mirror of
https://github.com/DCC-EX/CommandStation-EX.git
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e0c76a9dc4
In prep for Wifi siolution, all output functions changed to expect Print class instead of Stream... Can still pass Serial1 etc because Stream extends Print, but this allows for an output-only class extending Print to collect a response buffer for Wifi sending with AT commands.
178 lines
6.3 KiB
C++
178 lines
6.3 KiB
C++
/**********************************************************************
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DCC++ BASE STATION supports Sensor inputs that can be connected to any Arduino Pin
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not in use by this program. Sensors can be of any type (infrared, magentic, mechanical...).
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The only requirement is that when "activated" the Sensor must force the specified Arduino
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Pin LOW (i.e. to ground), and when not activated, this Pin should remain HIGH (e.g. 5V),
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or be allowed to float HIGH if use of the Arduino Pin's internal pull-up resistor is specified.
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To ensure proper voltage levels, some part of the Sensor circuitry
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MUST be tied back to the same ground as used by the Arduino.
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The Sensor code below utilizes exponential smoothing to "de-bounce" spikes generated by
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mechanical switches and transistors. This avoids the need to create smoothing circuitry
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for each sensor. You may need to change these parameters through trial and error for your specific sensors.
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To have this sketch monitor one or more Arduino pins for sensor triggers, first define/edit/delete
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sensor definitions using the following variation of the "S" command:
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<S ID PIN PULLUP>: creates a new sensor ID, with specified PIN and PULLUP
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if sensor ID already exists, it is updated with specificed PIN and PULLUP
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returns: <O> if successful and <X> if unsuccessful (e.g. out of memory)
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<S ID>: deletes definition of sensor ID
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returns: <O> if successful and <X> if unsuccessful (e.g. ID does not exist)
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<S>: lists all defined sensors
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returns: <Q ID PIN PULLUP> for each defined sensor or <X> if no sensors defined
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where
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ID: the numeric ID (0-32767) of the sensor
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PIN: the arduino pin number the sensor is connected to
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PULLUP: 1=use internal pull-up resistor for PIN, 0=don't use internal pull-up resistor for PIN
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Once all sensors have been properly defined, use the <E> command to store their definitions to EEPROM.
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If you later make edits/additions/deletions to the sensor definitions, you must invoke the <E> command if you want those
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new definitions updated in the EEPROM. You can also clear everything stored in the EEPROM by invoking the <e> command.
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All sensors defined as per above are repeatedly and sequentially checked within the main loop of this sketch.
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If a Sensor Pin is found to have transitioned from one state to another, one of the following serial messages are generated:
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<Q ID> - for transition of Sensor ID from HIGH state to LOW state (i.e. the sensor is triggered)
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<q ID> - for transition of Sensor ID from LOW state to HIGH state (i.e. the sensor is no longer triggered)
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Depending on whether the physical sensor is acting as an "event-trigger" or a "detection-sensor," you may
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decide to ignore the <q ID> return and only react to <Q ID> triggers.
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**********************************************************************/
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#include "Sensors.h"
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#include "EEStore.h"
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#include "StringFormatter.h"
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///////////////////////////////////////////////////////////////////////////////
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void Sensor::check(Print & stream){
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Sensor *tt;
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for(tt=firstSensor;tt!=NULL;tt=tt->nextSensor){
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tt->signal=tt->signal*(1.0-SENSOR_DECAY)+digitalRead(tt->data.pin)*SENSOR_DECAY;
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if(!tt->active && tt->signal<0.5){
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tt->active=true;
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StringFormatter::send(stream,F("<Q %d>"), tt->data.snum);
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} else if(tt->active && tt->signal>0.9){
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tt->active=false;
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StringFormatter::send(stream,F("<q %d>"), tt->data.snum);
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}
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} // loop over all sensors
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} // Sensor::check
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///////////////////////////////////////////////////////////////////////////////
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Sensor *Sensor::create(int snum, int pin, int pullUp){
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Sensor *tt;
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if(firstSensor==NULL){
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firstSensor=(Sensor *)calloc(1,sizeof(Sensor));
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tt=firstSensor;
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} else if((tt=get(snum))==NULL){
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tt=firstSensor;
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while(tt->nextSensor!=NULL)
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tt=tt->nextSensor;
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tt->nextSensor=(Sensor *)calloc(1,sizeof(Sensor));
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tt=tt->nextSensor;
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}
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if(tt==NULL) return tt; // problem allocating memory
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tt->data.snum=snum;
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tt->data.pin=pin;
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tt->data.pullUp=(pullUp==0?LOW:HIGH);
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tt->active=false;
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tt->signal=1;
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pinMode(pin,INPUT); // set mode to input
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digitalWrite(pin,pullUp); // don't use Arduino's internal pull-up resistors for external infrared sensors --- each sensor must have its own 1K external pull-up resistor
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return tt;
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}
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///////////////////////////////////////////////////////////////////////////////
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Sensor* Sensor::get(int n){
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Sensor *tt;
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for(tt=firstSensor;tt!=NULL && tt->data.snum!=n;tt=tt->nextSensor);
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return tt ;
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}
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///////////////////////////////////////////////////////////////////////////////
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bool Sensor::remove(int n){
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Sensor *tt,*pp=NULL;
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for(tt=firstSensor;tt!=NULL && tt->data.snum!=n;pp=tt,tt=tt->nextSensor);
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if (tt==NULL) return false;
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if(tt==firstSensor)
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firstSensor=tt->nextSensor;
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else
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pp->nextSensor=tt->nextSensor;
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free(tt);
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return true;
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}
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///////////////////////////////////////////////////////////////////////////////
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void Sensor::show(Print & stream){
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for(Sensor * tt=firstSensor;tt!=NULL;tt=tt->nextSensor){
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StringFormatter::send(stream, F("<Q %d %d %d>"), tt->data.snum, tt->data.pin, tt->data.pullUp);
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}
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}
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///////////////////////////////////////////////////////////////////////////////
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void Sensor::status(Print & stream){
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for(Sensor * tt=firstSensor;tt!=NULL;tt=tt->nextSensor){
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StringFormatter::send(stream,F("<%s %d>"), tt->active?"Q":"q", tt->data.snum);
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}
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}
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///////////////////////////////////////////////////////////////////////////////
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void Sensor::load(){
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struct SensorData data;
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Sensor *tt;
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for(int i=0;i<EEStore::eeStore->data.nSensors;i++){
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EEPROM.get(EEStore::pointer(),data);
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tt=create(data.snum,data.pin,data.pullUp);
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EEStore::advance(sizeof(tt->data));
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}
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}
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///////////////////////////////////////////////////////////////////////////////
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void Sensor::store(){
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Sensor *tt;
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tt=firstSensor;
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EEStore::eeStore->data.nSensors=0;
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while(tt!=NULL){
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EEPROM.put(EEStore::pointer(),tt->data);
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EEStore::advance(sizeof(tt->data));
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tt=tt->nextSensor;
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EEStore::eeStore->data.nSensors++;
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}
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}
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///////////////////////////////////////////////////////////////////////////////
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Sensor *Sensor::firstSensor=NULL;
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