MISRA cleanup

speeduino/cancomms.ino

@@ -26,10 +26,6 @@ void canCommand()
         sendcanValues(0, CAN_PACKET_SIZE, 0x30, 1); //send values to serial3
         break;
 
-    //case 'A': // send x bytes of realtime values from the TS list
-    //  sendValues(0, SERIAL_PACKET_SIZE, 0x30, 3);   //send values to serial0
-    //  break;
-
     case 'G': // this is the reply command sent by the Can interface
        byte destcaninchannel;
       if (CANSerial.available() >= 9)

speeduino/decoders.ino

@@ -724,12 +724,8 @@ int getCrankAngle_BasicDistributor()
     int crankAngle = ((tempToothCurrentCount - 1) * triggerToothAngle) + configPage4.triggerAngle; //Number of teeth that have passed since tooth 1, multiplied by the angle each tooth represents, plus the angle that tooth 1 is ATDC. This gives accuracy only to the nearest tooth.
     
     //Estimate the number of degrees travelled since the last tooth}
-    
     elapsedTime = (lastCrankAngleCalc - tempToothLastToothTime);
 
-    //if(elapsedTime < SHRT_MAX ) { crankAngle += div((int)elapsedTime, timePerDegree).quot; } //This option is much faster, but only available for smaller values of elapsedTime
-    //else { crankAngle += ldiv(elapsedTime, timePerDegree).quot; }
-
     //crankAngle += timeToAngle(elapsedTime, CRANKMATH_METHOD_INTERVAL_REV);
     crankAngle += timeToAngle(elapsedTime, CRANKMATH_METHOD_INTERVAL_TOOTH);
     
@@ -2517,7 +2513,6 @@ void triggerPri_Subaru67()
      else if(toothCurrentCount == 2) { triggerToothAngle = 93; } //Special case for tooth 2
      else { triggerToothAngle = toothAngles[(toothCurrentCount-1)] - toothAngles[(toothCurrentCount-2)]; }
      triggerToothAngleIsCorrect = true;
-     //triggerToothAngleIsCorrect = false;
    }
 
 
@@ -2527,7 +2522,7 @@ void triggerPri_Subaru67()
       int16_t crankAngle = toothAngles[(toothCurrentCount - 1)] + configPage4.triggerAngle;
       if( (configPage4.sparkMode != IGN_MODE_SEQUENTIAL) )
       {
-        uint16_t crankAngle = ignitionLimits( toothAngles[(toothCurrentCount-1)] );
+        crankAngle = ignitionLimits( toothAngles[(toothCurrentCount-1)] );
 
         //Handle non-sequential tooth counts 
         if( (configPage4.sparkMode != IGN_MODE_SEQUENTIAL) && (toothCurrentCount > 6) ) { checkPerToothTiming(crankAngle, (toothCurrentCount-6) ); }

speeduino/idle.ino

@@ -80,7 +80,8 @@ void initialiseIdle()
 
     FTM2_C1SC &= ~FTM_CSC_MSB; //According to Pg 965 of the K64 datasheet, this should not be needed as MSB is reset to 0 upon reset, but the channel interrupt fails to fire without it
     FTM2_C1SC |= FTM_CSC_MSA; //Enable Compare mode
-    //FTM2_C1SC |= FTM_CSC_CHIE; //Enable channel compare interrupt
+    //Enable channel compare interrupt (This is currently disabled as not in use)
+    //FTM2_C1SC |= FTM_CSC_CHIE; 
 
     // enable IRQ Interrupt
     NVIC_ENABLE_IRQ(IRQ_FTM2);

speeduino/sensors.ino

@@ -64,7 +64,7 @@ void initialiseADC()
       auxIsEnabled = true;     
     }
     else if ((((configPage9.enable_secondarySerial == 1) || ((configPage9.enable_intcan == 1) && (configPage9.intcan_available == 1))) && (configPage9.caninput_sel[currentStatus.current_caninchannel]&12) == 8)
-            || (((configPage9.enable_secondarySerial == 0) && (configPage9.enable_intcan == 1 && configPage9.intcan_available == 0 )) && (configPage9.caninput_sel[currentStatus.current_caninchannel]&3) == 2)  
+            || (((configPage9.enable_secondarySerial == 0) && ( (configPage9.enable_intcan == 1) && (configPage9.intcan_available == 0) )) && (configPage9.caninput_sel[currentStatus.current_caninchannel]&3) == 2)  
             || (((configPage9.enable_secondarySerial == 0) && (configPage9.enable_intcan == 0)) && ((configPage9.caninput_sel[currentStatus.current_caninchannel]&3) == 2)))  
     {  //if current input channel is enabled as analog local pin check caninput_selxb(bits 2:3) with &12 and caninput_selxa(bits 0:1) with &3
       byte pinNumber = (configPage9.Auxinpina[currentStatus.current_caninchannel]&127);
@@ -82,7 +82,7 @@ void initialiseADC()
       }  
     }
     else if ((((configPage9.enable_secondarySerial == 1) || ((configPage9.enable_intcan == 1) && (configPage9.intcan_available == 1))) && (configPage9.caninput_sel[currentStatus.current_caninchannel]&12) == 12)
-            || (((configPage9.enable_secondarySerial == 0) && (configPage9.enable_intcan == 1 && configPage9.intcan_available == 0 )) && (configPage9.caninput_sel[currentStatus.current_caninchannel]&3) == 3)
+            || (((configPage9.enable_secondarySerial == 0) && ( (configPage9.enable_intcan == 1) && (configPage9.intcan_available == 0) )) && (configPage9.caninput_sel[currentStatus.current_caninchannel]&3) == 3)
             || (((configPage9.enable_secondarySerial == 0) && (configPage9.enable_intcan == 0)) && ((configPage9.caninput_sel[currentStatus.current_caninchannel]&3) == 3)))
     {  //if current input channel is enabled as digital local pin check caninput_selxb(bits 2:3) wih &12 and caninput_selxa(bits 0:1) with &3
        byte pinNumber = (configPage9.Auxinpinb[currentStatus.current_caninchannel]&127);

