2021-07-27 16:51:19 -03:00
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#include "Copter.h"
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#if MODE_TURTLE_ENABLED == ENABLED
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#define CRASH_FLIP_EXPO 35.0f
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#define CRASH_FLIP_STICK_MINF 0.15f
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2021-09-04 11:35:41 -03:00
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#define power3(x) ((x) * (x) * (x))
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2021-07-27 16:51:19 -03:00
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bool ModeTurtle::init(bool ignore_checks)
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{
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// do not enter the mode when already armed or when flying
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if (motors->armed() || SRV_Channels::get_dshot_esc_type() == 0) {
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return false;
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}
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// perform minimal arming checks
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if (!copter.mavlink_motor_control_check(*gcs().chan(0), true, "Turtle Mode")) {
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return false;
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}
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2022-10-20 15:34:13 -03:00
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// do not enter the mode if sticks are not centered or throttle is not at zero
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2021-07-27 16:51:19 -03:00
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if (!is_zero(channel_pitch->norm_input_dz())
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|| !is_zero(channel_roll->norm_input_dz())
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2022-10-20 15:34:13 -03:00
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|| !is_zero(channel_yaw->norm_input_dz())
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|| !is_zero(channel_throttle->norm_input_dz())) {
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2021-09-04 11:35:41 -03:00
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return false;
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2021-07-27 16:51:19 -03:00
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}
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2022-10-20 15:34:13 -03:00
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// turn on notify leds
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AP_Notify::flags.esc_calibration = true;
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return true;
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}
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void ModeTurtle::arm_motors()
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{
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if (hal.util->get_soft_armed()) {
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return;
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}
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// stop the spoolup block activating
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motors->set_spoolup_block(false);
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2021-07-27 16:51:19 -03:00
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// reverse the motors
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hal.rcout->disable_channel_mask_updates();
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change_motor_direction(true);
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// disable throttle and gps failsafe
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2022-07-05 00:08:57 -03:00
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g.failsafe_throttle.set(FS_THR_DISABLED);
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g.failsafe_gcs.set(FS_GCS_DISABLED);
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g.fs_ekf_action.set(0);
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2021-07-27 16:51:19 -03:00
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// arm
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motors->armed(true);
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hal.util->set_soft_armed(true);
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}
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2021-09-04 11:35:41 -03:00
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bool ModeTurtle::allows_arming(AP_Arming::Method method) const
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2021-07-27 16:51:19 -03:00
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{
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return true;
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}
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void ModeTurtle::exit()
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{
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2022-10-20 15:34:13 -03:00
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disarm_motors();
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// turn off notify leds
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AP_Notify::flags.esc_calibration = false;
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}
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void ModeTurtle::disarm_motors()
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{
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if (!hal.util->get_soft_armed()) {
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return;
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}
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2021-07-27 16:51:19 -03:00
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// disarm
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motors->armed(false);
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hal.util->set_soft_armed(false);
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// un-reverse the motors
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change_motor_direction(false);
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hal.rcout->enable_channel_mask_updates();
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// re-enable failsafes
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g.failsafe_throttle.load();
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g.failsafe_gcs.load();
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g.fs_ekf_action.load();
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}
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void ModeTurtle::change_motor_direction(bool reverse)
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{
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AP_HAL::RCOutput::BLHeliDshotCommand direction = reverse ? AP_HAL::RCOutput::DSHOT_REVERSE : AP_HAL::RCOutput::DSHOT_NORMAL;
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AP_HAL::RCOutput::BLHeliDshotCommand inverse_direction = reverse ? AP_HAL::RCOutput::DSHOT_NORMAL : AP_HAL::RCOutput::DSHOT_REVERSE;
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if (!hal.rcout->get_reversed_mask()) {
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hal.rcout->send_dshot_command(direction, AP_HAL::RCOutput::ALL_CHANNELS, 0, 10, true);
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} else {
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for (uint8_t i = 0; i < AP_MOTORS_MAX_NUM_MOTORS; ++i) {
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if (!motors->is_motor_enabled(i)) {
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continue;
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}
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2021-09-04 11:35:41 -03:00
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if ((hal.rcout->get_reversed_mask() & (1U << i)) == 0) {
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2021-07-27 16:51:19 -03:00
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hal.rcout->send_dshot_command(direction, i, 0, 10, true);
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} else {
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hal.rcout->send_dshot_command(inverse_direction, i, 0, 10, true);
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}
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}
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}
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}
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void ModeTurtle::run()
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{
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2022-03-11 13:29:59 -04:00
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const float flip_power_factor = 1.0f - CRASH_FLIP_EXPO * 0.01f;
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2021-07-27 16:51:19 -03:00
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const bool norc = copter.failsafe.radio || !copter.ap.rc_receiver_present;
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const float stick_deflection_pitch = norc ? 0.0f : channel_pitch->norm_input_dz();
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const float stick_deflection_roll = norc ? 0.0f : channel_roll->norm_input_dz();
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const float stick_deflection_yaw = norc ? 0.0f : channel_yaw->norm_input_dz();
