smbae/ADM
1
0
Fork 0
mirror of https://github.com/Dev-KATECH/ADM.git synced 2026-05-17 01:43:59 +09:00
Code Issues Actions Packages Projects Releases Wiki Activity
Workspace
ADM/ADM_Cruise_Control/WheelSpd1_slrt_rtw/WheelSpd1.h
JaeminSong 3854fbc169 Cruise Control Update 
Cruise Control Update
2024-08-07 11:01:25 +09:00

2004 lines
78 KiB
C
Raw Permalink Blame History

/*
* WheelSpd1.h
*
* Academic License - for use in teaching, academic research, and meeting
* course requirements at degree granting institutions only. Not for
* government, commercial, or other organizational use.
*
* Code generation for model "WheelSpd1".
*
* Model version : 1.397
* Simulink Coder version : 8.14 (R2018a) 06-Feb-2018
* C source code generated on : Tue Jul 11 16:56:29 2023
*
* Target selection: slrt.tlc
* Note: GRT includes extra infrastructure and instrumentation for prototyping
* Embedded hardware selection: Generic->32-bit x86 compatible
* Code generation objectives: Unspecified
* Validation result: Not run
*/
#ifndef RTW_HEADER_WheelSpd1_h_
#define RTW_HEADER_WheelSpd1_h_
#include <math.h>
#include <stddef.h>
#include <string.h>
#include "rtw_modelmap.h"
#ifndef WheelSpd1_COMMON_INCLUDES_
# define WheelSpd1_COMMON_INCLUDES_
#include <string.h>
#include <xpcimports.h>
#include <xpcdatatypes.h>
#include "rtwtypes.h"
#include "zero_crossing_types.h"
#include "simstruc.h"
#include "fixedpoint.h"
#include "rt_logging.h"
#include "can_message.h"
#endif /* WheelSpd1_COMMON_INCLUDES_ */
#include "WheelSpd1_types.h"
/* Shared type includes */
#include "multiword_types.h"
#include "rt_nonfinite.h"
#include "rt_defines.h"
/* Macros for accessing real-time model data structure */
#ifndef rtmGetBlockIO
# define rtmGetBlockIO(rtm) ((rtm)->blockIO)
#endif
#ifndef rtmSetBlockIO
# define rtmSetBlockIO(rtm, val) ((rtm)->blockIO = (val))
#endif
#ifndef rtmGetChecksums
# define rtmGetChecksums(rtm) ((rtm)->Sizes.checksums)
#endif
#ifndef rtmSetChecksums
# define rtmSetChecksums(rtm, val) ((rtm)->Sizes.checksums = (val))
#endif
#ifndef rtmGetConstBlockIO
# define rtmGetConstBlockIO(rtm) ((rtm)->constBlockIO)
#endif
#ifndef rtmSetConstBlockIO
# define rtmSetConstBlockIO(rtm, val) ((rtm)->constBlockIO = (val))
#endif
#ifndef rtmGetContStateDisabled
# define rtmGetContStateDisabled(rtm) ((rtm)->contStateDisabled)
#endif
#ifndef rtmSetContStateDisabled
# define rtmSetContStateDisabled(rtm, val) ((rtm)->contStateDisabled = (val))
#endif
#ifndef rtmGetContStates
# define rtmGetContStates(rtm) ((rtm)->contStates)
#endif
#ifndef rtmSetContStates
# define rtmSetContStates(rtm, val) ((rtm)->contStates = (val))
#endif
#ifndef rtmGetContTimeOutputInconsistentWithStateAtMajorStepFlag
# define rtmGetContTimeOutputInconsistentWithStateAtMajorStepFlag(rtm) ((rtm)->CTOutputIncnstWithState)
#endif
#ifndef rtmSetContTimeOutputInconsistentWithStateAtMajorStepFlag
# define rtmSetContTimeOutputInconsistentWithStateAtMajorStepFlag(rtm, val) ((rtm)->CTOutputIncnstWithState = (val))
#endif
#ifndef rtmGetCtrlRateMdlRefTiming
# define rtmGetCtrlRateMdlRefTiming(rtm) ()
#endif
#ifndef rtmSetCtrlRateMdlRefTiming
# define rtmSetCtrlRateMdlRefTiming(rtm, val) ()
#endif
#ifndef rtmGetCtrlRateMdlRefTimingPtr
# define rtmGetCtrlRateMdlRefTimingPtr(rtm) ()
#endif
#ifndef rtmSetCtrlRateMdlRefTimingPtr
# define rtmSetCtrlRateMdlRefTimingPtr(rtm, val) ()
#endif
#ifndef rtmGetCtrlRateNumTicksToNextHit
# define rtmGetCtrlRateNumTicksToNextHit(rtm) ()
#endif
#ifndef rtmSetCtrlRateNumTicksToNextHit
# define rtmSetCtrlRateNumTicksToNextHit(rtm, val) ()
#endif
#ifndef rtmGetDataMapInfo
# define rtmGetDataMapInfo(rtm) ((rtm)->DataMapInfo)
#endif
#ifndef rtmSetDataMapInfo
# define rtmSetDataMapInfo(rtm, val) ((rtm)->DataMapInfo = (val))
#endif
