REVO_1_SteeringDisplay
Dependencies: Digital_InOut KS0108 mbed
Diff: Steering.cpp
- Revision:
- 0:313541d8f8be
diff -r 000000000000 -r 313541d8f8be Steering.cpp --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/Steering.cpp Sat Sep 27 18:43:15 2014 +0000 @@ -0,0 +1,293 @@ +#include "Steering.h" + +void HomeScreen() +{ + CANMessage Rxmsg; + ftc rcv; + rcv.FLOAT=0.0; + char dat[4]; + float power_ratio=0.0; + printf("Homescreen\n\r"); + display.ClearScreen(); + display.SelectFont(Arial12,BLACK,ReadData); + display.GotoXY(0,0); + display.PrintString(" HOME SCREEN"); + while( !(biSWTL.read() || biSWTR.read() || biSWBR.read()) ) + { + if(CAN_Steering.read(Rxmsg)) + { + for(int i=0; i<4; i++) + rcv.C_FLOAT[i]=Rxmsg.data[i]; + if(Rxmsg.id == BATTERY_VOLTAGE_ID) + { + display.GotoXY(0,16); + display.PrintString(" PV: "); + sprintf(dat,"%2.2f",rcv.FLOAT); + display.PrintString(dat); + display.PrintString("V"); + } + if(Rxmsg.id == BATTERY_POWER_ID) + { + display.GotoXY(64,16); + display.PrintString(" PP: "); + power_ratio=rcv.FLOAT/10000; + sprintf(dat,"%2.2f",power_ratio); + display.PrintString(dat); + display.PrintString("kW"); + } + if(Rxmsg.id == PCM_STATE_ID) + { + display.GotoXY(0,32); + display.PrintString(" STATE: "); + display.PrintNumber(rcv.FLOAT); + } + } + } + return; +} + +void AMSScreen1() +{ + CANMessage Rxmsg; + ftc rcv; + char dat[4]; + rcv.FLOAT=0.0; + printf("AMSScreen1"); + display.ClearScreen(); + display.SelectFont(Arial12,BLACK,ReadData); + while( !(biSWTL.read() || biSWTR.read() || biSWBL.read()) ) + { + printf("iN LOOP1"); + if(CAN_Steering.read(Rxmsg)) + { + for(int i=0; i<4; i++) + rcv.C_FLOAT[i]=Rxmsg.data[i]; + if(Rxmsg.id == BATTERY_VOLTAGE_ID) + { + display.GotoXY(0,0); + display.PrintString(" pv: "); + sprintf(dat,"%2.2f",rcv.FLOAT); + display.PrintString(dat); + } + if(Rxmsg.id == BATTERY_POWER_ID) + { + display.GotoXY(0,16); + display.PrintString(" pp: "); + sprintf(dat,"%2.2f",rcv.FLOAT); + display.PrintString(dat); + } + if(Rxmsg.id == BATTERY_CURRENT_ID) + { + display.GotoXY(0,32); + display.PrintString(" pi: "); + sprintf(dat,"%2.2f",rcv.FLOAT); + display.PrintString(dat); + } + + //Column 2 + if(Rxmsg.id == BATTERY_MIN_CELLVOLTAGE_ID) + { + display.GotoXY(49,0); + display.PrintString(" min cell V: "); + sprintf(dat,"%2.2f",rcv.FLOAT); + display.PrintString(dat); + } + if(Rxmsg.id == BATTERY_MAX_CELLVOLTAGE_ID) + { + display.GotoXY(49,16); + display.PrintString(" max cell V: "); + sprintf(dat,"%2.2f",rcv.FLOAT); + display.PrintString(dat); + } + if(Rxmsg.id == BATTERY_AVG_CELLVOLTAGE_ID) + { + display.GotoXY(49,32); + display.PrintString(" avg cell V: "); + sprintf(dat,"%2.2f",rcv.FLOAT); + display.PrintString(dat); + } + } + screen=1; + } + return; +} + +void AMSScreen2() +{ + CANMessage Rxmsg; + ftc rcv; + char dat[4]; + //ftc send; + rcv.FLOAT=0.0; + //send.FLOAT=65.6432; + printf("AMSScreen2\n\r"); + display.ClearScreen(); + display.SelectFont(Arial12,BLACK,ReadData); + while( !