mirror of https://github.com/ArduPilot/ardupilot
434 lines
13 KiB
C++
434 lines
13 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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SRV_Channel.cpp - object to separate input and output channel
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ranges, trim and reversal
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*/
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#include <AP_HAL/AP_HAL.h>
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#include <AP_Math/AP_Math.h>
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#include <AP_Vehicle/AP_Vehicle.h>
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#include "SRV_Channel.h"
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#if HAL_MAX_CAN_PROTOCOL_DRIVERS
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#include <AP_CANManager/AP_CANManager.h>
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#include <AP_UAVCAN/AP_UAVCAN.h>
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// To be replaced with macro saying if KDECAN library is included
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#if APM_BUILD_TYPE(APM_BUILD_ArduCopter) || APM_BUILD_TYPE(APM_BUILD_ArduPlane) || APM_BUILD_TYPE(APM_BUILD_ArduSub)
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#include <AP_KDECAN/AP_KDECAN.h>
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#endif
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#include <AP_ToshibaCAN/AP_ToshibaCAN.h>
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#include <AP_PiccoloCAN/AP_PiccoloCAN.h>
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#endif
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#if NUM_SERVO_CHANNELS == 0
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#pragma GCC diagnostic ignored "-Wtype-limits"
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#endif
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extern const AP_HAL::HAL& hal;
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SRV_Channel *SRV_Channels::channels;
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SRV_Channels *SRV_Channels::_singleton;
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#ifndef HAL_BUILD_AP_PERIPH
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AP_Volz_Protocol *SRV_Channels::volz_ptr;
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AP_SBusOut *SRV_Channels::sbus_ptr;
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AP_RobotisServo *SRV_Channels::robotis_ptr;
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#if HAL_AP_FETTEC_ONEWIRE_ENABLED
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AP_FETtecOneWire *SRV_Channels::fetteconwire_ptr;
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#endif
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#endif // HAL_BUILD_AP_PERIPH
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uint16_t SRV_Channels::override_counter[NUM_SERVO_CHANNELS];
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#if HAL_SUPPORT_RCOUT_SERIAL
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AP_BLHeli *SRV_Channels::blheli_ptr;
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#endif
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uint16_t SRV_Channels::disabled_mask;
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uint16_t SRV_Channels::digital_mask;
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uint16_t SRV_Channels::reversible_mask;
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bool SRV_Channels::disabled_passthrough;
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bool SRV_Channels::initialised;
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bool SRV_Channels::emergency_stop;
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Bitmask<SRV_Channel::k_nr_aux_servo_functions> SRV_Channels::function_mask;
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SRV_Channels::srv_function SRV_Channels::functions[SRV_Channel::k_nr_aux_servo_functions];
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const AP_Param::GroupInfo SRV_Channels::var_info[] = {
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#if (NUM_SERVO_CHANNELS >= 1)
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// @Group: 1_
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// @Path: SRV_Channel.cpp
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AP_SUBGROUPINFO(obj_channels[0], "1_", 1, SRV_Channels, SRV_Channel),
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#endif
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#if (NUM_SERVO_CHANNELS >= 2)
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// @Group: 2_
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// @Path: SRV_Channel.cpp
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AP_SUBGROUPINFO(obj_channels[1], "2_", 2, SRV_Channels, SRV_Channel),
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#endif
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#if (NUM_SERVO_CHANNELS >= 3)
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// @Group: 3_
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// @Path: SRV_Channel.cpp
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AP_SUBGROUPINFO(obj_channels[2], "3_", 3, SRV_Channels, SRV_Channel),
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#endif
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#if (NUM_SERVO_CHANNELS >= 4)
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// @Group: 4_
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// @Path: SRV_Channel.cpp
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AP_SUBGROUPINFO(obj_channels[3], "4_", 4, SRV_Channels, SRV_Channel),
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#endif
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#if (NUM_SERVO_CHANNELS >= 5)
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// @Group: 5_
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// @Path: SRV_Channel.cpp
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AP_SUBGROUPINFO(obj_channels[4], "5_", 5, SRV_Channels, SRV_Channel),
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#endif
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#if (NUM_SERVO_CHANNELS >= 6)
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// @Group: 6_
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// @Path: SRV_Channel.cpp
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AP_SUBGROUPINFO(obj_channels[5], "6_", 6, SRV_Channels, SRV_Channel),
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#endif
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#if (NUM_SERVO_CHANNELS >= 7)
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// @Group: 7_
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// @Path: SRV_Channel.cpp
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AP_SUBGROUPINFO(obj_channels[6], "7_", 7, SRV_Channels, SRV_Channel),
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#endif
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#if (NUM_SERVO_CHANNELS >= 8)
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// @Group: 8_
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// @Path: SRV_Channel.cpp
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AP_SUBGROUPINFO(obj_channels[7], "8_", 8, SRV_Channels, SRV_Channel),