#ifndef rtmGetDefaultParam
# define rtmGetDefaultParam(rtm) ((rtm)->defaultParam)
#endif
#ifndef rtmSetDefaultParam
# define rtmSetDefaultParam(rtm, val) ((rtm)->defaultParam = (val))
#endif
#ifndef rtmGetDerivCacheNeedsReset
# define rtmGetDerivCacheNeedsReset(rtm) ((rtm)->derivCacheNeedsReset)
#endif
#ifndef rtmSetDerivCacheNeedsReset
# define rtmSetDerivCacheNeedsReset(rtm, val) ((rtm)->derivCacheNeedsReset = (val))
#endif
#ifndef rtmGetDirectFeedThrough
# define rtmGetDirectFeedThrough(rtm) ((rtm)->Sizes.sysDirFeedThru)
#endif
#ifndef rtmSetDirectFeedThrough
# define rtmSetDirectFeedThrough(rtm, val) ((rtm)->Sizes.sysDirFeedThru = (val))
#endif
#ifndef rtmGetErrorStatusFlag
# define rtmGetErrorStatusFlag(rtm) ((rtm)->errorStatus)
#endif
#ifndef rtmSetErrorStatusFlag
# define rtmSetErrorStatusFlag(rtm, val) ((rtm)->errorStatus = (val))
#endif
#ifndef rtmGetFinalTime
# define rtmGetFinalTime(rtm) ((rtm)->Timing.tFinal)
#endif
#ifndef rtmSetFinalTime
# define rtmSetFinalTime(rtm, val) ((rtm)->Timing.tFinal = (val))
#endif
#ifndef rtmGetFirstInitCondFlag
# define rtmGetFirstInitCondFlag(rtm) ()
#endif
#ifndef rtmSetFirstInitCondFlag
# define rtmSetFirstInitCondFlag(rtm, val) ()
#endif
#ifndef rtmGetIntgData
# define rtmGetIntgData(rtm) ()
#endif
#ifndef rtmSetIntgData
# define rtmSetIntgData(rtm, val) ()
#endif
#ifndef rtmGetMdlRefGlobalTID
# define rtmGetMdlRefGlobalTID(rtm) ()
#endif
#ifndef rtmSetMdlRefGlobalTID
# define rtmSetMdlRefGlobalTID(rtm, val) ()
#endif
#ifndef rtmGetMdlRefTriggerTID
# define rtmGetMdlRefTriggerTID(rtm) ()
#endif
#ifndef rtmSetMdlRefTriggerTID
# define rtmSetMdlRefTriggerTID(rtm, val) ()
#endif
#ifndef rtmGetModelMappingInfo
# define rtmGetModelMappingInfo(rtm) ((rtm)->SpecialInfo.mappingInfo)
#endif
#ifndef rtmSetModelMappingInfo
# define rtmSetModelMappingInfo(rtm, val) ((rtm)->SpecialInfo.mappingInfo = (val))
#endif
#ifndef rtmGetModelName
# define rtmGetModelName(rtm) ((rtm)->modelName)
#endif
#ifndef rtmSetModelName
# define rtmSetModelName(rtm, val) ((rtm)->modelName = (val))
#endif
#ifndef rtmGetNonInlinedSFcns
# define rtmGetNonInlinedSFcns(rtm) ((rtm)->NonInlinedSFcns)
#endif
#ifndef rtmSetNonInlinedSFcns
# define rtmSetNonInlinedSFcns(rtm, val) ((rtm)->NonInlinedSFcns = (val))
#endif
#ifndef rtmGetNumBlockIO
# define rtmGetNumBlockIO(rtm) ((rtm)->Sizes.numBlockIO)
#endif
#ifndef rtmSetNumBlockIO
# define rtmSetNumBlockIO(rtm, val) ((rtm)->Sizes.numBlockIO = (val))
#endif
#ifndef rtmGetNumBlockParams
# define rtmGetNumBlockParams(rtm) ((rtm)->Sizes.numBlockPrms)
#endif
#ifndef rtmSetNumBlockParams
# define rtmSetNumBlockParams(rtm, val) ((rtm)->Sizes.numBlockPrms = (val))
#endif
#ifndef rtmGetNumBlocks
# define rtmGetNumBlocks(rtm) ((rtm)->Sizes.numBlocks)
#endif
#ifndef rtmSetNumBlocks
# define rtmSetNumBlocks(rtm, val) ((rtm)->Sizes.numBlocks = (val))
#endif
#ifndef rtmGetNumContStates
# define rtmGetNumContStates(rtm) ((rtm)->Sizes.numContStates)
#endif
#ifndef rtmSetNumContStates
# define rtmSetNumContStates(rtm, val) ((rtm)->Sizes.numContStates = (val))
#endif
#ifndef rtmGetNumDWork
# define rtmGetNumDWork(rtm) ((rtm)->Sizes.numDwork)
#endif
#ifndef rtmSetNumDWork
# define rtmSetNumDWork(rtm, val) ((rtm)->Sizes.numDwork = (val))
#endif
#ifndef rtmGetNumInputPorts
# define rtmGetNumInputPorts(rtm) ((rtm)->Sizes.numIports)
#endif
#ifndef rtmSetNumInputPorts
# define rtmSetNumInputPorts(rtm, val) ((rtm)->Sizes.numIports = (val))
#endif
#ifndef rtmGetNumNonSampledZCs
# define rtmGetNumNonSampledZCs(rtm) ((rtm)->Sizes.numNonSampZCs)
#endif
#ifndef rtmSetNumNonSampledZCs
# define rtmSetNumNonSampledZCs(rtm, val) ((rtm)->Sizes.numNonSampZCs = (val))
#endif
#ifndef rtmGetNumOutputPorts
# define rtmGetNumOutputPorts(rtm) ((rtm)->Sizes.numOports)
#endif
