wip:

style: removed esp8266 support
2025-12-25 11:14:04 +03:00 · 2025-12-24 19:54:21 +03:00 · 2025-12-24 19:02:48 +03:00 · 2025-12-24 15:32:42 +03:00 · 2025-12-24 15:17:50 +03:00 · 2025-12-24 14:46:06 +03:00
6 changed files with 342 additions and 151 deletions
--- a/CMakeLists.txt
+++ b/CMakeLists.txt
@@ -1,6 +1 @@
-if(${IDF_TARGET} STREQUAL esp8266)
+idf_component_register(SRCS "zh_encoder.c" INCLUDE_DIRS "include" REQUIRES esp_event driver esp_timer)
    set(requires driver)
 else()
    set(requires driver esp_event)
 endif()
 idf_component_register(SRCS "zh_encoder.c" INCLUDE_DIRS "include" REQUIRES ${requires})
--- a/README.md
+++ b/README.md
@@ -1,17 +1,16 @@
-# ESP32 ESP-IDF and ESP8266 RTOS SDK component for rotary encoder
+# ESP32 ESP-IDF component for rotary encoder
 ## Tested on
-1. [ESP8266 RTOS_SDK v3.4](https://docs.espressif.com/projects/esp8266-rtos-sdk/en/latest/index.html#)
+1. [ESP32 ESP-IDF v5.5.1](https://docs.espressif.com/projects/esp-idf/en/v5.5.1/esp32/index.html)
 2. [ESP32 ESP-IDF v5.4](https://docs.espressif.com/projects/esp-idf/en/release-v5.4/esp32/index.html)
 ## Features
 1. Support some encoders on one device.
-## Note
+## Attention
-1. Encoder pins must be pull up to the VCC via 0.1 µf capacitors.
+1. If the button is not used, specify any free GPIO in the initial configuration.
 ## Using
@@ -19,7 +18,7 @@ In an existing project, run the following command to install the components:
 ```text
 cd ../your_project/components
-git clone http://git.zh.com.ru/alexey.zholtikov/zh_encoder
+git clone http://git.zh.com.ru/esp_components/zh_encoder
 ```
 In the application, add the component:
@@ -35,37 +34,61 @@ One encoder on device:
 ```c
 #include "zh_encoder.h"
 #define ENCODER_NUMBER 0x01
 zh_encoder_handle_t encoder_handle = {0};
 double encoder_position = 0;
 void zh_encoder_event_handler(void *arg, esp_event_base_t event_base, int32_t event_id, void *event_data);
 void app_main(void)
 {
-    esp_log_level_set("zh_encoder", ESP_LOG_NONE); // For ESP8266 first enable "Component config -> Log output -> Enable log set level" via menuconfig.
+    esp_log_level_set("zh_encoder", ESP_LOG_ERROR);
    esp_event_loop_create_default();
 #ifdef CONFIG_IDF_TARGET_ESP8266
    esp_event_handler_register(ZH_ENCODER, ESP_EVENT_ANY_ID, &zh_encoder_event_handler, NULL);
 #else
    esp_event_handler_instance_register(ZH_ENCODER, ESP_EVENT_ANY_ID, &zh_encoder_event_handler, NULL, NULL);
 #endif
    zh_encoder_init_config_t encoder_init_config = ZH_ENCODER_INIT_CONFIG_DEFAULT();
    encoder_init_config.task_priority = 5;
    encoder_init_config.stack_size = configMINIMAL_STACK_SIZE;
    encoder_init_config.queue_size = 5;
    encoder_init_config.a_gpio_number = GPIO_NUM_27;
    encoder_init_config.b_gpio_number = GPIO_NUM_26;
-    // encoder_init_config.encoder_min_value = -10; // Just for example.
+    encoder_init_config.s_gpio_number = GPIO_NUM_17;
-    // encoder_init_config.encoder_max_value = 20;  // Just for example.
+    encoder_init_config.encoder_min_value = 0;
-    // encoder_init_config.encoder_step = 0.1;      // Just for example.
+    encoder_init_config.encoder_max_value = 100;
-    encoder_init_config.encoder_number = 1;
+    encoder_init_config.encoder_step = 0.1;
    encoder_init_config.encoder_number = ENCODER_NUMBER;
    zh_encoder_init(&encoder_init_config, &encoder_handle);
-    double position = 0;
+    zh_encoder_get(&encoder_handle, &encoder_position);
-    zh_encoder_get(&encoder_handle, &position);
+    printf("Encoder position %0.2f.\n", encoder_position);
-    printf("Encoder position %0.2f.\n", position); // For ESP8266 first disable "Component config -> Newlib -> Enable ‘nano’ formatting options for printf/scanf family" via menuconfig.
+    for (;;)
-    // zh_encoder_set(&encoder_handle, 5); // Just for example.
+    {
-    // zh_encoder_reset(&encoder_handle);  // Just for example.
+        const zh_encoder_stats_t *stats = zh_encoder_get_stats();
        printf("Number of event post error: %ld.\n", stats->event_post_error);
        printf("Number of queue overflow error: %ld.\n", stats->queue_overflow_error);
        printf("Minimum free stack size: %ld.\n", stats->min_stack_size);
        vTaskDelay(60000 / portTICK_PERIOD_MS);
    }
 }
 void zh_encoder_event_handler(void *arg, esp_event_base_t event_base, int32_t event_id, void *event_data)
 {
    zh_encoder_event_on_isr_t *event = event_data;
-    printf("Encoder number %d position %.2f.\n", event->encoder_number, event->encoder_position); // For ESP8266 first disable "Component config -> Newlib -> Enable ‘nano’ formatting options for printf/scanf family" via menuconfig.
