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https://github.com/DCC-EX/CommandStation-EX.git
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392 lines
13 KiB
C++
392 lines
13 KiB
C++
/*
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* © 2013-2016 Gregg E. Berman
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* © 2020, Chris Harlow. All rights reserved.
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* © 2020, Harald Barth.
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*
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* This file is part of Asbelos DCC API
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*
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* This is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* It is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with CommandStation. If not, see <https://www.gnu.org/licenses/>.
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*/
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#define EESTOREDEBUG
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#include "defines.h"
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#include "Turnouts.h"
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#include "EEStore.h"
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#include "StringFormatter.h"
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#include "RMFT2.h"
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#ifdef EESTOREDEBUG
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#include "DIAG.h"
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#endif
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// Keywords used for turnout configuration.
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const int16_t HASH_KEYWORD_SERVO=27709;
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const int16_t HASH_KEYWORD_DCC=6436;
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const int16_t HASH_KEYWORD_VPIN=-415;
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enum unit8_t {
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TURNOUT_DCC = 1,
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TURNOUT_SERVO = 2,
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TURNOUT_VPIN = 3,
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TURNOUT_LCN = 4,
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};
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///////////////////////////////////////////////////////////////////////////////
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// Static function to print all Turnout states to stream in form "<H id state>"
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void Turnout::printAll(Print *stream){
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for (Turnout *tt = Turnout::firstTurnout; tt != NULL; tt = tt->nextTurnout)
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StringFormatter::send(stream, F("<H %d %d>\n"), tt->data.id, tt->data.active);
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} // Turnout::printAll
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///////////////////////////////////////////////////////////////////////////////
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// Object method to print configuration of one Turnout to stream, in one of the following forms:
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// <H id SERVO vpin activePos inactivePos profile state>
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// <H id LCN state>
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// <H id VPIN vpin state>
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// <H id DCC address subAddress state>
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void Turnout::print(Print *stream){
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uint8_t state = ((data.active) != 0);
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uint8_t type = data.type;
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switch (type) {
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case TURNOUT_LCN:
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// LCN Turnout
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StringFormatter::send(stream, F("<H %d LCN %d>\n"), data.id, state);
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break;
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case TURNOUT_DCC:
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// DCC Turnout
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StringFormatter::send(stream, F("<H %d DCC %d %d %d>\n"), data.id,
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(((data.dccAccessoryData.address-1) >> 2)+1), ((data.dccAccessoryData.address-1) & 3), state);
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break;
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case TURNOUT_VPIN:
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// VPIN Digital output
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StringFormatter::send(stream, F("<H %d VPIN %d %d>\n"), data.id, data.vpinData.vpin, state);
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break;
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#ifndef IO_NO_HAL
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case TURNOUT_SERVO:
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// Servo Turnout
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StringFormatter::send(stream, F("<H %d SERVO %d %d %d %d %d>\n"), data.id, data.servoData.vpin,
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data.servoData.activePosition, data.servoData.inactivePosition, data.servoData.profile, state);
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break;
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#endif
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default:
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break;
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}
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}
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///////////////////////////////////////////////////////////////////////////////
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// Static function to activate/deactivate Turnout with ID 'n'.
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// Returns false if turnout not found.
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bool Turnout::activate(int n, bool state){
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#ifdef EESTOREDEBUG
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DIAG(F("Turnout::activate(%d,%d)"),n,state);
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#endif
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Turnout * tt=get(n);
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if (!tt) return false;
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tt->activate(state);
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turnoutlistHash++;
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return true;
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}
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///////////////////////////////////////////////////////////////////////////////
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// Static function to check if the Turnout with ID 'n' is activated or not.
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// Returns false if turnout not found.
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bool Turnout::isActive(int n){
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Turnout * tt=get(n);
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if (!tt) return false;
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return tt->isActive();
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}
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///////////////////////////////////////////////////////////////////////////////
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// Object function to check the status of Turnout is activated or not.
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bool Turnout::isActive() {
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return data.active;
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}
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///////////////////////////////////////////////////////////////////////////////
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// Object method to activate or deactivate the Turnout.
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// activate is virtual here so that it can be overridden by a non-DCC turnout mechanism
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void Turnout::activate(bool state) {
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#ifdef EESTOREDEBUG
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DIAG(F("Turnout::activate(%d)"),state);
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#endif
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if (data.type == TURNOUT_LCN) {
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// A LCN turnout is transmitted to the LCN master.
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LCN::send('T', data.id, state);
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return; // The tStatus will be updated by a message from the LCN master, later.
