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https://github.com/DCC-EX/CommandStation-EX.git
synced 2024-12-24 13:21:23 +01:00
Blocking progtrack call optoin
Note, as yet UNTESTED
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parent
0ea0cc6391
commit
2ae7aedcd2
72
DCC.cpp
72
DCC.cpp
@ -262,29 +262,35 @@ const ackOp PROGMEM LOCO_ID_PROG[] = {
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};
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// On the following prog-track functions blocking defaults to false.
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// blocking=true forces the API to block, waiting for the response and invoke the callback BEFORE returning.
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// During that wait, other parts of the system will be unresponsive.
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// blocking =false means the callback will be called some time after the API returns (typically a few tenths of a second)
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// but that would be very inconvenient in a Wifi situaltion where the stream becomes
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// unuavailable immediately after the API rerturns.
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void DCC::writeCVByte(int cv, byte byteValue, ACK_CALLBACK callback) {
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ackManagerSetup(cv, byteValue, WRITE_BYTE_PROG, callback);
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void DCC::writeCVByte(int cv, byte byteValue, ACK_CALLBACK callback, bool blocking) {
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ackManagerSetup(cv, byteValue, WRITE_BYTE_PROG, callback, blocking);
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}
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void DCC::writeCVBit(int cv, byte bitNum, bool bitValue, ACK_CALLBACK callback) {
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void DCC::writeCVBit(int cv, byte bitNum, bool bitValue, ACK_CALLBACK callback, bool blocking) {
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if (bitNum >= 8) callback(-1);
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else ackManagerSetup(cv, bitNum, bitValue?WRITE_BIT1_PROG:WRITE_BIT0_PROG, callback);
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else ackManagerSetup(cv, bitNum, bitValue?WRITE_BIT1_PROG:WRITE_BIT0_PROG, callback, blocking);
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}
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void DCC::readCVBit(int cv, byte bitNum, ACK_CALLBACK callback) {
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void DCC::readCVBit(int cv, byte bitNum, ACK_CALLBACK callback, bool blocking) {
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if (bitNum >= 8) callback(-1);
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else ackManagerSetup(cv, bitNum,READ_BIT_PROG, callback);
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else ackManagerSetup(cv, bitNum,READ_BIT_PROG, callback, blocking);
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}
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void DCC::readCV(int cv, ACK_CALLBACK callback) {
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ackManagerSetup(cv, 0,READ_CV_PROG, callback);
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void DCC::readCV(int cv, ACK_CALLBACK callback, bool blocking) {
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ackManagerSetup(cv, 0,READ_CV_PROG, callback, blocking);
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}
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void DCC::getLocoId(ACK_CALLBACK callback) {
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ackManagerSetup(0,0, LOCO_ID_PROG, callback);
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void DCC::getLocoId(ACK_CALLBACK callback, bool blocking) {
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ackManagerSetup(0,0, LOCO_ID_PROG, callback, blocking);
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}
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void DCC::forgetLoco(int cab) { // removes any speed reminders for this loco
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@ -303,7 +309,7 @@ byte DCC::loopStatus=0;
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void DCC::loop() {
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DCCWaveform::loop(); // power overload checks
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ackManagerLoop(); // maintain prog track ack manager
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ackManagerLoop(false); // maintain prog track ack manager
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issueReminders();
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}
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@ -428,34 +434,44 @@ bool DCC::debugMode=false;
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ACK_CALLBACK DCC::ackManagerCallback;
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void DCC::ackManagerSetup(int cv, byte byteValueOrBitnum, ackOp const program[], ACK_CALLBACK callback) {
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void DCC::ackManagerSetup(int cv, byte byteValueOrBitnum, ackOp const program[], ACK_CALLBACK callback, bool blocking) {
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ackManagerCv = cv;
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ackManagerProg = program;
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ackManagerByte = byteValueOrBitnum;
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ackManagerBitNum=byteValueOrBitnum;
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ackManagerCallback = callback;
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if (blocking) ackManagerLoop(blocking);
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}
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const byte RESET_MIN=8; // tuning of reset counter before sending message
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void DCC::ackManagerLoop() {
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while (ackManagerProg) {
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// checkRessets return true if the caller should yield back to loop and try later.
