forked from xiaozhi/xiaozhi-esp32
添加普通LED支持,支持不同状态亮度设置和呼吸灯效果 (#283)
This commit is contained in:
HonestQiao
@@ -6,6 +6,7 @@ set(SOURCES "audio_codecs/audio_codec.cc"
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"audio_codecs/cores3_audio_codec.cc"
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"led/single_led.cc"
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"led/circular_strip.cc"
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"led/gpio_led.cc"
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"display/display.cc"
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"display/no_display.cc"
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"display/lcd_display.cc"
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@@ -38,7 +39,7 @@ if(CONFIG_BOARD_TYPE_BREAD_COMPACT_WIFI)
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elseif(CONFIG_BOARD_TYPE_BREAD_COMPACT_ML307)
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set(BOARD_TYPE "bread-compact-ml307")
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elseif(CONFIG_BOARD_TYPE_BREAD_COMPACT_ESP32)
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set(BOARD_TYPE "bread-compact-esp32")
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set(BOARD_TYPE "bread-compact-esp32")
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elseif(CONFIG_BOARD_TYPE_ESP_BOX_3)
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set(BOARD_TYPE "esp-box-3")
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elseif(CONFIG_BOARD_TYPE_ESP_BOX)
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@@ -48,7 +49,7 @@ elseif(CONFIG_BOARD_TYPE_KEVIN_BOX_1)
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elseif(CONFIG_BOARD_TYPE_KEVIN_BOX_2)
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set(BOARD_TYPE "kevin-box-2")
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elseif(CONFIG_BOARD_TYPE_KEVIN_C3)
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set(BOARD_TYPE "kevin-c3")
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set(BOARD_TYPE "kevin-c3")
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elseif(CONFIG_BOARD_TYPE_KEVIN_SP_V3_DEV)
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set(BOARD_TYPE "kevin-sp-v3-dev")
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elseif(CONFIG_BOARD_TYPE_KEVIN_YUYING_313LCD)
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@@ -72,13 +73,13 @@ elseif(CONFIG_BOARD_TYPE_ATOMS3_ECHO_BASE)
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elseif(CONFIG_BOARD_TYPE_ATOMS3R_ECHO_BASE)
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set(BOARD_TYPE "atoms3r-echo-base")
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elseif(CONFIG_BOARD_TYPE_ATOMMATRIX_ECHO_BASE)
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set(BOARD_TYPE "atommatrix-echo-base")
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set(BOARD_TYPE "atommatrix-echo-base")
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elseif(CONFIG_BOARD_TYPE_XMINI_C3)
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set(BOARD_TYPE "xmini-c3")
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elseif(CONFIG_BOARD_TYPE_ESP32S3_KORVO2_V3)
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set(BOARD_TYPE "esp32s3-korvo2-v3")
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elseif(CONFIG_BOARD_TYPE_ESP_SPARKBOT)
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set(BOARD_TYPE "esp-sparkbot")
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set(BOARD_TYPE "esp-sparkbot")
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elseif(CONFIG_BOARD_TYPE_ESP32S3_Touch_AMOLED_1_8)
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set(BOARD_TYPE "esp32-s3-touch-amoled-1.8")
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elseif(CONFIG_BOARD_TYPE_ESP32S3_Touch_LCD_1_85C)
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@@ -88,21 +89,21 @@ elseif(CONFIG_BOARD_TYPE_ESP32S3_Touch_LCD_1_85)
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elseif(CONFIG_BOARD_TYPE_ESP32S3_Touch_LCD_1_46)
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set(BOARD_TYPE "esp32-s3-touch-lcd-1.46")
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elseif(CONFIG_BOARD_TYPE_BREAD_COMPACT_WIFI_LCD)
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set(BOARD_TYPE "bread-compact-wifi-lcd")
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set(BOARD_TYPE "bread-compact-wifi-lcd")
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elseif(CONFIG_BOARD_TYPE_TUDOUZI)
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set(BOARD_TYPE "tudouzi")
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set(BOARD_TYPE "tudouzi")
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elseif(CONFIG_BOARD_TYPE_LILYGO_T_CIRCLE_S3)
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set(BOARD_TYPE "lilygo-t-circle-s3")
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set(BOARD_TYPE "lilygo-t-circle-s3")
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elseif(CONFIG_BOARD_TYPE_LILYGO_T_CAMERAPLUS_S3)
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set(BOARD_TYPE "lilygo-t-cameraplus-s3")
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set(BOARD_TYPE "lilygo-t-cameraplus-s3")
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elseif(CONFIG_BOARD_TYPE_MOVECALL_MOJI_ESP32S3)
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set(BOARD_TYPE "movecall-moji-esp32s3")
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set(BOARD_TYPE "movecall-moji-esp32s3")
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elseif(CONFIG_BOARD_TYPE_ATK_DNESP32S3)
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set(BOARD_TYPE "atk-dnesp32s3")
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elseif(CONFIG_BOARD_TYPE_ATK_DNESP32S3_BOX)
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set(BOARD_TYPE "atk-dnesp32s3-box")
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set(BOARD_TYPE "atk-dnesp32s3-box")