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}
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data.active = state;
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switch (data.type) {
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case TURNOUT_DCC:
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DCC::setAccessory((((data.dccAccessoryData.address-1) >> 2) + 1),
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((data.dccAccessoryData.address-1) & 3), state);
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break;
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#ifndef IO_NO_HAL
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case TURNOUT_SERVO:
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IODevice::write(data.servoData.vpin, state);
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break;
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#endif
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case TURNOUT_VPIN:
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IODevice::write(data.vpinData.vpin, state);
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break;
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}
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// Save state if stored in EEPROM
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if (EEStore::eeStore->data.nTurnouts > 0 && num > 0)
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EEPROM.put(num, data.tStatus);
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#if defined(RMFT_ACTIVE)
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RMFT2::turnoutEvent(data.id, state);
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#endif
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}
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///////////////////////////////////////////////////////////////////////////////
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// Static function to find Turnout object specified by ID 'n'. Return NULL if not found.
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Turnout* Turnout::get(int n){
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Turnout *tt;
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for(tt=firstTurnout;tt!=NULL && tt->data.id!=n;tt=tt->nextTurnout);
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return(tt);
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}
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///////////////////////////////////////////////////////////////////////////////
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// Static function to delete Turnout object specified by ID 'n'. Return false if not found.
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bool Turnout::remove(int n){
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Turnout *tt,*pp=NULL;
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for(tt=firstTurnout;tt!=NULL && tt->data.id!=n;pp=tt,tt=tt->nextTurnout);
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if(tt==NULL) return false;
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if(tt==firstTurnout)
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firstTurnout=tt->nextTurnout;
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else
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pp->nextTurnout=tt->nextTurnout;
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free(tt);
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turnoutlistHash++;
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return true;
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}
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///////////////////////////////////////////////////////////////////////////////
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// Static function to load all Turnout definitions from EEPROM
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// TODO: Consider transmitting the initial state of the DCC/LCN turnout here.
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// (already done for servo turnouts and VPIN turnouts).
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void Turnout::load(){
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struct TurnoutData data;
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Turnout *tt=NULL;
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for(uint16_t i=0;i<EEStore::eeStore->data.nTurnouts;i++){
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// Retrieve data
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EEPROM.get(EEStore::pointer(), data);
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int lastKnownState = data.active;
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switch (data.type) {
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case TURNOUT_DCC:
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tt=createDCC(data.id, ((data.dccAccessoryData.address-1)>>2)+1, (data.dccAccessoryData.address-1)&3); // DCC-based turnout
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break;
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case TURNOUT_LCN:
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// LCN turnouts are created when the remote device sends a message.
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break;
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#ifndef IO_NO_HAL
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case TURNOUT_SERVO:
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tt=createServo(data.id, data.servoData.vpin,
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data.servoData.activePosition, data.servoData.inactivePosition, data.servoData.profile, lastKnownState);
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break;
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#endif
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case TURNOUT_VPIN:
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tt=createVpin(data.id, data.vpinData.vpin, lastKnownState); // VPIN-based turnout
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break;
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default:
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tt=NULL;
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}
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if (tt) tt->num = EEStore::pointer() + offsetof(TurnoutData, tStatus); // Save pointer to tStatus byte within EEPROM
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// Advance by the actual size of the individual turnout struct.
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EEStore::advance(data.size);
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#ifdef EESTOREDEBUG
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if (tt) print(tt);
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#endif
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}
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}
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///////////////////////////////////////////////////////////////////////////////
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// Static function to store all Turnout definitions to EEPROM
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void Turnout::store(){
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Turnout *tt;
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tt=firstTurnout;
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EEStore::eeStore->data.nTurnouts=0;
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while(tt!=NULL){
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// LCN turnouts aren't saved to EEPROM
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if (tt->data.type != TURNOUT_LCN) {
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#ifdef EESTOREDEBUG
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print(tt);
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#endif
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tt->num = EEStore::pointer() + offsetof(TurnoutData, tStatus); // Save pointer to tstatus byte within EEPROM
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EEPROM.put(EEStore::pointer(),tt->data);
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EEStore::advance(tt->data.size);
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EEStore::eeStore->data.nTurnouts++;
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}
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tt=tt->nextTurnout;
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}
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}
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///////////////////////////////////////////////////////////////////////////////
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// Static function for creating a DCC-controlled Turnout.
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Turnout *Turnout::createDCC(int id, uint16_t add, uint8_t subAdd){
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if (add > 511 || subAdd > 3) return NULL;
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Turnout *tt=create(id);
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if (!tt) return(tt);
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tt->data.type = TURNOUT_DCC;
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tt->data.size = sizeof(tt->data.header) + sizeof(tt->data.dccAccessoryData);
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tt->data.active = 0;
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tt->data.dccAccessoryData.address = ((add-1) << 2) + subAdd + 1;
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return(tt);
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}
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///////////////////////////////////////////////////////////////////////////////
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// Static function for creating a LCN-controlled Turnout.
