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feat(apds9960): 功能恢复。

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This commit is contained in:
Ivan Li 2023-04-02 19:29:12 +08:00
parent eaedd765ed
commit a54c554342
4 changed files with 117 additions and 96 deletions
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2
main/CMakeLists.txt
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@ -1,2 +1,2 @@
idf_component_register(SRCS "apds_9960.c" "pca9555.c" "i2c.c" "asr_pro.c" "ci_03t.c" "ui_input.c" "ambient_light.c" "temperature.c" "embedded_display.c" "mqtt.c" "main.c" "wifi.c" "light.c" "mqtt.c"
idf_component_register(SRCS "hw-ms03.c" "apds_9960.c" "pca9555.c" "i2c.c" "asr_pro.c" "ci_03t.c" "ui_input.c" "ambient_light.c" "temperature.c" "embedded_display.c" "mqtt.c" "main.c" "wifi.c" "light.c" "mqtt.c"
INCLUDE_DIRS ".")

142
main/apds_9960.c
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@ -2,6 +2,7 @@
#include <stdlib.h>
#include "common.h"
#include "driver/gpio.h"
#include "driver/i2c.h"
#include "embedded_display.c"
#include "esp_log.h"
@ -122,7 +123,8 @@
// 50 mA LED, Reserved, 2x PGAIN, 4x ALS/Cain GAIN
#define APDS_9960_CONTROL_VALUE 0b00001010
// Enable Gesture, Proximity, ALS, Power
#define APDS_9960_ENABLE_VALUE 0b01000111
// X, GEN, PIEN, AIEN, WEN, PEN, AEN, PON
#define APDS_9960_ENABLE_VALUE 0b01100111
#define APDS_9960_TAG "APDS-9960"
@ -265,71 +267,44 @@ void apds_9960_fetch(void* arg) {
}
}
// display_fill_rect(0, 0, 128, 8, 0x00);
// clear
error = apds_9960_read_word(APDS_9960_REG_CDATAL, &clear_raw);
if (error != ESP_OK) {
ESP_LOGW(APDS_9960_TAG, "read failed. %d", error);
} else {
sprintf(clear_str, "C:% 5d", clear_raw);
display_print8_str(64, 6, clear_str);
ESP_LOGD(APDS_9960_TAG, "Clear: %d", clear_raw);
}
// red
error = apds_9960_read_word(APDS_9960_REG_RDATAL, &red_raw);
if (error != ESP_OK) {
ESP_LOGW(APDS_9960_TAG, "read failed. %d", error);
} else {
sprintf(red_str, "R:% 5d", red_raw);
display_print8_str(0, 4, red_str);
ESP_LOGD(APDS_9960_TAG, "Red: %d", red_raw);
}
// green
error = apds_9960_read_word(APDS_9960_REG_GDATAL, &green_raw);
if (error != ESP_OK) {
ESP_LOGW(APDS_9960_TAG, "read failed. %d", error);
} else {
sprintf(green_str, "G:% 5d", green_raw);
display_print8_str(64, 4, green_str);
ESP_LOGD(APDS_9960_TAG, "Green: %d", green_raw);
}
// blue
error = apds_9960_read_word(APDS_9960_REG_BDATAL, &blue_raw);
if (error != ESP_OK) {
ESP_LOGW(APDS_9960_TAG, "read failed. %d", error);
} else {
sprintf(blue_str, "B:% 5d", blue_raw);
display_print8_str(0, 6, blue_str);
ESP_LOGD(APDS_9960_TAG, "Blue: %d", blue_raw);
}
// interrupt = gpio_get_level(APDS_9960_INT_GPIO);
// // Status
// error = apds_9960_read_byte(APDS_9960_REG_STATUS, &status_raw);
// if (error != ESP_OK) {
// ESP_LOGW(APDS_9960_TAG, "read status failed. %x", error);
// } else {
// sprintf(status_str, "%d :%d%d%d%d %d%d%d%d", interrupt,
// (status_raw >> 7) & 1, (status_raw >> 6) & 1,
// (status_raw >> 5) & 1, (status_raw >> 4) & 1,
// (status_raw >> 3) & 1, (status_raw >> 2) & 1,
// (status_raw >> 1) & 1, status_raw & 1);
// display_print8_str(0, 0, status_str);
// ESP_LOGD(APDS_9960_TAG, "Status: %2x", status_raw);
// }
// error = apds_9960_read_byte(APDS_9960_REG_GFLVL, &byte_buffer);