+    switch (event->encoder_number)
    {
    case ENCODER_NUMBER:
        if (encoder_position == event->encoder_position)
        {
            printf("Encoder number %d button %s.\n", event->encoder_number, event->button_status == 1 ? "released" : "pressed");
        }
        else
        {
            encoder_position = event->encoder_position;
            printf("Encoder number %d position %0.2f with button %s.\n", event->encoder_number, event->encoder_position, event->button_status == 1 ? "released" : "pressed");
        }
        break;
    default:
        break;
    }
 }
 ```
--- a/component.mk
+++ b/component.mk
--- a/include/zh_encoder.h
+++ b/include/zh_encoder.h
@@ -1,21 +1,30 @@
 /**
 * @file zh_encoder.h
 */
 #pragma once
 #include "esp_log.h"
 #include "driver/gpio.h"
 #include "esp_timer.h"
 #include "freertos/FreeRTOS.h"
 #include "freertos/task.h"
 #include "esp_event.h"
-#define ZH_ENCODER_INIT_CONFIG_DEFAULT() \
+/**
-    {                                    \
+ * @brief Encoder initial default values.
-        .task_priority = 10,             \
+ */
-        .stack_size = 3072,              \
+#define ZH_ENCODER_INIT_CONFIG_DEFAULT()        \
-        .queue_size = 10,                \
+    {                                           \
-        .a_gpio_number = 0,              \
+        .task_priority = 1,                     \
-        .b_gpio_number = 0,              \
+        .stack_size = configMINIMAL_STACK_SIZE, \
-        .encoder_min_value = -100,       \
+        .queue_size = 1,                        \
-        .encoder_max_value = 100,        \
+        .a_gpio_number = GPIO_NUM_MAX,          \
-        .encoder_step = 1,               \
+        .b_gpio_number = GPIO_NUM_MAX,          \
        .s_gpio_number = GPIO_NUM_MAX,          \
        .encoder_min_value = -100,              \
        .encoder_max_value = 100,               \
        .encoder_step = 1,                      \
        .encoder_number = 0}
 #ifdef __cplusplus
@@ -23,38 +32,65 @@ extern "C"
 {
 #endif
-    typedef struct // Structure for initial initialization of encoder.
+    extern TaskHandle_t zh_encoder; /*!< Unique encoder Task Handle. */
    /**
     * @brief Structure for initial initialization of encoder.
     */
    typedef struct
    {
-        uint8_t task_priority;     // Task priority for the encoder isr processing. @note It is not recommended to set a value less than 10.
+        uint8_t task_priority;     /*!< Task priority for the encoder isr processing. @note Minimum value is 1. */
-        uint16_t stack_size;       // Stack size for task for the encoder isr processing processing. @note The minimum size is 3072 bytes.
+        uint16_t stack_size;       /*!< Stack size for task for the encoder isr processing processing. @note The minimum size is configMINIMAL_STACK_SIZE. */
-        uint8_t queue_size;        // Queue size for task for the encoder processing. @note It is not recommended to set a value less than 10.
+        uint8_t queue_size;        /*!< Queue size for task for the encoder processing. @note Minimum value is 1. */
-        uint8_t a_gpio_number;     // Encoder A GPIO number.
+        uint8_t a_gpio_number;     /*!< Encoder A GPIO number. */
-        uint8_t b_gpio_number;     // Encoder B GPIO number.
+        uint8_t b_gpio_number;     /*!< Encoder B GPIO number. */
-        int32_t encoder_min_value; // Encoder min value. @note Must be less than encoder_max_value.
+        uint8_t s_gpio_number;     /*!< Encoder button GPIO number. */
-        int32_t encoder_max_value; // Encoder max value. @note Must be greater than encoder_min_value.
+        int32_t encoder_min_value; /*!< Encoder min value. @note Must be less than encoder_max_value. */
-        double encoder_step;       // Encoder step. @note Must be greater than 0.
+        int32_t encoder_max_value; /*!< Encoder max value. @note Must be greater than encoder_min_value. */
-        uint8_t encoder_number;    // Unique encoder number.
+        double encoder_step;       /*!< Encoder step. @note Must be greater than 0. */
        uint8_t encoder_number;    /*!< Unique encoder number. */
    } zh_encoder_init_config_t;
-    typedef struct // Encoder handle.
+    /**
     * @brief Encoder handle.
     */
    typedef struct
    {
-        uint8_t a_gpio_number;     // Encoder A GPIO number.
+        uint8_t a_gpio_number;     /*!< Encoder A GPIO number. */
-        uint8_t b_gpio_number;     // Encoder B GPIO number.
+        uint8_t b_gpio_number;     /*!< Encoder B GPIO number. */
-        int32_t encoder_min_value; // Encoder min value.
+        uint8_t s_gpio_number;     /*!< Encoder button GPIO number. */
-        int32_t encoder_max_value; // Encoder max value.
+        int32_t encoder_min_value; /*!< Encoder min value. */
-        double encoder_step;       // Encoder step.
+        int32_t encoder_max_value; /*!< Encoder max value. */
-        double encoder_position;   // Encoder position.
+        double encoder_step;       /*!< Encoder step. */
-        uint8_t encoder_number;    // Encoder unique number.