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Turnout *Turnout::createLCN(int id, uint8_t state) {
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Turnout *tt=create(id);
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if (!tt) return(tt);
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tt->data.type = TURNOUT_LCN;
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tt->data.size = sizeof(tt->data.header) + sizeof(tt->data.lcnData);
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tt->data.active = (state != 0);
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return(tt);
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}
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///////////////////////////////////////////////////////////////////////////////
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// Static function for associating a Turnout id with a virtual pin in IODevice space.
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// The actual creation and configuration of the pin must be done elsewhere,
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// e.g. in mySetup.cpp during startup of the CS.
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Turnout *Turnout::createVpin(int id, VPIN vpin, uint8_t state){
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if (vpin > VPIN_MAX) return NULL;
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Turnout *tt=create(id);
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if(!tt) return(tt);
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tt->data.type = TURNOUT_VPIN;;
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tt->data.size = sizeof(tt->data.header) + sizeof(tt->data.vpinData);
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tt->data.active = (state != 0);
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tt->data.vpinData.vpin = vpin;
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IODevice::write(vpin, state); // Set initial state of output.
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return(tt);
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}
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#ifndef IO_NO_HAL
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///////////////////////////////////////////////////////////////////////////////
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// Method for creating a Servo Turnout, e.g. connected to PCA9685 PWM device.
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Turnout *Turnout::createServo(int id, VPIN vpin, uint16_t activePosition, uint16_t inactivePosition, uint8_t profile, uint8_t state){
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if (activePosition > 511 || inactivePosition > 511 || profile > 4) return NULL;
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Turnout *tt=create(id);
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if (!tt) return(tt);
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if (tt->data.type != TURNOUT_SERVO) tt->data.active = (state != 0); // Retain current state if it's an existing servo turnout.
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tt->data.type = TURNOUT_SERVO;
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tt->data.size = sizeof(tt->data.header) + sizeof(tt->data.servoData);
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tt->data.servoData.vpin = vpin;
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tt->data.servoData.activePosition = activePosition;
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tt->data.servoData.inactivePosition = inactivePosition;
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tt->data.servoData.profile = profile;
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// Configure PWM interface device
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int deviceParams[] = {(int)activePosition, (int)inactivePosition, profile, tt->data.active};
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if (!IODevice::configure(vpin, IODevice::CONFIGURE_SERVO, 4, deviceParams)) {
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remove(id);
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return NULL;
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}
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return(tt);
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}
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#endif
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///////////////////////////////////////////////////////////////////////////////
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// Support for <T id SERVO pin activepos inactive pos profile>
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// and <T id DCC address subaddress>
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// and <T id VPIN pin>
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Turnout *Turnout::create(int id, int params, int16_t p[]) {
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#ifndef IO_NO_HAL
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if (p[0] == HASH_KEYWORD_SERVO) { // <T id SERVO n n n n>
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if (params == 5)
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return createServo(id, (VPIN)p[1], (uint16_t)p[2], (uint16_t)p[3], (uint8_t)p[4]);
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else
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return NULL;
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} else
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#endif
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if (p[0] == HASH_KEYWORD_VPIN) { // <T id VPIN n>
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if (params==2)
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return createVpin(id, p[1]);
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else
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return NULL;
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} else
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if (p[0]==HASH_KEYWORD_DCC) {
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if (params==3 && p[1]>0 && p[1]<=512 && p[2]>=0 && p[2]<4) // <T id DCC n n>
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return createDCC(id, p[1], p[2]);
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else if (params==2 && p[1]>0 && p[1]<=512*4) // <T id DCC nn>
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return createDCC(id, (p[1]-1)/4+1, (p[1]-1)%4);
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else
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return NULL;
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} else if (params==2) { // <T id n n> for DCC or LCN
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return createDCC(id, p[0], p[1]);
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}
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#ifndef IO_NO_HAL
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else if (params==3) { // legacy <T id n n n> for Servo
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return createServo(id, (VPIN)p[0], (uint16_t)p[1], (uint16_t)p[2]);
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}
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#endif
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return NULL;
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}
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///////////////////////////////////////////////////////////////////////////////
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// Create basic Turnout object. The details of what sort of object it is
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// controlling are not set here.
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Turnout *Turnout::create(int id){
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Turnout *tt=get(id);
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if (tt==NULL) {
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tt=(Turnout *)calloc(1,sizeof(Turnout));
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if (!tt) return (tt);
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tt->nextTurnout=firstTurnout;
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firstTurnout=tt;
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tt->data.id=id;
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}
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turnoutlistHash++;
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return tt;
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}
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///////////////////////////////////////////////////////////////////////////////
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//
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// Object method to print debug info about the state of a Turnout object
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//
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#ifdef EESTOREDEBUG
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void Turnout::print(Turnout *tt) {
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tt->print(StringFormatter::diagSerial);
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}
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#endif
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///////////////////////////////////////////////////////////////////////////////
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Turnout *Turnout::firstTurnout=NULL;
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int Turnout::turnoutlistHash=0; //bump on every change so clients know when to refresh their lists
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