Merge pull request #25 from foodbandlt/MinorOptimizations

Resolved conflicts with edits from today, merging

firmware/AVR-Source/Pyr0_Piezo_Sensor_v2.x.x/Pyr0_Piezo_Sensor_v2.x.x.ino

@@ -60,7 +60,7 @@ The gain STATE is representative of these values:
  
 // Set variables for working parameters
 int GAIN_FACTOR = 2;           // Gain adjustment factor. 0=3x, 1=3.5x, 2=4.33x, 3=6x, 4=11x
-int InitCount = 6;             // Number of times to blink the LED on start
+#define InitCount 6             // Number of times to blink the LED on start
 int TRG_DUR = 120;             // duration of the Z-axis pulse sent, in ms
 #define senseThrs 2.45
 //float senseHighThrs = 2.35;    // Upper threshold of Voltage Follower before adjustment
@@ -68,25 +68,27 @@ int TRG_DUR = 120;             // duration of the Z-axis pulse sent, in ms
 #define compThrs 3.15
 //float compHighThrs = 2.75;     // Upper threshold of Comparator before adjustment
 //float compLowThrs = 2.54;      // Lower threshold of Comparator before adjustment
-int Hyst = 17;                 // Hysteresis value for ADC measurements
+
-int Vin = 5;                   // input reference voltage
+#define Hyst 20                 // Hysteresis value for ADC measurements
+#define Vin 5                   // input reference voltage
+
 
 // Analog Pin Assignments
-int V_FOLLOW_PIN = A0;         // Sense pin to check Voltage Follower stage
+#define V_FOLLOW_PIN A0         // Sense pin to check Voltage Follower stage
-int VCOMP_SENSE_PIN = A1;      // Sense pin to check comparator stage voltage
+#define VCOMP_SENSE_PIN A1      // Sense pin to check comparator stage voltage
 
 // Digital Pin Assignments
-const int TRG_OUT = 7;         // LED and Z-Min trigger output connected to digital pin 7
+#define TRG_OUT 7         // LED and Z-Min trigger output connected to digital pin 7
-//const int TRG_OUT = 13;      // For testing on Atmega328/2560, Output is moved to onboard LED pin
+//#define TRG_OUT 13      // For testing on Atmega328/2560, Output is moved to onboard LED pin
 //#define Z_TRG 0              // the piezo is connected to INT0 / digital pin 2
-const byte Z_TRG = 2;          // the piezo is connected to INT0 / digital pin 2
+#define Z_TRG 2          // the piezo is connected to INT0 / digital pin 2
-int ERR_LED = 4;               // LED will blink if optimal voltage range cannot be achieved
+#define ERR_LED 4               // LED will blink if optimal voltage range cannot be achieved
-const int GADJ_R0 = 20;        // Auto-adjust ladder pin assignments
+#define GADJ_R0 20        // Auto-adjust ladder pin assignments
-const int GADJ_R1 = 21;        // "
+#define GADJ_R1 21        // "
-const int GADJ_R2 = 5;         // "
+#define GADJ_R2 5         // "
-const int GADJ_R3 = 6;         // "
+#define GADJ_R3 6         // "
-int V_FOL_PWM = 3;             // PWM analog output pin for voltage follower adjustment
+#define V_FOL_PWM 3             // PWM analog output pin for voltage follower adjustment
-int VCOMP_PWM = 9;             // PWM analog output pin for comparator adjustment
+#define VCOMP_PWM 9             // PWM analog output pin for comparator adjustment
 
 // these variables will change on their own. Do not edit ANYTHING below this line
 volatile int sensorHReading = 0;      // variable to store the value read from the sensor pin
@@ -124,10 +126,10 @@ int BlinkState = LOW;
 int BlinkCount = InitCount * 2;           // Multiply Blink count by 2 to handle toggle state
 
 // Serial Input Parsing Variables
-const byte buffSize = 40;
+#define buffSize 40
 char inputBuffer[buffSize];
-const char startMarker = '<';
+#define startMarker '<'
-const char endMarker = '>';
+#define endMarker '>'
 byte bytesRecvd = 0;
 bool readInProgress = false;
 bool serialIncoming = false;
@@ -189,7 +191,6 @@ void adjustComp() {
   if (diffCompL > 0.0) {
 	ADJ_COMP += diffCompL;
   }
-  
   if (diffCompH > 0.0) {
 	ADJ_COMP -= diffCompH;
   }
@@ -201,17 +202,17 @@ void adjustComp() {
 