+        double encoder_position;   /*!< Encoder position. */
-        uint8_t encoder_state;     // Encoder internal state.
+        bool button_status;        /*!< Encoder button status. */
-        bool is_initialized;       // Encoder initialization flag.
+        uint8_t encoder_number;    /*!< Encoder unique number. */
        uint8_t encoder_state;     /*!< Encoder internal state. */
        bool is_initialized;       /*!< Encoder initialization flag. */
    } zh_encoder_handle_t;
    /**
     * @brief Structure for error statistics storage.
     */
    typedef struct
    {
        uint32_t event_post_error;     /*!< Number of event post error. */
        uint32_t queue_overflow_error; /*!< Number of queue overflow error. */
        uint32_t min_stack_size;       /*!< Minimum free stack size. */
    } zh_encoder_stats_t;
    ESP_EVENT_DECLARE_BASE(ZH_ENCODER);
-    typedef struct // Structure for sending data to the event handler when cause an interrupt. @note Should be used with ZH_ENCODER event base.
+    /**
     * @brief Structure for sending data to the event handler when cause an interrupt.
     *
     * @note Should be used with ZH_ENCODER event base.
     */
    typedef struct
    {
-        uint8_t encoder_number;  // Encoder unique number.
+        uint8_t encoder_number;  /*!< Encoder unique number. */
-        double encoder_position; // Encoder current position.
+        double encoder_position; /*!< Encoder current position. */
        bool button_status;      /*!< Encoder button status. */
    } zh_encoder_event_on_isr_t;
    /**
@@ -73,6 +109,13 @@ extern "C"
     */
    esp_err_t zh_encoder_init(const zh_encoder_init_config_t *config, zh_encoder_handle_t *handle);
    /**
     * @brief Deinitialize encoder.
     *
     * @return ESP_OK if success or an error code otherwise.
     */
    esp_err_t zh_encoder_deinit(zh_encoder_handle_t *handle);
    /**
     * @brief Set encoder position.
     *
@@ -104,6 +147,18 @@ extern "C"
     */
    esp_err_t zh_encoder_reset(zh_encoder_handle_t *handle);
    /**
     * @brief Get error statistics.
     *
     * @return Pointer to the statistics structure.
     */
    const zh_encoder_stats_t *zh_encoder_get_stats(void);
    /**
     * @brief Reset error statistics.
     */
    void zh_encoder_reset_stats(void);
 #ifdef __cplusplus
 }
 #endif
--- a/version.txt
+++ b/version.txt
@@ -1 +1 @@
-1.0.0
+1.3.0
--- a/zh_encoder.c
+++ b/zh_encoder.c
@@ -2,21 +2,22 @@
 #define TAG "zh_encoder"
-#define ZH_ENCODER_LOGI(msg, ...) ESP_LOGI(TAG, msg, ##__VA_ARGS__)
+#define ZH_LOGI(msg, ...) ESP_LOGI(TAG, msg, ##__VA_ARGS__)
-#define ZH_ENCODER_LOGW(msg, ...) ESP_LOGW(TAG, msg, ##__VA_ARGS__)
+#define ZH_LOGE(msg, err, ...) ESP_LOGE(TAG, "[%s:%d:%s] " msg, __FILE__, __LINE__, esp_err_to_name(err), ##__VA_ARGS__)
 #define ZH_ENCODER_LOGE(msg, ...) ESP_LOGE(TAG, msg, ##__VA_ARGS__)
 #define ZH_ENCODER_LOGE_ERR(msg, err, ...) ESP_LOGE(TAG, "[%s:%d:%s] " msg, __FILE__, __LINE__, esp_err_to_name(err), ##__VA_ARGS__)
-#define ZH_ENCODER_CHECK(cond, err, msg, ...) \
+#define ZH_ERROR_CHECK(cond, err, cleanup, msg, ...) \
-    if (!(cond))                              \
+    if (!(cond))                                     \
-    {                                         \
+    {                                                \
-        ZH_ENCODER_LOGE_ERR(msg, err);        \
+        ZH_LOGE(msg, err, ##__VA_ARGS__);            \
-        return err;                           \
+        cleanup;                                     \
        return err;                                  \
    }
 #define ZH_ENCODER_DIRECTION_CW 0x10
 #define ZH_ENCODER_DIRECTION_CCW 0x20
 #define BUTTON_DEBOUNCE_TIME 20
 static const uint8_t _encoder_matrix[7][4] = {
    {0x03, 0x02, 0x01, 0x00},
    {0x23, 0x00, 0x01, 0x00},
@@ -26,14 +27,18 @@ static const uint8_t _encoder_matrix[7][4] = {
    {0x03, 0x05, 0x03, 0x00},
 };
 TaskHandle_t zh_encoder = NULL;
 static QueueHandle_t _queue_handle = NULL;
-static bool _is_initialized = false;
+
 static volatile uint64_t _prev_us = 0;
 static uint8_t _encoder_counter = 0;
 static bool _is_prev_gpio_isr_handler = false;
 static zh_encoder_stats_t _stats = {0};
