mirror of https://github.com/ArduPilot/ardupilot
283 lines
8.2 KiB
C++
283 lines
8.2 KiB
C++
/*
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include "AP_Motors_Class.h"
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#include <AP_HAL/AP_HAL.h>
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#include <SRV_Channel/SRV_Channel.h>
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#include <GCS_MAVLink/GCS.h>
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#include <AP_Notify/AP_Notify.h>
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extern const AP_HAL::HAL& hal;
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// singleton instance
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AP_Motors *AP_Motors::_singleton;
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// Constructor
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AP_Motors::AP_Motors(uint16_t loop_rate, uint16_t speed_hz) :
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_loop_rate(loop_rate),
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_speed_hz(speed_hz),
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_throttle_filter(),
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_spool_desired(DesiredSpoolState::SHUT_DOWN),
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_spool_state(SpoolState::SHUT_DOWN),
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_air_density_ratio(1.0f)
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{
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_singleton = this;
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// setup throttle filtering
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_throttle_filter.set_cutoff_frequency(0.0f);
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_throttle_filter.reset(0.0f);
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// init limit flags
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limit.roll = true;
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limit.pitch = true;
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limit.yaw = true;
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limit.throttle_lower = true;
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limit.throttle_upper = true;
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_thrust_boost = false;
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_thrust_balanced = true;
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};
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void AP_Motors::get_frame_and_type_string(char *buffer, uint8_t buflen) const
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{
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const char *frame_str = get_frame_string();
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const char *type_str = get_type_string();
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if (type_str != nullptr && strlen(type_str)
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#if AP_SCRIPTING_ENABLED
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&& custom_frame_string == nullptr
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#endif
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) {
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hal.util->snprintf(buffer, buflen, "Frame: %s/%s", frame_str, type_str);
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} else {
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hal.util->snprintf(buffer, buflen, "Frame: %s", frame_str);
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}
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}
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void AP_Motors::armed(bool arm)
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{
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if (_armed != arm) {
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_armed = arm;
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AP_Notify::flags.armed = arm;
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if (!arm) {
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save_params_on_disarm();
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}
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}
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};
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void AP_Motors::set_desired_spool_state(DesiredSpoolState spool)
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{
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if (_armed || (spool == DesiredSpoolState::SHUT_DOWN)) {
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_spool_desired = spool;
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}
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};
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// pilot input in the -1 ~ +1 range for roll, pitch and yaw. 0~1 range for throttle
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void AP_Motors::set_radio_passthrough(float roll_input, float pitch_input, float throttle_input, float yaw_input)
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{
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_roll_radio_passthrough = roll_input;
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_pitch_radio_passthrough = pitch_input;
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_throttle_radio_passthrough = throttle_input;
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_yaw_radio_passthrough = yaw_input;
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}
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/*
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write to an output channel
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*/
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void AP_Motors::rc_write(uint8_t chan, uint16_t pwm)
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{
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SRV_Channel::Aux_servo_function_t function = SRV_Channels::get_motor_function(chan);
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if ((1U<<chan) & _motor_pwm_range_mask) {
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// note that PWM_MIN/MAX has been forced to 1000/2000
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SRV_Channels::set_output_scaled(function, pwm - 1000);
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} else {
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SRV_Channels::set_output_pwm(function, pwm);
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}
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}
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/*
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write to an output channel for an angle actuator
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*/
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void AP_Motors::rc_write_angle(uint8_t chan, int16_t angle_cd)
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{
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SRV_Channel::Aux_servo_function_t function = SRV_Channels::get_motor_function(chan);
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SRV_Channels::set_output_scaled(function, angle_cd);
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}
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/*
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set frequency of a set of channels
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*/
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void AP_Motors::rc_set_freq(uint32_t motor_mask, uint16_t freq_hz)
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{
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if (freq_hz > 50) {
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_motor_fast_mask |= motor_mask;
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}
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const uint32_t mask = motor_mask_to_srv_channel_mask(motor_mask);
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hal.rcout->set_freq(mask, freq_hz);
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hal.rcout->set_dshot_esc_type(SRV_Channels::get_dshot_esc_type());
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switch (pwm_type(_pwm_type.get())) {
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case PWM_TYPE_ONESHOT:
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if (freq_hz > 50 && mask != 0) {
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hal.rcout->set_output_mode(mask, AP_HAL::RCOutput::MODE_PWM_ONESHOT);
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}
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break;
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case PWM_TYPE_ONESHOT125:
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if (freq_hz > 50 && mask != 0) {
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hal.rcout->set_output_mode(mask, AP_HAL::RCOutput::MODE_PWM_ONESHOT125);
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}
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break;
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case PWM_TYPE_BRUSHED:
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hal.rcout->set_output_mode(mask, AP_HAL::RCOutput::MODE_PWM_BRUSHED);
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break;
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case PWM_TYPE_DSHOT150:
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hal.rcout->set_output_mode(mask, AP_HAL::RCOutput::MODE_PWM_DSHOT150);
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break;
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case PWM_TYPE_DSHOT300:
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hal.rcout->set_output_mode(mask, AP_HAL::RCOutput::MODE_PWM_DSHOT300);
