mirror of https://github.com/ArduPilot/ardupilot
468 lines
12 KiB
C++
468 lines
12 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_HAL/AP_HAL.h>
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#include <utility>
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#if (CONFIG_HAL_BOARD_SUBTYPE == HAL_BOARD_SUBTYPE_LINUX_BEBOP) && \
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defined(HAVE_LIBIIO)
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#include <stdlib.h>
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#include <unistd.h>
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#include <stdio.h>
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#include <fcntl.h>
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#include <string.h>
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#include <sys/mman.h>
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#include <linux/types.h>
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#include <errno.h>
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#include <sys/ioctl.h>
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#include <float.h>
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#include <math.h>
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#include <time.h>
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#include <iio.h>
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#include "AP_RangeFinder_Bebop.h"
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#include <AP_HAL_Linux/Thread.h>
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#include <AP_HAL_Linux/GPIO.h>
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#include <AP_HAL_Linux/GPIO_Bebop.h>
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/*
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* this mode is used at low altitude
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* send 4 wave patterns
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* gpio in low mode
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*/
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#define RNFD_BEBOP_DEFAULT_MODE 1
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/*
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* the number of p7s in the iio buffer
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*/
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#define RNFD_BEBOP_P7_COUNT 8192
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extern const AP_HAL::HAL& hal;
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static const uint16_t waveform_mode0[14] = {
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4000, 3800, 3600, 3400, 3200, 3000, 2800,
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2600, 2400, 2200, 2000, 1800, 1600, 1400,
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};
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static const uint16_t waveform_mode1[32] = {
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4190, 4158, 4095, 4095, 4095, 4095, 4095, 4095, 4095,
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4095, 4090, 4058, 3943, 3924, 3841, 3679, 3588, 3403,
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3201, 3020, 2816, 2636, 2448, 2227, 2111, 1955, 1819,
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1675, 1540, 1492, 1374, 1292
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};
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AP_RangeFinder_Bebop::AP_RangeFinder_Bebop(RangeFinder &_ranger,
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uint8_t instance, RangeFinder::RangeFinder_State &_state) :
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AP_RangeFinder_Backend(_ranger, instance, _state),
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_thread(new Linux::Thread(FUNCTOR_BIND_MEMBER(&AP_RangeFinder_Bebop::_loop, void)))
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{
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_init();
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_freq = RNFD_BEBOP_DEFAULT_FREQ;
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_filtered_capture_size = _adc.buffer_size / _filter_average;
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_filtered_capture = (unsigned int*) calloc(1, sizeof(_filtered_capture[0]) *
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_filtered_capture_size);
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_mode = RNFD_BEBOP_DEFAULT_MODE;
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/* SPI and IIO can not be initialized just yet */
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memset(_tx[0], 0xF0, 16);
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memset(_tx[1], 0xF0, 4);
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memset(_purge, 0xFF, RNFD_BEBOP_NB_PULSES_PURGE);
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_tx_buf = _tx[_mode];
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}
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AP_RangeFinder_Bebop::~AP_RangeFinder_Bebop()
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{
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iio_buffer_destroy(_adc.buffer);
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_adc.buffer = NULL;
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iio_context_destroy(_iio);
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_iio = NULL;
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}
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bool AP_RangeFinder_Bebop::detect(RangeFinder &_ranger, uint8_t instance)
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{
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return true;
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}
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unsigned short AP_RangeFinder_Bebop::get_threshold_at(int i_capture)
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{
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uint16_t threshold_value = 0;
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/*
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* We define several kinds of thresholds signals ; for an echo to be
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* recorded, its maximum amplitude has to be ABOVE that threshold.