#ifndef rtmSetNumOutputPorts
# define rtmSetNumOutputPorts(rtm, val) ((rtm)->Sizes.numOports = (val))
#endif
#ifndef rtmGetNumPeriodicContStates
# define rtmGetNumPeriodicContStates(rtm) ((rtm)->Sizes.numPeriodicContStates)
#endif
#ifndef rtmSetNumPeriodicContStates
# define rtmSetNumPeriodicContStates(rtm, val) ((rtm)->Sizes.numPeriodicContStates = (val))
#endif
#ifndef rtmGetNumSFcnParams
# define rtmGetNumSFcnParams(rtm) ((rtm)->Sizes.numSFcnPrms)
#endif
#ifndef rtmSetNumSFcnParams
# define rtmSetNumSFcnParams(rtm, val) ((rtm)->Sizes.numSFcnPrms = (val))
#endif
#ifndef rtmGetNumSFunctions
# define rtmGetNumSFunctions(rtm) ((rtm)->Sizes.numSFcns)
#endif
#ifndef rtmSetNumSFunctions
# define rtmSetNumSFunctions(rtm, val) ((rtm)->Sizes.numSFcns = (val))
#endif
#ifndef rtmGetNumSampleTimes
# define rtmGetNumSampleTimes(rtm) ((rtm)->Sizes.numSampTimes)
#endif
#ifndef rtmSetNumSampleTimes
# define rtmSetNumSampleTimes(rtm, val) ((rtm)->Sizes.numSampTimes = (val))
#endif
#ifndef rtmGetNumU
# define rtmGetNumU(rtm) ((rtm)->Sizes.numU)
#endif
#ifndef rtmSetNumU
# define rtmSetNumU(rtm, val) ((rtm)->Sizes.numU = (val))
#endif
#ifndef rtmGetNumY
# define rtmGetNumY(rtm) ((rtm)->Sizes.numY)
#endif
#ifndef rtmSetNumY
# define rtmSetNumY(rtm, val) ((rtm)->Sizes.numY = (val))
#endif
#ifndef rtmGetOdeF
# define rtmGetOdeF(rtm) ()
#endif
#ifndef rtmSetOdeF
# define rtmSetOdeF(rtm, val) ()
#endif
#ifndef rtmGetOdeY
# define rtmGetOdeY(rtm) ()
#endif
#ifndef rtmSetOdeY
# define rtmSetOdeY(rtm, val) ()
#endif
#ifndef rtmGetOffsetTimeArray
# define rtmGetOffsetTimeArray(rtm) ((rtm)->Timing.offsetTimesArray)
#endif
#ifndef rtmSetOffsetTimeArray
# define rtmSetOffsetTimeArray(rtm, val) ((rtm)->Timing.offsetTimesArray = (val))
#endif
#ifndef rtmGetOffsetTimePtr
# define rtmGetOffsetTimePtr(rtm) ((rtm)->Timing.offsetTimes)
#endif
#ifndef rtmSetOffsetTimePtr
# define rtmSetOffsetTimePtr(rtm, val) ((rtm)->Timing.offsetTimes = (val))
#endif
#ifndef rtmGetOptions
# define rtmGetOptions(rtm) ((rtm)->Sizes.options)
#endif
#ifndef rtmSetOptions
# define rtmSetOptions(rtm, val) ((rtm)->Sizes.options = (val))
#endif
#ifndef rtmGetParamIsMalloced
# define rtmGetParamIsMalloced(rtm) ()
#endif
#ifndef rtmSetParamIsMalloced
# define rtmSetParamIsMalloced(rtm, val) ()
#endif
#ifndef rtmGetPath
# define rtmGetPath(rtm) ((rtm)->path)
#endif
#ifndef rtmSetPath
# define rtmSetPath(rtm, val) ((rtm)->path = (val))
#endif
#ifndef rtmGetPerTaskSampleHits
# define rtmGetPerTaskSampleHits(rtm) ()
#endif
#ifndef rtmSetPerTaskSampleHits
# define rtmSetPerTaskSampleHits(rtm, val) ()
#endif
#ifndef rtmGetPerTaskSampleHitsArray
# define rtmGetPerTaskSampleHitsArray(rtm) ((rtm)->Timing.perTaskSampleHitsArray)
#endif
#ifndef rtmSetPerTaskSampleHitsArray
# define rtmSetPerTaskSampleHitsArray(rtm, val) ((rtm)->Timing.perTaskSampleHitsArray = (val))
#endif
#ifndef rtmGetPerTaskSampleHitsPtr
# define rtmGetPerTaskSampleHitsPtr(rtm) ((rtm)->Timing.perTaskSampleHits)
#endif
#ifndef rtmSetPerTaskSampleHitsPtr
# define rtmSetPerTaskSampleHitsPtr(rtm, val) ((rtm)->Timing.perTaskSampleHits = (val))
#endif
#ifndef rtmGetPeriodicContStateIndices
# define rtmGetPeriodicContStateIndices(rtm) ((rtm)->periodicContStateIndices)
#endif
#ifndef rtmSetPeriodicContStateIndices
# define rtmSetPeriodicContStateIndices(rtm, val) ((rtm)->periodicContStateIndices = (val))
#endif
#ifndef rtmGetPeriodicContStateRanges
# define rtmGetPeriodicContStateRanges(rtm) ((rtm)->periodicContStateRanges)
#endif
#ifndef rtmSetPeriodicContStateRanges
# define rtmSetPeriodicContStateRanges(rtm, val) ((rtm)->periodicContStateRanges = (val))
#endif
#ifndef rtmGetPrevZCSigState
# define rtmGetPrevZCSigState(rtm) ((rtm)->prevZCSigState)
#endif