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break;
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case PWM_TYPE_DSHOT600:
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hal.rcout->set_output_mode(mask, AP_HAL::RCOutput::MODE_PWM_DSHOT600);
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break;
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case PWM_TYPE_DSHOT1200:
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hal.rcout->set_output_mode(mask, AP_HAL::RCOutput::MODE_PWM_DSHOT1200);
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break;
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case PWM_TYPE_PWM_RANGE:
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/*
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this is a motor output type for multirotors which honours
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the SERVOn_MIN/MAX values per channel
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*/
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_motor_pwm_range_mask |= motor_mask;
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for (uint8_t i=0; i<16; i++) {
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if ((1U<<i) & motor_mask) {
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SRV_Channels::set_range(SRV_Channels::get_motor_function(i), 1000);
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}
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}
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hal.rcout->set_output_mode(mask, AP_HAL::RCOutput::MODE_PWM_NORMAL);
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break;
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default:
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hal.rcout->set_output_mode(mask, AP_HAL::RCOutput::MODE_PWM_NORMAL);
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break;
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}
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}
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/*
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map an internal motor mask to real motor mask, accounting for
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SERVOn_FUNCTION mappings, and allowing for multiple outputs per
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motor number
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*/
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uint32_t AP_Motors::motor_mask_to_srv_channel_mask(uint32_t mask) const
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{
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uint32_t mask2 = 0;
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for (uint8_t i = 0; i < 32; i++) {
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uint32_t bit = 1UL << i;
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if (mask & bit) {
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SRV_Channel::Aux_servo_function_t function = SRV_Channels::get_motor_function(i);
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mask2 |= SRV_Channels::get_output_channel_mask(function);
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}
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}
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return mask2;
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}
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/*
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add a motor, setting up default output function as needed
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*/
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void AP_Motors::add_motor_num(int8_t motor_num)
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{
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// ensure valid motor number is provided
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if (motor_num >= 0 && motor_num < AP_MOTORS_MAX_NUM_MOTORS) {
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SRV_Channel::Aux_servo_function_t function = SRV_Channels::get_motor_function(motor_num);
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SRV_Channels::set_aux_channel_default(function, motor_num);
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}
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}
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// set limit flag for pitch, roll and yaw
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void AP_Motors::set_limit_flag_pitch_roll_yaw(bool flag)
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{
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limit.roll = flag;
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limit.pitch = flag;
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limit.yaw = flag;
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}
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// returns true if the configured PWM type is digital and should have fixed endpoints
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bool AP_Motors::is_digital_pwm_type() const
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{
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switch (_pwm_type) {
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case PWM_TYPE_DSHOT150:
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case PWM_TYPE_DSHOT300:
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case PWM_TYPE_DSHOT600:
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case PWM_TYPE_DSHOT1200:
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return true;
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case PWM_TYPE_NORMAL:
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case PWM_TYPE_ONESHOT:
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case PWM_TYPE_ONESHOT125:
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case PWM_TYPE_BRUSHED:
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case PWM_TYPE_PWM_RANGE:
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break;
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}
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return false;
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}
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// return string corresponding to frame_class
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const char* AP_Motors::get_frame_string() const
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{
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#if AP_SCRIPTING_ENABLED
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if (custom_frame_string != nullptr) {
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return custom_frame_string;
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}
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#endif
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return _get_frame_string();
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}
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#if AP_SCRIPTING_ENABLED
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// set custom frame string
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void AP_Motors::set_frame_string(const char * str) {
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if (custom_frame_string != nullptr) {
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return;
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}
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const size_t len = strlen(str)+1;
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custom_frame_string = new char[len];
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if (custom_frame_string != nullptr) {
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strncpy(custom_frame_string, str, len);
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}
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}
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#endif
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// output_test_seq - spin a motor at the pwm value specified
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// motor_seq is the motor's sequence number from 1 to the number of motors on the frame
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// pwm value is an actual pwm value that will be output, normally in the range of 1000 ~ 2000
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void AP_Motors::output_test_seq(uint8_t motor_seq, int16_t pwm)
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{
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if (armed() && _interlock) {
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_output_test_seq(motor_seq, pwm);
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}
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}
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bool AP_Motors::arming_checks(size_t buflen, char *buffer) const
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{
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if (!initialised_ok()) {
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hal.util->snprintf(buffer, buflen, "Check frame class and type");
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return false;
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}
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return true;
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}
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namespace AP {
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AP_Motors *motors()
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{
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return AP_Motors::get_singleton();
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}
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}
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