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bool DCC::checkResets(bool blocking) {
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if (blocking) {
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// must block waiting for restest to be issued
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while(DCCWaveform::progTrack.sentResetsSincePacket < RESET_MIN);
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return false; // caller need not yield
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}
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return DCCWaveform::progTrack.sentResetsSincePacket < RESET_MIN;
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}
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// breaks from this switch will step to next prog entry
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// returns from this switch will stay on same entry (typically WACK waiting and when all finished.)
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void DCC::ackManagerLoop(bool blocking) {
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while (ackManagerProg) {
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byte opcode=pgm_read_byte_near(ackManagerProg);
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int resets=DCCWaveform::progTrack.sentResetsSincePacket;
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// breaks from this switch will step to next prog entry
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// returns from this switch will stay on same entry
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// (typically waiting for a reset counter or ACK waiting, or when all finished.)
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// if blocking then we must ONLY return AFTER callback issued
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switch (opcode) {
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case BASELINE:
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if (resets<RESET_MIN) return; // try later
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if (checkResets(blocking)) return;
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DCCWaveform::progTrack.setAckBaseline(debugMode);
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break;
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case W0: // write 0 bit
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case W1: // write 1 bit
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{
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if (resets<RESET_MIN) return; // try later
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if (checkResets(blocking)) return;
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if (debugMode) DIAG(F("\nW%d cv=%d bit=%d"),opcode==W1, ackManagerCv,ackManagerBitNum);
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byte instruction = WRITE_BIT | (opcode==W1 ? BIT_ON : BIT_OFF) | ackManagerBitNum;
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byte message[] = {cv1(BIT_MANIPULATE, ackManagerCv), cv2(ackManagerCv), instruction };
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@ -466,7 +482,7 @@ void DCC::ackManagerLoop() {
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case WB: // write byte
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{
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if (resets<RESET_MIN) return; // try later
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if (checkResets(blocking)) return;
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if (debugMode) DIAG(F("\nWB cv=%d value=%d"),ackManagerCv,ackManagerByte);
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byte message[] = {cv1(WRITE_BYTE, ackManagerCv), cv2(ackManagerCv), ackManagerByte};
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DCCWaveform::progTrack.schedulePacket(message, sizeof(message), PROG_REPEATS);
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@ -476,7 +492,7 @@ void DCC::ackManagerLoop() {
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case VB: // Issue validate Byte packet
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{
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if (resets<RESET_MIN) return; // try later
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if (checkResets(blocking)) return;
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if (debugMode) DIAG(F("\nVB cv=%d value=%d"),ackManagerCv,ackManagerByte);
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byte message[] = { cv1(VERIFY_BYTE, ackManagerCv), cv2(ackManagerCv), ackManagerByte};
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DCCWaveform::progTrack.schedulePacket(message, sizeof(message), PROG_REPEATS);
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@ -487,7 +503,7 @@ void DCC::ackManagerLoop() {
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case V0:
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case V1: // Issue validate bit=0 or bit=1 packet
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{
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if (resets<RESET_MIN) return; // try later
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if (checkResets(blocking)) return;
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if (debugMode) DIAG(F("\nV%d cv=%d bit=%d"),opcode==V1, ackManagerCv,ackManagerBitNum);
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byte instruction = VERIFY_BIT | (opcode==V0?BIT_OFF:BIT_ON) | ackManagerBitNum;
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byte message[] = {cv1(BIT_MANIPULATE, ackManagerCv), cv2(ackManagerCv), instruction };
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@ -498,8 +514,14 @@ void DCC::ackManagerLoop() {
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case WACK: // wait for ack (or absence of ack)
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{
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byte ackState=DCCWaveform::progTrack.getAck(debugMode);
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if (ackState==2) return; // keep polling
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byte ackState=2; // keep polling
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if (blocking) {
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while(ackState==2) ackState=DCCWaveform::progTrack.getAck(debugMode);
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}
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else {
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ackState=DCCWaveform::progTrack.getAck(debugMode);
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if (ackState==2) return; // keep polling
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}
