The Code Repository for the REV0 Steering Wheel.
Dependencies: CANBuffer KS0108_fork mbed-rtos mbed CAN Addresses
Fork of REVO_Updated_Steering by
Diff: Steering.cpp
- Revision:
- 40:92f08fdc32df
- Parent:
- 39:e6aa6dcf3f75
- Child:
- 41:7c5ea411fad2
--- a/Steering.cpp Sun Feb 08 05:47:05 2015 +0000 +++ b/Steering.cpp Sun Feb 08 08:48:17 2015 +0000 @@ -24,11 +24,6 @@ { Init(); - display.GotoXY(10,16); - display.SelectFont(Arial_14,BLACK,ReadData); - display.PrintString("Penn Electric Racing"); - wait(1); - CANMessage Rxmsg; Thread Thread2(ProcessButtons); @@ -50,7 +45,6 @@ BRButtonGreen; TLButtonGreen; TRButtonGreen; - DriveStatus = 0; // Off //initialize screen Startup Process wait(2); } @@ -108,234 +102,305 @@ // Printing CAN message data: // printf("Message ID: 0x%x len: %d hex: 0x%x float: %f\r\n", Rxmsg.id, Rxmsg.len, *((int*)((void*)(&Rxmsg.data[0]))), *((float*)((void*)(&Rxmsg.data[0])))); // for (int i=0; i < Rxmsg.len; i++) printf("D[%d]: %x ", i, Rxmsg.data[i]); - switch (Rxmsg.id) { + if (Rxmsg.id == MODE_TX_ID) { + CANFloat = GetFloat; + sprintf(&DriveStatus,"%3.2d", int(CANFloat)); //confirm that I am interpreting this correctly + DriveStatusRequestBuffer = !DriveStatus; + if (DriveStatus == 1) { + BLButtonGreen; + } else { + BLButtonRed; + } + } + + switch (CurrScreen) { + case HOME_SCREEN: + switch (Rxmsg.id) { - // HOME SCREEN ******************************************************************************************* - case SOC_TX_ID: - CANFloat = GetFloat; - if (abs(CANFloat*100 - *BigBatLifeBuffer) >= 1) { - sprintf(BigBatLifeBuffer,"%3.2d", int(CANFloat*100)); // Big battery life percentage - display.PutString(1,40,BigBatLifeBuffer); - } - break; - case SYS_GLV_SOC_ID: - CANFloat = GetFloat; - if (abs(CANFloat*100 - *SmallBatLifeBuffer) >= 1) { - sprintf(SmallBatLifeBuffer,"%3.2d", int(CANFloat*100)); // Small battery life percentage - display.PutString(1,60,SmallBatLifeBuffer); - } - break; - case PCM_FRPM_ID: - CANFloat = GetFloat; - CANFloat2 = GetFloat4; - if (abs((CANFloat+CANFloat2)*WheelCircumference*30 - *CarSpdBuffer) >= 1) { - sprintf(CarSpdBuffer,"%3.2d", int((CANFloat+CANFloat2)*WheelCircumference*30)); // Miles per hour - display.PutString(1,108,CarSpdBuffer); - } - break; - case TEMP_MMA_TX_ID_BASE2: - CANFloat = GetFloat; - if (abs((CANFloat*9.0/5.0)+32 - *AvgBatTBuffer) >=1) { - sprintf(AvgBatTBuffer,"%3.2d", int((CANFloat*9.0/5.0)+32)); // Degrees F - display.PutString(3,39,AvgBatTBuffer); - //display.PutString(5,108,AvgBatTBuffer); this is for the battery screen - } - break; - case TEMP_MMA_TX_ID_BASE: - CANFloat2 = GetFloat4; - if (abs((CANFloat2*9.0/5.0)+32 - *MaxBatTBuffer) >=1) { - sprintf(MaxBatTBuffer,"%3.2d", int((CANFloat2*9.0/5.0)+32)); // Figure out Max/Min and Figure out various screen display - display.PutString(3,103,MaxBatTBuffer); - //display.PutString(5,20,MaxBatTBuffer); this is for the battery screen - } - CANFloat = GetFloat; - if (abs((CANFloat*9.0/5.0)+32 - *MinBatTBuffer) >= 1) { - sprintf(MinBatTBuffer,"%3.2d", int((CANFloat*9.0/5.0)+32)); - //display.PutString(5,67,MinBatTBuffer); this is for the battery screen - } - break; - case MOC_MOTEMP_ID: - CANFloat = GetFloat; - if (abs((CANFloat*9.0/5.0)+32 - *LMtrTmpBuffer) >= 1) { - sprintf(LMtrTmpBuffer,"%3.2d", int((CANFloat*9.0/5.0)+32)); // We need to figure out how to handle the bytes for left and right motors - display.PutString(5,34,LMtrTmpBuffer); - // display.PutString(1,34,LMtrTmpBuffer); this is for the motor screen - } - CANFloat2 = GetFloat4; - if (abs((CANFloat2*9.0/5.0)+32 - *RMtrTmpBuffer) >= 1) { - sprintf(RMtrTmpBuffer,"%3.2d", int((CANFloat2*9.0/5.0)+32)); // We need to figure out how to handle the bytes for left and right motors - display.PutString(5,34,RMtrTmpBuffer); - //display.PutString(1,98,LMtrTmpBuffer); this is for the motor screen - } - break; - - // BATTERY SCREEN*********************************************************************************** - case VOLTAGE_TX_ID: - CANFloat = GetFloat; - if (abs(CANFloat - *BigBatVoltBuffer) >= 0.1) { - sprintf(BigBatVoltBuffer,"%3.2d", int(CANFloat)); // Volts - //display.PutString(1,10,BigBatVoltBuffer); - //display.PutString(3,94,BigBatVoltBuffer); this is for the charging screen - } - break; - case POWER_TX_ID: - CANFloat = GetFloat; - if (abs(CANFloat - *BigBatPowerBuffer) >= 1) { - sprintf(BigBatPowerBuffer,"%3.2d", int(CANFloat)); // Watts - //display.PutString(1,55,BigBatPowerBuffer); + // HOME SCREEN ******************************************************************************************* + // Pedal Test + /*case PCM_PEDALS_ID: + CANFloat = GetFloat; + if (abs(CANFloat*100 - float (*AccPedalBuffer)) >= 1) { + sprintf(AccPedalBuffer,"%3.2d", int(CANFloat*100)); + display.PutString(1,40,AccPedalBuffer); + } + CANFloat2 = GetFloat4; + if (abs(CANFloat2*100 - float (*BrkPedalBuffer)) >= 1) { + sprintf(BrkPedalBuffer,"%3.2d", int(CANFloat2*100)); + display.PutString(1,60,BrkPedalBuffer); + } + break;*/ + + case SOC_TX_ID: + CANFloat = GetFloat; + if (abs(CANFloat*100 - *BigBatLifeBuffer) >= 1) { + sprintf(BigBatLifeBuffer,"%3.2d", int(CANFloat*100)); // Big battery life percentage + display.PutString(1,40,BigBatLifeBuffer); + } + break; + case SYS_GLV_SOC_ID: + CANFloat = GetFloat; + if (abs(CANFloat*100 - *SmallBatLifeBuffer) >= 