speeduino/speeduino.ino

@@ -1033,18 +1033,12 @@ void loop()
 
       if(auxIsEnabled == true)
       {
+        //TODO dazq to clean this right up :)
         //check through the Aux input channels if enabed for Can or local use
         for (byte AuxinChan = 0; AuxinChan <16 ; AuxinChan++)
         {
           currentStatus.current_caninchannel = AuxinChan;          
           
-          //Dev test use only!
-          //currentStatus.canin[13] = ((configPage9.Auxinpinb[currentStatus.current_caninchannel]&127)+1);
-          //currentStatus.canin[14] = (configPage9.caninput_sel[1]);
-          //currentStatus.canin[12] = (configPage9.caninput_sel[1]&12);          
-          //currentStatus.canin[14] = configPage9.enable_secondarySerial;  //> 0)((configPage9.Auxinpinb[currentStatus.current_caninchannel]&127)+1);
-          //currentStatus.canin[13] = (configPage9.caninput_sel[currentStatus.current_caninchannel]&3);          
-          
           if (((configPage9.caninput_sel[currentStatus.current_caninchannel]&12) == 4) 
               && (((configPage9.enable_secondarySerial == 1) && ((configPage9.enable_intcan == 0)&&(configPage9.intcan_available == 1)))
               || ((configPage9.enable_secondarySerial == 1) && ((configPage9.enable_intcan == 1)&&(configPage9.intcan_available == 1))&& 
@@ -1076,7 +1070,7 @@ void loop()
           #endif
           }   
           else if ((((configPage9.enable_secondarySerial == 1) || ((configPage9.enable_intcan == 1) && (configPage9.intcan_available == 1))) && (configPage9.caninput_sel[currentStatus.current_caninchannel]&12) == 8)
-                  || (((configPage9.enable_secondarySerial == 0) && (configPage9.enable_intcan == 1 && configPage9.intcan_available == 0 )) && (configPage9.caninput_sel[currentStatus.current_caninchannel]&3) == 2)  
+                  || (((configPage9.enable_secondarySerial == 0) && ( (configPage9.enable_intcan == 1) && (configPage9.intcan_available == 0) )) && (configPage9.caninput_sel[currentStatus.current_caninchannel]&3) == 2)  
                   || (((configPage9.enable_secondarySerial == 0) && (configPage9.enable_intcan == 0)) && ((configPage9.caninput_sel[currentStatus.current_caninchannel]&3) == 2)))  
           { //if current input channel is enabled as analog local pin
             //read analog channel specified
@@ -1084,7 +1078,7 @@ void loop()
             currentStatus.canin[currentStatus.current_caninchannel] = readAuxanalog(configPage9.Auxinpina[currentStatus.current_caninchannel]&127);
           }
           else if ((((configPage9.enable_secondarySerial == 1) || ((configPage9.enable_intcan == 1) && (configPage9.intcan_available == 1))) && (configPage9.caninput_sel[currentStatus.current_caninchannel]&12) == 12)
-                  || (((configPage9.enable_secondarySerial == 0) && (configPage9.enable_intcan == 1 && configPage9.intcan_available == 0 )) && (configPage9.caninput_sel[currentStatus.current_caninchannel]&3) == 3)
+                  || (((configPage9.enable_secondarySerial == 0) && ( (configPage9.enable_intcan == 1) && (configPage9.intcan_available == 0) )) && (configPage9.caninput_sel[currentStatus.current_caninchannel]&3) == 3)
                   || (((configPage9.enable_secondarySerial == 0) && (configPage9.enable_intcan == 0)) && ((configPage9.caninput_sel[currentStatus.current_caninchannel]&3) == 3)))
           {  //if current input channel is enabled as digital local pin
             //read digital channel specified
@@ -1271,6 +1265,7 @@ void loop()
             PWdivTimerPerDegree = div(currentStatus.PW3, timePerDegree).quot; //Need to redo this for PW3 as it will be dramatically different to PW1 when staging
             injector3StartAngle = calculateInjector3StartAngle(PWdivTimerPerDegree);
           }
+          break;
         //2 cylinders
         case 2:
           /*
@@ -1426,6 +1421,7 @@ void loop()
           */
           injector4StartAngle = calculateInjector4StartAngle(PWdivTimerPerDegree);
           break;
+
         //Will hit the default case on 1 cylinder or >8 cylinders. Do nothing in these cases
         default:
           break;