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CommandStation-EX/Turnouts.cpp

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/*
* © 2021 Restructured Neil McKechnie
* © 2013-2016 Gregg E. Berman
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* © 2020, Chris Harlow. All rights reserved.
* © 2020, Harald Barth.
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*
* This file is part of Asbelos DCC API
*
* This is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* It is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with CommandStation. If not, see <https://www.gnu.org/licenses/>.
*/
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#include "defines.h" // includes config.h
#include "EEStore.h"
#include "StringFormatter.h"
#include "RMFT2.h"
#include "Turnouts.h"
#include "DCC.h"
#include "LCN.h"
#ifdef EESTOREDEBUG
#include "DIAG.h"
#endif
/*
* Protected static data
*/
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Turnout *Turnout::_firstTurnout = 0;
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/*
* Public static data
*/
int Turnout::turnoutlistHash = 0;
#if defined(USE_RCN_213_TURNOUT_COMMANDS)
const bool Turnout::useClassicTurnoutCommands = false;
#else
const bool Turnout::useClassicTurnoutCommands = true;
#endif
/*
* Protected static functions
*/
Turnout *Turnout::get(uint16_t id) {
// Find turnout object from list.
for (Turnout *tt = _firstTurnout; tt != NULL; tt = tt->_nextTurnout)
if (tt->_turnoutData.id == id) return tt;
return NULL;
}
// Add new turnout to end of chain
void Turnout::add(Turnout *tt) {
if (!_firstTurnout)
_firstTurnout = tt;
else {
// Find last object on chain
Turnout *ptr = _firstTurnout;
for ( ; ptr->_nextTurnout!=0; ptr=ptr->_nextTurnout) {}
// Line new object to last object.
ptr->_nextTurnout = tt;
}
turnoutlistHash++;
}
// For DCC++ classic compatibility, state reported to JMRI is 1 for thrown and 0 for closed;
// if consistency with RCN-213 has been selected, it is 0 for thrown and 1 for closed.
void Turnout::printState(Print *stream) {
StringFormatter::send(stream, F("<H %d %d>\n"),
_turnoutData.id, _turnoutData.closed ^ useClassicTurnoutCommands);
}
// Remove nominated turnout from turnout linked list and delete the object.
bool Turnout::remove(uint16_t id) {
Turnout *tt,*pp=NULL;
for(tt=_firstTurnout; tt!=NULL && tt->_turnoutData.id!=id; pp=tt, tt=tt->_nextTurnout) {}
if (tt == NULL) return false;
if (tt == _firstTurnout)
_firstTurnout = tt->_nextTurnout;
else
pp->_nextTurnout = tt->_nextTurnout;
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delete (ServoTurnout *)tt;
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turnoutlistHash++;
return true;
}
/*
* Public static functions
*/
bool Turnout::isClosed(uint16_t id) {
Turnout *tt = get(id);
if (tt)
return tt->isClosed();
else
return false;
}
bool Turnout::setClosedStateOnly(uint16_t id, bool close) {
Turnout *tt = get(id);
if (tt) return false;
tt->_turnoutData.closed = close;
return true;
}
// Static setClosed function is invoked from close(), throw() etc. to perform the
// common parts of the turnout operation. Code which is specific to a turnout
// type should be placed in the virtual function setClosedInternal(bool) which is
// called from here.
bool Turnout::setClosed(uint16_t id, bool closeFlag) {
#ifdef EESTOREDEBUG
if (closeFlag)
DIAG(F("Turnout::close(%d)"), id);
else
DIAG(F("Turnout::throw(%d)"), id);
#endif
Turnout *tt = Turnout::get(id);
if (!tt) return false;
bool ok = tt->setClosedInternal(closeFlag);
if (ok) {
// Write byte containing new closed/thrown state to EEPROM if required. Note that eepromAddress
// is always zero for LCN turnouts.
if (EEStore::eeStore->data.nTurnouts > 0 && tt->_eepromAddress > 0)
EEPROM.put(tt->_eepromAddress, tt->_turnoutData.flags);
#if defined(RMFT_ACTIVE)
RMFT2::turnoutEvent(id, closeFlag);
#endif
// Send message to JMRI etc. over Serial USB. This is done here
// to ensure that the message is sent when the turnout operation
// is not initiated by a Serial command.
printState(id, &Serial);
}
return ok;
}
// Load all turnout objects
void Turnout::load() {
for (uint16_t i=0; i<EEStore::eeStore->data.nTurnouts; i++) {
Turnout::loadTurnout();
}
}
// Save all turnout objects
void Turnout::store() {
EEStore::eeStore->data.nTurnouts=0;
for (Turnout *tt = _firstTurnout; tt != 0; tt = tt->_nextTurnout) {
tt->save();
EEStore::eeStore->data.nTurnouts++;
}
}
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// Load one turnout from EEPROM
Turnout *Turnout::loadTurnout () {
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Turnout *tt = 0;
// Read turnout type from EEPROM
struct TurnoutData turnoutData;
int eepromAddress = EEStore::pointer() + offsetof(struct TurnoutData, flags); // Address of byte containing the closed flag.