1) { + sprintf(SmallBatLifeBuffer,"%3.2d", int(CANFloat*100)); // Small battery life percentage + display.PutString(1,60,SmallBatLifeBuffer); + } + break; + case PCM_FRPM_ID: + CANFloat = GetFloat; + CANFloat2 = GetFloat4; + if (abs((CANFloat+CANFloat2)*WheelCircumference*30 - *CarSpdBuffer) >= 1) { + sprintf(CarSpdBuffer,"%3.2d", int((CANFloat+CANFloat2)*WheelCircumference*30)); // Miles per hour + display.PutString(1,108,CarSpdBuffer); + } + break; + case TEMP_MMA_TX_ID_BASE2: + CANFloat = GetFloat; + if (abs((CANFloat*9.0/5.0)+32 - *AvgBatTBuffer) >=1) { + sprintf(AvgBatTBuffer,"%3.2d", int((CANFloat*9.0/5.0)+32)); // Degrees F + display.PutString(3,39,AvgBatTBuffer); + } + break; + case TEMP_MMA_TX_ID_BASE: + CANFloat2 = GetFloat4; + if (abs((CANFloat2*9.0/5.0)+32 - *MaxBatTBuffer) >=1) { + sprintf(MaxBatTBuffer,"%3.2d", int((CANFloat2*9.0/5.0)+32)); + display.PutString(3,103,MaxBatTBuffer); + } + break; + case MOC_MOTEMP_ID: + CANFloat = GetFloat; + if (abs((CANFloat*9.0/5.0)+32 - *LMtrTmpBuffer) >= 1) { + sprintf(LMtrTmpBuffer,"%3.2d", int((CANFloat*9.0/5.0)+32)); + display.PutString(5,34,LMtrTmpBuffer); + } + CANFloat2 = GetFloat4; + if (abs((CANFloat2*9.0/5.0)+32 - *RMtrTmpBuffer) >= 1) { + sprintf(RMtrTmpBuffer,"%3.2d", int((CANFloat2*9.0/5.0)+32)); + display.PutString(5,34,RMtrTmpBuffer); + } + break; + default: + break; } break; - case CURRENT_TX_ID: - CANFloat = GetFloat; - if (abs(CANFloat - *BigBatCurrentBuffer) >= 0.2) { - sprintf(BigBatCurrentBuffer,"%3.2d", int(CANFloat)); // Amps - //display.PutString(1,100,BigBatCurrentBuffer); - } - break; - case CELLV_MMA_TX_ID_BASE: - CANFloat2 = GetFloat4; - if (abs(CANFloat2 - *VmaxBuffer) >= 0.1) { - sprintf(VmaxBuffer,"%3.2d", int(CANFloat2)); // We need to figure out how to handle max and min - //display.PutString(3,20,VmaxBuffer); - } - CANFloat = GetFloat; - if (abs(CANFloat - *VminBuffer) >= 0.1) { - sprintf(VminBuffer,"%3.2d", int(CANFloat)); - //display.PutString(3,67,VminBuffer); - } - break; - case CELLV_MMA_TX_ID_BASE2: - CANFloat = GetFloat; - if (abs(CANFloat - *VavgBuffer) >= 0.1) { - sprintf(VavgBuffer,"%3.2d", int(CANFloat)); // Volts - //display.PutString(3,108,VavgBuffer); - } - break; - case BOARDTEMP_TX_ID: - CANFloat = GetFloat; - if (abs((CANFloat*9.0/5.0)+32 - *BoardTempBuffer) >= 1) { - sprintf(BoardTempBuffer,"%3.2d", int((CANFloat*9.0/5.0)+32)); // Degrees F - //display.PutString(7,87,BoardTempBuffer); + // BATTERY SCREEN*********************************************************************************** + case BATTERY_SCREEN: + switch (Rxmsg.id) { + case VOLTAGE_TX_ID: + CANFloat = GetFloat; + if (abs(CANFloat - *BigBatVoltBuffer) >= 0.1) { + sprintf(BigBatVoltBuffer,"%3.2d", int(CANFloat)); // Volts + display.PutString(1,10,BigBatVoltBuffer); + } + break; + case POWER_TX_ID: + CANFloat = GetFloat; + LEDBar = (CANFloat/85.0)*(2.6/3.3); + if (abs(CANFloat - *BigBatPowerBuffer) >= 1) { + sprintf(BigBatPowerBuffer,"%3.2d", int(CANFloat)); // Watts + display.PutString(1,55,BigBatPowerBuffer); + } + break; + case CURRENT_TX_ID: + CANFloat = GetFloat; + if (abs(CANFloat - *BigBatCurrentBuffer) >= 0.2) { + sprintf(BigBatCurrentBuffer,"%3.2d", int(CANFloat)); // Amps + display.PutString(1,100,BigBatCurrentBuffer); + } + break; + case CELLV_MMA_TX_ID_BASE: + CANFloat2 = GetFloat4; + if (abs(CANFloat2 - *VmaxBuffer) >= 0.1) { + sprintf(VmaxBuffer,"%3.2d", int(CANFloat2)); + display.PutString(3,20,VmaxBuffer); + } + CANFloat = GetFloat; + if (abs(CANFloat - *VminBuffer) >= 0.1) { + sprintf(VminBuffer,"%3.2d", int(CANFloat)); + display.PutString(3,67,VminBuffer); + } + break; + case CELLV_MMA_TX_ID_BASE2: + CANFloat = GetFloat; + if (abs(CANFloat - *VavgBuffer) >= 0.1) { + sprintf(VavgBuffer,"%3.2d", int(CANFloat)); // Volts + display.PutString(3,108,VavgBuffer); + } + break; + case TEMP_MMA_TX_ID_BASE: + CANFloat = GetFloat; + if (abs((CANFloat*9.0/5.0)+32 - *MinBatTBuffer) >= 1) { + sprintf(MinBatTBuffer,"%3.2d", int((CANFloat*9.0/5.0)+32)); + display.PutString(5,67,MinBatTBuffer); + } + CANFloat2 = GetFloat4; + if (abs((CANFloat2*9.0/5.0)+32 - *MaxBatTBuffer) >=1) { + sprintf(MaxBatTBuffer,"%3.2d", int((CANFloat2*9.0/5.0)+32)); + display.PutString(5,20,MaxBatTBuffer); + } + break; + case TEMP_MMA_TX_ID_BASE2: + CANFloat = GetFloat; + if (abs((CANFloat*9.0/5.0)+32 - *AvgBatTBuffer) >=1) { + sprintf(AvgBatTBuffer,"%3.2d", int((CANFloat*9.0/5.0)+32)); // Degrees F + display.PutString(5,108,AvgBatTBuffer); + } + break; + case BOARDTEMP_TX_ID: + CANFloat = GetFloat; + if (abs((CANFloat*9.0/5.0)+32 - *BoardTempBuffer) >= 1) { + sprintf(BoardTempBuffer,"%3.2d", int((CANFloat*9.0/5.0)+32)); // Degrees F + display.PutString(7,87,BoardTempBuffer); + } + break; + default: + break; } break; - // MOTOR SCREEN***************************************************************** - case MOC_AIRTEMP_ID: - CANFloat = GetFloat; - if (abs((CANFloat*9.0/5.0)+32 - *LAirTmpBuffer) >= 1) { - sprintf(LAirTmpBuffer,"%3.2d", int((CANFloat*9.0/5.0)+32)); // Figure out the left and the right - //display.PutString(2,34,LAirTmpBuffer); - } - CANFloat2 = GetFloat4; - if (abs((CANFloat2*9.0/5.0)+32 - *RAirTmpBuffer) >= 1) { - sprintf(RAirTmpBuffer,"%3.2d", int((CANFloat2*9.0/5.0)+32)); // Degrees F - //display.PutString(2,98,RAirTmpBuffer); - } - break; - case MOC_IGBTTEMP_ID: - CANFloat = GetFloat; - if (abs((CANFloat*9.0/5.0)+32 - *LIGBTmpBuffer) >= 1) { - sprintf(LIGBTmpBuffer,"%3.2d", int((CANFloat*9.0/5.0)+32)); // Figure out the left and the right - //display.PutString(3,34,LIGBTmpBuffer); - } - CANFloat2 = GetFloat4; - if (abs((CANFloat2*9.0/5.0)+32 - *RIGBTmpBuffer) >= 1) { - sprintf(RIGBTmpBuffer,"%3.2d", int((CANFloat2*9.0/5.0)+32)); // Degrees F - //display.PutString(3,98,RIGBTmpBuffer); - } - break; - case MOC_RPM_ID: - CANFloat = GetFloat; - if (abs(CANFloat - *Rpm_LBuffer) >= 1) { - sprintf(Rpm_LBuffer,"%3.2d", int(CANFloat)); // Figure out the left and the right - //display.PutString(5,30,Rpm_LBuffer); - } - CANFloat2 = GetFloat4; - if (abs(CANFloat2 - *Rpm_RBuffer) >= 1) { - sprintf(Rpm_RBuffer,"%3.2d", int(CANFloat2)); - //display.PutString(5,107,Rpm_RBuffer); - } - break; - case PCM_TORQUERQ_ID: - CANFloat = GetFloat; - if (abs(CANFloat*100 - *TRequestBufferL) >= 1) { - sprintf(TRequestBufferL,"%3.2d", int(CANFloat*100)); // Percentage - //display.PutString(7,89,TRequestBufferL); - } - CANFloat2 = GetFloat4; - if (abs(CANFloat2*100 - *TRequestBufferR) >= 1) { - sprintf(TRequestBufferR,"%3.2d", int(CANFloat2*100)); // Percentage - //display.PutString(7,89,TRequestBufferR); + case MOTOR_SCREEN: + switch (Rxmsg.id) { + case MOC_MOTEMP_ID: + CANFloat = GetFloat; + if (abs((CANFloat*9.0/5.0)+32 - *LMtrTmpBuffer) >= 1) { + sprintf(LMtrTmpBuffer,"%3.2d", int((CANFloat*9.0/5.0)+32)); + display.PutString(1,34,LMtrTmpBuffer); + } + CANFloat2 = GetFloat4; + if (abs((CANFloat2*9.0/5.0)+32 - *RMtrTmpBuffer) >= 1) { + sprintf(RMtrTmpBuffer,"%3.2d", int((CANFloat2*9.0/5.0)+32)); + display.PutString(1,98,LMtrTmpBuffer); + } + break; + case MOC_AIRTEMP_ID: + CANFloat = GetFloat; + if (abs((CANFloat*9.0/5.0)+32 - *LAirTmpBuffer) >= 1) { + sprintf(LAirTmpBuffer,"%3.2d", int((CANFloat*9.0/5.0)+32)); + display.PutString(2,34,LAirTmpBuffer); + } + CANFloat2 = GetFloat4; + if (abs((CANFloat2*9.0/5.0)+32 - *RAirTmpBuffer) >= 1) { + sprintf(RAirTmpBuffer,"%3.2d", int((CANFloat2*9.0/5.0)+32)); // Degrees F + display.PutString(2,98,RAirTmpBuffer); + } + break; + case MOC_IGBTTEMP_ID: + CANFloat = GetFloat; + if (abs((CANFloat*9.0/5.0)+32 - *LIGBTmpBuffer) >= 1) { + sprintf(LIGBTmpBuffer,"%3.2d", int((CANFloat*9.0/5.0)+32)); + display.PutString(3,34,LIGBTmpBuffer); + } + CANFloat2 = GetFloat4; + if (abs((CANFloat2*9.0/5.0)+32 - *RIGBTmpBuffer) >= 1) { + sprintf(RIGBTmpBuffer,"%3.2d", int((CANFloat2*9.0/5.0)+32)); // Degrees F + display.PutString(3,98,RIGBTmpBuffer); + } + break; + case MOC_RPM_ID: + CANFloat = GetFloat; + if (abs(CANFloat - *Rpm_LBuffer) >= 1) { + sprintf(Rpm_LBuffer,"%3.2d", int(CANFloat)); + display.PutString(5,30,Rpm_LBuffer); + } + CANFloat2 = GetFloat4; + if (abs(CANFloat2 - *Rpm_RBuffer) >= 1) { + sprintf(Rpm_RBuffer,"%3.2d", int(CANFloat2)); + display.PutString(5,107,Rpm_RBuffer); + } + break; + case PCM_TORQUERQ_ID: + CANFloat = GetFloat; + if (abs(CANFloat*100 - *TRequestBufferL) >= 1) { + sprintf(TRequestBufferL,"%3.2d", int(CANFloat*100)); // Percentage + display.PutString(7,89,TRequestBufferL); + } + CANFloat2 = GetFloat4; + if (abs(CANFloat2*100 - *TRequestBufferR) >= 1) { + sprintf(TRequestBufferR,"%3.2d", int(CANFloat2*100)); // Percentage + display.PutString(7,89,TRequestBufferR); + } + break; + default: + break; } break; // SYSTEM MANAGEMENT SCREEN*************************************************** - case SYS_GLV_CURRENT_ID: - CANFloat = GetFloat; - if (abs(CANFloat - *SmallBatCurrentBuffer) >= 0.2) { - sprintf(SmallBatCurrentBuffer,"%3.2d", int(CANFloat)); // Amps - //display.PutString(1,30,SmallBatCurrentBuffer); - } - break; - case SYS_SWITCHES_ID: - CANFloat = GetFloat; - sprintf(ShtdSwtchBuffer,"%3.2d", int(CANFloat)); // How the heck are we interpreting this data - //display.PutString(1,108,ShtdSwtchBuffer); - break; - case SYS_PWM_FAN_ID: - CANFloat = GetFloat; - if (abs(CANFloat*100 - *Fan1Buffer) >= 1) { - sprintf(Fan1Buffer,"%3.2d", int(CANFloat*100)); // Duty Cycle. Figure out the left and the right - //display.PutString(3,30,Fan1Buffer); - } - CANFloat2 = GetFloat4; - if (abs(CANFloat2*100 - *Fan1Buffer) >= 1) { - sprintf(Fan2Buffer,"%3.2d", int(CANFloat2*100)); - //display.PutString(3,107,Fan2Buffer); - } - break; - case SYS_PWM_PUMP_ID: - CANFloat = GetFloat; - if (abs(CANFloat*100 - *Pump1Buffer) >= 1) { - sprintf(Pump1Buffer,"%3.2d", int(CANFloat*100)); // Duty Cycle. Figure out the left and the right - //display.PutString(5,30,Pump1Buffer); - } - CANFloat2 = GetFloat4; - if (abs(CANFloat2*100 - *Pump2Buffer) >= 1) { - sprintf(Pump2Buffer,"%3.2d", int(CANFloat2*100)); - //display.PutString(5,107,Pump2Buffer); - } - break; - case SYS_DCDC_STATUS_ID: - CANFloat = GetFloat; - sprintf(DCDCBuffer,"%3.2d", int(CANFloat)); // How the heck are we interpreting this data - //display.PutString(7,30,DCDCBuffer); - break; - case SYS_IMD_RESIST_ID: - CANFloat = GetFloat; - if (abs(CANFloat - *IMDRBuffer) >= 1) { - sprintf(IMDRBuffer,"%3.2d", int(CANFloat)); - //display.PutString(7,107,IMDRBuffer); + case SYS_MGMT_SCREEN: + switch (Rxmsg.id) { + case SYS_GLV_CURRENT_ID: + CANFloat = GetFloat; + if (abs(CANFloat - *SmallBatCurrentBuffer) >= 0.2) { + sprintf(SmallBatCurrentBuffer,"%3.2d", int(CANFloat)); // Amps + display.PutString(1,30,SmallBatCurrentBuffer); + } + break; + case SYS_SWITCHES_ID: + CANFloat = GetFloat; + sprintf(ShtdSwtchBuffer,"%3.2d", int(CANFloat)); // How