2019-11-20 22:12:23 -04:00
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/*
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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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/*
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Simulator for the RPLidarA2 proximity sensor
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*/
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#include "SIM_PS_RPLidarA2.h"
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#include <GCS_MAVLink/GCS.h>
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#include <stdio.h>
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#include <errno.h>
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using namespace SITL;
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uint32_t PS_RPLidarA2::packet_for_location(const Location &location,
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uint8_t *data,
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uint8_t buflen)
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{
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return 0;
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}
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void PS_RPLidarA2::move_preamble_in_buffer()
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{
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uint8_t i;
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for (i=0; i<_buflen; i++) {
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if ((uint8_t)_buffer[i] == PREAMBLE) {
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break;
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}
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}
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if (i == 0) {
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return;
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}
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memmove(_buffer, &_buffer[i], _buflen-i);
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_buflen = _buflen - i;
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}
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void PS_RPLidarA2::update_input()
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{
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const ssize_t n = read_from_autopilot(&_buffer[_buflen], ARRAY_SIZE(_buffer) - _buflen - 1);
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if (n < 0) {
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// TODO: do better here
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if (errno != EAGAIN && errno != EWOULDBLOCK && errno != 0) {
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AP_HAL::panic("Failed to read from autopilot");
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}
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} else {
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_buflen += n;
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}
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switch (_inputstate) {
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case InputState::WAITING_FOR_PREAMBLE:
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move_preamble_in_buffer();
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if (_buflen == 0) {
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return;
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}
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set_inputstate(InputState::GOT_PREAMBLE);
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// consume the preamble:
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memmove(_buffer, &_buffer[1], _buflen-1);
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_buflen--;
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FALLTHROUGH;
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case InputState::GOT_PREAMBLE:
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if (_buflen == 0) {
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return;
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}
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switch ((Command)_buffer[0]) {
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case Command::STOP:
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// consume the command:
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memmove(_buffer, &_buffer[1], _buflen-1);
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_buflen--;
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set_inputstate(InputState::WAITING_FOR_PREAMBLE);
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set_state(State::IDLE);
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return;
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case Command::SCAN:
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// consume the command:
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memmove(_buffer, &_buffer[1], _buflen-1);
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_buflen--;
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send_response_descriptor(0x05, SendMode::SRMR, DataType::Unknown81);
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set_inputstate(InputState::WAITING_FOR_PREAMBLE);
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set_state(State::SCANNING);
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return;
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case Command::GET_HEALTH: {
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// consume the command:
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memmove(_buffer, &_buffer[1], _buflen-1);
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_buflen--;
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send_response_descriptor(0x03, SendMode::SRSR, DataType::Unknown06);
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// now send the health:
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const uint8_t health[3] {}; // all zeros fine for now
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const ssize_t ret = write_to_autopilot((const char*)health, ARRAY_SIZE(health));
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if (ret != ARRAY_SIZE(health)) {
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abort();
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}
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set_inputstate(InputState::WAITING_FOR_PREAMBLE);
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return;
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}
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case Command::FORCE_SCAN:
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abort();
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case Command::RESET:
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// consume the command:
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memmove(_buffer, &_buffer[1], _buflen-1);
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_buflen--;
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set_inputstate(InputState::RESETTING_START);
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return;
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default:
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AP_HAL::panic("Bad command received (%02x)", (uint8_t)_buffer[0]);
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}
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case InputState::RESETTING_START:
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_firmware_info_offset = 0;
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set_inputstate(InputState::RESETTING_SEND_FIRMWARE_INFO);
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FALLTHROUGH;
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case InputState::RESETTING_SEND_FIRMWARE_INFO: {
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const ssize_t written = write_to_autopilot(&FIRMWARE_INFO[_firmware_info_offset], strlen(FIRMWARE_INFO) - _firmware_info_offset);
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if (written <= 0) {
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AP_HAL::panic("Failed to write to autopilot");