(biSWTL.read() || biSWTR.read() || biSWBL.read()) ) + { + printf("iN LOOP2"); + if(CAN_Steering.read(Rxmsg)) + { + for(int i=0; i<4; i++) + rcv.C_FLOAT[i]=Rxmsg.data[i]; + if(Rxmsg.id == BATTERY_MIN_CELLTEMPERATURE_ID) + { + display.GotoXY(0,0); + display.PrintString(" mn cll T: "); + sprintf(dat,"%2.2f",rcv.FLOAT); + display.PrintString(dat); + } + if(Rxmsg.id == BATTERY_MAX_CELLTEMPERATURE_ID) + { + display.GotoXY(0,16); + display.PrintString(" mx cll T: "); + sprintf(dat,"%2.2f",rcv.FLOAT); + display.PrintString(dat); + } + if(Rxmsg.id == BATTERY_AVG_CELLTEMPERATURE_ID) + { + display.GotoXY(0,32); + display.PrintString(" avg cell T: "); + sprintf(dat,"%2.2f",rcv.FLOAT); + display.PrintString(dat); + } + + //Column 2 + if(Rxmsg.id == AMS_BATTERY_STATE) + { + if((rcv.C_FLOAT[0] & 0xC0) == 0xC0) + { + display.GotoXY(70,0); + display.PrintString(" AIRS: "); + display.PrintString("CLOS"); + } + else + { + display.GotoXY(70,0); + display.PrintString(" AIRS: "); + display.PrintString("OPEN"); + } + + if((rcv.C_FLOAT[0] & 0x04) == 0x04) + { + display.GotoXY(70,16); + display.PrintString(" Prchrg: "); + display.PrintString("on"); + } + else + { + display.GotoXY(70,16); + display.PrintString(" Prchrg: "); + display.PrintString("off"); + } + } + if(Rxmsg.id == AMS_BATTERY_STATE) + { + display.GotoXY(70,16); + display.PrintString(" Prchrg: "); + display.PrintString("off"); + } + } + screen=0; + } + return; +} + +void ON() +{ + Txmsg_Drive.data[0]|=(1<<0); + wait(0.1); + + display.ClearScreen(); + display.SelectFont(Arial12,BLACK,ReadData); + display.GotoXY(26,16); + display.PrintString(" ON INITIATED"); + printf("ON Initiated\n\r"); + //screen=0; + return; +} + +void ResetCommand() +{ + Txmsg_Drive.data[0]&=~(1<<0); + wait(0.1); + + display.ClearScreen(); + display.SelectFont(Arial12,BLACK,ReadData); + display.GotoXY(16,16); + display.PrintString(" RESET INITIATED"); + printf("Reset Initiated\n\r"); + //screen=0; + + return; +} + +void Powerstream() +{ + CANMessage Rxmsg; + float power_ratio; + ftc rcv; + rcv.FLOAT=0.0; + if(CAN_Steering.read(Rxmsg)) + { + if(Rxmsg.id == BATTERY_POWER_ID) + { + for(int i=0; i<4; i++) + rcv.C_FLOAT[i]=Rxmsg.data[i]; + power_ratio=rcv.FLOAT/80000; + ledstream.write(power_ratio); + } + } +} + +void Init() +{ + pc.baud(230400); + CAN_Steering.frequency(500000); + for(int i = 0; i<4; i++) + drive[i] = (0x00); + ledstream.write(0); + call_ledstream.attach(&Powerstream,0.1); +} + +int main() +{ + Init(); + //int flag=1; + wait(0.1); + display.GotoXY(10,16); + display.SelectFont(Arial_14,BLACK,ReadData); + display.PrintString("Penn Electric Racing"); + display.GotoXY(20,32); + display.PrintString("Live The Dream"); + screen=0; + wait(1); + + while(1) + { + if(biSWBL.read()) + HomeScreen(); + + if(biSWTR.read()) + { + ON(); + wait(1); + HomeScreen(); + } + if(biSWTL.read()) + { + ResetCommand(); + wait(1); + HomeScreen(); + } + if(biSWBR.read()) + { + if(screen) + AMSScreen2(); + else + AMSScreen1(); + } + CAN_Steering.write(Txmsg_Drive); + wait(0.3); + } +}