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CommandStation-EX/IO_EncoderThrottle.cpp

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/*
* © 2024, Chris Harlow. All rights reserved.
*
* This file is part of EX-CommandStation
*
* 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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* The IO_EncoderThrottle device driver uses a rotary encoder connected to vpins
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* to drive a loco.
* Loco id is selected by writeAnalog.
*/
#include "IODevice.h"
#include "DIAG.h"
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#include "DCC.h"
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const byte _DIR_CW = 0x10; // Clockwise step
const byte _DIR_CCW = 0x20; // Counter-clockwise step
const byte transition_table[5][4]= {
{0,1,3,0}, // 0: 00
{1,1,1,2 | _DIR_CW}, // 1: 00->01
{2,2,0,2}, // 2: 00->01->11
{3,3,3,4 | _DIR_CCW}, // 3: 00->10
{4,0,4,4} // 4: 00->10->11
};
const byte _STATE_MASK = 0x07;
const byte _DIR_MASK = 0x30;
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void EncoderThrottle::create(VPIN firstVpin, int dtPin, int clkPin, int clickPin, byte notch) {
if (checkNoOverlap(firstVpin)) new EncoderThrottle(firstVpin, dtPin,clkPin,clickPin,notch);
}
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// Constructor
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EncoderThrottle::EncoderThrottle(VPIN firstVpin, int dtPin, int clkPin, int clickPin, byte notch){
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_firstVpin = firstVpin;
_nPins = 1;
_I2CAddress = 0;
_dtPin=dtPin;
_clkPin=clkPin;
_clickPin=clickPin;
_notch=notch;
_locoid=0;
_stopState=xrSTOP;
_rocoState=0;
_prevpinstate=4; // not 01..11
IODevice::configureInput(dtPin,true);
IODevice::configureInput(clkPin,true);
IODevice::configureInput(clickPin,true);
addDevice(this);
_display();
}
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void EncoderThrottle::_loop(unsigned long currentMicros) {
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if (_locoid==0) return; // not in use
// Clicking down on the roco, stops the loco and sets the direction as unknown.
if (IODevice::read(_clickPin)) {
if (_stopState==xrSTOP) return; // debounced multiple stops
DCC::setThrottle(_locoid,1,DCC::getThrottleDirection(_locoid));
_stopState=xrSTOP;
DIAG(F("DRIVE %d STOP"),_locoid);
return;
}
// read roco pins and detect state change
byte pinstate = (IODevice::read(_dtPin) << 1) | IODevice::read(_clkPin);
if (pinstate==_prevpinstate) return;
_prevpinstate=pinstate;
_rocoState = transition_table[_rocoState & _STATE_MASK][pinstate];
if ((_rocoState & _DIR_MASK) == 0) return; // no value change
int change=(_rocoState & _DIR_CW)?+1:-1;
// handle roco change -1 or +1 (clockwise)
if (_stopState==xrSTOP) {
// first move after button press sets the direction. (clockwise=fwd)
_stopState=change>0?xrFWD:xrREV;
}
// when going fwd, clockwise increases speed.
// but when reversing, anticlockwise increases speed.
// This is similar to a center-zero pot control but with
// the added safety that you cant panic-spin into the other
// direction.
if (_stopState==xrREV) change=-change;
// manage limits
int oldspeed=DCC::getThrottleSpeed(_locoid);
if (oldspeed==1)oldspeed=0; // break out of estop
int newspeed=change>0 ? (min((oldspeed+_notch),126)) : (max(0,(oldspeed-_notch)));
if (newspeed==1) newspeed=0; // normal decelereated stop.
if (oldspeed!=newspeed) {
DIAG(F("DRIVE %d notch %S %d %S"),_locoid,
change>0?F("UP"):F("DOWN"),_notch,
_stopState==xrFWD?F("FWD"):F("REV"));
DCC::setThrottle(_locoid,newspeed,_stopState==xrFWD);
}
}
// Selocoid as analog value to start drive
// use <z vpin locoid [notch]>
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void EncoderThrottle::_writeAnalogue(VPIN vpin, int value, uint8_t param1, uint16_t param2) {
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(void) param2;
_locoid=value;
if (param1>0) _notch=param1;
_rocoState=0;
// If loco is moving, we inherit direction from it.
_stopState=xrSTOP;
if (_locoid>0) {
auto speedbyte=DCC::getThrottleSpeedByte(_locoid);
if ((speedbyte & 0x7f) >1) {
// loco is moving
_stopState= (speedbyte & 0x80)?xrFWD:xrREV;
}
}
_display();
}
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void EncoderThrottle::_display() {
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DIAG(F("DRIVE vpin %d loco %d notch %d"),_firstVpin,_locoid,_notch);
}