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https://github.com/DCC-EX/CommandStation-EX.git
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fae713eae7
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fae713eae7 | ||
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a49cb95795 |
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@ -77,6 +77,7 @@ void DCCWaveform::interruptHandler() {
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if (cutoutNextTime) {
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if (cutoutNextTime) {
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cutoutNextTime=false;
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cutoutNextTime=false;
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railcomSampleWindow=false; // about to cutout, stop reading railcom data.
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railcomSampleWindow=false; // about to cutout, stop reading railcom data.
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railcomCutoutCounter++;
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DCCTimer::startRailcomTimer(9);
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DCCTimer::startRailcomTimer(9);
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}
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}
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byte sigMain=signalTransform[mainTrack.state];
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byte sigMain=signalTransform[mainTrack.state];
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@ -125,6 +126,7 @@ bool DCCWaveform::railcomPossible=false; // High accuracy only
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volatile bool DCCWaveform::railcomActive=false; // switched on by user
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volatile bool DCCWaveform::railcomActive=false; // switched on by user
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volatile bool DCCWaveform::railcomDebug=false; // switched on by user
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volatile bool DCCWaveform::railcomDebug=false; // switched on by user
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volatile bool DCCWaveform::railcomSampleWindow=false; // true during packet transmit
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volatile bool DCCWaveform::railcomSampleWindow=false; // true during packet transmit
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volatile byte DCCWaveform::railcomCutoutCounter=0; // cyclic cutout
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bool DCCWaveform::setRailcom(bool on, bool debug) {
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bool DCCWaveform::setRailcom(bool on, bool debug) {
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if (on && railcomPossible) {
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if (on && railcomPossible) {
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@ -87,6 +87,9 @@ class DCCWaveform {
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inline static bool isRailcom() {
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inline static bool isRailcom() {
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return railcomActive;
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return railcomActive;
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};
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};
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inline static byte getRailcomCutoutCounter() {
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return railcomCutoutCounter;
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};
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inline static bool isRailcomSampleWindow() {
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inline static bool isRailcomSampleWindow() {
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return railcomSampleWindow;
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return railcomSampleWindow;
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};
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};
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@ -125,6 +128,7 @@ class DCCWaveform {
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static volatile bool railcomActive; // switched on by user
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static volatile bool railcomActive; // switched on by user
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static volatile bool railcomDebug; // switched on by user
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static volatile bool railcomDebug; // switched on by user
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static volatile bool railcomSampleWindow; // when safe to sample
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static volatile bool railcomSampleWindow; // when safe to sample
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static volatile byte railcomCutoutCounter; // incremented for each cutout
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static bool cutoutNextTime; // railcom
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static bool cutoutNextTime; // railcom
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#ifdef ARDUINO_ARCH_ESP32
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#ifdef ARDUINO_ARCH_ESP32
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static RMTChannel *rmtMainChannel;
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static RMTChannel *rmtMainChannel;
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@ -1,5 +1,6 @@
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// file exists to break #include dependency loop
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// file exists to break #include dependency loop
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#include "EXRAIL2.h"
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#include "EXRAIL2.h"
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#include "EXRAIL3.h"
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void RMFT3::blockEvent(int16_t block, int16_t loco, bool entering) {
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void RMFT3::blockEvent(int16_t block, int16_t loco, bool entering) {
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RMFT2::blockEvent(block,loco,entering);
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RMFT2::blockEvent(block,loco,entering);
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};
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};
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@ -45,7 +45,6 @@
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#ifndef IO_I2CRailcom_h
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#ifndef IO_I2CRailcom_h
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#define IO_I2CRailcom_h
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#define IO_I2CRailcom_h
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#include "EXRAIL3.h"
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#include "IODevice.h"
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#include "IODevice.h"
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#include "I2CManager.h"
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#include "I2CManager.h"
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#include "DIAG.h"
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#include "DIAG.h"
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@ -54,7 +53,6 @@
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// Debug and diagnostic defines, enable too many will result in slowing the driver
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// Debug and diagnostic defines, enable too many will result in slowing the driver
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#define DIAG_I2CRailcom
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#define DIAG_I2CRailcom
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#define DIAG_I2CRailcom_data
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class I2CRailcom : public IODevice {
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class I2CRailcom : public IODevice {
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private:
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private:
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@ -62,14 +60,16 @@ private:
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uint8_t _UART_CH=0x00; // channel 0 or 1 flips each loop if npins>1
