mirror of https://github.com/ArduPilot/ardupilot
608 lines
24 KiB
C++
608 lines
24 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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/*
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multicopter frame simulator class
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*/
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#include "SIM_Frame.h"
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#include <AP_Motors/AP_Motors.h>
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#include <AP_Baro/AP_Baro.h>
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#include <AP_Filesystem/AP_Filesystem.h>
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#include <stdio.h>
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#include <sys/stat.h>
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#include "picojson.h"
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using namespace SITL;
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static Motor quad_plus_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 90, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 2),
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Motor(AP_MOTORS_MOT_2, -90, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 4),
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Motor(AP_MOTORS_MOT_3, 0, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 1),
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Motor(AP_MOTORS_MOT_4, 180, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 3),
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};
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static Motor quad_x_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 45, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 1),
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Motor(AP_MOTORS_MOT_2, -135, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 3),
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Motor(AP_MOTORS_MOT_3, -45, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 4),
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Motor(AP_MOTORS_MOT_4, 135, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 2),
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};
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// motor order to match betaflight conventions
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// See: https://fpvfrenzy.com/betaflight-motor-order/
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static Motor quad_bf_x_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 135, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 2),
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Motor(AP_MOTORS_MOT_2, 45, AP_MOTORS_MATRIX_YAW_FACTOR_CCW,1),
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Motor(AP_MOTORS_MOT_3, -135, AP_MOTORS_MATRIX_YAW_FACTOR_CCW,3),
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Motor(AP_MOTORS_MOT_4, -45, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 4),
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};
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// motor order to match betaflight conventions, reversed direction
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static Motor quad_bf_x_rev_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 135, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 2),
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Motor(AP_MOTORS_MOT_2, 45, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 1),
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Motor(AP_MOTORS_MOT_3, -135, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 3),
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Motor(AP_MOTORS_MOT_4, -45, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 4),
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};
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// motor order to match DJI conventions
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// See: https://forum44.djicdn.com/data/attachment/forum/201711/26/172348bppvtt1ot1nrtp5j.jpg
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static Motor quad_dji_x_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 45, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 1),
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Motor(AP_MOTORS_MOT_2, -45, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 4),
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Motor(AP_MOTORS_MOT_3, -135, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 3),
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Motor(AP_MOTORS_MOT_4, 135, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 2),
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};
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// motor order so that test order matches motor order ("clockwise X")
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static Motor quad_cw_x_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 45, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 1),