 static esp_err_t _zh_encoder_validate_config(const zh_encoder_init_config_t *config);
-static esp_err_t _zh_encoder_gpio_init(const zh_encoder_init_config_t *config);
+static esp_err_t _zh_encoder_gpio_init(const zh_encoder_init_config_t *config, zh_encoder_handle_t *handle);
-static esp_err_t _zh_encoder_configure_interrupts(const zh_encoder_init_config_t *config, zh_encoder_handle_t *handle);
+static esp_err_t _zh_encoder_resources_init(const zh_encoder_init_config_t *config);
-static esp_err_t _zh_encoder_init_resources(const zh_encoder_init_config_t *config);
+static esp_err_t _zh_encoder_task_init(const zh_encoder_init_config_t *config);
 static esp_err_t _zh_encoder_create_task(const zh_encoder_init_config_t *config);
 static void _zh_encoder_isr_handler(void *arg);
 static void _zh_encoder_isr_processing_task(void *pvParameter);
@@ -41,120 +46,208 @@ ESP_EVENT_DEFINE_BASE(ZH_ENCODER);
 esp_err_t zh_encoder_init(const zh_encoder_init_config_t *config, zh_encoder_handle_t *handle)
 {
-    ZH_ENCODER_LOGI("Encoder initialization started.");
+    ZH_LOGI("Encoder initialization started.");
    ZH_ERROR_CHECK(handle != NULL, ESP_ERR_INVALID_ARG, NULL, "Encoder initialization failed. Invalid argument.");
    esp_err_t err = _zh_encoder_validate_config(config);
-    ZH_ENCODER_CHECK(err == ESP_OK, err, "Encoder initialization failed. Initial configuration check failed.");
+    ZH_ERROR_CHECK(err == ESP_OK, err, NULL, "Encoder initialization failed. Initial configuration check failed.");
-    ZH_ENCODER_LOGI("Encoder initial configuration check completed successfully.");
+    err = _zh_encoder_gpio_init(config, handle);
    ZH_ERROR_CHECK(err == ESP_OK, err, NULL, "Encoder initialization failed. GPIO initialization failed.");
    err = _zh_encoder_resources_init(config);
    if (_is_prev_gpio_isr_handler == true)
    {
        if (config->s_gpio_number != GPIO_NUM_MAX)
        {
            ZH_ERROR_CHECK(err == ESP_OK, err, gpio_isr_handler_remove((gpio_num_t)config->a_gpio_number); gpio_isr_handler_remove((gpio_num_t)config->b_gpio_number); gpio_isr_handler_remove((gpio_num_t)config->s_gpio_number);
                           gpio_reset_pin((gpio_num_t)config->a_gpio_number); gpio_reset_pin((gpio_num_t)config->b_gpio_number); gpio_reset_pin((gpio_num_t)config->s_gpio_number), "Encoder initialization failed. Resources initialization failed.");
        }
        else
        {
            ZH_ERROR_CHECK(err == ESP_OK, err, gpio_isr_handler_remove((gpio_num_t)config->a_gpio_number); gpio_isr_handler_remove((gpio_num_t)config->b_gpio_number); gpio_reset_pin((gpio_num_t)config->a_gpio_number);
                           gpio_reset_pin((gpio_num_t)config->b_gpio_number), "Encoder initialization failed. Resources initialization failed.");
        }
    }
    else
    {
        if (config->s_gpio_number != GPIO_NUM_MAX)
        {
            ZH_ERROR_CHECK(err == ESP_OK, err, gpio_isr_handler_remove((gpio_num_t)config->a_gpio_number); gpio_isr_handler_remove((gpio_num_t)config->b_gpio_number); gpio_isr_handler_remove((gpio_num_t)config->s_gpio_number);
                           gpio_uninstall_isr_service(); gpio_reset_pin((gpio_num_t)config->a_gpio_number); gpio_reset_pin((gpio_num_t)config->b_gpio_number); gpio_reset_pin((gpio_num_t)config->s_gpio_number), "Encoder initialization failed. Resources initialization failed.");
        }
        else
        {
            ZH_ERROR_CHECK(err == ESP_OK, err, gpio_isr_handler_remove((gpio_num_t)config->a_gpio_number); gpio_isr_handler_remove((gpio_num_t)config->b_gpio_number); gpio_uninstall_isr_service();
                           gpio_reset_pin((gpio_num_t)config->a_gpio_number); gpio_reset_pin((gpio_num_t)config->b_gpio_number), "Encoder initialization failed. Resources initialization failed.");
        }
    }
    err = _zh_encoder_task_init(config);
    if (_is_prev_gpio_isr_handler == true)
    {
        ZH_ERROR_CHECK(err == ESP_OK, err, vQueueDelete(_queue_handle); _queue_handle = NULL; gpio_isr_handler_remove((gpio_num_t)config->a_gpio_number); gpio_isr_handler_remove((gpio_num_t)config->b_gpio_number);
                       gpio_reset_pin((gpio_num_t)config->a_gpio_number); gpio_reset_pin((gpio_num_t)config->b_gpio_number), "Encoder initialization failed. Processing task initialization failed.");