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elseif(CONFIG_BOARD_TYPE_DU_CHATX)
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set(BOARD_TYPE "du-chatx")
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set(BOARD_TYPE "du-chatx")
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elseif(CONFIG_BOARD_TYPE_ESP32S3_Taiji_Pi)
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set(BOARD_TYPE "taiji-pi-s3")
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elseif(CONFIG_BOARD_TYPE_XINGZHI_Cube_0_96OLED_WIFI)
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@@ -116,7 +117,7 @@ elseif(CONFIG_BOARD_TYPE_XINGZHI_Cube_1_54TFT_ML307)
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elseif(CONFIG_BOARD_TYPE_SENSECAP_WATCHER)
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set(BOARD_TYPE "sensecap-watcher")
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endif()
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file(GLOB BOARD_SOURCES
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file(GLOB BOARD_SOURCES
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${CMAKE_CURRENT_SOURCE_DIR}/boards/${BOARD_TYPE}/*.cc
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${CMAKE_CURRENT_SOURCE_DIR}/boards/${BOARD_TYPE}/*.c
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)
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@@ -173,7 +174,7 @@ add_custom_command(
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COMMAND python ${PROJECT_DIR}/scripts/gen_lang.py
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--input "${LANG_JSON}"
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--output "${LANG_HEADER}"
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DEPENDS
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DEPENDS
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${LANG_JSON}
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${PROJECT_DIR}/scripts/gen_lang.py
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COMMENT "Generating ${LANG_DIR} language config"
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235
main/led/gpio_led.cc
Normal file
235
main/led/gpio_led.cc
Normal file
@@ -0,0 +1,235 @@
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#include "gpio_led.h"
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#include "application.h"
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#include <esp_log.h>
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#define TAG "GpioLed"
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#define DEFAULT_BRIGHTNESS 50
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#define HIGH_BRIGHTNESS 100
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#define LOW_BRIGHTNESS 10
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#define IDLE_BRIGHTNESS 5
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#define SPEAKING_BRIGHTNESS 75
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#define UPGRADING_BRIGHTNESS 25
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#define ACTIVATING_BRIGHTNESS 35
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#define BLINK_INFINITE -1
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// GPIO_LED
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#define LEDC_LS_TIMER LEDC_TIMER_1
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#define LEDC_LS_MODE LEDC_LOW_SPEED_MODE
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#define LEDC_LS_CH0_CHANNEL LEDC_CHANNEL_0
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#define LEDC_DUTY (4096)
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#define LEDC_FADE_TIME (1000)
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// GPIO_LED
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GpioLed::GpioLed(gpio_num_t gpio, int output_invert) {
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// If the gpio is not connected, you should use NoLed class
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assert(gpio != GPIO_NUM_NC);
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/*
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* Prepare and set configuration of timers
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* that will be used by LED Controller
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*/
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ledc_timer_config_t ledc_timer = {};
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ledc_timer.duty_resolution = LEDC_TIMER_13_BIT; // resolution of PWM duty
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ledc_timer.freq_hz = 4000; // frequency of PWM signal
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ledc_timer.speed_mode = LEDC_LS_MODE; // timer mode
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ledc_timer.timer_num = LEDC_LS_TIMER; // timer index
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ledc_timer.clk_cfg = LEDC_AUTO_CLK; // Auto select the source clock
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ESP_ERROR_CHECK(ledc_timer_config(&ledc_timer));
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ledc_channel_.channel = LEDC_LS_CH0_CHANNEL,
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ledc_channel_.duty = 0,
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ledc_channel_.gpio_num = gpio,
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ledc_channel_.speed_mode = LEDC_LS_MODE,
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ledc_channel_.hpoint = 0,
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ledc_channel_.timer_sel = LEDC_LS_TIMER,
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ledc_channel_.flags.output_invert = output_invert & 0x01,
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// Set LED Controller with previously prepared configuration
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ledc_channel_config(&ledc_channel_);
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// Initialize fade service.
