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CommandStation-EX/ATSAMC21G/Timer.h

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#ifndef ATSAMC21Timer_h
#define ATSAMC21Timer_h
#include "../VirtualTimer.h"
#include <Arduino.h>
class Timer : public VirtualTimer
{
private:
int pwmPeriod;
unsigned long timer_resolution;
unsigned long lastMicroseconds;
public:
void (*isrCallback)();
Tcc* timer;
Timer(Tcc* timer) {
this->timer = timer;
if(timer == TCC0 || timer == TCC1) {
timer_resolution = 16777216;
} else {
timer_resolution = 65536;
}
lastMicroseconds = 0;
}
void initialize() {
if(timer == TCC0 || timer == TCC1) {
MCLK->APBCMASK.bit.TCC0_ = 1;
MCLK->APBCMASK.bit.TCC1_ = 1;
GCLK->GENCTRL[4].reg = ( GCLK_GENCTRL_DIV(2) | GCLK_GENCTRL_SRC_DPLL96M | GCLK_GENCTRL_IDC | GCLK_GENCTRL_GENEN | GCLK_GENCTRL_OE );
while ((GCLK->SYNCBUSY.bit.GENCTRL >> 4) & 1); // Wait for synchronization
GCLK->PCHCTRL[28].reg = ( GCLK_PCHCTRL_CHEN | GCLK_PCHCTRL_GEN(4) ); // 28 = TCC0_TCC1
while ((GCLK->SYNCBUSY.bit.GENCTRL >> 4) & 1); // Wait for synchronization
}
else if (timer == TCC2) {
MCLK->APBCMASK.bit.TCC2_ = 1;
GCLK->GENCTRL[5].reg = ( GCLK_GENCTRL_DIV(2) | GCLK_GENCTRL_SRC_DPLL96M | GCLK_GENCTRL_IDC | GCLK_GENCTRL_GENEN | GCLK_GENCTRL_OE );
while ((GCLK->SYNCBUSY.bit.GENCTRL >> 5) & 1); // Wait for synchronization
GCLK->PCHCTRL[29].reg = ( GCLK_PCHCTRL_CHEN | GCLK_PCHCTRL_GEN(5) ); // 29 = TCC2
while ((GCLK->SYNCBUSY.bit.GENCTRL >> 5) & 1); // Wait for synchronization
}
timer->WAVE.reg = TCC_WAVE_WAVEGEN_NPWM; // Select NPWM as waveform
while (timer->SYNCBUSY.bit.WAVE); // Wait for synchronization
}
void setPeriod(unsigned long microseconds) {
if(microseconds == lastMicroseconds)
return;
lastMicroseconds = microseconds;
const unsigned long cycles = F_CPU / 1000000 * microseconds; // cycles corresponds to how many clock ticks per microsecond times number of microseconds we want
timer->CTRLA.bit.PRESCALER = 0;
if(cycles < timer_resolution) {
timer->CTRLA.reg |= TCC_CTRLA_PRESCALER(TCC_CTRLA_PRESCALER_DIV1_Val);
pwmPeriod = cycles;
} else
if(cycles < timer_resolution * 2) {
timer->CTRLA.reg |= TCC_CTRLA_PRESCALER(TCC_CTRLA_PRESCALER_DIV2_Val);
pwmPeriod = cycles / 2;
} else
if(cycles < timer_resolution * 4) {
timer->CTRLA.reg |= TCC_CTRLA_PRESCALER(TCC_CTRLA_PRESCALER_DIV4_Val);
pwmPeriod = cycles / 4;
} else
if(cycles < timer_resolution * 8) {
timer->CTRLA.reg |= TCC_CTRLA_PRESCALER(TCC_CTRLA_PRESCALER_DIV8_Val);
pwmPeriod = cycles / 8;
} else
if(cycles < timer_resolution * 16) {
timer->CTRLA.reg |= TCC_CTRLA_PRESCALER(TCC_CTRLA_PRESCALER_DIV16_Val);
pwmPeriod = cycles / 16;
} else
if(cycles < timer_resolution * 64) {
timer->CTRLA.reg |= TCC_CTRLA_PRESCALER(TCC_CTRLA_PRESCALER_DIV64_Val);
pwmPeriod = cycles / 64;
} else
if(cycles < timer_resolution * 1024) {
timer->CTRLA.reg |= TCC_CTRLA_PRESCALER(TCC_CTRLA_PRESCALER_DIV1024_Val);
pwmPeriod = cycles / 1024;
}
timer->PER.reg = pwmPeriod;
while (timer->SYNCBUSY.bit.PER);
}
void start() {
timer->CTRLA.bit.ENABLE = 1; // Turn on the output
while (timer->SYNCBUSY.bit.ENABLE); // Wait for synchronization
}
void stop() {
timer->CTRLA.bit.ENABLE = 0; // Turn on the output
while (timer->SYNCBUSY.bit.ENABLE); // Wait for synchronization
}
void attachInterrupt(void (*isr)()) {
isrCallback = isr; // Store the interrupt callback function
timer->INTENSET.reg = TCC_INTENSET_OVF; // Set the interrupt to occur on overflow
if(timer == TCC0) {
NVIC_EnableIRQ((IRQn_Type) TCC0_IRQn); // Enable the interrupt (clock is still off)
}
else if(timer == TCC1) {
NVIC_EnableIRQ((IRQn_Type) TCC1_IRQn); // Enable the interrupt (clock is still off)
}
else if(timer == TCC2) {
NVIC_EnableIRQ((IRQn_Type) TCC2_IRQn); // Enable the interrupt (clock is still off)
}
}
void detachInterrupt() {
if(timer == TCC0) {
NVIC_DisableIRQ((IRQn_Type) TCC0_IRQn); // Disable the interrupt
}
else if(timer == TCC1) {
NVIC_DisableIRQ((IRQn_Type) TCC1_IRQn); // Disable the interrupt
}
else if(timer == TCC2) {
NVIC_DisableIRQ((IRQn_Type) TCC2_IRQn); // Disable the interrupt
}
}
};
extern Timer TimerA;
extern Timer TimerB;
extern Timer TimerC;
#endif // ATSAMC21Timer_h