EEPROM.get(EEStore::pointer(), turnoutData);
EEStore::advance(sizeof(turnoutData));
switch (turnoutData.turnoutType) {
case TURNOUT_SERVO:
// Servo turnout
tt = ServoTurnout::load(&turnoutData);
break;
case TURNOUT_DCC:
// DCC Accessory turnout
tt = DCCTurnout::load(&turnoutData);
break;
case TURNOUT_VPIN:
// VPIN turnout
tt = VpinTurnout::load(&turnoutData);
break;
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default:
// If we find anything else, then we don't know what it is or how long it is,
// so we can't go any further through the EEPROM!
return NULL;
}
if (tt) {
// Save EEPROM address in object. Note that LCN turnouts always have eepromAddress of zero.
tt->_eepromAddress = eepromAddress + offsetof(struct TurnoutData, flags);
}
#ifdef EESTOREDEBUG
printAll(&Serial);
#endif
return tt;
}
// Display, on the specified stream, the current state of the turnout (1 or 0).
void Turnout::printState(uint16_t id, Print *stream) {
Turnout *tt = get(id);
if (!tt) tt->printState(stream);
}
/*************************************************************************************
* ServoTurnout - Turnout controlled by servo device.
*
*************************************************************************************/
// Private Constructor
ServoTurnout::ServoTurnout(uint16_t id, VPIN vpin, uint16_t thrownPosition, uint16_t closedPosition, uint8_t profile, bool closed) :
Turnout(id, TURNOUT_SERVO, closed)
{
_servoTurnoutData.vpin = vpin;
_servoTurnoutData.thrownPosition = thrownPosition;
_servoTurnoutData.closedPosition = closedPosition;
_servoTurnoutData.profile = profile;
}
// Create function
Turnout *ServoTurnout::create(uint16_t id, VPIN vpin, uint16_t thrownPosition, uint16_t closedPosition, uint8_t profile, bool closed) {
#ifndef IO_NO_HAL
Turnout *tt = get(id);
if (tt) {
// Object already exists, check if it is usable
if (tt->isType(TURNOUT_SERVO)) {
// Yes, so set parameters
ServoTurnout *st = (ServoTurnout *)tt;
st->_servoTurnoutData.vpin = vpin;
st->_servoTurnoutData.thrownPosition = thrownPosition;
st->_servoTurnoutData.closedPosition = closedPosition;
st->_servoTurnoutData.profile = profile;
// Don't touch the _closed parameter, retain the original value.
// We don't really need to do the following, since a call to IODevice::_writeAnalogue
// will provide all the data that is required!
// int params[] = {(int)thrownPosition, (int)closedPosition, profile, closed};
// IODevice::configure(vpin, IODevice::CONFIGURE_SERVO, 4, params);
// Set position directly to specified position - we don't know where it is moving from.
IODevice::writeAnalogue(vpin, closed ? closedPosition : thrownPosition, PCA9685::Instant);
return tt;
} else {
// Incompatible object, delete and recreate
remove(id);
}
}
tt = (Turnout *)new ServoTurnout(id, vpin, thrownPosition, closedPosition, profile, closed);
IODevice::writeAnalogue(vpin, closed ? closedPosition : thrownPosition, PCA9685::Instant);
return tt;
#else
(void)id; (void)vpin; (void)thrownPosition; (void)closedPosition;
(void)profile; (void)closed; // avoid compiler warnings.
return NULL;
#endif
}
// Load a Servo turnout definition from EEPROM. The common Turnout data has already been read at this point.