#ifndef rtmSetPrevZCSigState
# define rtmSetPrevZCSigState(rtm, val) ((rtm)->prevZCSigState = (val))
#endif
#ifndef rtmGetRTWExtModeInfo
# define rtmGetRTWExtModeInfo(rtm) ((rtm)->extModeInfo)
#endif
#ifndef rtmSetRTWExtModeInfo
# define rtmSetRTWExtModeInfo(rtm, val) ((rtm)->extModeInfo = (val))
#endif
#ifndef rtmGetRTWGeneratedSFcn
# define rtmGetRTWGeneratedSFcn(rtm) ((rtm)->Sizes.rtwGenSfcn)
#endif
#ifndef rtmSetRTWGeneratedSFcn
# define rtmSetRTWGeneratedSFcn(rtm, val) ((rtm)->Sizes.rtwGenSfcn = (val))
#endif
#ifndef rtmGetRTWLogInfo
# define rtmGetRTWLogInfo(rtm) ((rtm)->rtwLogInfo)
#endif
#ifndef rtmSetRTWLogInfo
# define rtmSetRTWLogInfo(rtm, val) ((rtm)->rtwLogInfo = (val))
#endif
#ifndef rtmGetRTWRTModelMethodsInfo
# define rtmGetRTWRTModelMethodsInfo(rtm) ()
#endif
#ifndef rtmSetRTWRTModelMethodsInfo
# define rtmSetRTWRTModelMethodsInfo(rtm, val) ()
#endif
#ifndef rtmGetRTWSfcnInfo
# define rtmGetRTWSfcnInfo(rtm) ((rtm)->sfcnInfo)
#endif
#ifndef rtmSetRTWSfcnInfo
# define rtmSetRTWSfcnInfo(rtm, val) ((rtm)->sfcnInfo = (val))
#endif
#ifndef rtmGetRTWSolverInfo
# define rtmGetRTWSolverInfo(rtm) ((rtm)->solverInfo)
#endif
#ifndef rtmSetRTWSolverInfo
# define rtmSetRTWSolverInfo(rtm, val) ((rtm)->solverInfo = (val))
#endif
#ifndef rtmGetRTWSolverInfoPtr
# define rtmGetRTWSolverInfoPtr(rtm) ((rtm)->solverInfoPtr)
#endif
#ifndef rtmSetRTWSolverInfoPtr
# define rtmSetRTWSolverInfoPtr(rtm, val) ((rtm)->solverInfoPtr = (val))
#endif
#ifndef rtmGetReservedForXPC
# define rtmGetReservedForXPC(rtm) ((rtm)->SpecialInfo.xpcData)
#endif
#ifndef rtmSetReservedForXPC
# define rtmSetReservedForXPC(rtm, val) ((rtm)->SpecialInfo.xpcData = (val))
#endif
#ifndef rtmGetRootDWork
# define rtmGetRootDWork(rtm) ((rtm)->dwork)
#endif
#ifndef rtmSetRootDWork
# define rtmSetRootDWork(rtm, val) ((rtm)->dwork = (val))
#endif
#ifndef rtmGetSFunctions
# define rtmGetSFunctions(rtm) ((rtm)->childSfunctions)
#endif
#ifndef rtmSetSFunctions
# define rtmSetSFunctions(rtm, val) ((rtm)->childSfunctions = (val))
#endif
#ifndef rtmGetSampleHitArray
# define rtmGetSampleHitArray(rtm) ((rtm)->Timing.sampleHitArray)
#endif
#ifndef rtmSetSampleHitArray
# define rtmSetSampleHitArray(rtm, val) ((rtm)->Timing.sampleHitArray = (val))
#endif
#ifndef rtmGetSampleHitPtr
# define rtmGetSampleHitPtr(rtm) ((rtm)->Timing.sampleHits)
#endif
#ifndef rtmSetSampleHitPtr
# define rtmSetSampleHitPtr(rtm, val) ((rtm)->Timing.sampleHits = (val))
#endif
#ifndef rtmGetSampleTimeArray
# define rtmGetSampleTimeArray(rtm) ((rtm)->Timing.sampleTimesArray)
#endif
#ifndef rtmSetSampleTimeArray
# define rtmSetSampleTimeArray(rtm, val) ((rtm)->Timing.sampleTimesArray = (val))
#endif
#ifndef rtmGetSampleTimePtr
# define rtmGetSampleTimePtr(rtm) ((rtm)->Timing.sampleTimes)
#endif
#ifndef rtmSetSampleTimePtr
# define rtmSetSampleTimePtr(rtm, val) ((rtm)->Timing.sampleTimes = (val))
#endif
#ifndef rtmGetSampleTimeTaskIDArray
# define rtmGetSampleTimeTaskIDArray(rtm) ((rtm)->Timing.sampleTimeTaskIDArray)
#endif
#ifndef rtmSetSampleTimeTaskIDArray
# define rtmSetSampleTimeTaskIDArray(rtm, val) ((rtm)->Timing.sampleTimeTaskIDArray = (val))
#endif
#ifndef rtmGetSampleTimeTaskIDPtr
# define rtmGetSampleTimeTaskIDPtr(rtm) ((rtm)->Timing.sampleTimeTaskIDPtr)
#endif
#ifndef rtmSetSampleTimeTaskIDPtr
# define rtmSetSampleTimeTaskIDPtr(rtm, val) ((rtm)->Timing.sampleTimeTaskIDPtr = (val))
#endif
#ifndef rtmGetSelf
# define rtmGetSelf(rtm) ()
#endif
#ifndef rtmSetSelf
# define rtmSetSelf(rtm, val) ()
#endif
#ifndef rtmGetSimMode
# define rtmGetSimMode(rtm) ((rtm)->simMode)
#endif
#ifndef rtmSetSimMode
# define rtmSetSimMode(rtm, val) ((rtm)->simMode = (val))
#endif
#ifndef rtmGetSimTimeStep
# define rtmGetSimTimeStep(rtm) ((rtm)->Timing.simTimeStep)
#endif