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Motor(AP_MOTORS_MOT_2, 135, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 2),
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Motor(AP_MOTORS_MOT_3, -135, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 3),
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Motor(AP_MOTORS_MOT_4, -45, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 4),
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};
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static Motor tiltquad_h_vectored_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 45, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 1, -1, 0, 0, 7, 10, -90),
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Motor(AP_MOTORS_MOT_2, -135, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 3, -1, 0, 0, 8, 10, -90),
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Motor(AP_MOTORS_MOT_3, -45, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 4, -1, 0, 0, 8, 10, -90),
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Motor(AP_MOTORS_MOT_4, 135, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 2, -1, 0, 0, 7, 10, -90),
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};
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static Motor hexa_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 0, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 1),
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Motor(AP_MOTORS_MOT_2, 180, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 4),
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Motor(AP_MOTORS_MOT_3,-120, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 5),
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Motor(AP_MOTORS_MOT_4, 60, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 2),
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Motor(AP_MOTORS_MOT_5, -60, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 6),
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Motor(AP_MOTORS_MOT_6, 120, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 3)
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};
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static Motor hexax_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 90, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 2),
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Motor(AP_MOTORS_MOT_2, -90, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 5),
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Motor(AP_MOTORS_MOT_3, -30, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 6),
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Motor(AP_MOTORS_MOT_4, 150, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 3),
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Motor(AP_MOTORS_MOT_5, 30, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 1),
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Motor(AP_MOTORS_MOT_6,-150, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 4)
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};
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static Motor hexa_dji_x_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 30, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 1),
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Motor(AP_MOTORS_MOT_2, -30, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 6),
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Motor(AP_MOTORS_MOT_3, -90, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 5),
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Motor(AP_MOTORS_MOT_4, -150, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 4),
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Motor(AP_MOTORS_MOT_5, 150, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 3),
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Motor(AP_MOTORS_MOT_6, 90, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 2)
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};
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static Motor hexa_cw_x_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 30, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 1),
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Motor(AP_MOTORS_MOT_2, 90, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 2),
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Motor(AP_MOTORS_MOT_3, 150, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 3),
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Motor(AP_MOTORS_MOT_4, -150, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 4),
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Motor(AP_MOTORS_MOT_5, -90, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 5),
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Motor(AP_MOTORS_MOT_6, -30, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 6)
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};
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static Motor octa_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 0, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 1),
