circuitpython/ports/stm32f4/common-hal/pulseio/PWMOut.c

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/*
* This file is part of the MicroPython project, http://micropython.org/
*
* The MIT License (MIT)
*
* Copyright (c) 2019 Lucian Copeland for Adafruit Industries
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* Uses code from Micropython, Copyright (c) 2013-2016 Damien P. George
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*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include <stdint.h>
#include "py/runtime.h"
#include "common-hal/pulseio/PWMOut.h"
#include "shared-bindings/pulseio/PWMOut.h"
#include "supervisor/shared/translate.h"
#include "shared-bindings/microcontroller/__init__.h"
#include "stm32f4xx_hal.h"
#include "common-hal/microcontroller/Pin.h"
#define PULSE_RESOLUTION 256 //8 bit
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#define ALL_CLOCKS 0xFFFF
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STATIC uint8_t reserved_tim[TIM_BANK_ARRAY_LEN];
STATIC uint32_t tim_frequencies[TIM_BANK_ARRAY_LEN];
STATIC bool never_reset_tim[TIM_BANK_ARRAY_LEN];
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STATIC void tim_clock_enable(uint16_t mask);
STATIC void tim_clock_disable(uint16_t mask);
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// Get the frequency (in Hz) of the source clock for the given timer.
// On STM32F405/407/415/417 there are 2 cases for how the clock freq is set.
// If the APB prescaler is 1, then the timer clock is equal to its respective
// APB clock. Otherwise (APB prescaler > 1) the timer clock is twice its
// respective APB clock. See DM00031020 Rev 4, page 115.
static uint32_t timer_get_source_freq(uint32_t tim_id) {
uint32_t source, clk_div;
if (tim_id == 1 || (8 <= tim_id && tim_id <= 11)) {
// TIM{1,8,9,10,11} are on APB2
source = HAL_RCC_GetPCLK2Freq();
clk_div = RCC->CFGR & RCC_CFGR_PPRE2;
} else {
// TIM{2,3,4,5,6,7,12,13,14} are on APB1
source = HAL_RCC_GetPCLK1Freq();
clk_div = RCC->CFGR & RCC_CFGR_PPRE1;
}
if (clk_div != 0) {
// APB prescaler for this timer is > 1
source *= 2;
}
return source;
}
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void pwmout_reset(void) {
uint16_t never_reset_mask = 0x00;
for(int i=0;i<TIM_BANK_ARRAY_LEN;i++) {
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if (!never_reset_tim[i]) {
reserved_tim[i] = 0x00;
tim_frequencies[i] = 0x00;
} else {
never_reset_mask |= 1<<i;
}
}
tim_clock_disable(ALL_CLOCKS & ~(never_reset_mask));
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}
void common_hal_pulseio_pwmout_never_reset(pulseio_pwmout_obj_t *self) {
for(size_t i = 0 ; i < TIM_BANK_ARRAY_LEN; i++) {
if (mcu_tim_banks[i] == self->handle.Instance) {
never_reset_tim[i] = true;
never_reset_pin_number(self->tim->pin->port, self->tim->pin->number);
break;
}
}
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}
void common_hal_pulseio_pwmout_reset_ok(pulseio_pwmout_obj_t *self) {
for(size_t i = 0 ; i < TIM_BANK_ARRAY_LEN; i++) {
if (mcu_tim_banks[i] == self->handle.Instance) {
never_reset_tim[i] = false;
break;
}
}
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}
pwmout_result_t common_hal_pulseio_pwmout_construct(pulseio_pwmout_obj_t* self,
const mcu_pin_obj_t* pin,
uint16_t duty,
uint32_t frequency,
bool variable_frequency) {
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TIM_TypeDef * TIMx;
uint8_t tim_num = sizeof(mcu_tim_pin_list)/sizeof(*mcu_tim_pin_list);
bool tim_chan_taken = false;
bool tim_taken_f_mismatch = false;
bool var_freq_mismatch = false;
bool first_time_setup = true;
for(uint i = 0; i < tim_num; i++) {
//if pin is same
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if (mcu_tim_pin_list[i].pin == pin) {
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//check if the timer has a channel active
if (reserved_tim[mcu_tim_pin_list[i].tim_index-1] != 0) {
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//is it the same channel? (or all channels reserved by a var-freq)
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if (reserved_tim[mcu_tim_pin_list[i].tim_index-1] & 1<<(mcu_tim_pin_list[i].channel_index-1)) {
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tim_chan_taken = true;
continue; //keep looking, might be another viable option
}
//If the frequencies are the same it's ok
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if (tim_frequencies[mcu_tim_pin_list[i].tim_index-1] != frequency) {
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tim_taken_f_mismatch = true;
