Cleanup & comments

CVReader.ino

@@ -1,5 +1,21 @@
 #include "DCCWaveform.h"
 #include "DIAG.h"
+
+/* this code is here to test the waveforwe generator and reveal the issues involved in programming track operations.
+ *  
+ *  It tests the Waveform genartor and demonstrates how a DCC  API function can be simply written  
+ *  to transmit and receive DCC data on the programming track.
+ *  
+ *  Important... DCCWaveform.h contains hardware specific confioguration settings 
+ *  that you will need to check.  
+ *  
+ *  Notes: the waveform generator sends reset packets on progTrack when it has nothing better to do, this means that
+ *  the decoder does not step out of service mode. (The main track sends idles).
+ *  It also means that the API functions dont have to mess with reset packets. 
+ *  
+ */
+
+
 bool verifyCV(int cv, byte bValue);
 int readCv(int cv);
 const int cvnums[]={1,2,3,4,5,17,18,19,21,22,29};
@@ -7,20 +23,22 @@ const int cvnums[]={1,2,3,4,5,17,18,19,21,22,29};
 void setup() {
   Serial.begin(115200);
   DCCWaveform::begin();
-  Serial.println(F("CVReader"));
   
-  DIAG(F("\n===================================\n"));
+  DIAG(F("\n===== CVReader begin ==============================\n"));
   
   for (byte x=0;x<sizeof(cvnums)/sizeof(cvnums[0]);x++) {
-    DIAG(F("\n\nCV VERIFICATION %d = %s\n"),cvnums[x],readCV(cvnums[x])>=0?"OK":"FAIL"); 
+    int value=readCV(cvnums[x]);
+    DIAG(F("\nCV %d = %d  0x%x  %s"),cvnums[x],value,value, value>=0?" VERIFIED OK":"FAILED VERIFICATION"); 
   }
   
  DIAG(F("\nProgram complete, press reset to retry"));
 }
 
 void loop() {
+  DCCWaveform::loop();
+  }
 
-}
+// Two helpers to make API functions look simpler
 
 byte cv1(byte opcode, int cv) {
   cv--;
@@ -31,13 +49,9 @@ byte cv2(int cv) {
   return lowByte(cv);
 }
 
-//// The functions below are lifted from the DCCApi for easy testing and experimentation.
+// The functions below are lifted from the DCCApi and then fixed up 
 // Once reliable, tha DCCApi should be updated to match 
 bool verifyCV(int cv, byte value) {
-   
-   delay(2);  // allow for decoder to quiesce latest pulse
-   
-   
    byte message[] = {
     cv1(0x74,cv)  ,   // set-up to re-verify entire byte
     cv2(cv),
@@ -59,9 +73,10 @@ int readCV(int cv)
 
   for (int i = 0; i<8; i++) {
     message[2] = 0xE8 + i;
-    DCCWaveform::progTrack.schedulePacket(message,sizeof(message), 4);                // NMRA recommends 5 rerad packets
+    DCCWaveform::progTrack.schedulePacket(message,sizeof(message), 4);                // NMRA recommends 5 read packets
     value+= (DCCWaveform::progTrack.getAck()<<i);
   }
-  DIAG(F("\n*** READ CV %d = %d ******\n"),cv,value);
+  
+  //  DIAG(F("\n*** readCV(%d) = %d ******\n"),cv,value);
   return verifyCV(cv,value)?value:-1;
 }

DCCWaveform.cpp

@@ -230,6 +230,8 @@ bool DCCWaveform::getAck()
      maxCurrent=max(maxCurrent,current);
      if (current<= ACK_MAX_NOT_PULSE)break;
   }
-  DIAG(F("\nack=%d  max=%d, up=%d, down=%d "),result,maxCurrent, upsamples,downsamples);
+  // The following DIAG is really useful as it can show how long and how far the 
+  // current changes during an ACK from the decoder.
+  // DIAG(F("\nack=%d  max=%d, up=%d, down=%d "),result,maxCurrent, upsamples,downsamples);
   return result;
 }