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Motor(AP_MOTORS_MOT_2, 180, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 5),
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Motor(AP_MOTORS_MOT_3, 45, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 2),
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Motor(AP_MOTORS_MOT_4, 135, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 4),
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Motor(AP_MOTORS_MOT_5, -45, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 8),
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Motor(AP_MOTORS_MOT_6, -135, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 6),
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Motor(AP_MOTORS_MOT_7, -90, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 7),
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Motor(AP_MOTORS_MOT_8, 90, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 3)
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};
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static Motor octa_dji_x_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 22.5f, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 1),
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Motor(AP_MOTORS_MOT_2, -22.5f, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 8),
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Motor(AP_MOTORS_MOT_3, -67.5f, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 7),
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Motor(AP_MOTORS_MOT_4, -112.5f, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 6),
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Motor(AP_MOTORS_MOT_5, -157.5f, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 5),
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Motor(AP_MOTORS_MOT_6, 157.5f, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 4),
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Motor(AP_MOTORS_MOT_7, 112.5f, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 3),
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Motor(AP_MOTORS_MOT_8, 67.5f, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 2)
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};
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static Motor octa_cw_x_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 22.5f, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 1),
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Motor(AP_MOTORS_MOT_2, 67.5f, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 2),
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Motor(AP_MOTORS_MOT_3, 112.5f, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 3),
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Motor(AP_MOTORS_MOT_4, 157.5f, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 4),
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Motor(AP_MOTORS_MOT_5, -157.5f, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 5),
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Motor(AP_MOTORS_MOT_6, -112.5f, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 6),
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Motor(AP_MOTORS_MOT_7, -67.5f, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 7),
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Motor(AP_MOTORS_MOT_8, -22.5f, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 8)
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};
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static Motor octa_quad_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 45, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 1),
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Motor(AP_MOTORS_MOT_2, -45, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 7),
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Motor(AP_MOTORS_MOT_3, -135, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 5),
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Motor(AP_MOTORS_MOT_4, 135, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 3),
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Motor(AP_MOTORS_MOT_5, -45, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 8),
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Motor(AP_MOTORS_MOT_6, 45, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 2),
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Motor(AP_MOTORS_MOT_7, 135, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 4),
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Motor(AP_MOTORS_MOT_8, -135, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 6)
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};
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static Motor octa_quad_cw_x_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 45, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 1),
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Motor(AP_MOTORS_MOT_2, 45, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 2),
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Motor(AP_MOTORS_MOT_3, 135, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 3),
