Fix analogWrite ambiguity
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d6265df962
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d4415dcf59
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@ -192,7 +192,7 @@ void HAL_adc_start_conversion(uint8_t adc_pin) {
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HAL_adc_result = mv*1023.0/3300.0;
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}
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void analogWrite(int pin, int value) {
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void analogWrite(pin_t pin, int value) {
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if (!PWM_PIN(pin)) return;
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@ -98,7 +98,7 @@ void _delay_ms(int delay);
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int freeMemory(void);
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void analogWrite(int pin, int value);
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void analogWrite(pin_t pin, int value);
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// EEPROM
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void eeprom_write_byte(uint8_t *pos, unsigned char value);
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@ -71,7 +71,7 @@ void update_case_light() {
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#if DISABLED(CASE_LIGHT_NO_BRIGHTNESS)
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if (PWM_PIN(CASE_LIGHT_PIN))
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analogWrite(CASE_LIGHT_PIN, n10ct);
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analogWrite(pin_t(CASE_LIGHT_PIN), n10ct);
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else
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#endif
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{
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@ -81,7 +81,7 @@ void controllerfan_update() {
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// allows digital or PWM fan output to be used (see M42 handling)
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WRITE(CONTROLLER_FAN_PIN, speed);
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analogWrite(CONTROLLER_FAN_PIN, speed);
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analogWrite(pin_t(CONTROLLER_FAN_PIN), speed);
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}
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}
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@ -41,7 +41,7 @@ void SpindleLaser::init() {
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#endif
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#if ENABLED(SPINDLE_LASER_PWM) && PIN_EXISTS(SPINDLE_LASER_PWM)
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SET_PWM(SPINDLE_LASER_PWM_PIN);
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analogWrite(SPINDLE_LASER_PWM_PIN, SPINDLE_LASER_PWM_INVERT ? 255 : 0); // set to lowest speed
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analogWrite(pin_t(SPINDLE_LASER_PWM_PIN), SPINDLE_LASER_PWM_INVERT ? 255 : 0); // set to lowest speed
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#endif
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}
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@ -55,7 +55,7 @@ void SpindleLaser::init() {
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void SpindleLaser::set_ocr(const uint8_t ocr) {
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WRITE(SPINDLE_LASER_ENA_PIN, SPINDLE_LASER_ACTIVE_HIGH); // turn spindle on (active low)
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#if ENABLED(SPINDLE_LASER_PWM)
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analogWrite(SPINDLE_LASER_PWM_PIN, (SPINDLE_LASER_PWM_INVERT) ? 255 - ocr : ocr);
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analogWrite(pin_t(SPINDLE_LASER_PWM_PIN), (SPINDLE_LASER_PWM_INVERT) ? 255 - ocr : ocr);
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#endif
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}
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@ -76,7 +76,7 @@ void SpindleLaser::update_output() {
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}
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else { // Convert RPM to PWM duty cycle
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WRITE(SPINDLE_LASER_ENA_PIN, !SPINDLE_LASER_ACTIVE_HIGH); // Turn spindle off (active low)
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analogWrite(SPINDLE_LASER_PWM_PIN, SPINDLE_LASER_PWM_INVERT ? 255 : 0); // Only write low byte
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analogWrite(pin_t(SPINDLE_LASER_PWM_PIN), SPINDLE_LASER_PWM_INVERT ? 255 : 0); // Only write low byte
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}
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#else
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WRITE(SPINDLE_LASER_ENA_PIN, ena ? SPINDLE_LASER_ACTIVE_HIGH : !SPINDLE_LASER_ACTIVE_HIGH);
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@ -1289,10 +1289,10 @@ void Planner::check_axes_activity() {
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#if ENABLED(BARICUDA)
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#if HAS_HEATER_1
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analogWrite(HEATER_1_PIN, tail_valve_pressure);
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analogWrite(pin_t(HEATER_1_PIN), tail_valve_pressure);
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#endif
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#if HAS_HEATER_2
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analogWrite(HEATER_2_PIN, tail_e_to_p_pressure);
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analogWrite(pin_t(HEATER_2_PIN), tail_e_to_p_pressure);
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#endif
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#endif
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}
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@ -2502,7 +2502,7 @@ void Stepper::report_positions() {
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if (WITHIN(driver, 0, COUNT(motor_current_setting) - 1))
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motor_current_setting[driver] = current; // update motor_current_setting
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#define _WRITE_CURRENT_PWM(P) analogWrite(MOTOR_CURRENT_PWM_## P ##_PIN, 255L * current / (MOTOR_CURRENT_PWM_RANGE))
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#define _WRITE_CURRENT_PWM(P) analogWrite(pin_t(MOTOR_CURRENT_PWM_## P ##_PIN), 255L * current / (MOTOR_CURRENT_PWM_RANGE))
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switch (driver) {
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case 0:
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#if PIN_EXISTS(MOTOR_CURRENT_PWM_X)
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@ -701,7 +701,7 @@ int16_t Temperature::getHeaterPower(const int8_t heater) {
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#define _UPDATE_AUTO_FAN(P,D,A) do{ \
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if (PWM_PIN(P##_AUTO_FAN_PIN) && A < 255) \
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analogWrite(P##_AUTO_FAN_PIN, D ? A : 0); \
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analogWrite(pin_t(P##_AUTO_FAN_PIN), D ? A : 0); \
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else \
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WRITE(P##_AUTO_FAN_PIN, D); \
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}while(0)
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