a
Dependencies: mbed Sht31 MAX44009
main.cpp
- Committer:
- kentwong
- Date:
- 2020-04-24
- Revision:
- 8:cca99ce7c5bc
- Parent:
- 7:e4984029012e
File content as of revision 8:cca99ce7c5bc:
#include "mbed.h" #include "Sht31.h" #include "MAX44009.h" #include "mbed_wait_api.h" #include <list> Serial pc(p13,p14); Sht31 sht31(p9, p10); MAX44009 myMAX44009 ( p9, p10, MAX44009::MAX44009_ADDRESS_A0_GND, 400000 ); I2C i2c(p9, p10); //pins for I2C communication (SDA, SCL) DigitalOut Batt2SYS(p8); DigitalOut BLE_Can_receive(p11); // 0 = can recieve class RGB{ public : int C; int R; int G; int B; }; class RGBf{ public : float C; float R; float G; float B; }; class TandH{ public : float t; float h; }; RGB RGBdata[10]; TandH THdata[10]; float luxdata[10]; int counter = 10; //to tackle with 0 mod 10 problem, use 10 instead; int sendCounter=0; // for sending in auto/ instant measure int _30Scounter=0; bool allfilled = false; RGBf RGBavg; TandH THavg; float luxavg; bool wrote=false; DigitalOut led(LED1); char signal[1]; //LocalFileSystem local("local"); //Create the local filesystem under the name "local" int main() { // set_time(1587699064); //pc.read pc.baud ( 19200 ); Batt2SYS = 0; while(1) { counter = counter%10; //time_t seconds = time(NULL); { int sensor_addr = 41 << 1; char id_regval[1] = {146}; char data[1] = {0}; i2c.write(sensor_addr,id_regval,1, true); i2c.read(sensor_addr,data,1,false); // Initialize color sensor char timing_register[2] = {129,192}; //char timing_register[2] = {129,0}; i2c.write(sensor_addr,timing_register,2,false); char control_register[2] = {143,0}; char temp[2]={0,0}; //char control_register[2] = {143,3}; i2c.write(sensor_addr,control_register,2,false); char enable_register[2] = {128,3}; i2c.write(sensor_addr,enable_register,2,false); // Read data from color sensor (Clear/Red/Green/Blue) char clear_reg[1] = {148}; char clear_data[2] = {0,0}; i2c.write(sensor_addr,clear_reg,1, true); i2c.read(sensor_addr,clear_data,2, false); int clear_value = ((int)clear_data[1] << 8) | clear_data[0]; char red_reg[1] = {150}; char red_data[2] = {0,0}; i2c.write(sensor_addr,red_reg,1, true); i2c.read(sensor_addr,red_data,2, false); int red_value = ((int)red_data[1] << 8) | red_data[0]; char green_reg[1] = {152}; char green_data[2] = {0,0}; i2c.write(sensor_addr,green_reg,1, true); i2c.read(sensor_addr,green_data,2, false); int green_value = ((int)green_data[1] << 8) | green_data[0]; char blue_reg[1] = {154}; char blue_data[2] = {0,0}; i2c.write(sensor_addr,blue_reg,1, true); i2c.read(sensor_addr,blue_data,2, false); int blue_value = ((int)blue_data[1] << 8) | blue_data[0]; // print sensor readings if (allfilled == true){ RGBavg.C = RGBavg.C*10-RGBdata[counter].C; RGBavg.R = RGBavg.R*10-RGBdata[counter].R; RGBavg.G = RGBavg.G*10-RGBdata[counter].G; RGBavg.B = RGBavg.B*10-RGBdata[counter].B; } RGBdata[counter].C= clear_value; RGBdata[counter].R= red_value; RGBdata[counter].G= green_value; RGBdata[counter].B= blue_value; //pc.printf("Clear (%d), Red (%d), Green (%d), Blue (%d)\n", clear_value, red_value, green_value, blue_value); } { MAX44009::MAX44009_status_t aux; MAX44009::MAX44009_vector_data_t myMAX44009_Data; aux = myMAX44009.MAX44009_Configuration ( MAX44009::CONFIGURATION_CONT_DEFAULT_MODE, MAX44009::CONFIGURATION_MANUAL_DEFAULT_MODE, MAX44009::CONFIGURATION_CDR_CURRENT_NOT_DIVIDED, MAX44009::CONFIGURATION_TIM_800_MS ); aux = myMAX44009.MAX44009_GetLux( MAX44009::RESOLUTION_EXTENDED_RESOLUTION, &myMAX44009_Data ); aux = myMAX44009.MAX44009_GetCurrentDivisionRatio ( &myMAX44009_Data ); aux = myMAX44009.MAX44009_GetIntegrationTime ( &myMAX44009_Data ); if (allfilled == true){ luxavg = luxavg*10-luxdata[counter]; } luxdata[counter] = myMAX44009_Data.lux; } { //float t = sht31.readTemperature(); //float h = sht31.readHumidity(); if (allfilled == true){ THavg.t = THavg.t*10-THdata[counter].t; THavg.h = THavg.h*10-THdata[counter].h; } THdata[counter].t = sht31.readTemperature(); THdata[counter].h = sht31.readHumidity(); //pc.printf("[TEMP/HUM]"); } //////////////////////////////////////////////////////////////////// /*BLE_Can_receive = 0; wait_ms(5); pc.printf("counter119\n = %d", counter); for (int i =0;i<10;i++){ pc.printf("i=%d ,", i); pc.printf("%d,%d,%d,%d,%3.2f,%3.2f%,%0.001f\n", RGBdata[i].C, RGBdata[i].R, RGBdata[i].G, RGBdata[i].B,THdata[i].t, THdata[i].h,luxdata[i]); } BLE_Can_receive = 1;*/ if (allfilled == true){ RGBavg.C = ((RGBavg.C+RGBdata[counter].C)/10.0); RGBavg.R = ((RGBavg.R+RGBdata[counter].R)/10.0); RGBavg.G = ((RGBavg.G+RGBdata[counter].G)/10.0); RGBavg.B = ((RGBavg.B+RGBdata[counter].B)/10.0); THavg.t = (THavg.t+THdata[counter].t)/10; THavg.h = (THavg.h+THdata[counter].h)/10; luxavg = (luxavg+luxdata[counter])/10; } else{ RGBavg.C= (RGBavg.C*(counter) + RGBdata[counter].C) /(float)(counter+1); RGBavg.R= (RGBavg.R*(counter) + RGBdata[counter].R) /(float)(counter+1); RGBavg.G= (RGBavg.G*(counter) + RGBdata[counter].G) /(float)(counter+1); RGBavg.B= (RGBavg.B*(counter) + RGBdata[counter].B) /(float)(counter+1); THavg.t = ((THavg.t*(counter) + THdata[counter].t))/(counter+1); THavg.h = ((THavg.h*(counter) + THdata[counter].h))/(counter+1); luxavg = ((luxavg*(counter) + luxdata[counter]))/(counter+1); } //pc.printf("test"); // pc.printf("Shine Like:%s,%d,%d,%d,%d,%3.2f,%3.2f%,%0.001f\n",signal,(int)(RGBavg.C+0.5), (int)(RGBavg.R+0.5), (int)(RGBavg.G+0.5), (int)(RGBavg.B+0.5),THavg.t, THavg.h,luxavg); BLE_Can_receive = 0; counter++; // if (counter == 10 &&_30Scounter==3){ //_30Scounter=0; // FILE *fp = fopen("/local/out.txt", "a"); //fprintf(fp, "[%d,%d,%d,%d,%d,%d,%d,%0.001f],\n",seconds,(int)(RGBavg.C+0.5), // (int)(RGBavg.R+0.5), (int)(RGBavg.G+0.5), (int)(RGBavg.B+0.5),(int)THavg.t,(int) THavg.h,luxavg); // fclose(fp); // allfilled = true; // } //else if (counter==10){ // _30Scounter++; allfilled = true; } BLE_Can_receive = 1; if (wrote){ /* if (signal[0]=='s'){ FILE *fp = fopen("/local/out.txt", "r"); char str[45]; while(!feof(fp)) if(fgets(str,40,fp)!=NULL) { pc.printf("%s\n",str); //wait_ms(300); } fclose(fp); wrote=false; } else */ { sendCounter++; pc.printf("%d,%d,%d,%d,%d,%3.2f,%3.2f%,%0.001f\n",sendCounter,(int)(RGBavg.C+0.5), (int)(RGBavg.R+0.5), (int)(RGBavg.G+0.5), (int)(RGBavg.B+0.5),THavg.t, THavg.h,luxavg); if (sendCounter == 10){ //10 = all element is filled { if (signal[0]=='i'){ pc.printf("end"); } else if (signal[0]=='a') { pc.printf("aend"); } sendCounter=0; wrote=false; } } } else{ if(pc.readable() ) { led=!led; pc.scanf("%1s", signal); wrote=true; } } } }