    }
    else
    {
        ZH_ERROR_CHECK(err == ESP_OK, err, vQueueDelete(_queue_handle); _queue_handle = NULL; gpio_isr_handler_remove((gpio_num_t)config->a_gpio_number); gpio_isr_handler_remove((gpio_num_t)config->b_gpio_number);
                       gpio_uninstall_isr_service(); gpio_reset_pin((gpio_num_t)config->a_gpio_number); gpio_reset_pin((gpio_num_t)config->b_gpio_number), "Encoder initialization failed. Processing task initialization failed.");
    }
    handle->a_gpio_number = config->a_gpio_number;
    handle->b_gpio_number = config->b_gpio_number;
    handle->s_gpio_number = config->s_gpio_number;
    handle->button_status = gpio_get_level((gpio_num_t)config->s_gpio_number);
    handle->encoder_number = config->encoder_number;
    handle->encoder_min_value = config->encoder_min_value;
    handle->encoder_max_value = config->encoder_max_value;
    handle->encoder_step = config->encoder_step;
    handle->encoder_position = (handle->encoder_min_value + handle->encoder_max_value) / 2;
    err = _zh_encoder_gpio_init(config);
    ZH_ENCODER_CHECK(err == ESP_OK, err, "Encoder initialization failed. GPIO initialization failed.");
    ZH_ENCODER_LOGI("Encoder GPIO initialization completed successfully.");
    handle->a_gpio_number = config->a_gpio_number;
    handle->b_gpio_number = config->b_gpio_number;
    err = _zh_encoder_configure_interrupts(config, handle);
    ZH_ENCODER_CHECK(err == ESP_OK, err, "Encoder initialization failed. Interrupt initialization failed.");
    ZH_ENCODER_LOGI("Encoder interrupt initialization completed successfully.");
    err = _zh_encoder_init_resources(config);
    ZH_ENCODER_CHECK(err == ESP_OK, err, "Encoder initialization failed. Resources initialization failed.");
    ZH_ENCODER_LOGI("Encoder resources initialization completed successfully.");
    err = _zh_encoder_create_task(config);
    ZH_ENCODER_CHECK(err == ESP_OK, err, "Encoder initialization failed. Processing task initialization failed.");
    ZH_ENCODER_LOGI("Encoder processing task initialization completed successfully.");
    handle->is_initialized = true;
-    _is_initialized = true;
+    ++_encoder_counter;
-    ZH_ENCODER_LOGI("Encoder initialization completed successfully.");
+    ZH_LOGI("Encoder initialization completed successfully.");
    return ESP_OK;
 }
 esp_err_t zh_encoder_deinit(zh_encoder_handle_t *handle)
 {
    ZH_LOGI("Encoder deinitialization started.");
    ZH_ERROR_CHECK(handle != NULL, ESP_ERR_INVALID_ARG, NULL, "Encoder deinitialization failed. Invalid argument.");
    ZH_ERROR_CHECK(handle->is_initialized == true, ESP_FAIL, NULL, "Encoder deinitialization failed. Encoder not initialized.");
    gpio_isr_handler_remove((gpio_num_t)handle->a_gpio_number);
    gpio_isr_handler_remove((gpio_num_t)handle->b_gpio_number);
    gpio_isr_handler_remove((gpio_num_t)handle->s_gpio_number);
    gpio_reset_pin((gpio_num_t)handle->a_gpio_number);
    gpio_reset_pin((gpio_num_t)handle->b_gpio_number);
    gpio_reset_pin((gpio_num_t)handle->s_gpio_number);
    if (_encoder_counter == 1)
    {
        vQueueDelete(_queue_handle);
        vTaskDelete(zh_encoder);
        if (_is_prev_gpio_isr_handler == false)
        {
            gpio_uninstall_isr_service();
        }
    }
    handle->is_initialized = false;
    --_encoder_counter;
    ZH_LOGI("Encoder deinitialization completed successfully.");
    return ESP_OK;
 }
 esp_err_t zh_encoder_set(zh_encoder_handle_t *handle, double position)
 {
-    ZH_ENCODER_LOGI("Encoder set position started.");
+    ZH_LOGI("Encoder set position started.");
-    ZH_ENCODER_CHECK(handle->is_initialized == true, ESP_FAIL, "Encoder set position failed. Encoder not initialized.");
+    ZH_ERROR_CHECK(handle != NULL, ESP_ERR_INVALID_ARG, NULL, "Encoder set position failed. Invalid argument.");
-    ZH_ENCODER_CHECK(position <= handle->encoder_max_value && position >= handle->encoder_min_value, ESP_ERR_INVALID_ARG, "Encoder set position failed. Invalid argument.");
+    ZH_ERROR_CHECK(handle->is_initialized == true, ESP_FAIL, NULL, "Encoder set position failed. Encoder not initialized.");