the heck are we interpreting this data + display.PutString(1,108,ShtdSwtchBuffer); + break; + case SYS_PWM_FAN_ID: + CANFloat = GetFloat; + if (abs(CANFloat*100 - *Fan1Buffer) >= 1) { + sprintf(Fan1Buffer,"%3.2d", int(CANFloat*100)); + display.PutString(3,30,Fan1Buffer); + } + CANFloat2 = GetFloat4; + if (abs(CANFloat2*100 - *Fan1Buffer) >= 1) { + sprintf(Fan2Buffer,"%3.2d", int(CANFloat2*100)); + display.PutString(3,107,Fan2Buffer); + } + break; + case SYS_PWM_PUMP_ID: + CANFloat = GetFloat; + if (abs(CANFloat*100 - *Pump1Buffer) >= 1) { + sprintf(Pump1Buffer,"%3.2d", int(CANFloat*100)); + display.PutString(5,30,Pump1Buffer); + } + CANFloat2 = GetFloat4; + if (abs(CANFloat2*100 - *Pump2Buffer) >= 1) { + sprintf(Pump2Buffer,"%3.2d", int(CANFloat2*100)); + display.PutString(5,107,Pump2Buffer); + } + break; + case SYS_DCDC_STATUS_ID: + CANFloat = GetFloat; + sprintf(DCDCBuffer,"%3.2d", int(CANFloat)); // How the heck are we interpreting this data + display.PutString(7,30,DCDCBuffer); + break; + case SYS_IMD_RESIST_ID: + CANFloat = GetFloat; + if (abs(CANFloat - *IMDRBuffer) >= 1) { + sprintf(IMDRBuffer,"%3.2d", int(CANFloat)); + display.PutString(7,82,IMDRBuffer); + } + break; + default: + break; } break; - // CHARGER SCREEN ************************************************************* - case CHARGECURR_TX_ID: - CANFloat = GetFloat; - if (abs(CANFloat - *ChargeCurrBuffer) >= 0.1) { - sprintf(ChargeCurrBuffer,"%3.2d", int(CANFloat)); // Amps - //display.PutString(3,94,ChargeCurrBuffer); - } - break; - - // OTHER ********************************************************************** - case MODE_TX_ID: - CANFloat = GetFloat; - sprintf(&DriveStatus,"%3.2d", int(CANFloat)); //confirm that I am interpreting this correctly - if (DriveStatus == 1) { - BLButtonGreen; - } else { - BLButtonRed; + // CHARGE SCREEN ************************************************************* + case CHARGE_SCREEN: + switch (Rxmsg.id) { + case CHARGECURR_TX_ID: + CANFloat = GetFloat; + if (abs(CANFloat - *ChargeCurrBuffer) >= 0.1) { + sprintf(ChargeCurrBuffer,"%3.2d", int(CANFloat)); // Amps + display.PutString(3,94,ChargeCurrBuffer); + } + break; + case VOLTAGE_TX_ID: + CANFloat = GetFloat; + if (abs(CANFloat - *BigBatVoltBuffer) >= 0.1) { + sprintf(BigBatVoltBuffer,"%3.2d", int(CANFloat)); // Volts + display.PutString(3,94,BigBatVoltBuffer); + } + break; + default: + break; } break; default: @@ -353,7 +418,6 @@ void RequestStatusChange() { - DriveStatusRequestBuffer = !DriveStatus; CANMessage TxDriveStatusRequest(0x601, &DriveStatusRequestBuffer,1); for (int j=0; j<10; j++) { SteeringCANPort.txWrite(TxDriveStatusRequest);