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EventTimer_default.h
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EventTimer_default.h
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/* Copyright (c) 2021 Neil McKechnie
*
* This Library 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.
*
* This Library 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 this software. If not, see
* <http://www.gnu.org/licenses/>.
*/
/*
* EventTimer_default.h
*
* Timer functions for measuring elapsed time between events. In this version,
* the functions use the micros() function available on all Arduino controllers
* as well as ESP8266, ESP32 etc.
*
* This module acts as the fallback if no specific support is available e.g.
* through an Input Capture Register.
*/
#ifndef eventtimer_default_h
#define eventtimer_default_h
#include <Arduino.h>
#define TICKSPERMICROSEC 1
// ESP platform must have IRAM_ATTR on any function called from
// interrupt handlers, so that they aren't executed from flash.
#if defined(ESP32) || defined(ESP8266) || defined(ESP_PLATFORM)
#define INTERRUPT_SAFE IRAM_ATTR
#else
#define INTERRUPT_SAFE
#endif
// Predeclare event handler function for later...
void eventHandler();
/*
* User event handler is sent the time since the last valid event.
* If the user event handler decides that this event isn't valid
* (e.g. time since last one is too short) then it should return
* false to reject the event. If the event is valid, then it
* should return true to accept it.
*/
typedef bool EventHandler(unsigned long eventSpacing);
class EventTimerClass {
public:
// Initialise the object instance, validating that the input pin is
// correct and noting the reference to the user handler for future use.
bool begin(int pin, EventHandler userHandler) {
this->pin = pin;
int interruptNumber = digitalPinToInterrupt(pin);
if (interruptNumber < 0) {
Serial.print("ERROR: Pin "); Serial.print(pin); Serial.println(" has no interrupt support");
return false;
}
this->callUserHandler = userHandler;
attachInterrupt(interruptNumber, eventHandler, CHANGE);
return true;
};
// Utility function to give number of ticks since the last event. Useful
// for determining how much time has elapsed within the interrupt handler since
// the interrupt was triggered.
inline unsigned long INTERRUPT_SAFE elapsedTicksSinceLastEvent() {
return micros() - thisEventTicks;
};
// Function called from the interrupt handler to calculate the gap between interrupts,
// and to invoke the user program's handler. The user's handler is passed the
// number of ticks elapsed since the last valid interrupt. It returns true/false to
// indicate if this interrupt is deemed to be 'valid' or not.
void INTERRUPT_SAFE processInterrupt(unsigned long thisEventTicks) {
this->thisEventTicks = thisEventTicks;
unsigned long eventSpacing = thisEventTicks - lastValidEventTicks;
bool accepted = callUserHandler(eventSpacing);
if (accepted) {
lastValidEventTicks = thisEventTicks;
}
};
// Utility function to return the number of timer ticks per microsecond.
// With millis() as a counter, this is always 1.
inline unsigned int ticksPerMicrosec() {
return TICKSPERMICROSEC;
};
// Utility function to inform whether input capture is in use or not. For this
// version, it always returns false.
inline bool inputCaptureMode() { return false; };
private:
EventHandler *callUserHandler = 0;
unsigned long lastValidEventTicks = 0;
unsigned long thisEventTicks = 0;
int pin = -1;
} /* class EventTimerClass */;
// Declare singleton class instance
EventTimerClass EventTimer;
// Interrupt handler for digital input change event.
void INTERRUPT_SAFE eventHandler() {
EventTimer.processInterrupt(micros());
}
#endif