    ZH_ERROR_CHECK(position <= handle->encoder_max_value && position >= handle->encoder_min_value, ESP_ERR_INVALID_ARG, NULL, "Encoder set position failed. Invalid argument.");
    handle->encoder_position = position;
-    ZH_ENCODER_LOGI("Encoder set position completed successfully.");
+    ZH_LOGI("Encoder set position completed successfully.");
    return ESP_OK;
 }
 esp_err_t zh_encoder_get(const zh_encoder_handle_t *handle, double *position)
 {
-    ZH_ENCODER_LOGI("Encoder get position started.");
+    ZH_LOGI("Encoder get position started.");
-    ZH_ENCODER_CHECK(handle->is_initialized == true, ESP_FAIL, "Encoder get position failed. Encoder not initialized.");
+    ZH_ERROR_CHECK(handle != NULL, ESP_ERR_INVALID_ARG, NULL, "Encoder get position failed. Invalid argument.");
    ZH_ERROR_CHECK(handle->is_initialized == true, ESP_FAIL, NULL, "Encoder get position failed. Encoder not initialized.");
    *position = handle->encoder_position;
-    ZH_ENCODER_LOGI("Encoder get position completed successfully.");
+    ZH_LOGI("Encoder get position completed successfully.");
    return ESP_OK;
 }
 esp_err_t zh_encoder_reset(zh_encoder_handle_t *handle)
 {
-    ZH_ENCODER_LOGI("Encoder reset started.");
+    ZH_LOGI("Encoder reset started.");
-    ZH_ENCODER_CHECK(handle->is_initialized == true, ESP_FAIL, "Encoder reset failed. Encoder not initialized.");
+    ZH_ERROR_CHECK(handle != NULL, ESP_ERR_INVALID_ARG, NULL, "Encoder reset failed. Invalid argument.");
    ZH_ERROR_CHECK(handle->is_initialized == true, ESP_FAIL, NULL, "Encoder reset failed. Encoder not initialized.");
    handle->encoder_position = (handle->encoder_min_value + handle->encoder_max_value) / 2;
-    ZH_ENCODER_LOGI("Encoder reset completed successfully.");
+    ZH_LOGI("Encoder reset completed successfully.");
    return ESP_OK;
 }
 const zh_encoder_stats_t *zh_encoder_get_stats(void)
 {
    return &_stats;
 }
 void zh_encoder_reset_stats(void)
 {
    ZH_LOGI("Error statistic reset started.");
    _stats.event_post_error = 0;
    _stats.queue_overflow_error = 0;
    _stats.min_stack_size = 0;
    ZH_LOGI("Error statistic reset successfully.");
 }
 static esp_err_t _zh_encoder_validate_config(const zh_encoder_init_config_t *config)
 {
-    ZH_ENCODER_CHECK(config != NULL, ESP_ERR_INVALID_ARG, "Invalid configuration.");
+    ZH_ERROR_CHECK(config != NULL, ESP_ERR_INVALID_ARG, NULL, "Invalid configuration.");
-    ZH_ENCODER_CHECK(config->task_priority >= 10 && config->stack_size >= 3072, ESP_ERR_INVALID_ARG, "Invalid task settings.");
+    ZH_ERROR_CHECK(config->task_priority >= 1 && config->stack_size >= configMINIMAL_STACK_SIZE, ESP_ERR_INVALID_ARG, NULL, "Invalid task settings.");
-    ZH_ENCODER_CHECK(config->queue_size >= 10, ESP_ERR_INVALID_ARG, "Invalid queue size.");
+    ZH_ERROR_CHECK(config->queue_size >= 1, ESP_ERR_INVALID_ARG, NULL, "Invalid queue size.");
-    ZH_ENCODER_CHECK(config->encoder_max_value > config->encoder_min_value, ESP_ERR_INVALID_ARG, "Invalid encoder min/max value.");
+    ZH_ERROR_CHECK(config->encoder_max_value > config->encoder_min_value, ESP_ERR_INVALID_ARG, NULL, "Invalid encoder min/max value.");
-    ZH_ENCODER_CHECK(config->encoder_step > 0, ESP_ERR_INVALID_ARG, "Invalid encoder step.");
+    ZH_ERROR_CHECK(config->encoder_step > 0, ESP_ERR_INVALID_ARG, NULL, "Invalid encoder step.");
    return ESP_OK;
 }
-static esp_err_t _zh_encoder_gpio_init(const zh_encoder_init_config_t *config)
+static esp_err_t _zh_encoder_gpio_init(const zh_encoder_init_config_t *config, zh_encoder_handle_t *handle)
 {
-    ZH_ENCODER_CHECK(config->a_gpio_number < GPIO_NUM_MAX || config->b_gpio_number < GPIO_NUM_MAX, ESP_ERR_INVALID_ARG, "Invalid GPIO number.")
+    ZH_ERROR_CHECK(config->a_gpio_number < GPIO_NUM_MAX && config->b_gpio_number < GPIO_NUM_MAX && config->s_gpio_number < GPIO_NUM_MAX, ESP_ERR_INVALID_ARG, NULL, "Invalid GPIO number.")
-    ZH_ENCODER_CHECK(config->a_gpio_number != config->b_gpio_number, ESP_ERR_INVALID_ARG, "Invalid GPIO number.")
+    ZH_ERROR_CHECK(config->a_gpio_number != config->b_gpio_number, ESP_ERR_INVALID_ARG, NULL, "Encoder A and B GPIO is same.")
    ZH_ERROR_CHECK(config->a_gpio_number != config->s_gpio_number && config->b_gpio_number != config->s_gpio_number, ESP_ERR_INVALID_ARG, NULL, "Encoder GPIO and button GPIO is same.")