#ifndef rtmSetSimTimeStep
# define rtmSetSimTimeStep(rtm, val) ((rtm)->Timing.simTimeStep = (val))
#endif
#ifndef rtmGetStartTime
# define rtmGetStartTime(rtm) ((rtm)->Timing.tStart)
#endif
#ifndef rtmSetStartTime
# define rtmSetStartTime(rtm, val) ((rtm)->Timing.tStart = (val))
#endif
#ifndef rtmGetStepSize
# define rtmGetStepSize(rtm) ((rtm)->Timing.stepSize)
#endif
#ifndef rtmSetStepSize
# define rtmSetStepSize(rtm, val) ((rtm)->Timing.stepSize = (val))
#endif
#ifndef rtmGetStopRequestedFlag
# define rtmGetStopRequestedFlag(rtm) ((rtm)->Timing.stopRequestedFlag)
#endif
#ifndef rtmSetStopRequestedFlag
# define rtmSetStopRequestedFlag(rtm, val) ((rtm)->Timing.stopRequestedFlag = (val))
#endif
#ifndef rtmGetTaskCounters
# define rtmGetTaskCounters(rtm) ()
#endif
#ifndef rtmSetTaskCounters
# define rtmSetTaskCounters(rtm, val) ()
#endif
#ifndef rtmGetTaskTimeArray
# define rtmGetTaskTimeArray(rtm) ((rtm)->Timing.tArray)
#endif
#ifndef rtmSetTaskTimeArray
# define rtmSetTaskTimeArray(rtm, val) ((rtm)->Timing.tArray = (val))
#endif
#ifndef rtmGetTimePtr
# define rtmGetTimePtr(rtm) ((rtm)->Timing.t)
#endif
#ifndef rtmSetTimePtr
# define rtmSetTimePtr(rtm, val) ((rtm)->Timing.t = (val))
#endif
#ifndef rtmGetTimingData
# define rtmGetTimingData(rtm) ((rtm)->Timing.timingData)
#endif
#ifndef rtmSetTimingData
# define rtmSetTimingData(rtm, val) ((rtm)->Timing.timingData = (val))
#endif
#ifndef rtmGetU
# define rtmGetU(rtm) ((rtm)->inputs)
#endif
#ifndef rtmSetU
# define rtmSetU(rtm, val) ((rtm)->inputs = (val))
#endif
#ifndef rtmGetVarNextHitTimesListPtr
# define rtmGetVarNextHitTimesListPtr(rtm) ((rtm)->Timing.varNextHitTimesList)
#endif
#ifndef rtmSetVarNextHitTimesListPtr
# define rtmSetVarNextHitTimesListPtr(rtm, val) ((rtm)->Timing.varNextHitTimesList = (val))
#endif
#ifndef rtmGetY
# define rtmGetY(rtm) ((rtm)->outputs)
#endif
#ifndef rtmSetY
# define rtmSetY(rtm, val) ((rtm)->outputs = (val))
#endif
#ifndef rtmGetZCCacheNeedsReset
# define rtmGetZCCacheNeedsReset(rtm) ((rtm)->zCCacheNeedsReset)
#endif
#ifndef rtmSetZCCacheNeedsReset
# define rtmSetZCCacheNeedsReset(rtm, val) ((rtm)->zCCacheNeedsReset = (val))
#endif
#ifndef rtmGetZCSignalValues
# define rtmGetZCSignalValues(rtm) ((rtm)->zcSignalValues)
#endif
#ifndef rtmSetZCSignalValues
# define rtmSetZCSignalValues(rtm, val) ((rtm)->zcSignalValues = (val))
#endif
#ifndef rtmGet_TimeOfLastOutput
# define rtmGet_TimeOfLastOutput(rtm) ((rtm)->Timing.timeOfLastOutput)
#endif
#ifndef rtmSet_TimeOfLastOutput
# define rtmSet_TimeOfLastOutput(rtm, val) ((rtm)->Timing.timeOfLastOutput = (val))
#endif
#ifndef rtmGetdX
# define rtmGetdX(rtm) ((rtm)->derivs)
#endif
#ifndef rtmSetdX
# define rtmSetdX(rtm, val) ((rtm)->derivs = (val))
#endif
#ifndef rtmGettimingBridge
# define rtmGettimingBridge(rtm) ()
#endif
#ifndef rtmSettimingBridge
# define rtmSettimingBridge(rtm, val) ()
#endif
#ifndef rtmGetChecksumVal
# define rtmGetChecksumVal(rtm, idx) ((rtm)->Sizes.checksums[idx])
#endif
#ifndef rtmSetChecksumVal
# define rtmSetChecksumVal(rtm, idx, val) ((rtm)->Sizes.checksums[idx] = (val))
#endif
#ifndef rtmGetDWork
# define rtmGetDWork(rtm, idx) ((rtm)->dwork[idx])
#endif
#ifndef rtmSetDWork
# define rtmSetDWork(rtm, idx, val) ((rtm)->dwork[idx] = (val))
#endif
#ifndef rtmGetOffsetTime
# define rtmGetOffsetTime(rtm, idx) ((rtm)->Timing.offsetTimes[idx])
#endif
#ifndef rtmSetOffsetTime
# define rtmSetOffsetTime(rtm, idx, val) ((rtm)->Timing.offsetTimes[idx] = (val))
#endif
#ifndef rtmGetSFunction
# define rtmGetSFunction(rtm, idx) ((rtm)->childSfunctions[idx])
#endif
#ifndef rtmSetSFunction
# define rtmSetSFunction(rtm, idx, val) ((rtm)->childSfunctions[idx] = (val))
#endif
#ifndef rtmGetSampleTime