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* There is one kind of threshold per mode (mode 0 is "low" and mode 1 is
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* "high")
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* Basically they look like this :
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*
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* on this part
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* of the capture
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* amplitude we use
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* ^ the waveform
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* | <---------->
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* 4195 +-----+
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* |
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* |
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* |
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* |
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* 1200| +----------------+
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* +-------------------------------------->
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* + low high time
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* limit limit
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*
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* */
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switch (_mode) {
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case 0:
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if (i_capture < 139)
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threshold_value = 4195;
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else if (i_capture < 153)
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threshold_value = waveform_mode0[i_capture - 139];
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else
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threshold_value = 1200;
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break;
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case 1:
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if (i_capture < 73)
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threshold_value = 4195;
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else if (i_capture < 105)
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threshold_value = waveform_mode1[i_capture - 73];
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else if (i_capture < 617)
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threshold_value = 1200;
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else
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threshold_value = 4195;
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break;
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default:
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break;
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}
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return threshold_value;
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}
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int AP_RangeFinder_Bebop::_apply_averaging_filter(void)
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{
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int i_filter = 0; /* index in the filtered buffer */
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int i_capture = 0; /* index in the capture buffer : starts incrementing when
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the captured data first exceeds
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RNFD_BEBOP_THRESHOLD_ECHO_INIT */
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unsigned int filtered_value = 0;
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bool first_echo = false;
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unsigned char *data;
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unsigned char *start;
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unsigned char *end;
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ptrdiff_t step;
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step = iio_buffer_step(_adc.buffer);
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end = (unsigned char *) iio_buffer_end(_adc.buffer);
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start = (unsigned char *) iio_buffer_first(_adc.buffer, _adc.channel);
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for (data = start; data < end; data += step) {
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unsigned int current_value = 0;
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iio_channel_convert(_adc.channel, ¤t_value, data);
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/* We keep on advancing in the captured buffer without registering the
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* filtered data until the signal first exceeds a given value */
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if (!first_echo && current_value < threshold_echo_init)
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continue;
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else
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first_echo = true;
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filtered_value += current_value;
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if (i_capture % _filter_average == 0) {
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_filtered_capture[i_filter] = filtered_value / _filter_average;
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filtered_value = 0;
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i_filter++;
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}
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i_capture++;
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}
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return 0;
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}
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int AP_RangeFinder_Bebop::_search_local_maxima(void)
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{
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int i_echo = 0; /* index in echo array */
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for (int i_capture = 1; i_capture <
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(int)_filtered_capture_size - 1; i_capture++) {
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if (_filtered_capture[i_capture] >= get_threshold_at(i_capture)) {
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unsigned short curr = _filtered_capture[i_capture];
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unsigned short prev = _filtered_capture[i_capture - 1];
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unsigned short next = _filtered_capture[i_capture + 1];
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if (curr >= prev && (curr > next || prev <
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get_threshold_at(i_capture - 1))) {
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_echoes[i_echo].max_index = i_capture;
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i_echo++;
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if (i_echo >= RNFD_BEBOP_MAX_ECHOES)
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break;
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}
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}
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}
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_nb_echoes = i_echo;
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return 0;
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}
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int AP_RangeFinder_Bebop::_search_maximum_with_max_amplitude(void)
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{
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unsigned short max = 0;
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int max_idx = -1;
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for (int i_echo = 0; i_echo < _nb_echoes ; i_echo++) {
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unsigned short curr = _filtered_capture[_echoes[i_echo].max_index];
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if (curr > max) {
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max = curr;
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max_idx = i_echo;
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}
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}
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if (max_idx >= 0)
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return _echoes[max_idx].max_index;
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else
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return -1;
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}
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void AP_RangeFinder_Bebop::_loop(void)
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{
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int max_index;
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while(1) {
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_launch();
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_capture();
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if (_apply_averaging_filter() < 0) {
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hal.console->printf(
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"AR_RangeFinder_Bebop: could not apply averaging filter");
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}
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if (_search_local_maxima() < 0) {
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hal.console->printf("Did not find any local maximum");
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}
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max_index = _search_maximum_with_max_amplitude();
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if (max_index >= 0) {
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_altitude = (float)(max_index * RNFD_BEBOP_SOUND_SPEED) /
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(2 * (RNFD_BEBOP_DEFAULT_ADC_FREQ / _filter_average));
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_mode = _update_mode(_altitude);
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}
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}
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}
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void AP_RangeFinder_Bebop::update(void)
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{
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static bool first_call = true;
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if (first_call) {
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_thread->start("RangeFinder_Bebop", SCHED_FIFO, 11);
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first_call = false;
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}
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state.distance_cm = (uint16_t) (_altitude * 100);
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update_status();
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}
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/*
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* purge is used when changing mode
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*/
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int AP_RangeFinder_Bebop::_launch_purge()
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{
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iio_device_attr_write(_adc.device, "buffer/enable", "1");
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_spi->transfer(_purge, RNFD_BEBOP_NB_PULSES_PURGE, nullptr, 0);
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return 0;
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}
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void AP_RangeFinder_Bebop::_configure_gpio(int value)
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{
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switch (value) {