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Motor(AP_MOTORS_MOT_4, 135, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 4),
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Motor(AP_MOTORS_MOT_5, -135, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 5),
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Motor(AP_MOTORS_MOT_6, -135, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 6),
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Motor(AP_MOTORS_MOT_7, -45, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 7),
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Motor(AP_MOTORS_MOT_8, -45, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 8)
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};
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static Motor dodeca_hexa_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 30, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 1),
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Motor(AP_MOTORS_MOT_2, 30, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 2),
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Motor(AP_MOTORS_MOT_3, 90, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 3),
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Motor(AP_MOTORS_MOT_4, 90, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 4),
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Motor(AP_MOTORS_MOT_5, 150, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 5),
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Motor(AP_MOTORS_MOT_6, 150, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 6),
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Motor(AP_MOTORS_MOT_7, -150, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 7),
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Motor(AP_MOTORS_MOT_8, -150, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 8),
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Motor(AP_MOTORS_MOT_9, -90, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 9),
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Motor(AP_MOTORS_MOT_10, -90, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 10),
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Motor(AP_MOTORS_MOT_11, -30, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 11),
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Motor(AP_MOTORS_MOT_12, -30, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 12)
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};
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static Motor deca_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 0, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 1),
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Motor(AP_MOTORS_MOT_2, 36, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 2),
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Motor(AP_MOTORS_MOT_3, 72, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 3),
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Motor(AP_MOTORS_MOT_4, 108, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 4),
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Motor(AP_MOTORS_MOT_5, 144, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 5),
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Motor(AP_MOTORS_MOT_6, 180, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 6),
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Motor(AP_MOTORS_MOT_7, -144, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 7),
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Motor(AP_MOTORS_MOT_8, -108, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 8),
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Motor(AP_MOTORS_MOT_9, -72, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 9),
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Motor(AP_MOTORS_MOT_10, -36, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 10)
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};
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static Motor deca_cw_x_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 18, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 1),
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Motor(AP_MOTORS_MOT_2, 54, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 2),
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Motor(AP_MOTORS_MOT_3, 90, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 3),
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Motor(AP_MOTORS_MOT_4, 126, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 4),
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Motor(AP_MOTORS_MOT_5, 162, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 5),
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Motor(AP_MOTORS_MOT_6, -162, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 6),
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Motor(AP_MOTORS_MOT_7, -126, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 7),
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Motor(AP_MOTORS_MOT_8, -90, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 8),
