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ISR_Timers_Array_Simple.ino
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ISR_Timers_Array_Simple.ino
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/****************************************************************************************************************************
ISR_Timers_Array_Simple.ino
For RP2040-based boards such as RASPBERRY_PI_PICO, ADAFRUIT_FEATHER_RP2040 and GENERIC_RP2040.
Written by Khoi Hoang
Built by Khoi Hoang https://github.com/khoih-prog/TimerInterrupt_Generic
Licensed under MIT license
The RPI_PICO system timer peripheral provides a global microsecond timebase for the system, and generates
interrupts based on this timebase. It supports the following features:
• A single 64-bit counter, incrementing once per microsecond
• This counter can be read from a pair of latching registers, for race-free reads over a 32-bit bus.
• Four alarms: match on the lower 32 bits of counter, IRQ on match: TIMER_IRQ_0-TIMER_IRQ_3
Now even you use all these new 16 ISR-based timers,with their maximum interval practically unlimited (limited only by
unsigned long miliseconds), you just consume only one RPI_PICO timer and avoid conflicting with other cores' tasks.
The accuracy is nearly perfect compared to software timers. The most important feature is they're ISR-based timers
Therefore, their executions are not blocked by bad-behaving functions / tasks.
This important feature is absolutely necessary for mission-critical tasks.
Based on SimpleTimer - A timer library for Arduino.
Author: mromani@ottotecnica.com
Copyright (c) 2010 OTTOTECNICA Italy
Based on BlynkTimer.h
Author: Volodymyr Shymanskyy
*****************************************************************************************************************************/
// These define's must be placed at the beginning before #include "TimerInterrupt_Generic.h"
// _TIMERINTERRUPT_LOGLEVEL_ from 0 to 4
// Don't define _TIMERINTERRUPT_LOGLEVEL_ > 0. Only for special ISR debugging only. Can hang the system.
#define TIMER_INTERRUPT_DEBUG 1
#define _TIMERINTERRUPT_LOGLEVEL_ 1
#include "TimerInterrupt_Generic.h"
#include "ISR_Timer_Generic.h"
#include <SimpleTimer.h> // https://github.com/schinken/SimpleTimer
// Init RPI_PICO_Timer
RPI_PICO_Timer ITimer1(1);
ISR_Timer RPI_PICO_ISR_Timer;
#ifndef LED_BUILTIN
#define LED_BUILTIN 25
#endif
#define LED_TOGGLE_INTERVAL_MS 1000L
// You have to use longer time here if having problem because Arduino AVR clock is low, 16MHz => lower accuracy.
// Tested OK with 1ms when not much load => higher accuracy.
#define TIMER_INTERVAL_MS 1L
volatile uint32_t startMillis = 0;
volatile uint32_t deltaMillis2s = 0;
volatile uint32_t deltaMillis5s = 0;
volatile uint32_t previousMillis2s = 0;
volatile uint32_t previousMillis5s = 0;
bool TimerHandler(struct repeating_timer *t)
{
(void) t;
static bool toggle = false;
static int timeRun = 0;
RPI_PICO_ISR_Timer.run();
// Toggle LED every LED_TOGGLE_INTERVAL_MS = 2000ms = 2s
if (++timeRun == ((LED_TOGGLE_INTERVAL_MS) / TIMER_INTERVAL_MS) )
{
timeRun = 0;
//timer interrupt toggles pin LED_BUILTIN
digitalWrite(LED_BUILTIN, toggle);
toggle = !toggle;
}
return true;
}
void doingSomething2s()
{
unsigned long currentMillis = millis();
deltaMillis2s = currentMillis - previousMillis2s;
previousMillis2s = currentMillis;
}
void doingSomething5s()
{
unsigned long currentMillis = millis();
deltaMillis5s = currentMillis - previousMillis5s;
previousMillis5s = currentMillis;
}
/////////////////////////////////////////////////
#define SIMPLE_TIMER_MS 2000L
// Init SimpleTimer
SimpleTimer simpleTimer;
// Here is software Timer, you can do somewhat fancy stuffs without many issues.
// But always avoid
// 1. Long delay() it just doing nothing and pain-without-gain wasting CPU power.Plan and design your code / strategy ahead
// 2. Very long "do", "while", "for" loops without predetermined exit time.
void simpleTimerDoingSomething2s()
{
static unsigned long previousMillis = startMillis;
unsigned long currMillis = millis();
Serial.print(F("SimpleTimer : programmed "));
Serial.print(SIMPLE_TIMER_MS);
Serial.print(F("ms, current time ms : "));
Serial.print(currMillis);
Serial.print(F(", Delta ms : "));
Serial.println(currMillis - previousMillis);
Serial.print(F("Timer2s actual : "));
Serial.println(deltaMillis2s);
Serial.print(F("Timer5s actual : "));
Serial.println(deltaMillis5s);
previousMillis = currMillis;
}
////////////////////////////////////////////////
void setup()
{
pinMode(LED_BUILTIN, OUTPUT);
Serial.begin(115200);
while (!Serial && millis() < 5000);
delay(500);
Serial.print(F("\nStarting ISR_Timers_Array_Simple on "));
Serial.println(BOARD_NAME);
Serial.println(RPI_PICO_TIMER_INTERRUPT_VERSION);
Serial.println(TIMER_INTERRUPT_GENERIC_VERSION);
Serial.print(F("CPU Frequency = "));
Serial.print(F_CPU / 1000000);
Serial.println(F(" MHz"));
if (ITimer1.attachInterruptInterval(TIMER_INTERVAL_MS * 1000, TimerHandler))
{
Serial.print(F("Starting ITimer1 OK, millis() = "));
Serial.println(millis());
}
else
Serial.println(F("Can't set ITimer1. Select another freq. or timer"));
previousMillis5s = previousMillis2s = millis();
RPI_PICO_ISR_Timer.setInterval(2000L, doingSomething2s);
RPI_PICO_ISR_Timer.setInterval(5000L, doingSomething5s);
// You need this timer for non-critical tasks. Avoid abusing ISR if not absolutely necessary.
simpleTimer.setInterval(SIMPLE_TIMER_MS, simpleTimerDoingSomething2s);
}
#define BLOCKING_TIME_MS 10000L
void loop()
{
// This unadvised blocking task is used to demonstrate the blocking effects onto the execution and accuracy to Software timer
// You see the time elapse of ISR_Timer still accurate, whereas very unaccurate for Software Timer
// The time elapse for 2000ms software timer now becomes 3000ms (BLOCKING_TIME_MS)
// While that of ISR_Timer is still prefect.
delay(BLOCKING_TIME_MS);
// You need this Software timer for non-critical tasks. Avoid abusing ISR if not absolutely necessary
// You don't need to and never call ISR_Timer.run() here in the loop(). It's already handled by ISR timer.
simpleTimer.run();
}