mirror of
https://bitbucket.org/librepilot/librepilot.git
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257 lines
8.3 KiB
C++
257 lines
8.3 KiB
C++
/*
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******************************************************************************
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*
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* @file vtolbrakefsm.cpp
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* @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2015.
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* @brief Vtol brake finate state machine to regulate behaviour of the
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* brake controller.
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* @see The GNU Public License (GPL) Version 3
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*
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*****************************************************************************/
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/*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful, but
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* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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* for more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with this program; if not, write to the Free Software Foundation, Inc.,
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* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*/
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extern "C" {
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#include <openpilot.h>
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#include <callbackinfo.h>
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#include <math.h>
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#include <pid.h>
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#include <CoordinateConversions.h>
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#include <sin_lookup.h>
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#include <pathdesired.h>
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#include <paths.h>
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#include "plans.h"
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#include <sanitycheck.h>
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#include <vtolpathfollowersettings.h>
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#include <flightstatus.h>
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#include <flightmodesettings.h>
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#include <pathstatus.h>
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#include <positionstate.h>
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#include <velocitystate.h>
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#include <velocitydesired.h>
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#include <stabilizationdesired.h>
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#include <attitudestate.h>
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#include <manualcontrolcommand.h>
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#include <systemsettings.h>
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#include <stabilizationbank.h>
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#include <stabilizationdesired.h>
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#include <vtolselftuningstats.h>
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#include <pathsummary.h>
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}
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// C++ includes
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#include <vtolbrakefsm.h>
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// Private constants
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#define TIMER_COUNT_PER_SECOND (1000 / vtolPathFollowerSettings->UpdatePeriod)
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#define BRAKE_FRACTIONALPROGRESS_STARTVELOCITYCHECK 0.95f
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#define BRAKE_EXIT_VELOCITY_LIMIT 0.15f
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VtolBrakeFSM::PathFollowerFSM_BrakeStateHandler_T VtolBrakeFSM::sBrakeStateTable[BRAKE_STATE_SIZE] = {
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[BRAKE_STATE_INACTIVE] = { .setup = 0, .run = 0 },
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[BRAKE_STATE_BRAKE] = { .setup = &VtolBrakeFSM::setup_brake, .run = &VtolBrakeFSM::run_brake },
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[BRAKE_STATE_HOLD] = { .setup = 0, .run = 0 }
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};
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// pointer to a singleton instance
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VtolBrakeFSM *VtolBrakeFSM::p_inst = 0;
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VtolBrakeFSM::VtolBrakeFSM()
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: mBrakeData(0), vtolPathFollowerSettings(0), pathDesired(0), flightStatus(0)
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{}
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// Private types
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// Private functions
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// Public API methods
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/**
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* Initialise the module, called on startup
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* \returns 0 on success or -1 if initialisation failed
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*/
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int32_t VtolBrakeFSM::Initialize(VtolPathFollowerSettingsData *ptr_vtolPathFollowerSettings,
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PathDesiredData *ptr_pathDesired,
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FlightStatusData *ptr_flightStatus,
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PathStatusData *ptr_pathStatus)
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{
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PIOS_Assert(ptr_vtolPathFollowerSettings);
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PIOS_Assert(ptr_pathDesired);
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PIOS_Assert(ptr_flightStatus);
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// allow for Initialize being called more than once.
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if (!mBrakeData) {
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mBrakeData = (VtolBrakeFSMData_T *)pios_malloc(sizeof(VtolBrakeFSMData_T));
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PIOS_Assert(mBrakeData);
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}
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memset(mBrakeData, 0, sizeof(VtolBrakeFSMData_T));
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vtolPathFollowerSettings = ptr_vtolPathFollowerSettings;
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pathDesired = ptr_pathDesired;
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flightStatus = ptr_flightStatus;
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pathStatus = ptr_pathStatus;
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initFSM();
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return 0;
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}
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void VtolBrakeFSM::Inactive(void)
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{
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memset(mBrakeData, 0, sizeof(VtolBrakeFSMData_T));
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initFSM();
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}
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// Initialise the FSM
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void VtolBrakeFSM::initFSM(void)
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{
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mBrakeData->currentState = BRAKE_STATE_INACTIVE;
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}
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void VtolBrakeFSM::Activate()
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{
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memset(mBrakeData, 0, sizeof(VtolBrakeFSMData_T));
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mBrakeData->currentState = BRAKE_STATE_INACTIVE;
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setState(BRAKE_STATE_BRAKE, FSMBRAKESTATUS_STATEEXITREASON_NONE);
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}
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PathFollowerFSMState_T VtolBrakeFSM::GetCurrentState(void)
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{
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switch (mBrakeData->currentState) {
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case BRAKE_STATE_INACTIVE:
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return PFFSM_STATE_INACTIVE;
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break;
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default:
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return PFFSM_STATE_ACTIVE;
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break;
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}
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}
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void VtolBrakeFSM::Update()
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{
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runState();
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}
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int32_t VtolBrakeFSM::runState(void)
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{
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uint8_t flTimeout = false;
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mBrakeData->stateRunCount++;
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if (mBrakeData->stateTimeoutCount > 0 && mBrakeData->stateRunCount > mBrakeData->stateTimeoutCount) {
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flTimeout = true;
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}
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// If the current state has a static function, call it
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if (sBrakeStateTable[mBrakeData->currentState].run) {
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(this->*sBrakeStateTable[mBrakeData->currentState].run)(flTimeout);
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}
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return 0;
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}
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// Set the new state and perform setup for subsequent state run calls
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// This is called by state run functions on event detection that drive
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// state transitions.