continue; //keep looking
}
//you can't put a variable frequency on a partially reserved timer
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if (variable_frequency) {
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var_freq_mismatch = true;
continue; //keep looking
}
first_time_setup = false; //skip setting up the timer
}
//No problems taken, so set it up
self->tim = &mcu_tim_pin_list[i];
break;
}
}
//handle valid/invalid timer instance
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if (self->tim!=NULL) {
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//create instance
TIMx = mcu_tim_banks[self->tim->tim_index-1];
//reserve timer/channel
if (variable_frequency) {
reserved_tim[self->tim->tim_index-1] = 0x0F;
} else {
reserved_tim[self->tim->tim_index-1] |= 1<<(self->tim->channel_index-1);
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}
tim_frequencies[self->tim->tim_index-1] = frequency;
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} else { //no match found
if (tim_chan_taken) {
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mp_raise_ValueError(translate("No more timers available on this pin."));
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} else if (tim_taken_f_mismatch) {
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mp_raise_ValueError(translate("Frequency must be the same as as the existing PWMOut using this timer"));
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} else if (var_freq_mismatch) {
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mp_raise_ValueError(translate("Cannot vary frequency on a timer that is already in use"));
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} else {
mp_raise_ValueError(translate("Invalid pins"));
}
}
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GPIO_InitTypeDef GPIO_InitStruct = {0};
GPIO_InitStruct.Pin = pin_mask(pin->number);
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GPIO_InitStruct.Mode = GPIO_MODE_AF_PP;
GPIO_InitStruct.Pull = GPIO_NOPULL;
GPIO_InitStruct.Speed = GPIO_SPEED_FREQ_HIGH;
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GPIO_InitStruct.Alternate = self->tim->altfn_index;
HAL_GPIO_Init(pin_port(pin->port), &GPIO_InitStruct);
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//TODO: factor all of these into periph.c?
tim_clock_enable(1<<(self->tim->tim_index - 1));
//translate channel into handle value
switch (self->tim->channel_index) {
case 1: self->channel = TIM_CHANNEL_1; break;
case 2: self->channel = TIM_CHANNEL_2; break;
case 3: self->channel = TIM_CHANNEL_3; break;
case 4: self->channel = TIM_CHANNEL_4; break;
}
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uint32_t source_freq = timer_get_source_freq(self->tim->tim_index);
if (frequency == 0 || frequency * PULSE_RESOLUTION > (source_freq)) {
mp_raise_ValueError(translate("Invalid frequency supplied"));
}
uint32_t prescaler = source_freq/(frequency*PULSE_RESOLUTION);
uint32_t period = PULSE_RESOLUTION;
uint32_t input = (duty*PULSE_RESOLUTION)/65535;
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//Used for Debugging
mp_printf(&mp_plat_print, "Duty:%d, Pulses:%d\n", duty,input);
mp_printf(&mp_plat_print, "SysCoreClock: %d\n", SystemCoreClock);
mp_printf(&mp_plat_print, "Source Freq: %d\n", source_freq);
mp_printf(&mp_plat_print, "Prescaler %d, Timer Freq: %d\n", prescaler, source_freq/prescaler);
mp_printf(&mp_plat_print, "Output Freq: %d\n", (source_freq/prescaler)/period);
mp_printf(&mp_plat_print, "Duty: %d\n", duty);
mp_printf(&mp_plat_print, "TIM#:%d CH:%d ALTF:%d\n", self->tim->tim_index, self->tim->channel_index, self->tim->altfn_index);
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//Timer init
self->handle.Instance = TIMx;
self->handle.Init.Period = period - 1;
self->handle.Init.Prescaler = prescaler - 1;
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self->handle.Init.ClockDivision = TIM_CLOCKDIVISION_DIV1;
self->handle.Init.CounterMode = TIM_COUNTERMODE_UP;
self->handle.Init.RepetitionCounter = 0;
//only run init if this is the first instance of this timer
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if (first_time_setup) {
if (HAL_TIM_PWM_Init(&self->handle) != HAL_OK) {
mp_raise_ValueError(translate("Could not initialize timer"));
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}
}
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//Channel/PWM init
self->chan_handle.OCMode = TIM_OCMODE_PWM1;
self->chan_handle.Pulse = input; //-1?
