2022-12-26 11:41:15 +01:00
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/*
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* © 2022, Chris Harlow. All rights reserved.
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2022-12-26 12:06:42 +01:00
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* Based on original by: Robin Simonds, Beagle Bay Inc
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2022-12-26 11:41:15 +01:00
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*
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2022-12-26 12:06:42 +01:00
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* This file is part of DCC-EX API
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2022-12-26 11:41:15 +01:00
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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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#ifndef IO_duinoNodes_h
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#define IO_duinoNodes_h
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#include <Arduino.h>
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#include "defines.h"
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#include "IODevice.h"
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2022-12-29 11:38:04 +01:00
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#define DN_PIN_MASK(bit) (0x80>>(bit%8))
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#define DN_GET_BIT(x) (_pinValues[(x)/8] & DN_PIN_MASK((x)) )
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#define DN_SET_BIT(x) _pinValues[(x)/8] |= DN_PIN_MASK((x))
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#define DN_CLR_BIT(x) _pinValues[(x)/8] &= ~DN_PIN_MASK((x))
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2022-12-26 11:41:15 +01:00
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class IO_duinoNodes : public IODevice {
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public:
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IO_duinoNodes(VPIN firstVpin, int nPins,
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byte clockPin, byte latchPin, byte dataPin,
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const byte* pinmap) :
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IODevice(firstVpin, nPins) {
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_latchPin=latchPin;
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_clockPin=clockPin;
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_dataPin=dataPin;
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_pinMap=pinmap;
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_nShiftBytes=(nPins+7)/8; // rounded up to multiples of 8 bits
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_pinValues=(byte*) calloc(_nShiftBytes,1);
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// Connect to HAL so my _write, _read and _loop will be called as required.
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IODevice::addDevice(this);
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}
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// Called by HAL to start handling this device
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void _begin() override {
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_deviceState = DEVSTATE_NORMAL;
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pinMode(_latchPin,OUTPUT);
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pinMode(_clockPin,OUTPUT);
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pinMode(_dataPin,_pinMap?INPUT_PULLUP:OUTPUT);
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_display();
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}
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// loop called by HAL supervisor
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void _loop(unsigned long currentMicros) override {
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if (_pinMap) _loopInput(currentMicros);
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else if (_xmitPending) _loopOutput();
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}
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void _loopInput(unsigned long currentMicros) {
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if (currentMicros-_prevMicros < POLL_MICROS) return; // Nothing to do
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_prevMicros=currentMicros;
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//set latch to HIGH to freeze & store parallel data
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ArduinoPins::fastWriteDigital(_latchPin, HIGH);
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delayMicroseconds(1);
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//set latch to LOW to enable the data to be transmitted serially
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ArduinoPins::fastWriteDigital(_latchPin, LOW);
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// stream in the bitmap using mapping order provided at constructor
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for (int xmitByte=0;xmitByte<_nShiftBytes; xmitByte++) {
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byte newByte=0;
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for (int xmitBit=0;xmitBit<8; xmitBit++) {
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ArduinoPins::fastWriteDigital(_clockPin, LOW);
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delayMicroseconds(1);
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bool data = ArduinoPins::fastReadDigital(_dataPin);
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byte map=_pinMap[xmitBit];
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if (data) newByte |= map;
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else newByte &= ~map;
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ArduinoPins::fastWriteDigital(_clockPin, HIGH);
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delayMicroseconds(1);
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}
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_pinValues[xmitByte]=newByte;
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// DIAG(F("DIN %x=%x"),xmitByte, newByte);
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}
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}
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void _loopOutput() {
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// stream out the bitmap (highest pin first)
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_xmitPending=false;
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ArduinoPins::fastWriteDigital(_latchPin, LOW);
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for (int xmitBit=_nShiftBytes*8 -1; xmitBit>=0; xmitBit--) {
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2022-12-29 11:38:04 +01:00
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ArduinoPins::fastWriteDigital(_dataPin,DN_GET_BIT(xmitBit));
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2022-12-26 11:41:15 +01:00
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ArduinoPins::fastWriteDigital(_clockPin,HIGH);
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ArduinoPins::fastWriteDigital(_clockPin,LOW);
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}
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2022-12-26 12:06:42 +01:00
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ArduinoPins::fastWriteDigital(_latchPin, HIGH);
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2022-12-26 11:41:15 +01:00
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}
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int _read(VPIN vpin) override {
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int pin=vpin - _firstVpin;
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2022-12-29 11:38:04 +01:00
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bool b=DN_GET_BIT(pin);
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2022-12-26 11:41:15 +01:00
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return b?1:0;
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}
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void _write(VPIN vpin, int value) override {
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int pin = vpin - _firstVpin;
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2022-12-29 11:38:04 +01:00
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bool oldval=DN_GET_BIT(pin);
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2022-12-26 11:41:15 +01:00
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bool newval=value!=0;
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if (newval==oldval) return; // no change
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2022-12-29 11:38:04 +01:00
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if (newval) DN_SET_BIT(pin);
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else DN_CLR_BIT(pin);
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2022-12-26 11:41:15 +01:00
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_xmitPending=true; // shift register will be sent on next _loop()
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}
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void _display() override {
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2023-03-27 14:08:14 +02:00
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DIAG(F("IO_duinoNodes %SPUT Configured on Vpins:%u-%u shift=%d"),
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2022-12-26 11:41:15 +01:00
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_pinMap?F("IN"):F("OUT"),
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(int)_firstVpin,
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(int)_firstVpin+_nPins-1, _nShiftBytes*8);
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}
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private:
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static const unsigned long POLL_MICROS=100000; // 10 / S
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unsigned long _prevMicros;
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int _nShiftBytes=0;
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VPIN _latchPin,_clockPin,_dataPin;
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byte* _pinValues;
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bool _xmitPending; // Only relevant in output mode
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const byte* _pinMap; // NULL in output mode
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};
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class IO_DNIN8 {
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public:
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static void create(VPIN firstVpin, int nPins, byte clockPin, byte latchPin, byte dataPin )
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{
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// input arrives as board pin 0,7,6,5,1,2,3,4
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static const byte pinmap[8]={0x80,0x01,0x02,0x04,0x40,0x20,0x10,0x08};
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if (IODevice::checkNoOverlap(firstVpin,nPins))
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new IO_duinoNodes( firstVpin, nPins, clockPin, latchPin, dataPin,pinmap);
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}
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};
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class IO_DNIN8K {
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public:
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static void create(VPIN firstVpin, int nPins, byte clockPin, byte latchPin, byte dataPin )
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{
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// input arrives as board pin 0, 1, 2, 3, 4, 5, 6, 7
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static const byte pinmap[8]={0x01,0x02,0x04,0x08,0x10,0x20,0x40,0x80};
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if (IODevice::checkNoOverlap(firstVpin,nPins))
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new IO_duinoNodes( firstVpin, nPins, clockPin, latchPin, dataPin,pinmap);
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}
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};
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class IO_DNOU8 {
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public:
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static void create(VPIN firstVpin, int nPins, byte clockPin, byte latchPin, byte dataPin )
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{
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if (IODevice::checkNoOverlap(firstVpin,nPins))
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new IO_duinoNodes( firstVpin, nPins, clockPin, latchPin, dataPin,NULL);
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}
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};
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#endif
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