【luckfox】3、计算重量差

前言

本章结合之前的hx711驱动,实现读取质量,记录时间及剩余质量并存入csv文件,计算质量差并总计。

代码

luckfox-pico\project\app\test_app\hx711\hx711_app_addtime.c

#include 
#include 
#include 
#include 
// #include 
#include 
#include 
#include 

#define IIO_DEVICE "/sys/bus/iio/devices/iio:device0"
#define SENSOR_CALI_PATH_OFFSET "/root/hx711_cal_offset"
#define SENSOR_CALI_PATH_SCALE "/root/hx711_cal_scale"

static int cal_offset = 8500000;    // save raw value without test items

static int cal_scale = 475;         // when set phone, 1g is 475
static int cal_weight = 187;  // the weight of phone

// static float weight = 0;
static int weight = 0;


//--------------- hx711 value process ---------------
#define LIST_NUM_MAX 64
#define CSV_PATH "/root/hx711.csv"

int v1,v2;
int flag_change;

struct weight_data{
    int weight;
    time_t time;
};

struct weight_data list[LIST_NUM_MAX];
int current_list_num=0;

int drink_water=0;

//--------------- hx711 value process ---------------

// float convert_to_weight(int sensor_data) {
int convert_to_weight(int sensor_data) {
    int weight;
    // weight = (float)(sensor_data - cal_offset) / cal_scale;

    // printf("\nsensor_raw=%d,cal_offset=%d,cal_scale=%d\n",sensor_data,cal_offset,cal_scale);
    if(cal_scale != 0)
        weight = (sensor_data - cal_offset) / cal_scale;
    else
        weight = 0;

    // printf("Sensor data: %.1f\n", weight);
    // printf("Sensor data: %d\n", weight);

    return weight;
}


int get_hx711_raw(){
    int fd;
    char buf[64];
    ssize_t num_read;

    fd = open(IIO_DEVICE "/in_voltage0_raw", O_RDONLY);
    if (fd < 0) {
        perror("Failed to open iio device");
        return 1;
    }

    num_read = read(fd, buf, sizeof(buf) - 1);
    if (num_read < 0) {
        perror("Failed to read sensor data");
        close(fd);
        return 1;
    }
 
    close(fd);
 
    buf[num_read] = '\0';
    int sensor_data = atoi(buf);
    // printf("  raw sensor_data=%d\n",sensor_data);

    return sensor_data;
}

// float get_hx711_value(){
int get_hx711_value(){

    int sensor_data = get_hx711_raw();

    weight = convert_to_weight(sensor_data);

    return weight;
}

// save scale&offset to file 
void set_cal_value(){
    int fd;
    char tmp_char[64];

    fd = open(SENSOR_CALI_PATH_OFFSET, O_CREAT|O_RDWR ,0777);
    if (fd < 0) {
        perror("Failed to open cal offset.");
        return;
    }
 
    // printf("-------\ncal_offset=%d\n",cal_offset);
    memset(tmp_char,0,sizeof(tmp_char));
    sprintf(tmp_char,"%d\0",cal_offset);
    // printf("xxx tmp_char=[%s]\n",tmp_char);
    write(fd, tmp_char, sizeof(tmp_char));

    close(fd);

    fd = open(SENSOR_CALI_PATH_SCALE, O_CREAT|O_RDWR ,0777);
    if (fd < 0) {
        perror("Failed to open cal offset.");
        return;
    }

    // printf("cal_scale=%d\n",cal_scale);
    memset(tmp_char,0,sizeof(tmp_char));
    sprintf(tmp_char,"%d\0",cal_scale) ;
    // printf("xxx tmp_char=[%s]\n-------\n",tmp_char);
 
    write(fd, tmp_char, sizeof(tmp_char)-1);
    close(fd);
}

void print_cal_value_and_raw(int sensor_raw_tmp){
    printf("cal&raw:\n");
    printf("   cal_offset=%d sensor_raw=%d\n", cal_offset, sensor_raw_tmp);
    printf("   test_offset\t%d\n   cal_weight\t%d\n   cal_scale\t%d\n",
            sensor_raw_tmp - cal_offset, cal_weight, cal_scale);
    printf("\n");
}

void print_cal_value(){
    printf("hx711 calibration value\n");
    printf("   cal_offset\t%d\n   cal_weight\t%d\n   cal_scale\t%d\n",
            cal_offset, cal_weight, cal_scale);
    printf("\n");
}

void sns_calibration(){
    int cal_test_num = 10;
    int cal_average = 0;
    int cal_test_tmp = 0;
    int cal_scale_raw = 0;

    // test 10 times to get offset average
    for(int i=0; i<cal_test_num; i++){
        cal_test_tmp = get_hx711_raw();
        usleep(10);
        cal_average = (cal_average * i + cal_test_tmp)/(i+1);
    }

    cal_offset=cal_average;

    usleep(20);

    printf("!!! Please put test items on the board whose weight same with cmd3\nWaiting input char to continue ...\n");
    getchar();

    cal_test_tmp = get_hx711_raw();
    cal_scale_raw = cal_test_tmp - cal_offset;
    cal_scale = (cal_scale_raw)/cal_weight;

    print_cal_value_and_raw(cal_test_tmp);

    set_cal_value();
}


void get_cal_value(){
    int tmp_offset;
    int tmp_scale;
    char tmp_file_value[64];
    int fd;

