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<r> response and timing issue.
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@ -78,8 +78,8 @@ Once a new OPCODE is decided upon, update this list.
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P, Write DCC packet
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q, Sensor deactivated
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Q, Sensor activated
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r, Broadcast address read on programming track
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R, Read CVs
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r, Read cv on main (Railcom)
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R, Read CVs response r
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s, Display status
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S, Sensor configuration
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t, Cab/loco update command
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@ -1427,7 +1427,7 @@ void DCCEXParser::callback_R(int16_t result)
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void DCCEXParser::callback_r(int16_t result)
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{
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StringFormatter::send(getAsyncReplyStream(), F("<r MAIN %d %d %d >\n"), stashP[0], stashP[1], result);
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StringFormatter::send(getAsyncReplyStream(), F("<r %d %d %d >\n"), stashP[0], stashP[1], result);
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commitAsyncReplyStream();
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}
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@ -168,6 +168,10 @@ void DCCWaveform::interrupt2() {
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// cutout has ended so its now possible to poll the railcom detectors
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// requiredPreambles is one higher that preamble length so
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// if preamble length is 16 then this evaluates to 5
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// Remember address bytes of last sent packet so that Railcom can
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// work out where the channel2 data came from.
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railcomLastAddressHigh=transmitPacket[0];
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railcomLastAddressLow =transmitPacket[1];
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railcomSampleWindow=true;
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} else if (remainingPreambles==(requiredPreambles-3)) {
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// cutout can be ended when read
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@ -233,13 +237,6 @@ void DCCWaveform::promotePendingPacket() {
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transmitRepeats--;
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return;
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}
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if (isMainTrack) {
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// Remember address bytes of last sent packet so that Railcom can
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// work out where the channel2 data came from.
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railcomLastAddressHigh=transmitPacket[0];
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railcomLastAddressLow =transmitPacket[1];
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}
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if (packetPending) {
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// Copy pending packet to transmit packet
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@ -20,7 +20,9 @@
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*/
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/** Sections of this code (the decode table constants)
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* are taken from openmrn under the following copyright.
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* are taken from openmrn
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* https://github.com/bakerstu/openmrn/blob/master/src/dcc/RailCom.cxx
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* under the following copyright.
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*
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* Copyright (c) 2014, Balazs Racz
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* All rights reserved.
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@ -48,4 +48,20 @@ Making use of Railcom data
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EITHER - The leaving loco enters another railcom block
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OR - only ONE loco remains in the block just left.
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To further support block management in railcom, two additional serial commands are available
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`<K block loco >` to simulate a loco entering a block, and trigger any ONBLOCKENTER
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`<k block loco >` to simulate a loco leaving a block, and trigger and ONBLOCKEXIT
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Reading CV values on MAIN.
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Railcom allows for the facility to read loco cv values while on the main track. This is considerably faster than PROG track access but depends on the loco being in a Railcom monitored block.
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To read from prog Track we use `<R cv>` response is `<r value>`
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To read from main track use `<r loco cv>`
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response is `<r loco cv value>`
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