TOTAL
uint8_t min = LED_MATRIX_LED_PROCESS_LIMIT * (params->iter - 1);
uint8_t max = min + LED_MATRIX_LED_PROCESS_LIMIT;
if (max > DRIVER_LED_TOTAL) max = DRIVER_LED_TOTAL;
#else
uint8_t min = 0;
uint8_t max = DRIVER_LED_TOTAL;
#endif
led_matrix_indicators_advanced_kb(min, max);
led_matrix_indicators_advanced_user(min, max);
}
__attribute__((weak)) void led_matrix_indicators_advanced_kb(uint8_t led_min, uint8_t led_max) {}
__attribute__((weak)) void led_matrix_indicators_advanced_user(uint8_t led_min, uint8_t led_max) {}
void led_matrix_init(void) {
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led_matrix_driver.init();
#ifdef LED_MATRIX_KEYREACTIVE_ENABLED
g_last_hit_tracker.count = 0;
for (uint8_t i = 0; i < LED_HITS_TO_REMEMBER; ++i) {
g_last_hit_tracker.tick[i] = UINT16_MAX;
}
last_hit_buffer.count = 0;
for (uint8_t i = 0; i < LED_HITS_TO_REMEMBER; ++i) {
last_hit_buffer.tick[i] = UINT16_MAX;
}
#endif // LED_MATRIX_KEYREACTIVE_ENABLED
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if (!eeconfig_is_enabled()) {
dprintf("led_matrix_init_drivers eeconfig is not enabled.\n");
eeconfig_init();
eeconfig_update_led_matrix_default();
}
eeconfig_read_led_matrix();
if (!led_matrix_eeconfig.mode) {
dprintf("led_matrix_init_drivers led_matrix_eeconfig.mode = 0. Write default values to EEPROM.\n");
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eeconfig_update_led_matrix_default();
}
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eeconfig_debug_led_matrix(); // display current eeprom values
}
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void led_matrix_set_suspend_state(bool state) {
if (LED_DISABLE_WHEN_USB_SUSPENDED && state) {
led_matrix_set_value_all(0); // turn off all LEDs when suspending
}
g_suspend_state = state;
}
bool led_matrix_get_suspend_state(void) { return g_suspend_state; }
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void led_matrix_toggle_eeprom_helper(bool write_to_eeprom) {
led_matrix_eeconfig.enable ^= 1;
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led_task_state = STARTING;
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if (write_to_eeprom) {
eeconfig_update_led_matrix();
}
dprintf("led matrix toggle [%s]: led_matrix_eeconfig.enable = %u\n", (write_to_eeprom) ? "EEPROM" : "NOEEPROM", led_matrix_eeconfig.enable);
}
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void led_matrix_toggle_noeeprom(void) { led_matrix_toggle_eeprom_helper(false); }
void led_matrix_toggle(void) { led_matrix_toggle_eeprom_helper(true); }
void led_matrix_enable(void) {
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led_matrix_enable_noeeprom();
eeconfig_update_led_matrix();
}
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void led_matrix_enable_noeeprom(void) {
if (!led_matrix_eeconfig.enable) led_task_state = STARTING;
led_matrix_eeconfig.enable = 1;
}
void led_matrix_disable(void) {
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led_matrix_disable_noeeprom();
eeconfig_update_led_matrix();
}
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void led_matrix_disable_noeeprom(void) {
if (led_matrix_eeconfig.enable) led_task_state = STARTING;
led_matrix_eeconfig.enable = 0;
}
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uint8_t led_matrix_is_enabled(void) { return led_matrix_eeconfig.enable; }
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void led_matrix_mode_eeprom_helper(uint8_t mode, bool write_to_eeprom) {
if (!led_matrix_eeconfig.enable) {
return;
}
if (mode < 1) {
led_matrix_eeconfig.mode = 1;
} else if (mode >= LED_MATRIX_EFFECT_MAX) {
led_matrix_eeconfig.mode = LED_MATRIX_EFFECT_MAX - 1;
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} else {
led_matrix_eeconfig.mode = mode;
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}
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led_task_state = STARTING;
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if (write_to_eeprom) {
eeconfig_update_led_matrix();
}
dprintf("led matrix mode [%s]: %u\n", (write_to_eeprom) ? "EEPROM" : "NOEEPROM", led_matrix_eeconfig.mode);
}
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void led_matrix_mode_noeeprom(uint8_t mode) { led_matrix_mode_eeprom_helper(mode, false); }
