ECE4180 Final Project
Dependencies: 4DGL-uLCD-SE ESP8266NodeMCUInterface Motor mbed
Fork of IoT_Blinds_Control by
main.cpp
- Committer:
- jhooper7
- Date:
- 2016-12-10
- Revision:
- 0:d0cfb841595e
- Child:
- 1:d103c1f37bc6
File content as of revision 0:d0cfb841595e:
#include "mbed.h" #include "TCPSocketConnection.h" #include "ESP8266Interface.h" #include "uLCD_4DGL.h" #include "Motor.h" ESP8266Interface wifi(p28, p27, p26);//, "JACK", "ClarentBloodArthur"); TCPSocketConnection socket; //Serial pc(USBTX, USBRX); //Used for testing functionality without wifi Motor m1(p23, p5, p6); //pwm, fwd, rev //this one is for raising/lowering blinds Motor m2(p24, p7, p8); //this one is for changing the tilt of them. DigitalOut led1(LED1); DigitalOut led2(LED2); DigitalOut led3(LED3); DigitalOut led4(LED4); int heightpos=0; int tiltpos=0; float mspeed=1; //can be changed based on rate here; char inData[5]; char previnData[5]; char inChar; int index=0; //CHANGE THESE const char* wifissid = "SSID"; const char* password = "Pass"; const char* ipaddress="IP"; const int port = PORT; void closetiltup(){//sets front of blinds to be tilted up while(tiltpos>-10){ m2.speed(-mspeed); wait(mspeed*.02); tiltpos=tiltpos-(mspeed); } m2.speed(0); } void closetiltdown(){ while(tiltpos<10){ m2.speed(mspeed); wait(mspeed*.02); tiltpos=tiltpos+(mspeed); } m2.speed(0); } void tiltto(float pos){ if(pos>tiltpos){ m2.speed(mspeed); while(tiltpos<pos){ wait(mspeed*.02); tiltpos=tiltpos+(mspeed); } m2.speed(0); } else if(pos<tiltpos){ m2.speed(-mspeed); while(tiltpos>pos){ wait(mspeed*.02); tiltpos=tiltpos-(mspeed); } m2.speed(0); } else{ } } void fullup(){ while(heightpos<10){ m1.speed(mspeed); wait(mspeed*2); heightpos=heightpos+(mspeed); } m1.speed(0); } void fulldown(){ while(heightpos>0){ m1.speed(-mspeed); wait(mspeed); heightpos=heightpos-(mspeed); } m1.speed(0); } void moveto(float pos){ if(pos>heightpos){ m1.speed(mspeed); while(heightpos<pos){ wait(mspeed*1.3); heightpos=heightpos+(mspeed); } m1.speed(0); } else if(pos<heightpos){ m1.speed(-mspeed); while(heightpos>pos){ wait(mspeed*.08); heightpos=heightpos-(mspeed); } m1.speed(0); } else{ } } void resettozero(){ moveto(0); tiltto(0); } int main() { uLCD_4DGL ulcd(p9, p10, p11); // this is for an mbed-side print of current status float num; float prevnum; int n; wifi.init(); bool result; result = wifi.connect(wifissid, password); if(!result){ ulcd.printf("error"); while(!result){ result=wifi.connect(wifissid, password); } } ulcd.printf("wifi c"); if(socket.connect(ipaddress, port)<0){ ulcd.printf("\ndevice nc");//hosted via laptop while(socket.connect(ipaddress,port)<0){ } } ulcd.printf("\ndevice c"); //socket.send("1", 1); while(1){ /* if(!wifi.is_connected()){ result = wifi.connect(wifissid, password); if(!result){ ulcd.printf("error"); while(!result){ result=wifi.connect(wifissid, password); } } } while(wifi.is_connected()){*/ led1=!led1; /* if(!socket.is_connected()){ while(socket.connect(ipaddress,port)<0){ led2=!led2; } }*/ n=0; socket.send("1",1); // socket.close(); //while(socket.connect(ipaddress,port)<0){ led2=!led2; // } n=socket.receive(inData, sizeof(inData)); led3=!led3; ulcd.cls(); // ulcd.printf("\n%c%c%c%c%c", inData[0], inData[1], inData[2], inData[3], inData[4]); prevnum=num; num = ((inData[3]-48)*10)+(inData[4]-48); // ulcd.printf("\n%f", num); if(inData[2]=='-') num=-num; if((num>10)or(num<-10)) num=prevnum; //do nothing if invalid input index=0; if(inData[0]=='0') resettozero(); else if(inData[0]=='1') closetiltup(); else if(inData[0]=='2') closetiltdown(); else if(inData[0]=='3') tiltto(num); else if(inData[0]=='4') fullup(); else if(inData[0]=='5') fulldown(); else if(inData[0]=='6'){ if(num>=0) moveto(num); } ulcd.locate(0,0); ulcd.printf("Height is %i\n Tilt is %i\n", heightpos, tiltpos); //if(n>-1){ socket.close(); // if(!socket.is_connected()){ // ulcd.printf("\ndevice nc");//hosted via laptop while(socket.connect(ipaddress,port)<0){ led4=!led4; } ulcd.printf("\ndevice rc"); //} //} }//} socket.close(); wifi.disconnect(); }