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self->chan_handle.OCPolarity = TIM_OCPOLARITY_LOW;
self->chan_handle.OCFastMode = TIM_OCFAST_DISABLE;
self->chan_handle.OCNPolarity = TIM_OCNPOLARITY_LOW; // needed for TIM1 and TIM8
self->chan_handle.OCIdleState = TIM_OCIDLESTATE_SET; // needed for TIM1 and TIM8
self->chan_handle.OCNIdleState = TIM_OCNIDLESTATE_SET; // needed for TIM1 and TIM8
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if (HAL_TIM_PWM_ConfigChannel(&self->handle, &self->chan_handle, self->channel) != HAL_OK) {
mp_raise_ValueError(translate("Could not initialize channel"));
}
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if (HAL_TIM_PWM_Start(&self->handle, self->channel) != HAL_OK) {
mp_raise_ValueError(translate("Could not start PWM"));
}
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self->variable_frequency = variable_frequency;
self->frequency = frequency;
self->duty_cycle = duty;
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return PWMOUT_OK;
}
bool common_hal_pulseio_pwmout_deinited(pulseio_pwmout_obj_t* self) {
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return self->tim == mp_const_none;
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}
void common_hal_pulseio_pwmout_deinit(pulseio_pwmout_obj_t* self) {
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if (common_hal_pulseio_pwmout_deinited(self)) {
return;
}
//var freq shuts down entire timer, others just their channel
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if (self->variable_frequency) {
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reserved_tim[self->tim->tim_index-1] = 0x00;
} else {
reserved_tim[self->tim->tim_index-1] &= ~(1<<self->tim->channel_index);
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HAL_TIM_PWM_Stop(&self->handle, self->channel);
}
reset_pin_number(self->tim->pin->port,self->tim->pin->number);
self->tim = mp_const_none;
//if reserved timer has no active channels, we can disable it
if (!reserved_tim[self->tim->tim_index-1]) {
tim_frequencies[self->tim->tim_index-1] = 0x00;
tim_clock_disable(1<<(self->tim->tim_index-1));
}
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}
void common_hal_pulseio_pwmout_set_duty_cycle(pulseio_pwmout_obj_t* self, uint16_t duty_cycle) {
uint32_t input = (duty_cycle*PULSE_RESOLUTION)/65535;
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//Used for debugging
//mp_printf(&mp_plat_print, "duty_cycle %d, Duty: %d, Input %d\n", duty_cycle, duty, input);
__HAL_TIM_SET_COMPARE(&self->handle, self->channel, input);
self->duty_cycle = duty_cycle;
}
uint16_t common_hal_pulseio_pwmout_get_duty_cycle(pulseio_pwmout_obj_t* self) {
return self->duty_cycle;
}
void common_hal_pulseio_pwmout_set_frequency(pulseio_pwmout_obj_t* self, uint32_t frequency) {
//don't halt setup for the same frequency
if (frequency == self->frequency) return;
//calculate new values
uint32_t source_freq = timer_get_source_freq(self->tim->tim_index);
if (frequency == 0 || frequency*PULSE_RESOLUTION > (source_freq)) {
mp_raise_ValueError(translate("Invalid frequency supplied"));
}
uint32_t prescaler = source_freq/(frequency*PULSE_RESOLUTION);
uint32_t period = PULSE_RESOLUTION;
//this shouldn't ever exceed 0xffff*0xffff = 0xfffe0001, so it won't integer overflow.
