Merge pull request #7890 from thinkyhead/bf2_integer_HAL_TIMER_RATE
[2.0.x] Apply fixes for DUE
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f63e546b3e
@ -102,10 +102,10 @@ extern "C" {
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#define TEMP_TIMER_NUM 0
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#define TEMP_TIMER_NUM 0
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#define TEMP_TIMER_FREQUENCY (F_CPU / 64.0 / 256.0)
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#define TEMP_TIMER_FREQUENCY (F_CPU / 64.0 / 256.0)
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#define HAL_TIMER_RATE ((F_CPU) / 8.0)
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#define HAL_TIMER_RATE ((F_CPU) / 8) // i.e., 2MHz or 2.5MHz
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#define HAL_STEPPER_TIMER_RATE HAL_TIMER_RATE
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#define HAL_STEPPER_TIMER_RATE HAL_TIMER_RATE
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#define STEPPER_TIMER_PRESCALE INT0_PRESCALER
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#define STEPPER_TIMER_PRESCALE INT0_PRESCALER
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#define HAL_TICKS_PER_US (((F_CPU) / 8) / 1000000) // Can not be of type double
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#define HAL_TICKS_PER_US ((HAL_STEPPER_TIMER_RATE) / 1000000) // Cannot be of type double
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#define ENABLE_STEPPER_DRIVER_INTERRUPT() SBI(TIMSK1, OCIE1A)
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#define ENABLE_STEPPER_DRIVER_INTERRUPT() SBI(TIMSK1, OCIE1A)
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#define DISABLE_STEPPER_DRIVER_INTERRUPT() CBI(TIMSK1, OCIE1A)
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#define DISABLE_STEPPER_DRIVER_INTERRUPT() CBI(TIMSK1, OCIE1A)
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@ -46,7 +46,7 @@
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#define STEP_TIMER_NUM 3 // index of timer to use for stepper
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#define STEP_TIMER_NUM 3 // index of timer to use for stepper
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#define TEMP_TIMER_NUM 4 // index of timer to use for temperature
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#define TEMP_TIMER_NUM 4 // index of timer to use for temperature
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#define HAL_TIMER_RATE ((F_CPU) / 2.0) // frequency of timers peripherals
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#define HAL_TIMER_RATE ((F_CPU) / 2) // frequency of timers peripherals
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#define STEPPER_TIMER_PRESCALE 1.0 // prescaler for setting stepper frequency
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#define STEPPER_TIMER_PRESCALE 1.0 // prescaler for setting stepper frequency
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#define HAL_STEPPER_TIMER_RATE HAL_TIMER_RATE // frequency of stepper timer (HAL_TIMER_RATE / STEPPER_TIMER_PRESCALE)
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#define HAL_STEPPER_TIMER_RATE HAL_TIMER_RATE // frequency of stepper timer (HAL_TIMER_RATE / STEPPER_TIMER_PRESCALE)
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#define HAL_TICKS_PER_US ((HAL_STEPPER_TIMER_RATE) / 1000000) // stepper timer ticks per us
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#define HAL_TICKS_PER_US ((HAL_STEPPER_TIMER_RATE) / 1000000) // stepper timer ticks per us
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@ -33,22 +33,22 @@
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void HAL_timer_init(void) {
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void HAL_timer_init(void) {
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SBI(LPC_SC->PCONP, 1); // power on timer0
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SBI(LPC_SC->PCONP, 1); // power on timer0
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LPC_TIM0->PR = ((HAL_TIMER_RATE / HAL_STEPPER_TIMER_RATE) - 1); // Use prescaler to set frequency if needed
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LPC_TIM0->PR = (HAL_TIMER_RATE) / (HAL_STEPPER_TIMER_RATE) - 1; // Use prescaler to set frequency if needed
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SBI(LPC_SC->PCONP, 2); // power on timer1
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SBI(LPC_SC->PCONP, 2); // power on timer1
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LPC_TIM1->PR = ((HAL_TIMER_RATE / 1000000) - 1);
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LPC_TIM1->PR = (HAL_TIMER_RATE) / 1000000 - 1;
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}
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}
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void HAL_timer_start(const uint8_t timer_num, const uint32_t frequency) {
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void HAL_timer_start(const uint8_t timer_num, const uint32_t frequency) {
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switch (timer_num) {
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switch (timer_num) {
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case 0:
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case 0:
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LPC_TIM0->MCR = 3; // Match on MR0, reset on MR0
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LPC_TIM0->MCR = 3; // Match on MR0, reset on MR0
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LPC_TIM0->MR0 = (uint32_t)(HAL_STEPPER_TIMER_RATE / frequency); // Match value (period) to set frequency
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LPC_TIM0->MR0 = uint32_t(HAL_STEPPER_TIMER_RATE) / frequency; // Match value (period) to set frequency
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LPC_TIM0->TCR = _BV(0); // enable
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LPC_TIM0->TCR = _BV(0); // enable
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break;
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break;
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case 1:
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case 1:
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LPC_TIM1->MCR = 3;
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LPC_TIM1->MCR = 3;
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LPC_TIM1->MR0 = (uint32_t)(HAL_TEMP_TIMER_RATE / frequency);;
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LPC_TIM1->MR0 = uint32_t(HAL_TEMP_TIMER_RATE) / frequency;
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LPC_TIM1->TCR = _BV(0);
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LPC_TIM1->TCR = _BV(0);
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break;
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break;
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default: break;