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#endif
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#if (NUM_SERVO_CHANNELS >= 9)
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// @Group: 9_
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// @Path: SRV_Channel.cpp
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AP_SUBGROUPINFO(obj_channels[8], "9_", 9, SRV_Channels, SRV_Channel),
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#endif
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#if (NUM_SERVO_CHANNELS >= 10)
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// @Group: 10_
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// @Path: SRV_Channel.cpp
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AP_SUBGROUPINFO(obj_channels[9], "10_", 10, SRV_Channels, SRV_Channel),
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#endif
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#if (NUM_SERVO_CHANNELS >= 11)
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// @Group: 11_
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// @Path: SRV_Channel.cpp
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AP_SUBGROUPINFO(obj_channels[10], "11_", 11, SRV_Channels, SRV_Channel),
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#endif
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#if (NUM_SERVO_CHANNELS >= 12)
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// @Group: 12_
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// @Path: SRV_Channel.cpp
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AP_SUBGROUPINFO(obj_channels[11], "12_", 12, SRV_Channels, SRV_Channel),
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#endif
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#if (NUM_SERVO_CHANNELS >= 13)
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// @Group: 13_
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// @Path: SRV_Channel.cpp
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AP_SUBGROUPINFO(obj_channels[12], "13_", 13, SRV_Channels, SRV_Channel),
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#endif
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#if (NUM_SERVO_CHANNELS >= 14)
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// @Group: 14_
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// @Path: SRV_Channel.cpp
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AP_SUBGROUPINFO(obj_channels[13], "14_", 14, SRV_Channels, SRV_Channel),
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#endif
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#if (NUM_SERVO_CHANNELS >= 15)
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// @Group: 15_
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// @Path: SRV_Channel.cpp
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AP_SUBGROUPINFO(obj_channels[14], "15_", 15, SRV_Channels, SRV_Channel),
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#endif
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#if (NUM_SERVO_CHANNELS >= 16)
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// @Group: 16_
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// @Path: SRV_Channel.cpp
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AP_SUBGROUPINFO(obj_channels[15], "16_", 16, SRV_Channels, SRV_Channel),
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#endif
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#ifndef HAL_BUILD_AP_PERIPH
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// @Param{Plane}: _AUTO_TRIM
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// @DisplayName: Automatic servo trim
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// @Description: This enables automatic servo trim in flight. Servos will be trimed in stabilized flight modes when the aircraft is close to level. Changes to servo trim will be saved every 10 seconds and will persist between flights. The automatic trim won't go more than 20% away from a centered trim.
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// @Values: 0:Disable,1:Enable
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// @User: Advanced
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AP_GROUPINFO_FRAME("_AUTO_TRIM", 17, SRV_Channels, auto_trim, 0, AP_PARAM_FRAME_PLANE),
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#endif
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// @Param: _RATE
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// @DisplayName: Servo default output rate
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// @Description: This sets the default output rate in Hz for all outputs.
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// @Range: 25 400
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// @User: Advanced
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// @Units: Hz
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AP_GROUPINFO("_RATE", 18, SRV_Channels, default_rate, 50),
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#ifndef HAL_BUILD_AP_PERIPH
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// @Group: _VOLZ_
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// @Path: ../AP_Volz_Protocol/AP_Volz_Protocol.cpp
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AP_SUBGROUPINFO(volz, "_VOLZ_", 19, SRV_Channels, AP_Volz_Protocol),
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// @Group: _SBUS_
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// @Path: ../AP_SBusOut/AP_SBusOut.cpp
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AP_SUBGROUPINFO(sbus, "_SBUS_", 20, SRV_Channels, AP_SBusOut),
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#if HAL_SUPPORT_RCOUT_SERIAL
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// @Group: _BLH_
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// @Path: ../AP_BLHeli/AP_BLHeli.cpp
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AP_SUBGROUPINFO(blheli, "_BLH_", 21, SRV_Channels, AP_BLHeli),
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#endif
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// @Group: _ROB_
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// @Path: ../AP_RobotisServo/AP_RobotisServo.cpp
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AP_SUBGROUPINFO(robotis, "_ROB_", 22, SRV_Channels, AP_RobotisServo),
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#if HAL_AP_FETTEC_ONEWIRE_ENABLED
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// @Group: _FTW_
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// @Path: ../AP_FETtecOneWire/AP_FETtecOneWire.cpp
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AP_SUBGROUPINFO(fetteconwire, "_FTW_", 25, SRV_Channels, AP_FETtecOneWire),
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#endif
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#endif // HAL_BUILD_AP_PERIPH
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// @Param: _DSHOT_RATE
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// @DisplayName: Servo DShot output rate
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// @Description: This sets the DShot output rate for all outputs as a multiple of the loop rate. 0 sets the output rate to be fixed at 1Khz for low loop rates. This value should never be set below 500Hz.