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ackReceived=ackState==1;
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break; // we have a genuine ACK result
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}
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15
DCC.h
15
DCC.h
@ -66,12 +66,12 @@ class DCC {
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static void setProgTrackSyncMain(bool on); // when true, prog track becomes driveable
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// ACKable progtrack calls bitresults callback 0,0 or -1, cv returns value or -1
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static void readCV(int cv, ACK_CALLBACK callback);
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static void readCVBit(int cv, byte bitNum, ACK_CALLBACK callback); // -1 for error
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static void writeCVByte(int cv, byte byteValue, ACK_CALLBACK callback) ;
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static void writeCVBit(int cv, byte bitNum, bool bitValue, ACK_CALLBACK callback);
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static void readCV(int cv, ACK_CALLBACK callback, bool blocking=false);
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static void readCVBit(int cv, byte bitNum, ACK_CALLBACK callback, bool blocking=false); // -1 for error
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static void writeCVByte(int cv, byte byteValue, ACK_CALLBACK callback, bool blocking=false) ;
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static void writeCVBit(int cv, byte bitNum, bool bitValue, ACK_CALLBACK callback, bool blocking=false);
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static void getLocoId(ACK_CALLBACK callback);
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static void getLocoId(ACK_CALLBACK callback, bool blocking=false);
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// Enhanced API functions
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static void forgetLoco(int cab); // removes any speed reminders for this loco
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@ -106,8 +106,9 @@ private:
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static byte ackManagerStash;
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static bool ackReceived;
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static ACK_CALLBACK ackManagerCallback;
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static void ackManagerSetup(int cv, byte bitNumOrbyteValue, ackOp const program[], ACK_CALLBACK callback);
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static void ackManagerLoop();
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static void ackManagerSetup(int cv, byte bitNumOrbyteValue, ackOp const program[], ACK_CALLBACK callback, bool blocking);
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static void ackManagerLoop(bool blocking);
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static bool checkResets(bool blocking);
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static const int PROG_REPEATS=8; // repeats of programming commands (some decoders need at least 8 to be reliable)
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@ -127,9 +127,8 @@ void DCCEXParser::setFilter(FILTER_CALLBACK filter) {
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}
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// See documentation on DCC class for info on this section
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void DCCEXParser::parse(Print & stream, const byte *com, bool banAsync) {
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void DCCEXParser::parse(Print & stream, const byte *com, bool blocking) {
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DIAG(F("\nPARSING:%s\n"),com);
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asyncBanned=banAsync;
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(void) EEPROM; // tell compiler not to warn thi is unused
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int p[MAX_PARAMS];
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while (com[0]=='<' || com[0]==' ') com++; // strip off any number of < or spaces
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@ -177,17 +176,17 @@ void DCCEXParser::parse(Print & stream, const byte *com, bool banAsync) {
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case 'W': // WRITE CV ON PROG <W CV VALUE CALLBACKNUM CALLBACKSUB>
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if (!stashCallback(stream,p)) break;
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DCC::writeCVByte(p[0],p[1],callback_W);
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DCC::writeCVByte(p[0],p[1],callback_W,blocking);
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return;
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case 'B': // WRITE CV BIT ON PROG <B CV BIT VALUE CALLBACKNUM CALLBACKSUB>
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if (!stashCallback(stream,p)) break;
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DCC::writeCVBit(p[0],p[1],p[2],callback_B);
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DCC::writeCVBit(p[0],p[1],p[2],callback_B,blocking);
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return;
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case 'R': // READ CV ON PROG <R CV CALLBACKNUM CALLBACKSUB>
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if (!stashCallback(stream,p)) break;
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DCC::readCV(p[0],callback_R);
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DCC::readCV(p[0],callback_R,blocking);
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return;
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case '1': // POWERON <1 [MAIN|PROG]>
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@ -26,7 +26,7 @@ struct DCCEXParser
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{
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DCCEXParser();
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void loop(Stream & pstream);
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void parse(Print & stream, const byte * command, bool banAsync);
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void parse(Print & stream, const byte * command, bool blocking);
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void flush();
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static void setFilter(FILTER_CALLBACK filter);
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static const int MAX_PARAMS=10; // Must not exceed this
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