    gpio_config_t pin_config = {
        .mode = GPIO_MODE_INPUT,
-        .pin_bit_mask = (1ULL << config->a_gpio_number) | (1ULL << config->b_gpio_number),
+        .pin_bit_mask = (1ULL << config->a_gpio_number) | (1ULL << config->b_gpio_number) | (1ULL << config->s_gpio_number),
        .pull_up_en = GPIO_PULLUP_ENABLE,
        .intr_type = GPIO_INTR_ANYEDGE};
    esp_err_t err = gpio_config(&pin_config);
-    ZH_ENCODER_CHECK(err == ESP_OK, err, "GPIO initialization failed.");
+    ZH_ERROR_CHECK(err == ESP_OK, err, NULL, "GPIO initialization failed.");
-    return ESP_OK;
+    if (_encoder_counter == 0)
 }
 static esp_err_t _zh_encoder_configure_interrupts(const zh_encoder_init_config_t *config, zh_encoder_handle_t *handle)
 {
    gpio_install_isr_service(0);
    esp_err_t err = gpio_isr_handler_add(config->a_gpio_number, _zh_encoder_isr_handler, handle);
    ZH_ENCODER_CHECK(err == ESP_OK, err, "Interrupt initialization failed.");
    err = gpio_isr_handler_add(config->b_gpio_number, _zh_encoder_isr_handler, handle);
    ZH_ENCODER_CHECK(err == ESP_OK, err, "Interrupt initialization failed.");
    return ESP_OK;
 }
 static esp_err_t _zh_encoder_init_resources(const zh_encoder_init_config_t *config)
 {
    if (_is_initialized == false)
    {
-        _queue_handle = xQueueCreate(config->queue_size, sizeof(zh_encoder_handle_t));
+        err = gpio_install_isr_service(ESP_INTR_FLAG_LOWMED);
-        ZH_ENCODER_CHECK(_queue_handle != NULL, ESP_FAIL, "Queue creation failed.");
+        ZH_ERROR_CHECK(err == ESP_OK || err == ESP_ERR_INVALID_STATE, err, gpio_reset_pin((gpio_num_t)config->a_gpio_number); gpio_reset_pin((gpio_num_t)config->b_gpio_number), "Failed install isr service.");
        if (err == ESP_ERR_INVALID_STATE)
        {
            _is_prev_gpio_isr_handler = true;
        }
    }
    err = gpio_isr_handler_add(config->a_gpio_number, _zh_encoder_isr_handler, handle);
    ZH_ERROR_CHECK(err == ESP_OK, err, gpio_reset_pin((gpio_num_t)config->a_gpio_number); gpio_reset_pin((gpio_num_t)config->b_gpio_number), "Interrupt initialization failed.");
    err = gpio_isr_handler_add(config->b_gpio_number, _zh_encoder_isr_handler, handle);
    if (_is_prev_gpio_isr_handler == true)
    {
        ZH_ERROR_CHECK(err == ESP_OK, err, gpio_isr_handler_remove((gpio_num_t)config->a_gpio_number); gpio_reset_pin((gpio_num_t)config->a_gpio_number); gpio_reset_pin((gpio_num_t)config->b_gpio_number), "Interrupt initialization failed.");
    }
    else
    {
        ZH_ERROR_CHECK(err == ESP_OK, err, gpio_isr_handler_remove((gpio_num_t)config->a_gpio_number); gpio_uninstall_isr_service(); gpio_reset_pin((gpio_num_t)config->a_gpio_number); gpio_reset_pin((gpio_num_t)config->b_gpio_number), "Interrupt initialization failed.");
    }
    err = gpio_isr_handler_add(config->s_gpio_number, _zh_encoder_isr_handler, handle);
    if (_is_prev_gpio_isr_handler == true)
    {
        ZH_ERROR_CHECK(err == ESP_OK, err, gpio_isr_handler_remove((gpio_num_t)config->a_gpio_number); gpio_isr_handler_remove((gpio_num_t)config->b_gpio_number);
                       gpio_reset_pin((gpio_num_t)config->a_gpio_number); gpio_reset_pin((gpio_num_t)config->b_gpio_number), "Interrupt initialization failed.");
    }
    else
    {
        ZH_ERROR_CHECK(err == ESP_OK, err, gpio_isr_handler_remove((gpio_num_t)config->a_gpio_number); gpio_isr_handler_remove((gpio_num_t)config->b_gpio_number); gpio_uninstall_isr_service();
                       gpio_reset_pin((gpio_num_t)config->a_gpio_number); gpio_reset_pin((gpio_num_t)config->b_gpio_number), "Interrupt initialization failed.");
    }
    return ESP_OK;
 }
-static esp_err_t _zh_encoder_create_task(const zh_encoder_init_config_t *config)
+static esp_err_t _zh_encoder_resources_init(const zh_encoder_init_config_t *config)
 {
-    if (_is_initialized == false)
+    if (_encoder_counter == 0)
    {
-        BaseType_t err = xTaskCreatePinnedToCore(
+        _queue_handle = xQueueCreate(config->queue_size, sizeof(zh_encoder_handle_t));
-            &_zh_encoder_isr_processing_task,
+        ZH_ERROR_CHECK(_queue_handle != NULL, ESP_FAIL, NULL, "Failed to create queue.");
-            "zh_encoder_isr_processing",
+    }
-            config->stack_size,
+    return ESP_OK;
-            NULL,
+}
-            config->task_priority,
+
-            NULL,
+static esp_err_t _zh_encoder_task_init(const zh_encoder_init_config_t *config)
-            tskNO_AFFINITY);
+{
-        ZH_ENCODER_CHECK(err == pdPASS, ESP_FAIL, "Task creation failed.");
+    if (_encoder_counter == 0)
    {
        BaseType_t err = xTaskCreatePinnedToCore(&_zh_encoder_isr_processing_task, "zh_encoder_isr_processing", config->stack_size, NULL, config->task_priority, &zh_encoder, tskNO_AFFINITY);
        ZH_ERROR_CHECK(err == pdPASS, ESP_FAIL, NULL, "Failed to create isr processing task.");
    }
    return ESP_OK;
 }