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// @Values: 0:1Khz,1:loop-rate,2:double loop-rate,3:triple loop-rate,4:quadruple loop rate
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// @User: Advanced
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AP_GROUPINFO("_DSHOT_RATE", 23, SRV_Channels, dshot_rate, 0),
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// @Param: _DSHOT_ESC
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// @DisplayName: Servo DShot ESC type
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// @Description: This sets the DShot ESC type for all outputs. The ESC type affects the range of DShot commands available. None means that no dshot commands will be executed.
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// @Values: 0:None,1:BLHeli32/BLHeli_S/Kiss
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// @User: Advanced
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AP_GROUPINFO("_DSHOT_ESC", 24, SRV_Channels, dshot_esc_type, 0),
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AP_GROUPEND
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};
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/*
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constructor
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*/
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SRV_Channels::SRV_Channels(void)
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{
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_singleton = this;
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channels = obj_channels;
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// set defaults from the parameter table
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AP_Param::setup_object_defaults(this, var_info);
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// setup ch_num on channels
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for (uint8_t i=0; i<NUM_SERVO_CHANNELS; i++) {
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channels[i].ch_num = i;
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}
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#ifndef HAL_BUILD_AP_PERIPH
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volz_ptr = &volz;
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sbus_ptr = &sbus;
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robotis_ptr = &robotis;
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#if HAL_AP_FETTEC_ONEWIRE_ENABLED
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fetteconwire_ptr = &fetteconwire;
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#endif
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#if HAL_SUPPORT_RCOUT_SERIAL
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blheli_ptr = &blheli;
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#endif
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#endif // HAL_BUILD_AP_PERIPH
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}
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// SRV_Channels initialization
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void SRV_Channels::init(void)
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{
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// initialize BLHeli late so that all of the masks it might setup don't get trodden on by motor initialization
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#if HAL_SUPPORT_RCOUT_SERIAL
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blheli_ptr->init();
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#endif
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hal.rcout->set_dshot_rate(_singleton->dshot_rate, AP::scheduler().get_loop_rate_hz());
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}
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/*
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save adjusted trims
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*/
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void SRV_Channels::save_trim(void)
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{
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for (uint8_t i=0; i<NUM_SERVO_CHANNELS; i++) {
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if (trimmed_mask & (1U<<i)) {
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channels[i].servo_trim.set_and_save(channels[i].servo_trim.get());
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}
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}
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trimmed_mask = 0;
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}
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void SRV_Channels::setup_failsafe_trim_all_non_motors(void)
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{
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for (uint8_t i = 0; i < NUM_SERVO_CHANNELS; i++) {
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if (!SRV_Channel::is_motor(channels[i].get_function())) {
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hal.rcout->set_failsafe_pwm(1U<<channels[i].ch_num, channels[i].servo_trim);
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}
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}
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}
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/*
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run calc_pwm for all channels
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*/
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void SRV_Channels::calc_pwm(void)
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{
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WITH_SEMAPHORE(_singleton->override_counter_sem);
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for (uint8_t i=0; i<NUM_SERVO_CHANNELS; i++) {
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// check if channel has been locked out for this loop
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// if it has, decrement the loop count for that channel
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if (override_counter[i] == 0) {
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channels[i].set_override(false);
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} else {
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channels[i].set_override(true);
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override_counter[i]--;
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}
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channels[i].calc_pwm(functions[channels[i].function].output_scaled);
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}
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}
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// set output value for a specific function channel as a pwm value
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void SRV_Channels::set_output_pwm_chan(uint8_t chan, uint16_t value)
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{
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if (chan < NUM_SERVO_CHANNELS) {
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channels[chan].set_output_pwm(value);
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}
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}
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// set output value for a specific function channel as a pwm value with loop based timeout
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// timeout_ms of zero will clear override of the channel
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// minimum override is 1 MAIN_LOOP
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void SRV_Channels::set_output_pwm_chan_timeout(uint8_t chan, uint16_t value, uint16_t timeout_ms)
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{
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WITH_SEMAPHORE(_singleton->override_counter_sem);