 void adjustGain() {
 
-  if  (GAIN_FACTOR < 0) {
+  if  (GAIN_FACTOR < 0 || GAIN_FACTOR > 4) {
     ERR_STATE = 1;
   }
-  if (GAIN_FACTOR == 0) {
+  else if (GAIN_FACTOR == 0) {
     pinMode(GADJ_R3, INPUT);
     pinMode(GADJ_R2, INPUT);
     pinMode(GADJ_R1, INPUT);
     pinMode(GADJ_R0, INPUT);
     ERR_STATE = 0;
   }
-  if (GAIN_FACTOR > 0) {
+  else if (GAIN_FACTOR > 0) {
     pinMode(GADJ_R3, OUTPUT);
     digitalWrite(GADJ_R3, LOW);
     pinMode(GADJ_R2, INPUT);
@@ -219,27 +220,24 @@ void adjustGain() {
     pinMode(GADJ_R0, INPUT);
     ERR_STATE = 0;
   }
-  if (GAIN_FACTOR > 1) {
+  else if (GAIN_FACTOR > 1) {
     pinMode(GADJ_R2, OUTPUT);
     digitalWrite(GADJ_R2, LOW);
     pinMode(GADJ_R1, INPUT);
     pinMode(GADJ_R0, INPUT);
     ERR_STATE = 0;
   }
-  if (GAIN_FACTOR > 2) {
+  else if (GAIN_FACTOR > 2) {
     pinMode(GADJ_R1, OUTPUT);
     digitalWrite(GADJ_R1, LOW);
     pinMode(GADJ_R0, INPUT);
     ERR_STATE = 0;
   }
-  if (GAIN_FACTOR > 3) {
+  else if (GAIN_FACTOR > 3) {
     pinMode(GADJ_R0, OUTPUT);
     digitalWrite(GADJ_R0, LOW);
     ERR_STATE = 0;
   }
-  if  (GAIN_FACTOR > 4) {
-	ERR_STATE = 1;
-  }
 }
 
 /*------------------------------------------------*/
@@ -249,7 +247,7 @@ void checkError () {
     digitalWrite(ERR_LED, BlinkState);
     BlinkState = !BlinkState;
   }
-  if (ERR_STATE == 0) {
+  else if (ERR_STATE == 0) {
     BlinkState = LOW;
     digitalWrite(ERR_LED, BlinkState);
   }
@@ -296,7 +294,7 @@ void identifyMarkers() {
     parseData();
   }
 
-	if(readInProgress) {
+  else if(readInProgress) {
     inputBuffer[bytesRecvd] = x;
     bytesRecvd ++;
     if (bytesRecvd == buffSize) {
@@ -304,7 +302,7 @@ void identifyMarkers() {
     }
   }
 
-	if (x == startMarker) { 
+  else if (x == startMarker) { 
     bytesRecvd = 0; 
     readInProgress = true;
   }
@@ -356,30 +354,15 @@ void updateParams() {
   if (strcmp(serialMessageIn, "TRG_D") == 0) {
     updateTrigDuration();
   }
-	if (strcmp(serialMessageIn, "GAIN_F") == 0) {
+  else if (strcmp(serialMessageIn, "GAIN_F") == 0) {
     updateGainFactor();
   }
-	if (strcmp(serialMessageIn, "VCOMP") == 0) {
+  else if (strcmp(serialMessageIn, "VCOMP") == 0) {
     updateVComp();
   }
-	//if (strcmp(serialMessageIn, "VCOMPH") == 0) {
+  else if (strcmp(serialMessageIn, "VADJ") == 0) {
-	//	updateVCompH();
-	//}
-	//if (strcmp(serialMessageIn, "VCOMPL") == 0) {
-	//	updateVCompL();
-	//}
-	if (strcmp(serialMessageIn, "VADJ") == 0) {
     updateVAdj();
   }
-	//if (strcmp(serialMessageIn, "VADJH") == 0) {
-	//	updateVAdjH();
-	//}
-	//if (strcmp(serialMessageIn, "VADJL") == 0) {
-	//	updateVAdjL();
-	//}
-  if (strcmp(serialMessageIn, "HYST") == 0) {
-    updateHysteresis();
-  }
 }
 /*------------------------------------------------*/
 
@@ -518,14 +501,14 @@ void loop() {
   diffCompH = ((compInt - VComp) / 4) - Hyst;
   //diffCompL = VComp - compLowInt;
   //diffCompH = compHighInt - VComp;
-  //VCompRef = (VComp * 5) / 1024;
+  //VCompRef = (float)(VComp * 5) / 1024;
   
   VAdj = analogRead(V_FOLLOW_PIN);
   diffAdjL = ((VAdj - senseInt) / 4) - Hyst;
   diffAdjH = ((senseInt - VAdj) / 4) - Hyst;
   //diffAdjL = VAdj - senseLowInt;
   //diffAdjH = senseHighInt - VAdj;
-  //vAdjRead = (VAdj * 5) / 1024;
+  //vAdjRead = (float)(VAdj * 5) / 1024;
 
   
   // Set the amplification gain factor