Delete AccDec_17LED_1Ftn.ino

examples/SMA/AccDec_17LED_1Ftn/AccDec_17LED_1Ftn.ino

@@ -1,119 +0,0 @@
-// Production 17 Switch Acessory DCC Decoder    AccDec_17LED_1Ftn.ino
-// Version 6.0  Geoff Bunza 2014,2015,2016,2017,2018
-// Now works with both short and long DCC Addesses for CV Control Default 24 (LSB CV 121 ; MSB CV 122)
-// ACCESSORY DECODER  DEFAULT ADDRESS IS 40 (MAX 40-56 SWITCHES)
-// ACCESSRY DECODER ADDRESS CAN NOW BE SET ABOVE 255
-// BE CAREFUL!  DIFFERENT DCC BASE STATIONS  ALLOW DIFFERING MAX ADDRESSES
-
-// ******** UNLESS YOU WANT ALL CV'S RESET UPON EVERY POWER UP
-// ******** AFTER THE INITIAL DECODER LOAD REMOVE THE "//" IN THE FOOLOWING LINE!!
-//#define DECODER_LOADED
-
-#include <NmraDcc.h>
-
-int tim_delay = 500;
-#define numleds  17
-byte ledpins [] = {3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19};
-
-const int FunctionPin0 = 3;
-const int FunctionPin1 = 4;
-const int FunctionPin2 = 5;
-const int FunctionPin3 = 6;
-const int FunctionPin4 = 7;
-const int FunctionPin5 = 8;
-const int FunctionPin6 = 9;
-const int FunctionPin7 = 10;
-const int FunctionPin8 = 11;
-const int FunctionPin9 = 12;
-const int FunctionPin10 = 13;
-const int FunctionPin11 = 14;     //A0
-const int FunctionPin12 = 15;     //A1
-const int FunctionPin13 = 16;     //A2
-const int FunctionPin14 = 17;     //A3
-const int FunctionPin15 = 18;     //A4
-const int FunctionPin16 = 19;     //A5
-NmraDcc  Dcc ;
-DCC_MSG  Packet ;
-
-#define SET_CV_Address       24           // THIS ADDRESS IS FOR SETTING CV'S Like a Loco
-#define Accessory_Address    40           // THIS ADDRESS IS THE START OF THE SWITCHES RANGE
-                                          // WHICH WILL EXTEND FOR 16 MORE SWITCH ADDRESSES
-										  // THIS CAN START ABOVE ADDRESS 256
-uint8_t CV_DECODER_MASTER_RESET =   120;  // THIS IS THE CV ADDRESS OF THE FULL RESET
-#define CV_To_Store_SET_CV_Address	121
-#define CV_Accessory_Address CV_ACCESSORY_DECODER_ADDRESS_LSB
-
-struct CVPair
-{
-  uint16_t  CV;
-  uint8_t   Value;
-};
-CVPair FactoryDefaultCVs [] =
-{
-  // These two CVs define the Long Accessory Address
-  {CV_ACCESSORY_DECODER_ADDRESS_LSB, Accessory_Address&0xFF},
-  {CV_ACCESSORY_DECODER_ADDRESS_MSB, (Accessory_Address>>8)&0x07},
-  
-  {CV_MULTIFUNCTION_EXTENDED_ADDRESS_MSB, 0},
-  {CV_MULTIFUNCTION_EXTENDED_ADDRESS_LSB, 0},
-  // Speed Steps don't matter for this decoder
-  // ONLY uncomment 1 CV_29_CONFIG line below as approprate DEFAULT IS SHORT ADDRESS
-//  {CV_29_CONFIG,          0},                                           // Short Address 14 Speed Steps
-  {CV_29_CONFIG, CV29_F0_LOCATION}, // Short Address 28/128 Speed Steps
-//  {CV_29_CONFIG,          CV29_EXT_ADDRESSING | CV29_F0_LOCATION},   // Long  Address 28/128 Speed Steps  
-  
-  {CV_DECODER_MASTER_RESET, 0},
-  {CV_To_Store_SET_CV_Address, SET_CV_Address&0xFF },   // LSB Set CV Address
-  {CV_To_Store_SET_CV_Address+1,(SET_CV_Address>>8)&0x3F },  //MSB Set CV Address
-};
-
-uint8_t FactoryDefaultCVIndex = 0;
-void notifyCVResetFactoryDefault()
-{
-  // Make FactoryDefaultCVIndex non-zero and equal to num CV's to be reset 
-  // to flag to the loop() function that a reset to Factory Defaults needs to be done
-  FactoryDefaultCVIndex = sizeof(FactoryDefaultCVs)/sizeof(CVPair);
-};
-void setup()
-{
-   // initialize the digital pins as an outputs
-    for (int i=0; i< numleds; i++) {
-      pinMode(ledpins[i], OUTPUT);
-      digitalWrite(ledpins[i], LOW);
-     }
-  for (int i=0; i< numleds; i++) {
-     digitalWrite(ledpins[i], HIGH);
-     delay (tim_delay/10);
-  }
-  delay( tim_delay);
-  for (int i=0; i< numleds; i++) {
-     digitalWrite(ledpins[i], LOW);
-     delay (tim_delay/10);
-  }
-  delay( tim_delay);
-    
-  #if defined(DECODER_LOADED)
-  if ( Dcc.getCV(CV_DECODER_MASTER_RESET)== CV_DECODER_MASTER_RESET ) 
-  #endif  
-     {
-       for (int j=0; j < FactoryDefaultCVIndex; j++ )
-         Dcc.setCV( FactoryDefaultCVs[j].CV, FactoryDefaultCVs[j].Value);
-         digitalWrite(ledpins[14], 1);
-         delay (1000);
-         digitalWrite(ledpins[14], 0);
-     }  
-  // Setup which External Interrupt, the Pin it's associated with that we're using and enable the Pull-Up 
-  Dcc.pin(0, 2, 0);
-  // Call the main DCC Init function to enable the DCC Receiver
-  Dcc.init( MAN_ID_DIY, 600, FLAGS_OUTPUT_ADDRESS_MODE | FLAGS_DCC_ACCESSORY_DECODER, CV_To_Store_SET_CV_Address);
-}
-void loop()
-{
-  // You MUST call the NmraDcc.process() method frequently from the Arduino loop() function for correct library operation
-  Dcc.process();
-}
-extern void notifyDccAccTurnoutOutput( uint16_t Addr, uint8_t Direction, uint8_t OutputPower ) {
-  if ( Addr >= Accessory_Address && Addr < Accessory_Address+17)  //Controls This_Decoder_Address+16
-	  digitalWrite( ledpins[Addr-Accessory_Address], Direction );
-}
-