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if (chan < NUM_SERVO_CHANNELS) {
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const uint32_t loop_period_us = AP::scheduler().get_loop_period_us();
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// round up so any non-zero requested value will result in at least one loop
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const uint32_t loop_count = ((timeout_ms * 1000U) + (loop_period_us - 1U)) / loop_period_us;
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override_counter[chan] = constrain_int32(loop_count, 0, UINT16_MAX);
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channels[chan].set_override(true);
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channels[chan].set_output_pwm(value,true);
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}
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}
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/*
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wrapper around hal.rcout->cork()
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*/
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void SRV_Channels::cork()
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{
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hal.rcout->cork();
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}
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/*
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wrapper around hal.rcout->push()
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*/
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void SRV_Channels::push()
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{
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hal.rcout->push();
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#ifndef HAL_BUILD_AP_PERIPH
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// give volz library a chance to update
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volz_ptr->update();
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// give sbus library a chance to update
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sbus_ptr->update();
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// give robotis library a chance to update
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robotis_ptr->update();
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#if HAL_AP_FETTEC_ONEWIRE_ENABLED
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fetteconwire_ptr->update();
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#endif
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#if HAL_SUPPORT_RCOUT_SERIAL
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// give blheli telemetry a chance to update
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blheli_ptr->update_telemetry();
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#endif
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#endif // HAL_BUILD_AP_PERIPH
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#if HAL_CANMANAGER_ENABLED
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// push outputs to CAN
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uint8_t can_num_drivers = AP::can().get_num_drivers();
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for (uint8_t i = 0; i < can_num_drivers; i++) {
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switch (AP::can().get_driver_type(i)) {
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case AP_CANManager::Driver_Type_UAVCAN: {
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AP_UAVCAN *ap_uavcan = AP_UAVCAN::get_uavcan(i);
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if (ap_uavcan == nullptr) {
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continue;
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}
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ap_uavcan->SRV_push_servos();
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break;
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}
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case AP_CANManager::Driver_Type_KDECAN: {
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// To be replaced with macro saying if KDECAN library is included
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#if APM_BUILD_TYPE(APM_BUILD_ArduCopter) || APM_BUILD_TYPE(APM_BUILD_ArduPlane) || APM_BUILD_TYPE(APM_BUILD_ArduSub)
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AP_KDECAN *ap_kdecan = AP_KDECAN::get_kdecan(i);
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if (ap_kdecan == nullptr) {
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continue;
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}
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ap_kdecan->update();
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#endif
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break;
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}
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case AP_CANManager::Driver_Type_ToshibaCAN: {
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AP_ToshibaCAN *ap_tcan = AP_ToshibaCAN::get_tcan(i);
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if (ap_tcan == nullptr) {
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continue;
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}
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ap_tcan->update();
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break;
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}
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#if HAL_PICCOLO_CAN_ENABLE
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case AP_CANManager::Driver_Type_PiccoloCAN: {
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AP_PiccoloCAN *ap_pcan = AP_PiccoloCAN::get_pcan(i);
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if (ap_pcan == nullptr) {
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continue;
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}
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ap_pcan->update();
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break;
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}
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#endif
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case AP_CANManager::Driver_Type_CANTester:
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case AP_CANManager::Driver_Type_None:
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default:
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break;
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}
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}
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#endif // HAL_NUM_CAN_IFACES
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}
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void SRV_Channels::zero_rc_outputs()
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{
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/* Send an invalid signal to the motors to prevent spinning due to
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* neutral (1500) pwm pulse being cut short. For that matter,
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* send an invalid signal to all channels to prevent
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* undesired/unexpected behavior
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*/
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cork();
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for (uint8_t i=0; i<NUM_RC_CHANNELS; i++) {
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hal.rcout->write(i, 0);
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}
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push();
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}
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