@@ -163,8 +256,19 @@ static void IRAM_ATTR _zh_encoder_isr_handler(void *arg)
 {
    zh_encoder_handle_t *encoder_handle = (zh_encoder_handle_t *)arg;
    BaseType_t xHigherPriorityTaskWoken = pdFALSE;
-    encoder_handle->encoder_state = _encoder_matrix[encoder_handle->encoder_state & 0x0F]
+    uint64_t _current_us = esp_timer_get_time();
-                                                   [(gpio_get_level(encoder_handle->b_gpio_number) << 1) | gpio_get_level(encoder_handle->a_gpio_number)];
+    bool button_flag = false;
    if (_current_us - _prev_us >= BUTTON_DEBOUNCE_TIME)
    {
        bool button_status = gpio_get_level((gpio_num_t)encoder_handle->s_gpio_number);
        if (encoder_handle->button_status != button_status)
        {
            button_flag = true;
            encoder_handle->button_status = button_status;
        }
    }
    _prev_us = _current_us;
    encoder_handle->encoder_state = _encoder_matrix[encoder_handle->encoder_state & 0x0F][(gpio_get_level((gpio_num_t)encoder_handle->b_gpio_number) << 1) | gpio_get_level((gpio_num_t)encoder_handle->a_gpio_number)];
    switch (encoder_handle->encoder_state & 0x30)
    {
    case ZH_ENCODER_DIRECTION_CW:
@@ -175,7 +279,10 @@ static void IRAM_ATTR _zh_encoder_isr_handler(void *arg)
            {
                encoder_handle->encoder_position = encoder_handle->encoder_max_value;
            }
-            xQueueSendFromISR(_queue_handle, encoder_handle, &xHigherPriorityTaskWoken);
+            if (xQueueSendFromISR(_queue_handle, encoder_handle, &xHigherPriorityTaskWoken) != pdTRUE)
            {
                ++_stats.queue_overflow_error;
            }
        }
        break;
    case ZH_ENCODER_DIRECTION_CCW:
@@ -186,10 +293,20 @@ static void IRAM_ATTR _zh_encoder_isr_handler(void *arg)
            {
                encoder_handle->encoder_position = encoder_handle->encoder_min_value;
            }
-            xQueueSendFromISR(_queue_handle, encoder_handle, &xHigherPriorityTaskWoken);
+            if (xQueueSendFromISR(_queue_handle, encoder_handle, &xHigherPriorityTaskWoken) != pdTRUE)
            {
                ++_stats.queue_overflow_error;
            }
        }
        break;
    default:
        if (button_flag == true)
        {
            if (xQueueSendFromISR(_queue_handle, encoder_handle, &xHigherPriorityTaskWoken) != pdTRUE)
            {
                ++_stats.queue_overflow_error;
            }
        }
        break;
    }
    if (xHigherPriorityTaskWoken == pdTRUE)
@@ -204,15 +321,16 @@ static void IRAM_ATTR _zh_encoder_isr_processing_task(void *pvParameter)
    zh_encoder_event_on_isr_t encoder_data = {0};
    while (xQueueReceive(_queue_handle, &queue, portMAX_DELAY) == pdTRUE)
    {
        ZH_ENCODER_LOGI("Encoder isr processing begin.");
        encoder_data.encoder_number = queue.encoder_number;
        encoder_data.encoder_position = queue.encoder_position;
-        esp_err_t err = esp_event_post(ZH_ENCODER, 0, &encoder_data, sizeof(zh_encoder_event_on_isr_t), portTICK_PERIOD_MS);
+        encoder_data.button_status = queue.button_status;
        esp_err_t err = esp_event_post(ZH_ENCODER, 0, &encoder_data, sizeof(zh_encoder_event_on_isr_t), 1000 / portTICK_PERIOD_MS);
        if (err != ESP_OK)
        {
-            ZH_ENCODER_LOGE_ERR("Encoder isr processing failed. Failed to post interrupt event.", err);
+            ++_stats.event_post_error;
            ZH_LOGE("Encoder isr processing failed. Failed to post interrupt event.", err);
        }
-        ZH_ENCODER_LOGI("Encoder isr processing completed successfully.");
+        _stats.min_stack_size = (uint32_t)uxTaskGetStackHighWaterMark(NULL);
    }
    vTaskDelete(NULL);
 }
Author	SHA1	Message	Date
Alexey Zholtikov	b614e67b6f	wip:	2025-12-25 11:14:04 +03:00
Alexey Zholtikov	4368ac9845	wip:	2025-12-24 19:54:21 +03:00
Alexey Zholtikov	5ef3913eb9	style: removed esp8266 support	2025-12-24 19:02:48 +03:00
Alexey Zholtikov	c4d6bf7dec	doc: updated example	2025-12-24 15:32:42 +03:00
Alexey Zholtikov	d8c6e2679f	feat: added deinit	2025-12-24 15:17:50 +03:00
Alexey Zholtikov	6b2ed520d0	perf: updated error checks	2025-12-24 14:46:06 +03:00
Alexey Zholtikov	232933650d	doc: changed example	2025-12-24 13:48:31 +03:00
Alexey Zholtikov	37ae299426	perf: reduced min task values	2025-12-24 13:01:10 +03:00
Alexey Zholtikov	2060a56b55	feat: added statistics	2025-12-24 12:30:14 +03:00
Alexey Zholtikov	deb882beb6	perf: updated error checks	2025-12-24 09:36:11 +03:00
Alexey Zholtikov	5087b9b743	refactor: minor refactoring	2025-12-21 22:55:29 +03:00
Alexey Zholtikov	d5c94158c2	perf: updated error checks	2025-12-03 10:42:51 +03:00
Alexey Zholtikov	e133e5a807	perf: added task handle	2025-12-03 09:12:34 +03:00
Alexey Zholtikov	13e04b2cd3	doc: update some comments for doxygen style	2025-11-23 21:58:01 +03:00
Alexey Zholtikov	b4c8220284	doc: changed example	2025-06-16 19:30:37 +03:00