# define rtmGetSampleTime(rtm, idx) ((rtm)->Timing.sampleTimes[idx])
#endif
#ifndef rtmSetSampleTime
# define rtmSetSampleTime(rtm, idx, val) ((rtm)->Timing.sampleTimes[idx] = (val))
#endif
#ifndef rtmGetSampleTimeTaskID
# define rtmGetSampleTimeTaskID(rtm, idx) ((rtm)->Timing.sampleTimeTaskIDPtr[idx])
#endif
#ifndef rtmSetSampleTimeTaskID
# define rtmSetSampleTimeTaskID(rtm, idx, val) ((rtm)->Timing.sampleTimeTaskIDPtr[idx] = (val))
#endif
#ifndef rtmGetVarNextHitTimeList
# define rtmGetVarNextHitTimeList(rtm, idx) ((rtm)->Timing.varNextHitTimesList[idx])
#endif
#ifndef rtmSetVarNextHitTimeList
# define rtmSetVarNextHitTimeList(rtm, idx, val) ((rtm)->Timing.varNextHitTimesList[idx] = (val))
#endif
#ifndef rtmIsContinuousTask
# define rtmIsContinuousTask(rtm, tid) ((tid) == 0)
#endif
#ifndef rtmGetErrorStatus
# define rtmGetErrorStatus(rtm) ((rtm)->errorStatus)
#endif
#ifndef rtmSetErrorStatus
# define rtmSetErrorStatus(rtm, val) ((rtm)->errorStatus = (val))
#endif
#ifndef rtmIsMajorTimeStep
# define rtmIsMajorTimeStep(rtm) (((rtm)->Timing.simTimeStep) == MAJOR_TIME_STEP)
#endif
#ifndef rtmIsMinorTimeStep
# define rtmIsMinorTimeStep(rtm) (((rtm)->Timing.simTimeStep) == MINOR_TIME_STEP)
#endif
#ifndef rtmIsSampleHit
# define rtmIsSampleHit(rtm, sti, tid) ((rtmIsMajorTimeStep((rtm)) && (rtm)->Timing.sampleHits[(rtm)->Timing.sampleTimeTaskIDPtr[sti]]))
#endif
#ifndef rtmGetStopRequested
# define rtmGetStopRequested(rtm) ((rtm)->Timing.stopRequestedFlag)
#endif
#ifndef rtmSetStopRequested
# define rtmSetStopRequested(rtm, val) ((rtm)->Timing.stopRequestedFlag = (val))
#endif
#ifndef rtmGetStopRequestedPtr
# define rtmGetStopRequestedPtr(rtm) (&((rtm)->Timing.stopRequestedFlag))
#endif
#ifndef rtmGetT
# define rtmGetT(rtm) (rtmGetTPtr((rtm))[0])
#endif
#ifndef rtmSetT
# define rtmSetT(rtm, val) /* Do Nothing */
#endif
#ifndef rtmGetTFinal
# define rtmGetTFinal(rtm) ((rtm)->Timing.tFinal)
#endif
#ifndef rtmSetTFinal
# define rtmSetTFinal(rtm, val) ((rtm)->Timing.tFinal = (val))
#endif
#ifndef rtmGetTPtr
# define rtmGetTPtr(rtm) ((rtm)->Timing.t)
#endif
#ifndef rtmSetTPtr
# define rtmSetTPtr(rtm, val) ((rtm)->Timing.t = (val))
#endif
#ifndef rtmGetTStart
# define rtmGetTStart(rtm) ((rtm)->Timing.tStart)
#endif
#ifndef rtmSetTStart
# define rtmSetTStart(rtm, val) ((rtm)->Timing.tStart = (val))
#endif
#ifndef rtmGetTaskTime
# define rtmGetTaskTime(rtm, sti) (rtmGetTPtr((rtm))[(rtm)->Timing.sampleTimeTaskIDPtr[sti]])
#endif
#ifndef rtmSetTaskTime
# define rtmSetTaskTime(rtm, sti, val) (rtmGetTPtr((rtm))[sti] = (val))
#endif
#ifndef rtmGetTimeOfLastOutput
# define rtmGetTimeOfLastOutput(rtm) ((rtm)->Timing.timeOfLastOutput)
#endif
#ifdef rtmGetRTWSolverInfo
#undef rtmGetRTWSolverInfo
#endif
#define rtmGetRTWSolverInfo(rtm) &((rtm)->solverInfo)
#define rtModel_WheelSpd1 RT_MODEL_WheelSpd1_T
/* Definition for use in the target main file */
#define WheelSpd1_rtModel RT_MODEL_WheelSpd1_T
/* user code (top of export header file) */
#include "can_message.h"
#include "xpcdatatypes.h"
/* Block signals (default storage) */
typedef struct {
CAN_DATATYPE CANPack; /* '<S5>/CAN Pack' */
CAN_DATATYPE CANRead1_o2; /* '<S1>/CAN Read1' */
real_T ContMode; /* '<S4>/ContM' */
real_T Ready; /* '<S5>/Constant' */
real_T Gear; /* '<S5>/Constant1' */
real_T BMS; /* '<S5>/Constant2' */
real_T PosTQLim; /* '<S5>/Constant3' */
real_T NegTQLim; /* '<S5>/Constant4' */
real_T Clock1; /* '<S6>/Clock1' */
real_T Product; /* '<S6>/Product' */
real_T Gain; /* '<S6>/Gain' */
real_T FromWs; /* '<S10>/FromWs' */
real_T InputSine; /* '<S4>/InputSine' */
real_T TargetSpd; /* '<S4>/Multiport Switch' */
real_T d1; /* '<S9>/d1' */
real_T Sum3; /* '<S9>/Sum3' */
real_T gain; /* '<S9>/gain' */
real_T gain2; /* '<S9>/gain2' */