// if (error != ESP_OK) {
// ESP_LOGW(APDS_9960_TAG, "read APDS_9960_REG_GFLVL failed. %d", error);
// }
// if (byte_buffer == 0) {
// sprintf(status_str, "LVL: %4d", byte_buffer);
// display_print8_str(0, 4, status_str);
// }
// // clear
// error = apds_9960_read_word(APDS_9960_REG_CDATAL, &clear_raw);
// if (error != ESP_OK) {
// ESP_LOGW(APDS_9960_TAG, "read failed. %d", error);
// } else {
// sprintf(clear_str, "C:% 5d", clear_raw);
// display_print8_str(64, 6, clear_str);
// ESP_LOGD(APDS_9960_TAG, "Clear: %d", clear_raw);
// }
// // red
// error = apds_9960_read_word(APDS_9960_REG_RDATAL, &red_raw);
// if (error != ESP_OK) {
// ESP_LOGW(APDS_9960_TAG, "read failed. %d", error);
// } else {
// sprintf(red_str, "R:% 5d", red_raw);
// display_print8_str(0, 4, red_str);
// ESP_LOGD(APDS_9960_TAG, "Red: %d", red_raw);
// }
// // green
// error = apds_9960_read_word(APDS_9960_REG_GDATAL, &green_raw);
// if (error != ESP_OK) {
// ESP_LOGW(APDS_9960_TAG, "read failed. %d", error);
// } else {
// sprintf(green_str, "G:% 5d", green_raw);
// display_print8_str(64, 4, green_str);
// ESP_LOGD(APDS_9960_TAG, "Green: %d", green_raw);
// }
// // blue
// error = apds_9960_read_word(APDS_9960_REG_BDATAL, &blue_raw);
// if (error != ESP_OK) {
// ESP_LOGW(APDS_9960_TAG, "read failed. %d", error);
// } else {
// sprintf(blue_str, "B:% 5d", blue_raw);
// display_print8_str(0, 6, blue_str);
// ESP_LOGD(APDS_9960_TAG, "Blue: %d", blue_raw);
// }
vTaskDelay(pdMS_TO_TICKS(100));
vTaskDelay(pdMS_TO_TICKS(1000));
}
display_fill_rect(0, 2, 128, 8, 0x00);
}
@ -386,6 +361,26 @@ void apds_9960_read_gesture() {
uint8_t last_2_index = byte_buffer - 2;
// head 2
for (int i = 0; i < 2; i++) {
u = gesture_values_raw_arr[i] & 0xff;
d = gesture_values_raw_arr[i] >> 8 & 0xff;
l = gesture_values_raw_arr[i] >> 16 & 0xff;
r = gesture_values_raw_arr[i] >> 24 & 0xff;
before_ud += (u - d) * 100 / u + d;
before_lr += (l - r) * 100 / l + r;
}
// last 2
for (int i = last_2_index; i < byte_buffer; i++) {
u = gesture_values_raw_arr[i] & 0xff;
d = gesture_values_raw_arr[i] >> 8 & 0xff;
l = gesture_values_raw_arr[i] >> 16 & 0xff;
r = gesture_values_raw_arr[i] >> 24 & 0xff;
after_ud += (u - d) * 100 / u + d;
after_lr += (l - r) * 100 / l + r;
}
for (int i = 0; i < byte_buffer; i++) {
if (i < 2) {
u = gesture_values_raw_arr[i] & 0xff;
@ -394,8 +389,6 @@ void apds_9960_read_gesture() {
r = gesture_values_raw_arr[i] >> 24 & 0xff;
before_ud += (u - d) * 100 / u + d;
before_lr += (l - r) * 100 / l + r;
printf("Gesture %08x %03d %03d %03d %03d\n", gesture_values_raw_arr[i],
u, d, l, r);
} else if (i >= last_2_index) {
u = gesture_values_raw_arr[i] & 0xff;
d = gesture_values_raw_arr[i] >> 8 & 0xff;
@ -403,24 +396,22 @@ void apds_9960_read_gesture() {
r = gesture_values_raw_arr[i] >> 24 & 0xff;
after_ud += (u - d) * 100 / u + d;
after_lr += (l - r) * 100 / l + r;
printf("Gesture %08x %03d %03d %03d %03d\n", gesture_values_raw_arr[i],
u, d, l, r);
}
}
printf("Δud: %d, Δlr: %d \n", after_ud - before_ud, after_lr - before_lr);
display_fill_rect(0, 4, 128, 8, 0x00);
display_fill_rect(0, 0, 128, 2, 0x00);
if (abs(after_ud - before_ud) * 2 > abs(after_lr - before_lr)) {
if (after_ud - before_ud < -80) {