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default: break;
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@ -100,7 +100,7 @@ void HAL_timer_start (uint8_t timer_num, uint32_t frequency) {
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StepperTimer.setCount(0);
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StepperTimer.setCount(0);
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StepperTimer.setPrescaleFactor(STEPPER_TIMER_PRESCALE);
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StepperTimer.setPrescaleFactor(STEPPER_TIMER_PRESCALE);
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StepperTimer.setOverflow(0xFFFF);
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StepperTimer.setOverflow(0xFFFF);
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StepperTimer.setCompare (STEP_TIMER_CHAN, (HAL_STEPPER_TIMER_RATE / frequency));
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StepperTimer.setCompare(STEP_TIMER_CHAN, uint32_t(HAL_STEPPER_TIMER_RATE) / frequency);
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StepperTimer.refresh();
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StepperTimer.refresh();
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StepperTimer.resume();
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StepperTimer.resume();
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break;
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break;
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@ -109,7 +109,7 @@ void HAL_timer_start (uint8_t timer_num, uint32_t frequency) {
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TempTimer.setCount(0);
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TempTimer.setCount(0);
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TempTimer.setPrescaleFactor(TEMP_TIMER_PRESCALE);
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TempTimer.setPrescaleFactor(TEMP_TIMER_PRESCALE);
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TempTimer.setOverflow(0xFFFF);
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TempTimer.setOverflow(0xFFFF);
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TempTimer.setCompare (TEMP_TIMER_CHAN, ((F_CPU / TEMP_TIMER_PRESCALE) / frequency));
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TempTimer.setCompare(TEMP_TIMER_CHAN, (F_CPU) / (TEMP_TIMER_PRESCALE) / frequency);
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TempTimer.refresh();
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TempTimer.refresh();
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TempTimer.resume();
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TempTimer.resume();
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break;
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break;
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@ -59,7 +59,7 @@
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#define HAL_TIMER_RATE (FTM0_TIMER_RATE)
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#define HAL_TIMER_RATE (FTM0_TIMER_RATE)
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#define HAL_STEPPER_TIMER_RATE HAL_TIMER_RATE
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#define HAL_STEPPER_TIMER_RATE HAL_TIMER_RATE
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#define HAL_TICKS_PER_US (HAL_STEPPER_TIMER_RATE/1000000)
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#define HAL_TICKS_PER_US ((HAL_STEPPER_TIMER_RATE) / 1000000)
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#define TEMP_TIMER_FREQUENCY 1000
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#define TEMP_TIMER_FREQUENCY 1000
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@ -207,7 +207,7 @@
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/**
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/**
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* Hidden options for developer
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* Hidden options for developer
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*/
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*/
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// Double stepping start from STEP_DOUBLER_FREQUENCY + 1, quad stepping start from STEP_DOUBLER_FREQUENCY * 2 + 1
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// Double stepping starts at STEP_DOUBLER_FREQUENCY + 1, quad stepping starts at STEP_DOUBLER_FREQUENCY * 2 + 1
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#ifndef STEP_DOUBLER_FREQUENCY
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#ifndef STEP_DOUBLER_FREQUENCY
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#if ENABLED(ADVANCE) || ENABLED(LIN_ADVANCE)
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#if ENABLED(ADVANCE) || ENABLED(LIN_ADVANCE)
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#define STEP_DOUBLER_FREQUENCY 60000 // Hz
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#define STEP_DOUBLER_FREQUENCY 60000 // Hz
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@ -303,10 +303,9 @@ class Stepper {
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#ifdef CPU_32_BIT
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#ifdef CPU_32_BIT
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// In case of high-performance processor, it is able to calculate in real-time
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// In case of high-performance processor, it is able to calculate in real-time
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timer = (uint32_t)(HAL_STEPPER_TIMER_RATE) / step_rate;
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constexpr uint32_t MIN_TIME_PER_STEP = (HAL_STEPPER_TIMER_RATE) / ((STEP_DOUBLER_FREQUENCY) * 2);
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if (timer < (HAL_STEPPER_TIMER_RATE / (STEP_DOUBLER_FREQUENCY * 2))) { // (STEP_DOUBLER_FREQUENCY * 2 kHz - this should never happen)
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timer = uint32_t(HAL_STEPPER_TIMER_RATE) / step_rate;
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timer = (HAL_STEPPER_TIMER_RATE / (STEP_DOUBLER_FREQUENCY * 2));
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NOLESS(timer, MIN_TIME_PER_STEP); // (STEP_DOUBLER_FREQUENCY * 2 kHz - this should never happen)
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}
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#else
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#else
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NOLESS(step_rate, F_CPU / 500000);
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NOLESS(step_rate, F_CPU / 500000);
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step_rate -= F_CPU / 500000; // Correct for minimal speed
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step_rate -= F_CPU / 500000; // Correct for minimal speed
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