real_T Product2; /* '<S9>/Product2' */
real_T gain1; /* '<S9>/gain1' */
real_T Sum1; /* '<S9>/Sum1' */
real_T d; /* '<S9>/d' */
real_T Product11; /* '<S9>/Product11' */
real_T Sum2; /* '<S9>/Sum2' */
real_T Sum4; /* '<S9>/Sum4' */
real_T Product1; /* '<S9>/Product1' */
real_T Product2_c; /* '<S17>/Product2' */
real_T d_a; /* '<S22>/d' */
real_T Sum2_h; /* '<S22>/Sum2' */
real_T gain_m; /* '<S22>/gain' */
real_T d1_d; /* '<S22>/d1' */
real_T Sum1_n; /* '<S22>/Sum1' */
real_T Product1_f; /* '<S17>/Product1' */
real_T d_b; /* '<S23>/d' */
real_T Sum2_g; /* '<S23>/Sum2' */
real_T gain_o; /* '<S23>/gain' */
real_T d1_c; /* '<S23>/d1' */
real_T Sum1_p; /* '<S23>/Sum1' */
real_T Product_n; /* '<S17>/Product' */
real_T d_bp; /* '<S24>/d' */
real_T Sum2_k; /* '<S24>/Sum2' */
real_T gain_d; /* '<S24>/gain' */
real_T d1_f; /* '<S24>/d1' */
real_T Sum1_k; /* '<S24>/Sum1' */
real_T Add5; /* '<S17>/Add5' */
real_T Gain_l; /* '<S17>/Gain' */
real_T Delay1; /* '<S26>/Delay1' */
real_T gain1_g; /* '<S26>/gain1' */
real_T Delay; /* '<S26>/Delay' */
real_T Sum3_d; /* '<S26>/Sum3' */
real_T gain2_h; /* '<S26>/gain2' */
real_T Product2_e; /* '<S26>/Product2' */
real_T xnxn1xn2; /* '<S26>/x(n), x(n-1), x(n-2)' */
real_T gain3; /* '<S26>/gain3' */
real_T Sum4_c; /* '<S26>/Sum4' */
real_T Delay2; /* '<S26>/Delay2' */
real_T yn1; /* '<S26>/y(n-1)' */
real_T Sum1_a; /* '<S26>/Sum1' */
real_T Product3; /* '<S26>/Product3' */
real_T gain4; /* '<S26>/gain4' */
real_T Product4; /* '<S26>/Product4' */
real_T Sum5; /* '<S26>/Sum5' */
real_T Delay3; /* '<S26>/Delay3' */
real_T yn2; /* '<S26>/y(n-2)' */
real_T Sum2_c; /* '<S26>/Sum2' */
real_T Sum6; /* '<S26>/Sum6' */
real_T Product1_n; /* '<S26>/Product1' */
real_T d1_b; /* '<S25>/d1' */
real_T Sum3_c; /* '<S25>/Sum3' */
real_T gain_e; /* '<S25>/gain' */
real_T gain2_k; /* '<S25>/gain2' */
real_T Product2_p; /* '<S25>/Product2' */
real_T gain1_gt; /* '<S25>/gain1' */
real_T Sum1_px; /* '<S25>/Sum1' */
real_T d_i; /* '<S25>/d' */
real_T Product11_e; /* '<S25>/Product11' */
real_T Sum2_kk; /* '<S25>/Sum2' */
real_T Sum4_l; /* '<S25>/Sum4' */
real_T Product1_i; /* '<S25>/Product1' */
real_T FFGain; /* '<S17>/FFGain' */
real_T Error; /* '<S4>/Subtract' */
real_T Gain_a; /* '<S18>/Gain' */
real_T Kp; /* '<S18>/Kp' */
real_T gain_mk; /* '<S19>/gain ' */
real_T Kp_b; /* '<S19>/Kp' */
real_T Ki; /* '<S19>/Ki' */
real_T gain2_n; /* '<S20>/gain2' */
real_T tau; /* '<S20>/Product2' */
real_T utau; /* '<S20>/gain3' */
real_T d1_cf; /* '<S21>/d1' */
real_T Sum1_d; /* '<S21>/Sum1' */
real_T gain_ds; /* '<S21>/gain' */
real_T d_c; /* '<S21>/d' */
real_T Sum2_l; /* '<S21>/Sum2' */
real_T d1_p; /* '<S20>/d1' */
real_T Sum3_g; /* '<S20>/Sum3' */
real_T Product3_e; /* '<S20>/Product3' */
real_T Sum1_i; /* '<S20>/Sum1' */
real_T d_j; /* '<S20>/d' */
real_T Product11_n; /* '<S20>/Product11' */
real_T Sum2_j; /* '<S20>/Sum2' */
real_T Sum4_a; /* '<S20>/Sum4' */
real_T Product1_a; /* '<S20>/Product1' */
real_T MultiportSwitch1; /* '<S16>/Multiport Switch1' */
real_T FBOut; /* '<S8>/FBGain' */
real_T Add; /* '<S8>/Add' */
real_T Memory; /* '<S4>/Memory' */
real_T Product4_o; /* '<S7>/Product4' */
real_T d_in; /* '<S11>/d' */
real_T Sum2_hn; /* '<S11>/Sum2' */
real_T gain_j; /* '<S11>/gain' */
real_T d1_e; /* '<S11>/d1' */
real_T Sum1_m; /* '<S11>/Sum1' */
real_T Product3_f; /* '<S7>/Product3' */
real_T d_n; /* '<S12>/d' */
real_T Sum2_kl; /* '<S12>/Sum2' */
real_T gain_g; /* '<S12>/gain' */
real_T d1_bp; /* '<S12>/d1' */
real_T Sum1_f; /* '<S12>/Sum1' */
real_T Product2_l; /* '<S7>/Product2' */
real_T d_cu; /* '<S13>/d' */
real_T Sum2_a; /* '<S13>/Sum2' */
real_T gain_gz; /* '<S13>/gain' */
real_T d1_di; /* '<S13>/d1' */
real_T Sum1_g; /* '<S13>/Sum1' */
real_T Add2; /* '<S7>/Add2' */