display_print8_str(0, 4, "Gesture: up");
display_print8_str(0, 0, "Gesture: up");
} else if (after_ud - before_ud > 80) {
display_print8_str(0, 4, "Gesture: down");
display_print8_str(0, 0, "Gesture: down");
}
} else {
if (after_lr - before_lr < -120) {
display_print8_str(0, 4, "Gesture: left");
display_print8_str(0, 0, "Gesture: left");
} else if (after_lr - before_lr > 120) {
display_print8_str(0, 4, "Gesture: right");
display_print8_str(0, 0, "Gesture: right");
}
}
// display_print8_str(0, 0, gesture_str);
@ -524,7 +515,8 @@ void apds_9960_init() {
// // enable sleep after interrupt
// ESP_ERROR_CHECK(apds_9960_write(APDS_9960_REG_CONFIG3, 0x10));
ESP_ERROR_CHECK(apds_9960_write(APDS_9960_REG_ENABLE, 0b01101101));
ESP_ERROR_CHECK(
apds_9960_write(APDS_9960_REG_ENABLE, APDS_9960_ENABLE_VALUE));
apds_9960_int_evt_queue = xQueueCreate(10, NULL);
xTaskCreate(apds_9960_int_evt_handler, "apds_9960_gesture_fetch", 2048, NULL,

27
main/hw-ms03.c Normal file
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@ -0,0 +1,27 @@
#pragma once
#include "driver/gpio.h"
#include "freeRTOS/FreeRTOS.h"
#define HW_MS03_INT_GPIO 6
#define BEEP_GPIO 7
void hw_ms03_int_handler(void *arg) {
gpio_set_level(BEEP_GPIO, gpio_get_level(HW_MS03_INT_GPIO));
}
void hw_ms03_init() {
gpio_config_t io_conf = {};
io_conf.mode = GPIO_MODE_INPUT;
io_conf.pull_up_en = 0;
io_conf.pull_down_en = 1;
io_conf.intr_type = GPIO_INTR_ANYEDGE;
io_conf.pin_bit_mask = 1ULL << HW_MS03_INT_GPIO;
gpio_config(&io_conf);
io_conf.mode = GPIO_MODE_OUTPUT;
io_conf.pin_bit_mask = 1ULL << BEEP_GPIO;
io_conf.pull_down_en = 0;
gpio_config(&io_conf);
gpio_isr_handler_add(HW_MS03_INT_GPIO, hw_ms03_int_handler, NULL);
}

42
main/main.c
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@ -4,6 +4,7 @@
#include "esp_log.h"
#include "freertos/FreeRTOS.h"
#include "freertos/task.h"
#include "hw-ms03.c"
#include "i2c.c"
#include "light.c"
#include "mqtt.c"
@ -24,28 +25,29 @@ void app_main(void) {
init_display();
display_print8_str(0, 0, "Ambient Light");
// hw_ms03_init();
// ci_03t_init();
apds_9960_init();
apds_9960_auto_fetch();
// auto_fetch_temperature();
// pca9555_init();
// ui_input_init();
// xTaskCreate(mqtt_publish_ui_input, "mqtt_publish_ui_input", 2048, NULL, 10,
// NULL);
// vTaskDelay(pdMS_TO_TICKS(10));
auto_fetch_temperature();
pca9555_init();
ui_input_init();
xTaskCreate(mqtt_publish_ui_input, "mqtt_publish_ui_input", 2048, NULL, 10,
NULL);
vTaskDelay(pdMS_TO_TICKS(10));
light_play(light_mode_connection_wifi);
// if (connect_wifi()) {
// light_play(light_mode_idle);
// }
// vTaskDelay(pdMS_TO_TICKS(1000));
// mqtt_app_start();
// if (waiting_for_mqtt_connected()) {
// light_play(light_mode_mqtt_connected);
// }
// if (waiting_for_desktop_online()) {
// light_play(light_mode_desktop_online);
// }
// while (waiting_and_get_colors()) {
// light_play_colors(NUMBER_OF_LEDS * 3, mqtt_colors_buffer);
// }
if (connect_wifi()) {
light_play(light_mode_idle);
}
vTaskDelay(pdMS_TO_TICKS(1000));
mqtt_app_start();
if (waiting_for_mqtt_connected()) {
light_play(light_mode_mqtt_connected);
}
if (waiting_for_desktop_online()) {
light_play(light_mode_desktop_online);
}
while (waiting_and_get_colors()) {
light_play_colors(NUMBER_OF_LEDS * 3, mqtt_colors_buffer);
}
}