    // printf("get_cal_value\n");

    fd = open(SENSOR_CALI_PATH_OFFSET, O_RDWR,0777);
    if (fd < 0) {
        perror("Failed to open cal offset.");
        return;
    }

    read(fd, tmp_file_value, sizeof(tmp_file_value) - 1);
    // printf("tmp_file_value=%s\n",tmp_file_value);
    tmp_offset = atoi(tmp_file_value);
    // printf("tmp_offset=%d\n",tmp_offset);
 
    close(fd);

    fd = open(SENSOR_CALI_PATH_SCALE, O_RDWR,0777);
    if (fd < 0) {
        perror("Failed to open cal offset.");
        return;
    }
 
    memset(tmp_file_value,0,sizeof(tmp_file_value));
    read(fd, tmp_file_value, sizeof(tmp_file_value) - 1);
    tmp_scale = atoi(tmp_file_value);
    // printf("tmp_offset=%d\n",tmp_scale);
 
    close(fd);

    cal_offset = tmp_offset;
    cal_scale = tmp_scale;
}

#define LEN_MAX 30

void save_to_csv(struct weight_data value)
{
    char tmp_c[LEN_MAX];
    char * tmp;

    FILE *fp = fopen(CSV_PATH, "a+");
    if (fp == NULL) {
        fprintf(stderr, "fopen() failed.\n");
        exit(EXIT_FAILURE);
    }

    struct tm *tm_t;
    tm_t = localtime(&value.time);
    strftime(tmp_c,LEN_MAX,"%F %T",tm_t);
    printf("time:%s\t",tmp_c);

    fprintf(fp, tmp_c);
    fprintf(fp, " | ");

    memset(tmp_c,0,LEN_MAX);
    sprintf(tmp_c, "%d", value.weight);
    printf("weight:%s\n",tmp_c);
    fprintf(fp, tmp_c);
    fprintf(fp, "\n");

    fclose(fp);
}


int value_changed(int value1, int value2)
{
    if(value1 != value2)
    {
        flag_change = 1;
        // printf("change value v1=%d  v2=%d\n",value1,value2);
    }else{
        if(flag_change == 1 && value1 != 0){
            // save value
            // printf("change value %d\n",value1);
            list[current_list_num].weight = value1;
            // printf("change value %d\n",list[current_list_num].weight);

            // save time
            time_t tnow = time(0);
            // printf("当前时间为:%ld\r\n",tnow);
            list[current_list_num].time = tnow;

            if(list[current_list_num].weight < list[current_list_num-1].weight){
                drink_water = drink_water + 
                    list[current_list_num-1].weight - list[current_list_num].weight;
                printf("== drink %dmL\n",drink_water);
            }
            // save value to file
            save_to_csv(list[current_list_num]);

            current_list_num++;

            flag_change = 0;
        }
    }
    return flag_change;
}


int get_value()
{
    int value = 0;

    // get value
    value = get_hx711_value();

    // save value to v1&v2
    v1 = v2;
    v2 = value;

    // judge
    value_changed(v1,v2);

    return value;
}


int main(int argc, char *argv[]) {

    char cmd1[16];
    char cmd2[16];
    char cmd3[16];
    int ret;
    int val_tmp=0;

    // calibration: put the items whose weight is known. weight sends to cmd3
    // ./hx771_app -c 187
    if(argc == 3){
        strcpy(cmd2,argv[1]);
        strcpy(cmd3,argv[2]);
        printf("cmd2=%s cmd3=%s\n",cmd2,cmd3);
        if(strcmp(cmd2, "-c") == 0){
            printf("get cal cal_weight %s\n",cmd3);
            cal_weight=atoi(cmd3);        // save the weight of cal items
        } else {
            printf("hx711 no cal_weight\n");
            return 0;
        }

        sns_calibration();

		sleep(1);

        // test the calibration result
        val_tmp = get_hx711_value();
        printf("sensor value: %d\n", val_tmp);

		return 0;
    }

    printf("-------------test-------------\n");

    get_cal_value();
    print_cal_value();

    int sensor_data;
    while(1){
        // val_tmp = get_hx711_value();
        val_tmp = get_value();
        // if(val_tmp != 0)
        //     printf("%02d: %d\n",50 - test_num,val_tmp);
        sleep(1);
    }

    printf("--------------------------\n");

    return 0;
}

编译

luckfox-pico\project\app\test_app\hx711\build.sh

export PATH=/home/youkai/0_pro/luckfox/luckfox-pico/tools/linux/toolchain/arm-rockchip830-linux-uclibcgnueabihf/bin:$PATH
source ~/.bashrc  
cd ~/0_pro/luckfox/luckfox-pico/project/app/test_app/hx711
arm-rockchip830-linux-uclibcgnueabihf-gcc hx711_app_addtime.c -o hx711_app_addtime

运行

运行bat可以进行快速测试,放在windows本地

time_get_hx711.bat

scp [email protected]:/home/youkai/0_pro/luckfox/luckfox-pico/project/app/test_app/hx711/hx711_app_addtime .

adb push hx711_app_addtime /root/
adb shell "chmod 777 /root/hx711_app_addtime"
adb shell "./root/hx711_app_addtime"

结果

代码实现了测试重量,并计算出喝水的毫升数。
【luckfox】3、计算重量差_第1张图片

读取保存的时间和重量。

# cat hx711.csv
2023-11-15 19:42:55 | 68
2023-11-15 19:43:07 | 194
2023-11-15 19:43:14 | 3
2023-11-15 19:43:27 | 68
2023-11-15 19:43:38 | 10

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