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Motor(AP_MOTORS_MOT_9, -54, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 9),
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Motor(AP_MOTORS_MOT_10, -18, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 10)
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};
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static Motor tri_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 60, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 1),
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Motor(AP_MOTORS_MOT_2, -60, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 3),
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Motor(AP_MOTORS_MOT_4, 180, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 2, AP_MOTORS_MOT_7, 60, -60, -1, 0, 0),
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};
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static Motor tilttri_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 60, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 1, -1, 0, 0, AP_MOTORS_MOT_8, 0, -90),
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Motor(AP_MOTORS_MOT_2, -60, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 3, -1, 0, 0, AP_MOTORS_MOT_8, 0, -90),
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Motor(AP_MOTORS_MOT_4, 180, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 2, AP_MOTORS_MOT_7, 60, -60, -1, 0, 0),
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};
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static Motor tilttri_vectored_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 60, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 1, -1, 0, 0, 7, 10, -90),
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Motor(AP_MOTORS_MOT_2, -60, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 3, -1, 0, 0, 8, 10, -90),
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Motor(AP_MOTORS_MOT_4, 180, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 2)
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};
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static Motor y6_motors[] =
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{
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Motor(AP_MOTORS_MOT_1, 60, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 2),
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Motor(AP_MOTORS_MOT_2, -60, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 5),
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Motor(AP_MOTORS_MOT_3, -60, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 6),
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Motor(AP_MOTORS_MOT_4, 180, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 4),
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Motor(AP_MOTORS_MOT_5, 60, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 1),
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Motor(AP_MOTORS_MOT_6, 180, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 3)
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};
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/*
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FireflyY6 is a Y6 with front motors tiltable using servo on channel 9 (output 8)
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*/
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static Motor firefly_motors[] =
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{
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|
Motor(AP_MOTORS_MOT_1, 180, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 3),
|
|
Motor(AP_MOTORS_MOT_2, 60, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 1, -1, 0, 0, 6, 0, -90),
|
|
Motor(AP_MOTORS_MOT_3, -60, AP_MOTORS_MATRIX_YAW_FACTOR_CCW, 5, -1, 0, 0, 6, 0, -90),
|
|
Motor(AP_MOTORS_MOT_4, 180, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 4),
|
|
Motor(AP_MOTORS_MOT_5, 60, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 2, -1, 0, 0, 6, 0, -90),
|
|
Motor(AP_MOTORS_MOT_6, -60, AP_MOTORS_MATRIX_YAW_FACTOR_CW, 6, -1, 0, 0, 6, 0, -90)
|
|
};
|
|
|
|
/*
|
|
table of supported frame types. String order is important for
|
|
partial name matching
|
|
*/
|
|
static Frame supported_frames[] =
|
|
{
|
|
Frame("+", 4, quad_plus_motors),
|
|
Frame("quad", 4, quad_plus_motors),
|
|
Frame("copter", 4, quad_plus_motors),
|
|
Frame("x", 4, quad_x_motors),
|
|
Frame("bfxrev", 4, quad_bf_x_rev_motors),
|
|
Frame("bfx", 4, quad_bf_x_motors),
|
|
Frame("djix", 4, quad_dji_x_motors),
|
|
Frame("cwx", 4, quad_cw_x_motors),
|
|
Frame("tilthvec", 4, tiltquad_h_vectored_motors),
|
|
Frame("hexax", 6, hexax_motors),
|
|
Frame("hexa-cwx", 6, hexa_cw_x_motors),
|
|
Frame("hexa-dji", 6, hexa_dji_x_motors),
|
|
Frame("hexa", 6, hexa_motors),
|
|
Frame("octa-cwx", 8, octa_cw_x_motors),
|
|
Frame("octa-dji", 8, octa_dji_x_motors),
|
|
Frame("octa-quad-cwx",8, octa_quad_cw_x_motors),
|
|
Frame("octa-quad", 8, octa_quad_motors),
|
|
Frame("octa", 8, octa_motors),
|
|
Frame("deca", 10, deca_motors),
|
|
Frame("deca-cwx", 10, deca_cw_x_motors),
|
|
Frame("dodeca-hexa", 12, dodeca_hexa_motors),
|
|
Frame("tri", 3, tri_motors),
|
|
Frame("tilttrivec",3, tilttri_vectored_motors),