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}
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_firmware_info_offset += written;
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if (_firmware_info_offset < strlen(FIRMWARE_INFO)) {
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return;
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}
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set_inputstate(InputState::WAITING_FOR_PREAMBLE);
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return;
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}
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}
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}
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void PS_RPLidarA2::update_output_scan(const Location &location)
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{
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const uint32_t now = AP_HAL::millis();
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if (last_scan_output_time_ms == 0) {
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last_scan_output_time_ms = now;
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return;
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}
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const uint32_t time_delta = (now - last_scan_output_time_ms);
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const uint32_t samples_per_second = 1000;
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const float samples_per_ms = samples_per_second / 1000.0f;
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const uint32_t sample_count = time_delta / samples_per_ms;
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const float degrees_per_ms = 3600 / 1000.0f;
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const float degrees_per_sample = degrees_per_ms / samples_per_ms;
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// ::fprintf(stderr, "Packing %u samples in for %ums interval (%f degrees/sample)\n", sample_count, time_delta, degrees_per_sample);
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last_scan_output_time_ms += sample_count/samples_per_ms;
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for (uint32_t i=0; i<sample_count; i++) {
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const float current_degrees_bf = fmod((last_degrees_bf + degrees_per_sample), 360.0f);
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const uint8_t quality = 17; // random number
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const uint16_t angle_q6 = current_degrees_bf * 64;
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const bool is_start_packet = current_degrees_bf < last_degrees_bf;
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last_degrees_bf = current_degrees_bf;
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const float MAX_RANGE = 16.0f;
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2020-08-11 23:58:15 -03:00
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float distance = measure_distance_at_angle_bf(location, current_degrees_bf);
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2019-11-20 22:12:23 -04:00
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// ::fprintf(stderr, "SIM: %f=%fm\n", current_degrees_bf, distance);
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if (distance > MAX_RANGE) {
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// sensor returns zero for out-of-range
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distance = 0.0f;
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}
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const uint16_t distance_q2 = (distance*1000 * 4); // m->mm and *4
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struct PACKED {
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uint8_t startbit : 1; ///< on the first revolution 1 else 0
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uint8_t not_startbit : 1; ///< complementary to startbit
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uint8_t quality : 6; ///< Related the reflected laser pulse strength
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uint8_t checkbit : 1; ///< always set to 1
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uint16_t angle_q6 : 15; ///< Actual heading = angle_q6/64.0 Degree
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uint16_t distance_q2 : 16; ///< Actual Distance = distance_q2/4.0 mm
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} send_buffer;
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send_buffer.startbit = is_start_packet;
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send_buffer.not_startbit = !is_start_packet;
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send_buffer.quality = quality;
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send_buffer.checkbit = 1;
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send_buffer.angle_q6 = angle_q6;
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send_buffer.distance_q2 = distance_q2;
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static_assert(sizeof(send_buffer) == 5, "send_buffer correct size");
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const ssize_t ret = write_to_autopilot((const char*)&send_buffer, sizeof(send_buffer));
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if (ret != sizeof(send_buffer)) {
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abort();
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}
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}
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}
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void PS_RPLidarA2::update_output(const Location &location)
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{
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switch (_state) {
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case State::IDLE:
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return;
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case State::SCANNING:
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update_output_scan(location);
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return;
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}
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}
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void PS_RPLidarA2::update(const Location &location)
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{
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update_input();
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update_output(location);
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}
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void PS_RPLidarA2::send_response_descriptor(uint32_t data_response_length, SendMode sendmode, DataType datatype)
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{
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const uint8_t send_buffer[] = {
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0xA5,
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0x5A,
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uint8_t((data_response_length >> 0) & 0xff),
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uint8_t((data_response_length >> 8) & 0xff),
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uint8_t((data_response_length >> 16) & 0xff),
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uint8_t(((data_response_length >> 24) & 0xff) | (uint8_t) sendmode),
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(uint8_t)datatype
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};
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static_assert(ARRAY_SIZE(send_buffer) == 7, "send_buffer correct size");
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const ssize_t ret = write_to_autopilot((const char*)send_buffer, ARRAY_SIZE(send_buffer));
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if (ret != ARRAY_SIZE(send_buffer)) {
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abort();
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}
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}
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