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ledc_fade_func_install(0);
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// When the callback registered by ledc_cb_degister is called, run led ->OnFadeEnd()
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ledc_cbs_t ledc_callbacks = {
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.fade_cb = FadeCallback
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};
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ledc_cb_register(ledc_channel_.speed_mode, ledc_channel_.channel, &ledc_callbacks, this);
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esp_timer_create_args_t blink_timer_args = {
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.callback = [](void *arg) {
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auto led = static_cast<GpioLed*>(arg);
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led->OnBlinkTimer();
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},
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.arg = this,
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.dispatch_method = ESP_TIMER_TASK,
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.name = "Blink Timer",
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.skip_unhandled_events = false,
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};
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ESP_ERROR_CHECK(esp_timer_create(&blink_timer_args, &blink_timer_));
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ledc_initialized_ = true;
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}
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GpioLed::~GpioLed() {
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esp_timer_stop(blink_timer_);
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if (ledc_initialized_) {
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ledc_fade_stop(ledc_channel_.speed_mode, ledc_channel_.channel);
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ledc_fade_func_uninstall();
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}
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}
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void GpioLed::SetBrightness(uint8_t brightness) {
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duty_ = brightness * LEDC_DUTY / 100;
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}
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void GpioLed::TurnOn() {
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if (!ledc_initialized_) {
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return;
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}
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std::lock_guard<std::mutex> lock(mutex_);
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esp_timer_stop(blink_timer_);
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ledc_fade_stop(ledc_channel_.speed_mode, ledc_channel_.channel);
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ledc_set_duty(ledc_channel_.speed_mode, ledc_channel_.channel, duty_);
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ledc_update_duty(ledc_channel_.speed_mode, ledc_channel_.channel);
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}
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void GpioLed::TurnOff() {
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if (!ledc_initialized_) {
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return;
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}
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std::lock_guard<std::mutex> lock(mutex_);
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esp_timer_stop(blink_timer_);
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ledc_fade_stop(ledc_channel_.speed_mode, ledc_channel_.channel);
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ledc_set_duty(ledc_channel_.speed_mode, ledc_channel_.channel, 0);
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ledc_update_duty(ledc_channel_.speed_mode, ledc_channel_.channel);
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}
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void GpioLed::BlinkOnce() {
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Blink(1, 100);
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}
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void GpioLed::Blink(int times, int interval_ms) {
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StartBlinkTask(times, interval_ms);
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}
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void GpioLed::StartContinuousBlink(int interval_ms) {
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StartBlinkTask(BLINK_INFINITE, interval_ms);
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}
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void GpioLed::StartBlinkTask(int times, int interval_ms) {
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if (!ledc_initialized_) {
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return;
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}
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std::lock_guard<std::mutex> lock(mutex_);
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esp_timer_stop(blink_timer_);
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ledc_fade_stop(ledc_channel_.speed_mode, ledc_channel_.channel);
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blink_counter_ = times * 2;
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blink_interval_ms_ = interval_ms;
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esp_timer_start_periodic(blink_timer_, interval_ms * 1000);
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}
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void GpioLed::OnBlinkTimer() {
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std::lock_guard<std::mutex> lock(mutex_);
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blink_counter_--;
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if (blink_counter_ & 1) {
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ledc_set_duty(ledc_channel_.speed_mode, ledc_channel_.channel, duty_);
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} else {
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ledc_set_duty(ledc_channel_.speed_mode, ledc_channel_.channel, 0);
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if (blink_counter_ == 0) {
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esp_timer_stop(blink_timer_);
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}
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}
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ledc_update_duty(ledc_channel_.speed_mode, ledc_channel_.channel);
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}
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void GpioLed::StartFadeTask() {
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if (!ledc_initialized_) {
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return;
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}
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std::lock_guard<std::mutex> lock(mutex_);
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esp_timer_stop(blink_timer_);
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ledc_fade_stop(ledc_channel_.speed_mode, ledc_channel_.channel);
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fade_up_ = true;
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ledc_set_fade_with_time(ledc_channel_.speed_mode,
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ledc_channel_.channel, LEDC_DUTY, LEDC_FADE_TIME);
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ledc_fade_start(ledc_channel_.speed_mode,
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ledc_channel_.channel, LEDC_FADE_NO_WAIT);
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}