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uint8_t _UART_CH=0x00; // channel 0 or 1 flips each loop if npins>1
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byte _inbuf[65];
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byte _inbuf[65];
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byte _outbuf[2];
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byte _outbuf[2];
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Railcom _channelMonitors[2];
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byte cutoutCounter[2];
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int16_t _locoInBlock[2];
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Railcom * _channelMonitors[2];
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public:
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public:
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// Constructor
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// Constructor
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I2CRailcom(VPIN firstVpin, int nPins, I2CAddress i2cAddress){
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I2CRailcom(VPIN firstVpin, int nPins, I2CAddress i2cAddress){
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_firstVpin = firstVpin;
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_firstVpin = firstVpin;
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_nPins = nPins;
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_nPins = nPins;
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_I2CAddress = i2cAddress;
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_I2CAddress = i2cAddress;
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_channelMonitors[0]=new Railcom(firstVpin);
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if (nPins>1) _channelMonitors[1]=new Railcom(firstVpin+1);
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addDevice(this);
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addDevice(this);
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}
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}
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@ -110,46 +110,27 @@ public:
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// IF we have 2 channels, flip channels each loop
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// IF we have 2 channels, flip channels each loop
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if (_nPins>1) _UART_CH=_UART_CH?0:1;
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if (_nPins>1) _UART_CH=_UART_CH?0:1;
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// have we read this cutout already?
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auto cut=DCCWaveform::getRailcomCutoutCounter();
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if (cutoutCounter[_UART_CH]==cut) return;
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cutoutCounter[_UART_CH]=cut;
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// Read incoming raw Railcom data, and process accordingly
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// Read incoming raw Railcom data, and process accordingly
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auto inlength = UART_ReadRegister(REG_RXLV);
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auto inlength = UART_ReadRegister(REG_RXLV);
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if (inlength==0) return;
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if (inlength==0) return;
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if (inlength> sizeof(_inbuf)) inlength=sizeof(_inbuf);
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#ifdef DIAG_I2CRailcom
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_inbuf[0]=0;
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DIAG(F("Railcom: %s/%d RX Fifo length: %d"),_I2CAddress.toString(), _UART_CH, inlength);
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if (inlength>0) {
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#endif
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// Read data buffer from UART
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// Read data buffer from UART
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_outbuf[0]=(byte)(REG_RHR << 3 | _UART_CH << 1);
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_outbuf[0]=(byte)(REG_RHR << 3 | _UART_CH << 1);
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I2CManager.read(_I2CAddress, _inbuf, inlength, _outbuf, 1);
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I2CManager.read(_I2CAddress, _inbuf, inlength, _outbuf, 1);
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}
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// HK: Reset FIFO at end of read cycle
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// HK: Reset FIFO at end of read cycle
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UART_WriteRegister(REG_FCR, 0x07,false);
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UART_WriteRegister(REG_FCR, 0x07,false);
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#ifdef DIAG_I2CRailcom_data
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// Ask Railcom to interpret the raw data
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DIAG(F("Railcom %s/%d RX FIFO Data"), _I2CAddress.toString(), _UART_CH);
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_channelMonitors[_UART_CH]->process(_inbuf,inlength);
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for (int i = 0; i < inlength; i++){
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DIAG(F("[0x%x]: 0x%x"), i, _inbuf[i]);
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}
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#endif
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// Ask Railcom to interpret the channel1 loco
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auto locoid=_channelMonitors[_UART_CH].getChannel1Loco(_inbuf);
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#ifdef DIAG_I2CRailcom
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DIAG(F("Railcom Channel1=%d"), locoid);
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#endif
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if (locoid<0) return; // -1 indicates Railcom needs another packet
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// determine if loco in this block has changed
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auto prevLoco=_locoInBlock[_UART_CH];
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if (locoid==prevLoco) return;
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// Previous loco (if any) is exiting block
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if (prevLoco) RMFT3::blockEvent(_firstVpin+_UART_CH,prevLoco,false);
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// new loco, if any, is entering block
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_locoInBlock[_UART_CH]=locoid;
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if (locoid) RMFT3::blockEvent(_firstVpin+_UART_CH,locoid,true);
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}
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}
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57
Railcom.cpp
57
Railcom.cpp
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@ -49,7 +49,13 @@
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**/
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**/
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#include "Railcom.h"
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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 "FSH.h"
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#include "EXRAIL3.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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/** Table for 8-to-6 decoding of railcom data. This table can be indexed by the
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* 8-bit value read from the railcom channel, and the return value will be
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* 8-bit value read from the railcom channel, and the return value will be
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@ -129,41 +135,70 @@ const uint8_t HIGHFLASH decode[256] =
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RMOB_LOGON_ENABLE_FEEDBACK = 15,
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RMOB_LOGON_ENABLE_FEEDBACK = 15,
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};
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};