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void VtolBrakeFSM::setState(PathFollowerFSM_BrakeState_T newState, __attribute__((unused)) VtolBrakeFSMStatusStateExitReasonOptions reason)
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{
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// mBrakeData->fsmBrakeStatus.StateExitReason[mBrakeData->currentState] = reason;
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if (mBrakeData->currentState == newState) {
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return;
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}
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mBrakeData->currentState = newState;
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// Restart state timer counter
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mBrakeData->stateRunCount = 0;
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// Reset state timeout to disabled/zero
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mBrakeData->stateTimeoutCount = 0;
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if (sBrakeStateTable[mBrakeData->currentState].setup) {
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(this->*sBrakeStateTable[mBrakeData->currentState].setup)();
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}
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}
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// Timeout utility function for use by state init implementations
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void VtolBrakeFSM::setStateTimeout(int32_t count)
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{
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mBrakeData->stateTimeoutCount = count;
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}
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// FSM Setup and Run method implementation
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// State: WAITING FOR DESCENT RATE
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void VtolBrakeFSM::setup_brake(void)
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{
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setStateTimeout(TIMER_COUNT_PER_SECOND * pathDesired->ModeParameters[PATHDESIRED_MODEPARAMETER_BRAKE_TIMEOUT]);
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mBrakeData->observationCount = 0;
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mBrakeData->observation2Count = 0;
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}
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void VtolBrakeFSM::run_brake(uint8_t flTimeout)
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{
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// Brake mode end condition checks
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bool exit_brake = false;
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VelocityStateData velocityState;
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PathSummaryData pathSummary;
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if (flTimeout) {
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pathSummary.brake_exit_reason = PATHSUMMARY_BRAKE_EXIT_REASON_TIMEOUT;
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exit_brake = true;
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} else if (pathStatus->fractional_progress > BRAKE_FRACTIONALPROGRESS_STARTVELOCITYCHECK) {
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VelocityStateGet(&velocityState);
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if (fabsf(velocityState.East) < BRAKE_EXIT_VELOCITY_LIMIT && fabsf(velocityState.North) < BRAKE_EXIT_VELOCITY_LIMIT) {
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pathSummary.brake_exit_reason = PATHSUMMARY_BRAKE_EXIT_REASON_PATHCOMPLETED;
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exit_brake = true;
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}
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}
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if (exit_brake) {
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// Calculate the distance error between the originally desired
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// stopping point and the actual brake-exit point.
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PositionStateData p;
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PositionStateGet(&p);
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float north_offset = pathDesired->End.North - p.North;
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float east_offset = pathDesired->End.East - p.East;
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float down_offset = pathDesired->End.Down - p.Down;
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pathSummary.brake_distance_offset = sqrtf(north_offset * north_offset + east_offset * east_offset + down_offset * down_offset);
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pathSummary.time_remaining = pathDesired->ModeParameters[PATHDESIRED_MODEPARAMETER_BRAKE_TIMEOUT] - pathStatus->path_time;
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pathSummary.fractional_progress = pathStatus->fractional_progress;
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float cur_velocity = velocityState.North * velocityState.North + velocityState.East * velocityState.East + velocityState.Down * velocityState.Down;
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cur_velocity = sqrtf(cur_velocity);
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pathSummary.decelrate = (pathDesired->StartingVelocity - cur_velocity) / pathStatus->path_time;
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pathSummary.brakeRateActualDesiredRatio = pathSummary.decelrate / vtolPathFollowerSettings->BrakeRate;
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pathSummary.velocityIntoHold = cur_velocity;
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pathSummary.Mode = PATHSUMMARY_MODE_BRAKE;
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pathSummary.UID = pathStatus->UID;
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PathSummarySet(&pathSummary);
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setState(BRAKE_STATE_HOLD, FSMBRAKESTATUS_STATEEXITREASON_NONE);
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}
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}
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uint8_t VtolBrakeFSM::PositionHoldState(void)
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{
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return mBrakeData->currentState == BRAKE_STATE_HOLD;
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}
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