void led_matrix_mode(uint8_t mode) { led_matrix_mode_eeprom_helper(mode, true); }
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uint8_t led_matrix_get_mode(void) { return led_matrix_eeconfig.mode; }
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void led_matrix_step_helper(bool write_to_eeprom) {
uint8_t mode = led_matrix_eeconfig.mode + 1;
led_matrix_mode_eeprom_helper((mode < LED_MATRIX_EFFECT_MAX) ? mode : 1, write_to_eeprom);
}
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void led_matrix_step_noeeprom(void) { led_matrix_step_helper(false); }
void led_matrix_step(void) { led_matrix_step_helper(true); }
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void led_matrix_step_reverse_helper(bool write_to_eeprom) {
uint8_t mode = led_matrix_eeconfig.mode - 1;
led_matrix_mode_eeprom_helper((mode < 1) ? LED_MATRIX_EFFECT_MAX - 1 : mode, write_to_eeprom);
}
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void led_matrix_step_reverse_noeeprom(void) { led_matrix_step_reverse_helper(false); }
void led_matrix_step_reverse(void) { led_matrix_step_reverse_helper(true); }
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void led_matrix_set_val_eeprom_helper(uint8_t val, bool write_to_eeprom) {
if (!led_matrix_eeconfig.enable) {
return;
}
led_matrix_eeconfig.val = (val > LED_MATRIX_MAXIMUM_BRIGHTNESS) ? LED_MATRIX_MAXIMUM_BRIGHTNESS : val;
if (write_to_eeprom) {
eeconfig_update_led_matrix();
}
dprintf("led matrix set val [%s]: %u\n", (write_to_eeprom) ? "EEPROM" : "NOEEPROM", led_matrix_eeconfig.val);
}
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void led_matrix_set_val_noeeprom(uint8_t val) { led_matrix_set_val_eeprom_helper(val, false); }
void led_matrix_set_val(uint8_t val) { led_matrix_set_val_eeprom_helper(val, true); }
uint8_t led_matrix_get_val(void) { return led_matrix_eeconfig.val; }
void led_matrix_increase_val_helper(bool write_to_eeprom) { led_matrix_set_val_eeprom_helper(qadd8(led_matrix_eeconfig.val, LED_MATRIX_VAL_STEP), write_to_eeprom); }
void led_matrix_increase_val_noeeprom(void) { led_matrix_increase_val_helper(false); }
void led_matrix_increase_val(void) { led_matrix_increase_val_helper(true); }
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void led_matrix_decrease_val_helper(bool write_to_eeprom) { led_matrix_set_val_eeprom_helper(qsub8(led_matrix_eeconfig.val, LED_MATRIX_VAL_STEP), write_to_eeprom); }
void led_matrix_decrease_val_noeeprom(void) { led_matrix_decrease_val_helper(false); }
void led_matrix_decrease_val(void) { led_matrix_decrease_val_helper(true); }
void led_matrix_set_speed_eeprom_helper(uint8_t speed, bool write_to_eeprom) {
led_matrix_eeconfig.speed = speed;
if (write_to_eeprom) {
eeconfig_update_led_matrix();
}
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dprintf("led matrix set speed [%s]: %u\n", (write_to_eeprom) ? "EEPROM" : "NOEEPROM", led_matrix_eeconfig.speed);
}
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void led_matrix_set_speed_noeeprom(uint8_t speed) { led_matrix_set_speed_eeprom_helper(speed, false); }
void led_matrix_set_speed(uint8_t speed) { led_matrix_set_speed_eeprom_helper(speed, true); }
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uint8_t led_matrix_get_speed(void) { return led_matrix_eeconfig.speed; }
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void led_matrix_increase_speed_helper(bool write_to_eeprom) { led_matrix_set_speed_eeprom_helper(qadd8(led_matrix_eeconfig.speed, LED_MATRIX_SPD_STEP), write_to_eeprom); }
void led_matrix_increase_speed_noeeprom(void) { led_matrix_increase_speed_helper(false); }
void led_matrix_increase_speed(void) { led_matrix_increase_speed_helper(true); }
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void led_matrix_decrease_speed_helper(bool write_to_eeprom) { led_matrix_set_speed_eeprom_helper(qsub8(led_matrix_eeconfig.speed, LED_MATRIX_SPD_STEP), write_to_eeprom); }
void led_matrix_decrease_speed_noeeprom(void) { led_matrix_decrease_speed_helper(false); }
void led_matrix_decrease_speed(void) { led_matrix_decrease_speed_helper(true); }
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led_flags_t led_matrix_get_flags(void) { return led_matrix_eeconfig.flags; }
void led_matrix_set_flags(led_flags_t flags) { led_matrix_eeconfig.flags = flags; }