uint32_t input = (self->duty_cycle*PULSE_RESOLUTION)/65535;
//shut down
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HAL_TIM_PWM_Stop(&self->handle, self->channel);
//Only change altered values
self->handle.Init.Period = period - 1;
self->handle.Init.Prescaler = prescaler - 1;
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//restart everything, adjusting for new speed
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if (HAL_TIM_PWM_Init(&self->handle) != HAL_OK) {
mp_raise_ValueError(translate("Could not re-init timer"));
}
self->chan_handle.Pulse = input;
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if (HAL_TIM_PWM_ConfigChannel(&self->handle, &self->chan_handle, self->channel) != HAL_OK) {
mp_raise_ValueError(translate("Could not re-init channel"));
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}
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if (HAL_TIM_PWM_Start(&self->handle, self->channel) != HAL_OK) {
mp_raise_ValueError(translate("Could not restart PWM"));
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}
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tim_frequencies[self->tim->tim_index-1] = frequency;
self->frequency = frequency;
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}
uint32_t common_hal_pulseio_pwmout_get_frequency(pulseio_pwmout_obj_t* self) {
return self->frequency;
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}
bool common_hal_pulseio_pwmout_get_variable_frequency(pulseio_pwmout_obj_t* self) {
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return self->variable_frequency;
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}
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STATIC void tim_clock_enable(uint16_t mask) {
#ifdef TIM1
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if (mask & 1<<0) __HAL_RCC_TIM1_CLK_ENABLE();
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#endif
#ifdef TIM2
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if (mask & 1<<1) __HAL_RCC_TIM2_CLK_ENABLE();
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#endif
#ifdef TIM3
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if (mask & 1<<2) __HAL_RCC_TIM3_CLK_ENABLE();
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#endif
#ifdef TIM4
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if (mask & 1<<3) __HAL_RCC_TIM4_CLK_ENABLE();
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#endif
#ifdef TIM5
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if (mask & 1<<4) __HAL_RCC_TIM5_CLK_ENABLE();
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#endif
//6 and 7 are reserved ADC timers
#ifdef TIM8
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if (mask & 1<<7) __HAL_RCC_TIM8_CLK_ENABLE();
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#endif
#ifdef TIM9
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if (mask & 1<<8) __HAL_RCC_TIM9_CLK_ENABLE();
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#endif
#ifdef TIM10
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if (mask & 1<<9) __HAL_RCC_TIM10_CLK_ENABLE();
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#endif
#ifdef TIM11
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if (mask & 1<<10) __HAL_RCC_TIM11_CLK_ENABLE();
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#endif
#ifdef TIM12
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if (mask & 1<<11) __HAL_RCC_TIM12_CLK_ENABLE();
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#endif
#ifdef TIM13
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if (mask & 1<<12) __HAL_RCC_TIM13_CLK_ENABLE();
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#endif
#ifdef TIM14
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if (mask & 1<<13) __HAL_RCC_TIM14_CLK_ENABLE();
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#endif
}
STATIC void tim_clock_disable(uint16_t mask) {
#ifdef TIM1
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if (mask & 1<<0) __HAL_RCC_TIM1_CLK_DISABLE();
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#endif
#ifdef TIM2
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if (mask & 1<<1) __HAL_RCC_TIM2_CLK_DISABLE();
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#endif
#ifdef TIM3
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if (mask & 1<<2) __HAL_RCC_TIM3_CLK_DISABLE();
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#endif
#ifdef TIM4
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if (mask & 1<<3) __HAL_RCC_TIM4_CLK_DISABLE();
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#endif
#ifdef TIM5
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if (mask & 1<<4) __HAL_RCC_TIM5_CLK_DISABLE();
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#endif
//6 and 7 are reserved ADC timers
#ifdef TIM8
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if (mask & 1<<7) __HAL_RCC_TIM8_CLK_DISABLE();
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#endif
#ifdef TIM9
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if (mask & 1<<8) __HAL_RCC_TIM9_CLK_DISABLE();
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#endif
#ifdef TIM10
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if (mask & 1<<9) __HAL_RCC_TIM10_CLK_DISABLE();
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#endif
#ifdef TIM11
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if (mask & 1<<10) __HAL_RCC_TIM11_CLK_DISABLE();
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#endif
#ifdef TIM12
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if (mask & 1<<11) __HAL_RCC_TIM12_CLK_DISABLE();
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#endif
#ifdef TIM13
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if (mask & 1<<12) __HAL_RCC_TIM13_CLK_DISABLE();
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#endif
#ifdef TIM14
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if (mask & 1<<13) __HAL_RCC_TIM14_CLK_DISABLE();
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#endif
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}