|
|
Frame("tilttri", 3, tilttri_motors),
|
|
Frame("y6", 6, y6_motors),
|
|
Frame("firefly", 6, firefly_motors)
|
|
};
|
|
|
|
// get air density in kg/m^3
|
|
float Frame::get_air_density(float alt_amsl) const
|
|
{
|
|
float sigma, delta, theta;
|
|
|
|
AP_Baro::SimpleAtmosphere(alt_amsl * 0.001f, sigma, delta, theta);
|
|
|
|
const float air_pressure = SSL_AIR_PRESSURE * delta;
|
|
return air_pressure / (ISA_GAS_CONSTANT * (C_TO_KELVIN + model.refTempC));
|
|
}
|
|
|
|
/*
|
|
load frame specific parameters from a json file if available
|
|
*/
|
|
void Frame::load_frame_params(const char *model_json)
|
|
{
|
|
char *fname = nullptr;
|
|
struct stat st;
|
|
if (AP::FS().stat(model_json, &st) == 0) {
|
|
fname = strdup(model_json);
|
|
} else {
|
|
IGNORE_RETURN(asprintf(&fname, "@ROMFS/models/%s", model_json));
|
|
if (AP::FS().stat(model_json, &st) != 0) {
|
|
AP_HAL::panic("%s failed to load\n", model_json);
|
|
}
|
|
}
|
|
if (fname == nullptr) {
|
|
AP_HAL::panic("%s failed to load\n", model_json);
|
|
}
|
|
::printf("Loading model %s\n", fname);
|
|
int fd = AP::FS().open(model_json, O_RDONLY);
|
|
if (fd == -1) {
|
|
AP_HAL::panic("%s failed to load\n", model_json);
|
|
}
|
|
char buf[st.st_size+1];
|
|
memset(buf, '\0', sizeof(buf));
|
|
if (AP::FS().read(fd, buf, st.st_size) != st.st_size) {
|
|
AP_HAL::panic("%s failed to load\n", model_json);
|
|
}
|
|
AP::FS().close(fd);
|
|
|
|
char *start = strchr(buf, '{');
|
|
if (!start) {
|
|
AP_HAL::panic("Invalid json %s", model_json);
|
|
}
|
|
free(fname);
|
|
|
|
/*
|
|
remove comments, as not allowed by the parser
|
|
*/
|
|
for (char *p = strchr(start,'#'); p; p=strchr(p+1, '#')) {
|
|
// clear to end of line
|
|
do {
|
|
*p++ = ' ';
|
|
} while (*p != '\n' && *p != '\r' && *p);
|
|
}
|
|
|
|
picojson::value obj;
|
|
std::string err = picojson::parse(obj, start);
|
|
if (!err.empty()) {
|
|
AP_HAL::panic("Failed to load %s: %s", model_json, err.c_str());
|
|
exit(1);
|
|
}
|
|
|
|
struct {
|
|
const char *label;
|
|
float &v;
|
|
} vars[] = {
|
|
#define FRAME_VAR(s) { #s, model.s }
|
|
FRAME_VAR(mass),
|
|
FRAME_VAR(diagonal_size),
|
|
FRAME_VAR(refSpd),
|
|
FRAME_VAR(refAngle),
|
|
FRAME_VAR(refVoltage),
|
|
FRAME_VAR(refCurrent),
|
|
FRAME_VAR(refAlt),
|
|
FRAME_VAR(refTempC),
|
|
FRAME_VAR(maxVoltage),
|
|
FRAME_VAR(battCapacityAh),
|
|
FRAME_VAR(refBatRes),
|
|
FRAME_VAR(propExpo),
|
|
FRAME_VAR(refRotRate),
|
|
FRAME_VAR(hoverThrOut),
|
|
FRAME_VAR(pwmMin),
|
|
FRAME_VAR(pwmMax),
|
|
FRAME_VAR(spin_min),
|
|
FRAME_VAR(spin_max),
|
|
FRAME_VAR(slew_max),
|
|
FRAME_VAR(disc_area),
|
|
FRAME_VAR(mdrag_coef),
|
|
};
|
|
static_assert(sizeof(model) == sizeof(float)*ARRAY_SIZE(vars), "incorrect model vars");
|
|
|
|
for (uint8_t i=0; i<ARRAY_SIZE(vars); i++) {
|
|
auto v = obj.get(vars[i].label);
|
|
if (v.is<picojson::null>()) {
|
|
// use default value
|
|
continue;
|
|
}
|
|
if (!v.is<double>()) {
|
|
AP_HAL::panic("Bad json type for %s: %s", vars[i].label, v.to_str().c_str());
|
|
}
|
|
vars[i].v = v.get<double>();
|
|
}
|
|
|
|
::printf("Loaded model params from %s\n", model_json);
|
|
}
|
|
|
|
/*
|
|
initialise the frame
|
|
*/
|
|
void Frame::init(const char *frame_str, Battery *_battery)
|
|
{
|
|
model = default_model;
|
|
battery = _battery;
|
|
|
|
const char *colon = strchr(frame_str, ':');
|
|
size_t slen = strlen(frame_str);
|
|
if (colon != nullptr && slen > 5 && strcmp(&frame_str[slen-5], ".json") == 0) {
|
|
load_frame_params(colon+1);
|
|
}
|
|
mass = model.mass;
|
|
|
|
const float drag_force = model.mass * GRAVITY_MSS * tanf(radians(model.refAngle));
|
|
|
|
const float cos_tilt = cosf(radians(model.refAngle));
|
|
const float airspeed_bf = model.refSpd * cos_tilt;
|
|
const float ref_thrust = model.mass * GRAVITY_MSS / cos_tilt;
|
|
float ref_air_density = get_air_density(model.refAlt);
|
|
|
|
const float momentum_drag = cos_tilt * model.mdrag_coef * airspeed_bf * sqrtf(ref_thrust * ref_air_density * model.disc_area);
|
|
|
|
if (momentum_drag > drag_force) {
|
|
model.mdrag_coef *= drag_force / momentum_drag;
|
|
areaCd = 0.0;
|
|
::printf("Suggested EK3_BCOEF_* = 0, EK3_MCOEF = %.3f\n", (momentum_drag / (model.mass * airspeed_bf)) * sqrtf(1.225f / ref_air_density));
|
|
} else {
|
|
areaCd = (drag_force - momentum_drag) / (0.5f * ref_air_density * sq(model.refSpd));
|
|
::printf("Suggested EK3_BCOEF_* = %.3f, EK3_MCOEF = %.3f\n", model.mass / areaCd, (momentum_drag / (model.mass * airspeed_bf)) * sqrtf(1.225f / ref_air_density));
|
|
}
|
|
|
|
terminal_rotation_rate = model.refRotRate;
|
|
|
|
float hover_thrust = mass * GRAVITY_MSS;
|
|
float hover_power = model.refCurrent * model.refVoltage;
|
|
float hover_velocity_out = 2 * hover_power / hover_thrust;
|
|
float effective_disc_area = hover_thrust / (0.5 * ref_air_density * sq(hover_velocity_out));
|
|
velocity_max = hover_velocity_out / sqrtf(model.hoverThrOut);
|
|
thrust_max = 0.5 * ref_air_density * effective_disc_area * sq(velocity_max);
|
|
effective_prop_area = effective_disc_area / num_motors;
|
|
|
|
// power_factor is ratio of power consumed per newton of thrust
|
|
float power_factor = hover_power / hover_thrust;