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void GpioLed::OnFadeEnd() {
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std::lock_guard<std::mutex> lock(mutex_);
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fade_up_ = !fade_up_;
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ledc_set_fade_with_time(ledc_channel_.speed_mode,
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ledc_channel_.channel, fade_up_ ? LEDC_DUTY : 0, LEDC_FADE_TIME);
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ledc_fade_start(ledc_channel_.speed_mode,
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ledc_channel_.channel, LEDC_FADE_NO_WAIT);
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}
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bool GpioLed::FadeCallback(const ledc_cb_param_t *param, void *user_arg) {
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if (param->event == LEDC_FADE_END_EVT) {
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auto led = static_cast<GpioLed*>(user_arg);
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led->OnFadeEnd();
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}
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return true;
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}
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void GpioLed::OnStateChanged() {
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auto& app = Application::GetInstance();
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auto device_state = app.GetDeviceState();
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switch (device_state) {
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case kDeviceStateStarting:
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SetBrightness(DEFAULT_BRIGHTNESS);
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StartContinuousBlink(100);
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break;
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case kDeviceStateWifiConfiguring:
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SetBrightness(DEFAULT_BRIGHTNESS);
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StartContinuousBlink(500);
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break;
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case kDeviceStateIdle:
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SetBrightness(IDLE_BRIGHTNESS);
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TurnOn();
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// TurnOff();
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break;
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case kDeviceStateConnecting:
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SetBrightness(DEFAULT_BRIGHTNESS);
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TurnOn();
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break;
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case kDeviceStateListening:
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if (app.IsVoiceDetected()) {
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SetBrightness(HIGH_BRIGHTNESS);
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} else {
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SetBrightness(LOW_BRIGHTNESS);
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}
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// TurnOn();
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StartFadeTask();
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break;
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case kDeviceStateSpeaking:
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SetBrightness(SPEAKING_BRIGHTNESS);
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TurnOn();
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break;
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case kDeviceStateUpgrading:
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SetBrightness(UPGRADING_BRIGHTNESS);
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StartContinuousBlink(100);
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break;
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case kDeviceStateActivating:
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SetBrightness(ACTIVATING_BRIGHTNESS);
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StartContinuousBlink(500);
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break;
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default:
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ESP_LOGE(TAG, "Unknown gpio led event: %d", device_state);
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return;
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}
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}
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45
main/led/gpio_led.h
Normal file
45
main/led/gpio_led.h
Normal file
@@ -0,0 +1,45 @@
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#ifndef _GPIO_LED_H_
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#define _GPIO_LED_H_
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#include <freertos/FreeRTOS.h>
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#include <freertos/task.h>
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#include "led.h"
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#include <driver/gpio.h>
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#include <driver/ledc.h>
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#include <esp_timer.h>
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#include <atomic>
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#include <mutex>
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class GpioLed : public Led {
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public:
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GpioLed(gpio_num_t gpio, int output_invert=0);
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virtual ~GpioLed();
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void OnStateChanged() override;
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private:
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std::mutex mutex_;
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TaskHandle_t blink_task_ = nullptr;
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ledc_channel_config_t ledc_channel_ = {0};
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bool ledc_initialized_ = false;
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uint32_t duty_ = 0;
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int blink_counter_ = 0;
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int blink_interval_ms_ = 0;
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esp_timer_handle_t blink_timer_ = nullptr;
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bool fade_up_ = true;
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void StartBlinkTask(int times, int interval_ms);
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void OnBlinkTimer();
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void BlinkOnce();
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void Blink(int times, int interval_ms);
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void StartContinuousBlink(int interval_ms);
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void TurnOn();
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void TurnOff();
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void SetBrightness(uint8_t brightness);
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void StartFadeTask();
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void OnFadeEnd();
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static bool FadeCallback(const ledc_cb_param_t *param, void *user_arg);
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};
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#endif // _GPIO_LED_H_
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