feat: initial

README.md

@@ -1,20 +1,44 @@
-# esp_component_template
+# ESP32 ESP-IDF and ESP8266 RTOS SDK component for rotary encoder
 
-esp_component_template
+## Tested on
 
+1. [ESP8266 RTOS_SDK v3.4](https://docs.espressif.com/projects/esp8266-rtos-sdk/en/latest/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
+
+1. Encoder pins must be pull up to the VCC via 0.1 µf capacitors.
+
+## Using
+
+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
+```
+
+In the application, add the component:
+
+```c
+#include "zh_encoder.h"
+```
+
+## Examples
+
+One encoder on device:
+
+```c
 #include "zh_encoder.h"
 
 zh_encoder_handle_t encoder_handle = {0};
 
 void zh_encoder_event_handler(void *arg, esp_event_base_t event_base, int32_t event_id, void *event_data);
 
-// #define ROT_ENC_A_GPIO (CONFIG_ROT_ENC_A_GPIO)
-// #define ROT_ENC_B_GPIO (CONFIG_ROT_ENC_B_GPIO)
-
-// #define ENABLE_HALF_STEPS false  // Set to true to enable tracking of rotary encoder at half step resolution
-// #define RESET_AT          0      // Set to a positive non-zero number to reset the position if this value is exceeded
-// #define FLIP_DIRECTION    false  // Set to true to reverse the clockwise/counterclockwise sense
-
 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.
@@ -25,64 +49,20 @@ void app_main(void)
     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.a_gpio_number = GPIO_NUM_26;
-    encoder_init_config.b_gpio_number = GPIO_NUM_27;
-    encoder_init_config.encoder_min_value = -10; // Just for example.
-    encoder_init_config.encoder_max_value = 20;  // Just for example.
-    encoder_init_config.encoder_step = 0.1;      // Just for example.
+    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.encoder_max_value = 10;  // Just for example.
+    // encoder_init_config.encoder_step = 0.1;      // Just for example.
     encoder_init_config.encoder_number = 1;
     zh_encoder_init(&encoder_init_config, &encoder_handle);
-    zh_encoder_reset(&encoder_handle);  // Just for example.
-    zh_encoder_set(&encoder_handle, 5); // Just for example.
-
-    // esp32-rotary-encoder requires that the GPIO ISR service is installed before calling rotary_encoder_register()
-    //     ESP_ERROR_CHECK(gpio_install_isr_service(0));
-
-    //     // Initialise the rotary encoder device with the GPIOs for A and B signals
-    //     rotary_encoder_info_t info = { 0 };
-    //     ESP_ERROR_CHECK(rotary_encoder_init(&info, ROT_ENC_A_GPIO, ROT_ENC_B_GPIO));
-    //     ESP_ERROR_CHECK(rotary_encoder_enable_half_steps(&info, ENABLE_HALF_STEPS));
-    // #ifdef FLIP_DIRECTION
-    //     // ESP_ERROR_CHECK(rotary_encoder_flip_direction(&info));
-    // #endif
-
-    //     // Create a queue for events from the rotary encoder driver.
-    //     // Tasks can read from this queue to receive up to date position information.
-    //     QueueHandle_t event_queue = rotary_encoder_create_queue();
-    //     ESP_ERROR_CHECK(rotary_encoder_set_queue(&info, event_queue));
-
-    //     while (1)
-    //     {
-    //         // Wait for incoming events on the event queue.
-    //         rotary_encoder_event_t event = { 0 };
-    //         if (xQueueReceive(event_queue, &event, portMAX_DELAY) == pdTRUE)
-    //         {
-    //             ESP_LOGI(TAG, "Event: position %ld, direction %s", event.state.position,
-    //                      event.state.direction ? (event.state.direction == ROTARY_ENCODER_DIRECTION_CLOCKWISE ? "CW" : "CCW") : "NOT_SET");
-    //         }
-    //         // else
-    // {
-    //     // Poll current position and direction
-    //     rotary_encoder_state_t state = { 0 };
-    //     ESP_ERROR_CHECK(rotary_encoder_get_state(&info, &state));
-    //     ESP_LOGI(TAG, "Poll: position %ld, direction %s", state.position,
-    //              state.direction ? (state.direction == ROTARY_ENCODER_DIRECTION_CLOCKWISE ? "CW" : "CCW") : "NOT_SET");
-
-    //     // Reset the device
-    //     if (RESET_AT && (state.position >= RESET_AT || state.position <= -RESET_AT))
-    //     {
-    //         ESP_LOGI(TAG, "Reset");
-    //         ESP_ERROR_CHECK(rotary_encoder_reset(&info));
-    //     }
-    // }
-    // }
-    // ESP_LOGE(TAG, "queue receive failed");
-
-    // ESP_ERROR_CHECK(rotary_encoder_uninit(&info));
+    // zh_encoder_set(&encoder_handle, 5); // Just for example.
+    // zh_encoder_reset(&encoder_handle);  // Just for example.
 }
 
 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("Uncoder number %d position %f.\n", event->encoder_number, event->encoder_position);
-}
+    printf("Encoder number %d position %.2f.\n", event->encoder_number, event->encoder_position);
+}
+```