|
|
|
|
battery->setup(model.battCapacityAh, model.refBatRes, model.maxVoltage);
|
|
|
|
for (uint8_t i=0; i<num_motors; i++) {
|
|
motors[i].setup_params(model.pwmMin, model.pwmMax, model.spin_min, model.spin_max, model.propExpo, model.slew_max,
|
|
model.mass, model.diagonal_size, power_factor, model.maxVoltage);
|
|
}
|
|
|
|
|
|
#if 0
|
|
// useful debug code for thrust curve
|
|
{
|
|
motors[0].set_slew_max(0);
|
|
struct sitl_input input {};
|
|
for (uint16_t pwm = 1000; pwm < 2000; pwm += 50) {
|
|
input.servos[0] = pwm;
|
|
|
|
Vector3f rot_accel {}, thrust {};
|
|
Vector3f vel_air_bf {};
|
|
motors[0].calculate_forces(input, motor_offset, rot_accel, thrust, vel_air_bf,
|
|
ref_air_density, velocity_max, effective_prop_area, battery->get_voltage());
|
|
::printf("pwm[%u] cmd=%.3f thrust=%.3f hovthst=%.3f\n",
|
|
pwm, motors[0].pwm_to_command(pwm), -thrust.z*num_motors, hover_thrust);
|
|
}
|
|
motors[0].set_slew_max(model.slew_max);
|
|
}
|
|
#endif
|
|
|
|
// setup reasonable defaults for battery
|
|
AP_Param::set_default_by_name("SIM_BATT_VOLTAGE", model.maxVoltage);
|
|
AP_Param::set_default_by_name("SIM_BATT_CAP_AH", model.battCapacityAh);
|
|
AP_Param::set_default_by_name("BATT_CAPACITY", model.battCapacityAh*1000);
|
|
}
|
|
|
|
/*
|
|
find a frame by name
|
|
*/
|
|
Frame *Frame::find_frame(const char *name)
|
|
{
|
|
for (uint8_t i=0; i < ARRAY_SIZE(supported_frames); i++) {
|
|
// do partial name matching to allow for frame variants
|
|
if (strncasecmp(name, supported_frames[i].name, strlen(supported_frames[i].name)) == 0) {
|
|
return &supported_frames[i];
|
|
}
|
|
}
|
|
return nullptr;
|
|
}
|
|
|
|
// calculate rotational and linear accelerations
|
|
void Frame::calculate_forces(const Aircraft &aircraft,
|
|
const struct sitl_input &input,
|
|
Vector3f &rot_accel,
|
|
Vector3f &body_accel,
|
|
float* rpm,
|
|
bool use_drag)
|
|
{
|
|
Vector3f thrust; // newtons
|
|
|
|
const float air_density = get_air_density(aircraft.get_location().alt*0.01);
|
|
|
|
Vector3f vel_air_bf = aircraft.get_dcm().transposed() * aircraft.get_velocity_air_ef();
|
|
|
|
float current = 0;
|
|
for (uint8_t i=0; i<num_motors; i++) {
|
|
Vector3f mraccel, mthrust;
|
|
motors[i].calculate_forces(input, motor_offset, mraccel, mthrust, vel_air_bf, air_density, velocity_max,
|
|
effective_prop_area, battery->get_voltage());
|
|
current += motors[i].get_current();
|
|
rot_accel += mraccel;
|
|
thrust += mthrust;
|
|
// simulate motor rpm
|
|
if (!is_zero(AP::sitl()->vibe_motor)) {
|
|
rpm[i] = motors[i].get_command() * AP::sitl()->vibe_motor * 60.0f;
|
|
}
|
|
}
|
|
|
|
body_accel = thrust/aircraft.gross_mass();
|
|
|
|
if (terminal_rotation_rate > 0) {
|
|
// rotational air resistance
|
|
const Vector3f &gyro = aircraft.get_gyro();
|
|
rot_accel.x -= gyro.x * radians(400.0) / terminal_rotation_rate;
|
|
rot_accel.y -= gyro.y * radians(400.0) / terminal_rotation_rate;
|
|
rot_accel.z -= gyro.z * radians(400.0) / terminal_rotation_rate;
|
|
}
|
|
|
|
if (use_drag) {
|
|
// use the model params to calculate drag
|
|
Vector3f drag_bf;
|
|
drag_bf.x = areaCd * 0.5f * air_density * sq(vel_air_bf.x) +
|
|
model.mdrag_coef * fabsf(vel_air_bf.x) * sqrtf(fabsf(thrust.z) * air_density * model.disc_area);
|
|
if (is_positive(vel_air_bf.x)) {
|
|
drag_bf.x = -drag_bf.x;
|
|
}
|
|
|
|
drag_bf.y = areaCd * 0.5f * air_density * sq(vel_air_bf.y) +
|
|
model.mdrag_coef * fabsf(vel_air_bf.y) * sqrtf(fabsf(thrust.z) * air_density * model.disc_area);
|
|
if (is_positive(vel_air_bf.y)) {
|
|
drag_bf.y = -drag_bf.y;
|
|
}
|
|
|
|
// The application of momentum drag to the Z axis is a 'hack' to compensate for incorrect modelling
|
|
// of the variation of thust with vel_air_bf.z in SIM_Motor.cpp. If nmot applied, the vehicle will
|
|
// climb at an unrealistic rate during operation in STABILIZE. TODO replace prop and motor model in
|
|
// the Motor class with one based on DC motor, mometum disc and blade elemnt theory.
|
|
drag_bf.z = areaCd * 0.5f * air_density * sq(vel_air_bf.z) +
|
|
model.mdrag_coef * fabsf(vel_air_bf.z) * sqrtf(fabsf(thrust.z) * air_density * model.disc_area);
|
|
if (is_positive(vel_air_bf.z)) {
|
|
drag_bf.z = -drag_bf.z;
|
|
}
|
|
|
|
body_accel += drag_bf / mass;
|
|
}
|
|
|
|
// add some noise
|
|
const float gyro_noise = radians(0.1);
|
|
const float accel_noise = 0.3;
|
|
const float noise_scale = thrust.length() / thrust_max;
|
|
rot_accel += Vector3f(aircraft.rand_normal(0, 1),
|
|
aircraft.rand_normal(0, 1),
|
|
aircraft.rand_normal(0, 1)) * gyro_noise * noise_scale;
|
|
body_accel += Vector3f(aircraft.rand_normal(0, 1),
|
|
aircraft.rand_normal(0, 1),
|
|
aircraft.rand_normal(0, 1)) * accel_noise * noise_scale;
|
|
}
|
|
|
|
|
|
// calculate current and voltage
|
|
void Frame::current_and_voltage(float &voltage, float ¤t)
|
|
{
|
|
float param_voltage = AP::sitl()->batt_voltage;
|
|
if (!is_equal(last_param_voltage,param_voltage)) {
|
|
battery->init_voltage(param_voltage);
|
|
last_param_voltage = param_voltage;
|
|
}
|
|
voltage = battery->get_voltage();
|
|
current = 0;
|
|
for (uint8_t i=0; i<num_motors; i++) {
|
|
current += motors[i].get_current();
|
|
}
|
|
}
|