Turnout *ServoTurnout::load(struct TurnoutData *turnoutData) {
ServoTurnoutData servoTurnoutData;
// Read class-specific data from EEPROM
EEPROM.get(EEStore::pointer(), servoTurnoutData);
EEStore::advance(sizeof(servoTurnoutData));
// Create new object
Turnout *tt = ServoTurnout::create(turnoutData->id, servoTurnoutData.vpin, servoTurnoutData.thrownPosition,
servoTurnoutData.closedPosition, servoTurnoutData.profile, turnoutData->closed);
return tt;
}
// For DCC++ classic compatibility, state reported to JMRI is 1 for thrown and 0 for closed;
// if consistency with RCN-213 has been selected, it is 0 for thrown and 1 for closed.
void ServoTurnout::print(Print *stream) {
StringFormatter::send(stream, F("<H %d SERVO %d %d %d %d %d>\n"), _turnoutData.id, _servoTurnoutData.vpin,
_servoTurnoutData.thrownPosition, _servoTurnoutData.closedPosition, _servoTurnoutData.profile,
_turnoutData.closed ^ useClassicTurnoutCommands);
}
// ServoTurnout-specific code for throwing or closing a servo turnout.
bool ServoTurnout::setClosedInternal(bool close) {
#ifndef IO_NO_HAL
IODevice::writeAnalogue(_servoTurnoutData.vpin,
close ? _servoTurnoutData.closedPosition : _servoTurnoutData.thrownPosition, _servoTurnoutData.profile);
_turnoutData.closed = close;
#else
(void)close; // avoid compiler warnings
#endif
return true;
}
void ServoTurnout::save() {
// Write turnout definition and current position to EEPROM
// First write common servo data, then
// write the servo-specific data
EEPROM.put(EEStore::pointer(), _turnoutData);
EEStore::advance(sizeof(_turnoutData));
EEPROM.put(EEStore::pointer(), _servoTurnoutData);
EEStore::advance(sizeof(_servoTurnoutData));
}
/*************************************************************************************
* DCCTurnout - Turnout controlled by DCC Accessory Controller.
*
*************************************************************************************/
#if defined(DCC_TURNOUTS_RCN_213)
const bool DCCTurnout::rcn213Compliant = true;
#else
const bool DCCTurnout::rcn213Compliant = false;
#endif
// DCCTurnoutData contains data specific to this subclass that is
// written to EEPROM when the turnout is saved.
struct DCCTurnoutData {
// DCC address (Address in bits 15-2, subaddress in bits 1-0
uint16_t address; // CS currently supports linear address 1-2048
// That's DCC accessory address 1-512 and subaddress 0-3.
} _dccTurnoutData; // 2 bytes
// Constructor
DCCTurnout::DCCTurnout(uint16_t id, uint16_t address, uint8_t subAdd) :
Turnout(id, TURNOUT_DCC, false)
{
_dccTurnoutData.address = ((address-1) << 2) + subAdd + 1;
}
// Create function
Turnout *DCCTurnout::create(uint16_t id, uint16_t add, uint8_t subAdd) {
Turnout *tt = get(id);
if (tt) {
// Object already exists, check if it is usable
if (tt->isType(TURNOUT_DCC)) {
// Yes, so set parameters<T>
DCCTurnout *dt = (DCCTurnout *)tt;
dt->_dccTurnoutData.address = ((add-1) << 2) + subAdd + 1;
// Don't touch the _closed parameter, retain the original value.
return tt;
} else {
// Incompatible object, delete and recreate
remove(id);
}
}
tt = (Turnout *)new DCCTurnout(id, add, subAdd);
return tt;
}
// Load a DCC turnout definition from EEPROM. The common Turnout data has already been read at this point.
Turnout *DCCTurnout::load(struct TurnoutData *turnoutData) {
DCCTurnoutData dccTurnoutData;
// Read class-specific data from EEPROM
EEPROM.get(EEStore::pointer(), dccTurnoutData);
EEStore::advance(sizeof(dccTurnoutData));
// Create new object
DCCTurnout *tt = new DCCTurnout(turnoutData->id, (((dccTurnoutData.address-1) >> 2)+1), ((dccTurnoutData.address-1) & 3));
return tt;
}
void DCCTurnout::print(Print *stream) {
StringFormatter::send(stream, F("<H %d DCC %d %d %d>\n"), _turnoutData.id,
(((_dccTurnoutData.address-1) >> 2)+1), ((_dccTurnoutData.address-1) & 3),
_turnoutData.closed ^ useClassicTurnoutCommands);
// Also report using classic DCC++ syntax for DCC accessory turnouts, since JMRI expects this.
StringFormatter::send(stream, F("<H %d %d %d %d>\n"), _turnoutData.id,
(((_dccTurnoutData.address-1) >> 2)+1), ((_dccTurnoutData.address-1) & 3),
_turnoutData.closed ^ useClassicTurnoutCommands);
}
bool DCCTurnout::setClosedInternal(bool close) {
// DCC++ Classic behaviour is that Throw writes a 1 in the packet,
// and Close writes a 0.