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Railcom::Railcom(uint16_t blockvpin) {
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Railcom::Railcom() {
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haveHigh=false;
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haveHigh=false;
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haveLow=false;
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haveLow=false;
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packetsWithNoData=0;
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locoOnTrack=0;
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vpin=blockvpin;
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}
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}
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/* returns -1: Call again next packet
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/* returns -1: Call again next packet
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0: No loco on track
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0: No loco on track
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>0: loco id
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>0: loco id
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*/
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*/
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int16_t Railcom::getChannel1Loco(uint8_t * inbound) {
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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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DIAG(F("Railcom %d RX FIFO Data, %d"), vpin,length);
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for (int i = 0; i < 2; i++){
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if (inbound[i]) DIAG(F("[0x%x]: 0x%x"), i, inbound[i]);
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}
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#endif
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auto v1=GETHIGHFLASH(decode,inbound[0]);
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auto v1=GETHIGHFLASH(decode,inbound[0]);
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if (v1>MAX_VALID) return -1;
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auto v2=(length>2) ? GETHIGHFLASH(decode,inbound[1]):0x0;
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auto v2=GETHIGHFLASH(decode,inbound[1]);
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uint16_t packet=(v1<<6) | (v2 & 0x3f);
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if (v2>MAX_VALID) return -1;
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auto packet=(v1<<6) | v2;
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// packet is 12 bits TTTTDDDDDDDD
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// packet is 12 bits TTTTDDDDDDDD
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auto type=packet>>8;
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auto type=packet>>8;
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auto data= packet & 0xFF;
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auto data= packet & 0xFF;
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if (type==RMOB_ADRHIGH) {
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if (type==RMOB_ADRHIGH) {
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holdoverHigh=data;
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holdoverHigh=data;
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haveHigh=true;
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haveHigh=true;
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packetsWithNoData=0;
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}
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}
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else if (type==RMOB_ADRLOW) {
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else if (type==RMOB_ADRLOW) {
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holdoverLow=data;
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holdoverLow=data;
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haveLow=true;
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haveLow=true;
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packetsWithNoData=0;
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}
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}
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else if (type==RMOB_EXT) {
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else if (type==RMOB_EXT) {
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return -1; /* ignore*/
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return; /* ignore*/
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}
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}
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else {
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else {
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if (packetsWithNoData>MAX_WAIT_FOR_GLITCH) {
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// treat as no loco
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haveHigh=false;
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haveHigh=false;
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haveLow=false;
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haveLow=false;
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return 0; // treat as no loco
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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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return ;
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}
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}
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if (haveHigh && haveLow) return ((holdoverHigh<<8)| holdoverLow);
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packetsWithNoData++;
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return -1; // call again, need next packet
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return; // need more data
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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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}
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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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}
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@ -24,17 +24,22 @@
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class Railcom {
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class Railcom {
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public:
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public:
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Railcom();
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Railcom(uint16_t vpin);
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/* returns -1: Call again next packet
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/* returns -1: Call again next packet
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0: No loco on track
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0: No loco on track
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>0: loco id
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>0: loco id
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*/
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*/
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int16_t getChannel1Loco(uint8_t * inbound);
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void process(uint8_t * inbound,uint8_t length);
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private:
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private:
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void blockEvent(bool entering);
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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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uint8_t holdoverHigh,holdoverLow;
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bool haveHigh,haveLow;
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bool haveHigh,haveLow;
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uint8_t packetsWithNoData;
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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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};
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#endif
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#endif
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