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https://github.com/DCC-EX/CommandStation-EX.git
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Channel2 support
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parent
dd42390ae9
commit
9ccf1fe41a
36
DCC.cpp
36
DCC.cpp
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@ -897,6 +897,42 @@ DCC::LOCO DCC::speedTable[MAX_LOCOS];
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int DCC::lastLocoReminder = 0;
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int DCC::highestUsedReg = 0;
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void DCC::setLocoInBlock(int loco, uint16_t blockid, bool exclusive) {
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// update block loco is in, tell exrail leaving old block, and entering new.
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// NOTE: The loco table scanning is really inefficient and needs rewriting
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// This was done once in the momentum poc.
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#ifdef EXRAIL_ACTIVE
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int reg=lookupSpeedTable(loco,true);
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if (reg<0) return;
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auto oldBlock=speedTable[reg].blockOccupied;
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if (oldBlock==blockid) return;
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if (oldBlock) RMFT2::blockEvent(oldBlock,loco,false);
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speedTable[reg].blockOccupied=blockid;
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if (blockid) RMFT2::blockEvent(blockid,loco,true);
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if (exclusive) {
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for (int reg = 0; reg <= highestUsedReg; reg++) {
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if (speedTable[reg].loco!=loco && speedTable[reg].blockOccupied==blockid) {
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RMFT2::blockEvent(blockid,speedTable[reg].loco,false);
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speedTable[reg].blockOccupied=0;
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}
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}
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}
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#endif
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}
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void DCC::clearBlock(uint16_t blockid) {
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// Railcom reports block empty... tell Exrail about all leavers
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#ifdef EXRAIL_ACTIVE
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for (int reg = 0; reg <= highestUsedReg; reg++) {
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if (speedTable[reg].blockOccupied==blockid) {
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RMFT2::blockEvent(blockid,speedTable[reg].loco,false);
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speedTable[reg].blockOccupied=0;
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}
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}
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#endif
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}
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void DCC::displayCabList(Print * stream) {
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4
DCC.h
4
DCC.h
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@ -102,12 +102,14 @@ public:
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byte speedCode;
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byte groupFlags;
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uint32_t functions;
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uint16_t blockOccupied; // railcom detected block
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};
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static LOCO speedTable[MAX_LOCOS];
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static int lookupSpeedTable(int locoId, bool autoCreate=true);
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static byte cv1(byte opcode, int cv);
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static byte cv2(int cv);
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static void setLocoInBlock(int locoid, uint16_t blockid, bool exclusive);
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static void clearBlock(uint16_t blockid);
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private:
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static byte loopStatus;
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static void setThrottle2(uint16_t cab, uint8_t speedCode);
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@ -1205,6 +1205,10 @@ bool DCCEXParser::parseD(Print *stream, int16_t params, int16_t p[])
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Diag::CMD = onOff;
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return true;
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case "RAILCOM"_hk: // <D RAILCOM ON/OFF>
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Diag::RAILCOM = onOff;
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return true;
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#ifdef HAS_ENOUGH_MEMORY
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case "WIFI"_hk: // <D WIFI ON/OFF>
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Diag::WIFI = onOff;
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66
Railcom.cpp
66
Railcom.cpp
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@ -51,10 +51,9 @@
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#include "Railcom.h"
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#include "defines.h"
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#include "FSH.h"
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#include "EXRAIL3.h"
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#include "DCC.h"
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#include "DIAG.h"
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#define DIAG_I2CRailcom_data
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/** Table for 8-to-6 decoding of railcom data. This table can be indexed by the
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@ -143,31 +142,35 @@ Railcom::Railcom(uint16_t blockvpin) {
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haveHigh=false;
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haveLow=false;
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packetsWithNoData=0;
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locoOnTrack=0;
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lastChannel1Loco=0;
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vpin=blockvpin;
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}
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// Process is called by a raw data collector.