// RCN-213 specifies that Throw is 0 and Close is 1.
DCC::setAccessory((((_dccTurnoutData.address-1) >> 2) + 1),
((_dccTurnoutData.address-1) & 3), close ^ !rcn213Compliant);
_turnoutData.closed = close;
return true;
}
void DCCTurnout::save() {
// Write turnout definition and current position to EEPROM
// First write common servo data, then
// write the servo-specific data
EEPROM.put(EEStore::pointer(), _turnoutData);
EEStore::advance(sizeof(_turnoutData));
EEPROM.put(EEStore::pointer(), _dccTurnoutData);
EEStore::advance(sizeof(_dccTurnoutData));
}
/*************************************************************************************
* VpinTurnout - Turnout controlled through a HAL vpin.
*
*************************************************************************************/
// Constructor
VpinTurnout::VpinTurnout(uint16_t id, VPIN vpin, bool closed) :
Turnout(id, TURNOUT_VPIN, closed)
{
_vpinTurnoutData.vpin = vpin;
}
// Create function
Turnout *VpinTurnout::create(uint16_t id, VPIN vpin, bool closed) {
Turnout *tt = get(id);
if (tt) {
// Object already exists, check if it is usable
if (tt->isType(TURNOUT_VPIN)) {
// Yes, so set parameters
VpinTurnout *vt = (VpinTurnout *)tt;
vt->_vpinTurnoutData.vpin = vpin;
// Don't touch the _closed parameter, retain the original value.
return tt;
} else {
// Incompatible object, delete and recreate
remove(id);
}
}
tt = (Turnout *)new VpinTurnout(id, vpin, closed);
return tt;
}
// Load a VPIN turnout definition from EEPROM. The common Turnout data has already been read at this point.
Turnout *VpinTurnout::load(struct TurnoutData *turnoutData) {
VpinTurnoutData vpinTurnoutData;
// Read class-specific data from EEPROM
EEPROM.get(EEStore::pointer(), vpinTurnoutData);
EEStore::advance(sizeof(vpinTurnoutData));
// Create new object
VpinTurnout *tt = new VpinTurnout(turnoutData->id, vpinTurnoutData.vpin, turnoutData->closed);
return tt;
}
void VpinTurnout::print(Print *stream) {
StringFormatter::send(stream, F("<H %d VPIN %d %d>\n"), _turnoutData.id, _vpinTurnoutData.vpin,
_turnoutData.closed ^ useClassicTurnoutCommands);
}
bool VpinTurnout::setClosedInternal(bool close) {
IODevice::write(_vpinTurnoutData.vpin, close);
_turnoutData.closed = close;
return true;
}
void VpinTurnout::save() {
// Write turnout definition and current position to EEPROM
// First write common servo data, then
// write the servo-specific data
EEPROM.put(EEStore::pointer(), _turnoutData);
EEStore::advance(sizeof(_turnoutData));
EEPROM.put(EEStore::pointer(), _vpinTurnoutData);
EEStore::advance(sizeof(_vpinTurnoutData));
}
/*************************************************************************************
* LCNTurnout - Turnout controlled by Loconet
*
*************************************************************************************/
// LCNTurnout has no specific data, and in any case is not written to EEPROM!
// struct LCNTurnoutData {
// } _lcnTurnoutData; // 0 bytes
// Constructor
LCNTurnout::LCNTurnout(uint16_t id, bool closed) :
Turnout(id, TURNOUT_LCN, closed)
{ }
// Create function
Turnout *LCNTurnout::create(uint16_t id, bool closed) {
Turnout *tt = get(id);
if (tt) {
// Object already exists, check if it is usable
if (tt->isType(TURNOUT_LCN)) {
// Yes, so return this object
return tt;
} else {
// Incompatible object, delete and recreate
remove(id);
}
}
tt = (Turnout *)new LCNTurnout(id, closed);
return tt;
}
bool LCNTurnout::setClosedInternal(bool close) {
// Assume that the LCN command still uses 1 for throw and 0 for close...
LCN::send('T', _turnoutData.id, !close);
// The _turnoutData.closed flag should be updated by a message from the LCN master, later.
return true;
}
// LCN turnouts not saved to EEPROM.
//void save() override { }
//static Turnout *load(struct TurnoutData *turnoutData) {
void LCNTurnout::print(Print *stream) {
StringFormatter::send(stream, F("<H %d LCN %d>\n"), _turnoutData.id,
_turnoutData.closed ^ useClassicTurnoutCommands);
}