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case 1: // high voltage
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_gpio->write(LINUX_GPIO_ULTRASOUND_VOLTAGE, 1);
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break;
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case 0: // low voltage
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_gpio->write(LINUX_GPIO_ULTRASOUND_VOLTAGE, 0);
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break;
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default:
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hal.console->printf("bad gpio value (%d)", value);
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break;
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}
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}
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/*
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* reconfigure the pulse that will be sent over spi
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* first send a purge then configure the new pulse
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*/
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void AP_RangeFinder_Bebop::_reconfigure_wave()
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{
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/* configure the output buffer for a purge */
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/* perform a purge */
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if (_launch_purge() < 0)
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hal.console->printf("purge could not send data overspi");
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if (_capture() < 0)
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hal.console->printf("purge could not capture data");
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switch (_mode) {
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case 1: /* low voltage */
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_configure_gpio(0);
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break;
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case 0: /* high voltage */
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_configure_gpio(1);
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break;
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default:
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hal.console->printf("WARNING, invalid value to configure gpio\n");
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break;
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}
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}
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/*
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* First configuration of the the pulse that will be send over spi
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*/
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int AP_RangeFinder_Bebop::_configure_wave()
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{
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_configure_gpio(0);
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return 0;
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}
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/*
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* Configure the adc to get the samples
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*/
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int AP_RangeFinder_Bebop::_configure_capture()
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{
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const char *adcname = "p7mu-adc_2";
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const char *adcchannel = "voltage2";
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/* configure adc interface using libiio */
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_iio = iio_create_local_context();
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if (!_iio)
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return -1;
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_adc.device = iio_context_find_device(_iio, adcname);
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if (!_adc.device) {
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hal.console->printf("Unable to find %s", adcname);
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goto error_destroy_context;
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}
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_adc.channel = iio_device_find_channel(_adc.device, adcchannel,
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false);
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if (!_adc.channel) {
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hal.console->printf("Fail to init adc channel %s", adcchannel);
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goto error_destroy_context;
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}
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iio_channel_enable(_adc.channel);
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_adc.freq = RNFD_BEBOP_DEFAULT_ADC_FREQ >> RNFD_BEBOP_FILTER_POWER;
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_adc.threshold_time_rejection = 2.0 / RNFD_BEBOP_SOUND_SPEED *
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_adc.freq;
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/* Create input buffer */
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_adc.buffer_size = RNFD_BEBOP_P7_COUNT;
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if (iio_device_set_kernel_buffers_count(_adc.device, 1)) {
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hal.console->printf("cannot set buffer count");
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goto error_destroy_context;
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}
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_adc.buffer = iio_device_create_buffer(_adc.device,
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_adc.buffer_size, false);
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if (!_adc.buffer) {
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hal.console->printf("Fail to create buffer : %s", strerror(errno));
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goto error_destroy_context;
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}
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return 0;
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error_destroy_context:
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iio_buffer_destroy(_adc.buffer);
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_adc.buffer = NULL;
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iio_context_destroy(_iio);
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_iio = NULL;
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return -1;
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}
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void AP_RangeFinder_Bebop::_init()
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{
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_spi = std::move(hal.spi->get_device("bebop"));
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_gpio = AP_HAL::get_HAL().gpio;
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if (_gpio == NULL) {
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AP_HAL::panic("Could not find GPIO device for Bebop ultrasound");
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}
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if (_configure_capture() < 0) {
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return;
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}
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_configure_wave();
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return;
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}
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/*
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* enable the capture buffer
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* send a pulse over spi
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*/
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int AP_RangeFinder_Bebop::_launch()
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{
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iio_device_attr_write(_adc.device, "buffer/enable", "1");
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_spi->transfer(_tx_buf, RNFD_BEBOP_NB_PULSES_MAX, nullptr, 0);
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return 0;
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}
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/*
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* read the iio buffer
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* iio_buffer_refill is blocking by default, so this function is also
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* blocking untill samples are available
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* disable the capture buffer
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*/
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int AP_RangeFinder_Bebop::_capture()
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{
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int ret;
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ret = iio_buffer_refill(_adc.buffer);
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iio_device_attr_write(_adc.device, "buffer/enable", "0");
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return ret;
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}
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int AP_RangeFinder_Bebop::_update_mode(float altitude)
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{
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switch (_mode) {
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case 0:
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if (altitude < RNFD_BEBOP_TRANSITION_HIGH_TO_LOW
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&& !is_zero(altitude)) {
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if (_hysteresis_counter > RNFD_BEBOP_TRANSITION_COUNT) {
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_mode = 1;
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_hysteresis_counter = 0;
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_reconfigure_wave();
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} else {
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_hysteresis_counter++;
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}
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} else {
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_hysteresis_counter = 0;
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}
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break;
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default:
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case 1:
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if (altitude > RNFD_BEBOP_TRANSITION_LOW_TO_HIGH
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|| !is_zero(altitude)) {
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if (_hysteresis_counter > RNFD_BEBOP_TRANSITION_COUNT) {
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_mode = 0;
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_hysteresis_counter = 0;
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_reconfigure_wave();
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} else {
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_hysteresis_counter++;
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}
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} else {
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_hysteresis_counter = 0;
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}
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break;
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}
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return _mode;
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}
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#endif
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