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void Railcom::process(uint8_t * inbound, uint8_t length) {
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#ifdef DIAG_I2CRailcom_data
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static const char hexchars[]="0123456789ABCDEF";
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if (length>2) {
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Serial.print("R ");
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for (byte i=0;i<length;i++) {
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if (i==2) Serial.write(' ');
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Serial.write(hexchars[inbound[i]>>4]);
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Serial.write(hexchars[inbound[i]& 0x0F ]);
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}
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Serial.println();
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}
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#endif
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if (length<2 || (inbound[0]==0 && inbound[1]==0)) {
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noData();
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return;
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}
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if (Diag::RAILCOM) {
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static const char hexchars[]="0123456789ABCDEF";
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if (length>2) {
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USB_SERIAL.print(F("<*R "));
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for (byte i=0;i<length;i++) {
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if (i==2) Serial.write(' ');
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USB_SERIAL.write(hexchars[inbound[i]>>4]);
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USB_SERIAL.write(hexchars[inbound[i]& 0x0F ]);
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}
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USB_SERIAL.print(F(" *>\n"));
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}
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}
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auto v1=GETHIGHFLASH(decode,inbound[0]);
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auto v2=(length>1) ? GETHIGHFLASH(decode,inbound[1]):INV;
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uint16_t packet=(v1<<6) | (v2 & 0x3f);
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@ -188,25 +191,28 @@ void Railcom::process(uint8_t * inbound, uint8_t length) {
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return; /* ignore*/
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}
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else {
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// channel1 is unreadable so maybe multiple locos in block
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if (length>2 && GETHIGHFLASH(decode,inbound[0])!=INV) {
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// it looks like we have channel2 data
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auto thisLoco=DCCWaveform::getRailcomLastLocoAddress();
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if (Diag::RAILCOM) DIAG(F("c2=%d"),thisLoco);
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if (thisLoco) DCC::setLocoInBlock(thisLoco,vpin,false); // this loco is in block, but not exclusive
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return;
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}
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// channel1 no good and no channel2
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noData();
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return; // need more data
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return;
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}
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if (haveHigh && haveLow) {
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uint16_t thisLoco=((holdoverHigh<<8)| holdoverLow);
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if (locoOnTrack!=thisLoco) {
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// Previous loco (if any) is exiting block
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blockEvent(false);
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locoOnTrack=thisLoco;
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blockEvent(true);
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if (thisLoco!=lastChannel1Loco) {
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// the exclusive DCC call is quite expensive, we dont want to call it every packet
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DCC::setLocoInBlock(thisLoco,vpin,true); // only this loco is in block
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lastChannel1Loco=thisLoco;
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}
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}
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}
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void Railcom::blockEvent(bool entering) {
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#ifdef EXRAIL_ACTIVE
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if (locoOnTrack) RMFT3::blockEvent(vpin,locoOnTrack,entering);
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#endif
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}
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void Railcom::noData() {
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if (packetsWithNoData>MAX_WAIT_FOR_GLITCH) return;
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@ -214,9 +220,9 @@ void Railcom::noData() {
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// treat as no loco
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haveHigh=false;
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haveLow=false;
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// Previous loco (if any) is exiting block
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blockEvent(false);
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locoOnTrack=0;
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lastChannel1Loco=0;
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// Previous locos (if any) is exiting block
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DCC::clearBlock(vpin);
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}
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packetsWithNoData++;
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}
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@ -33,13 +33,12 @@ class Railcom {
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void process(uint8_t * inbound,uint8_t length);
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private:
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void blockEvent(bool entering);
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void noData();
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uint16_t locoOnTrack;
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uint16_t vpin;
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uint8_t holdoverHigh,holdoverLow;
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bool haveHigh,haveLow;
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uint8_t packetsWithNoData;
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uint16_t lastChannel1Loco;
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static const byte MAX_WAIT_FOR_GLITCH=20; // number of dead or empty packets before assuming loco=0
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};
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@ -27,6 +27,8 @@ bool Diag::WIFI=false;
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bool Diag::WITHROTTLE=false;
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bool Diag::ETHERNET=false;
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bool Diag::LCN=false;
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bool Diag::RAILCOM=false;
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void StringFormatter::diag( const FSH* input...) {
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@ -30,6 +30,7 @@ class Diag {
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static bool WITHROTTLE;
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static bool ETHERNET;
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static bool LCN;
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static bool RAILCOM;
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};
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