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2021-09-04 11:35:41 -03:00
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const float stick_deflection_pitch_abs = fabsf(stick_deflection_pitch);
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const float stick_deflection_roll_abs = fabsf(stick_deflection_roll);
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const float stick_deflection_yaw_abs = fabsf(stick_deflection_yaw);
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2021-09-04 11:35:41 -03:00
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const float stick_deflection_pitch_expo = flip_power_factor * stick_deflection_pitch_abs + power3(stick_deflection_pitch_abs) * (1 - flip_power_factor);
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const float stick_deflection_roll_expo = flip_power_factor * stick_deflection_roll_abs + power3(stick_deflection_roll_abs) * (1 - flip_power_factor);
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const float stick_deflection_yaw_expo = flip_power_factor * stick_deflection_yaw_abs + power3(stick_deflection_yaw_abs) * (1 - flip_power_factor);
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2021-07-27 16:51:19 -03:00
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2021-09-04 11:35:41 -03:00
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float sign_pitch = stick_deflection_pitch < 0 ? -1 : 1;
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float sign_roll = stick_deflection_roll < 0 ? 1 : -1;
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2021-09-04 11:35:41 -03:00
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float stick_deflection_length = sqrtf(sq(stick_deflection_pitch_abs) + sq(stick_deflection_roll_abs));
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float stick_deflection_expo_length = sqrtf(sq(stick_deflection_pitch_expo) + sq(stick_deflection_roll_expo));
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2021-07-27 16:51:19 -03:00
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2021-09-04 11:35:41 -03:00
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if (stick_deflection_yaw_abs > MAX(stick_deflection_pitch_abs, stick_deflection_roll_abs)) {
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2021-07-27 16:51:19 -03:00
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// If yaw is the dominant, disable pitch and roll
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2021-09-04 11:35:41 -03:00
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stick_deflection_length = stick_deflection_yaw_abs;
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stick_deflection_expo_length = stick_deflection_yaw_expo;
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sign_roll = 0;
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sign_pitch = 0;
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2021-07-27 16:51:19 -03:00
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}
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2021-09-04 11:35:41 -03:00
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const float cos_phi = (stick_deflection_length > 0) ? (stick_deflection_pitch_abs + stick_deflection_roll_abs) / (sqrtf(2.0f) * stick_deflection_length) : 0;
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const float cos_threshold = sqrtf(3.0f) / 2.0f; // cos(PI/6.0f)
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2021-07-27 16:51:19 -03:00
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2021-09-04 11:35:41 -03:00
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if (cos_phi < cos_threshold) {
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2021-07-27 16:51:19 -03:00
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// Enforce either roll or pitch exclusively, if not on diagonal
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2021-09-04 11:35:41 -03:00
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if (stick_deflection_roll_abs > stick_deflection_pitch_abs) {
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sign_pitch = 0;
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2021-07-27 16:51:19 -03:00
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} else {
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sign_roll = 0;
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2021-07-27 16:51:19 -03:00
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}
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}
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// Apply a reasonable amount of stick deadband
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2021-09-04 11:35:41 -03:00
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const float crash_flip_stick_min_expo = flip_power_factor * CRASH_FLIP_STICK_MINF + power3(CRASH_FLIP_STICK_MINF) * (1 - flip_power_factor);
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const float flip_stick_range = 1.0f - crash_flip_stick_min_expo;
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const float flip_power = MAX(0.0f, stick_deflection_expo_length - crash_flip_stick_min_expo) / flip_stick_range;
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2021-07-27 16:51:19 -03:00
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// at this point we have a power value in the range 0..1
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// notmalise the roll and pitch input to match the motors
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2021-09-04 11:35:41 -03:00
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Vector2f input{sign_roll, sign_pitch};
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2021-08-14 06:12:18 -03:00
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motors_input = input.normalized() * 0.5;
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2021-07-27 16:51:19 -03:00
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// we bypass spin min and friends in the deadzone because we only want spin up when the sticks are moved
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2021-09-04 11:35:41 -03:00
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motors_output = !is_zero(flip_power) ? motors->thrust_to_actuator(flip_power) : 0.0f;
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2021-08-14 06:12:18 -03:00
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}
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2021-07-27 16:51:19 -03:00
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2021-08-14 06:12:18 -03:00
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// actually write values to the motors
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void ModeTurtle::output_to_motors()
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{
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2022-10-20 15:34:13 -03:00
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// throttle needs to be raised
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if (is_zero(channel_throttle->norm_input_dz())) {
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disarm_motors();
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return;
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}
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arm_motors();
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2022-01-27 11:36:21 -04:00
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// check if motor are allowed to spin
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const bool allow_output = motors->armed() && motors->get_interlock();
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2021-07-27 16:51:19 -03:00
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for (uint8_t i = 0; i < AP_MOTORS_MAX_NUM_MOTORS; ++i) {
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if (!motors->is_motor_enabled(i)) {
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continue;
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}
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2021-09-04 11:35:41 -03:00
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const Vector2f output{motors->get_roll_factor(i), motors->get_pitch_factor(i)};
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2021-07-27 16:51:19 -03:00
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// if output aligns with input then use this motor
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2022-01-27 11:36:21 -04:00
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if (!allow_output || (motors_input - output).length() > 0.5) {
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2021-07-27 16:51:19 -03:00
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motors->rc_write(i, motors->get_pwm_output_min());
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continue;
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}
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2021-09-04 11:35:41 -03:00
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int16_t pwm = motors->get_pwm_output_min() + (motors->get_pwm_output_max() - motors->get_pwm_output_min()) * motors_output;
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2021-07-27 16:51:19 -03:00
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motors->rc_write(i, pwm);
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}
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}
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#endif
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