real_T Gain_c; /* '<S7>/Gain' */
real_T Add3; /* '<S7>/Add3' */
real_T d1_n; /* '<S14>/d1' */
real_T Sum3_f; /* '<S14>/Sum3' */
real_T gain_o3; /* '<S14>/gain' */
real_T gain2_m; /* '<S14>/gain2' */
real_T Product2_h; /* '<S14>/Product2' */
real_T gain1_k; /* '<S14>/gain1' */
real_T Sum1_e; /* '<S14>/Sum1' */
real_T d_p; /* '<S14>/d' */
real_T Product11_i; /* '<S14>/Product11' */
real_T Sum2_b; /* '<S14>/Sum2' */
real_T Sum4_k; /* '<S14>/Sum4' */
real_T Product1_l; /* '<S14>/Product1' */
real_T Delay1_n; /* '<S15>/Delay1' */
real_T gain1_f; /* '<S15>/gain1' */
real_T Delay_a; /* '<S15>/Delay' */
real_T Sum3_a; /* '<S15>/Sum3' */
real_T gain2_d; /* '<S15>/gain2' */
real_T Product2_m; /* '<S15>/Product2' */
real_T xnxn1xn2_a; /* '<S15>/x(n), x(n-1), x(n-2)' */
real_T gain3_b; /* '<S15>/gain3' */
real_T Sum4_kn; /* '<S15>/Sum4' */
real_T Delay2_n; /* '<S15>/Delay2' */
real_T yn1_m; /* '<S15>/y(n-1)' */
real_T Sum1_ek; /* '<S15>/Sum1' */
real_T Product3_i; /* '<S15>/Product3' */
real_T gain4_g; /* '<S15>/gain4' */
real_T Product4_i; /* '<S15>/Product4' */
real_T Sum5_f; /* '<S15>/Sum5' */
real_T Delay3_i; /* '<S15>/Delay3' */
real_T yn2_g; /* '<S15>/y(n-2)' */
real_T Sum2_m; /* '<S15>/Sum2' */
real_T Sum6_g; /* '<S15>/Sum6' */
real_T Product1_fm; /* '<S15>/Product1' */
real_T Product_d; /* '<S4>/Product' */
real_T Subtract2; /* '<S4>/Subtract2' */
real_T ControlFlag; /* '<S4>/ControlFlag' */
real_T ControlOutput; /* '<S4>/Saturation' */
real_T Constant1; /* '<S8>/Constant1' */
real_T Constant16; /* '<S8>/Constant16' */
real_T Constant17; /* '<S8>/Constant17' */
real_T Constant2; /* '<S8>/Constant2' */
real_T Product_k; /* '<S18>/Product' */
real_T Divide2; /* '<S19>/Divide2' */
real_T Divide1; /* '<S19>/Divide1' */
real_T Add_k; /* '<S19>/Add' */
real_T Product1_lf; /* '<S6>/Product1' */
real_T Sum; /* '<S6>/Sum' */
real_T Product2_g; /* '<S6>/Product2' */
real_T Output; /* '<S6>/Output' */
real_T Gain1; /* '<S4>/Gain1' */
real_T Gain_d; /* '<S4>/Gain' */
real_T RPM; /* '<S1>/CAN Unpack2' */
real_T TQ; /* '<S1>/CAN Unpack2' */
boolean_T CANRead1_o1; /* '<S1>/CAN Read1' */
} B_WheelSpd1_T;
/* Block states (default storage) for system '<Root>' */
typedef struct {
real_T d1_DSTATE; /* '<S9>/d1' */
real_T d_DSTATE; /* '<S9>/d' */
real_T d_DSTATE_a; /* '<S22>/d' */
real_T d1_DSTATE_l; /* '<S22>/d1' */
real_T d_DSTATE_i; /* '<S23>/d' */
real_T d1_DSTATE_a; /* '<S23>/d1' */
real_T d_DSTATE_ak; /* '<S24>/d' */
real_T d1_DSTATE_f; /* '<S24>/d1' */
real_T Delay1_DSTATE; /* '<S26>/Delay1' */
real_T Delay_DSTATE[2]; /* '<S26>/Delay' */
real_T Delay2_DSTATE; /* '<S26>/Delay2' */
real_T Delay3_DSTATE[2]; /* '<S26>/Delay3' */
real_T d1_DSTATE_b; /* '<S25>/d1' */
real_T d_DSTATE_o; /* '<S25>/d' */
real_T d1_DSTATE_g; /* '<S21>/d1' */
real_T d_DSTATE_ir; /* '<S21>/d' */
real_T d1_DSTATE_lw; /* '<S20>/d1' */
real_T d_DSTATE_b; /* '<S20>/d' */
real_T d_DSTATE_bw; /* '<S11>/d' */
real_T d1_DSTATE_gc; /* '<S11>/d1' */
real_T d_DSTATE_d; /* '<S12>/d' */
real_T d1_DSTATE_l3; /* '<S12>/d1' */
real_T d_DSTATE_g; /* '<S13>/d' */
real_T d1_DSTATE_c; /* '<S13>/d1' */
real_T d1_DSTATE_m; /* '<S14>/d1' */
real_T d_DSTATE_h; /* '<S14>/d' */
real_T Delay1_DSTATE_i; /* '<S15>/Delay1' */
real_T Delay_DSTATE_g[2]; /* '<S15>/Delay' */
real_T Delay2_DSTATE_c; /* '<S15>/Delay2' */
real_T Delay3_DSTATE_o[2]; /* '<S15>/Delay3' */
real_T Memory_PreviousInput; /* '<S4>/Memory' */
struct {
void *TimePtr;
void *DataPtr;
void *RSimInfoPtr;
} FromWs_PWORK; /* '<S10>/FromWs' */
void *CANWrite1_PWORK; /* '<S5>/CAN Write1' */
struct {
void *AQHandles;
void *SlioLTF;
} HiddenToAsyncQueue_InsertedFor_; /* synthesized block */
struct {
void *AQHandles;
void *SlioLTF;
} HiddenToAsyncQueue_InsertedFo_c; /* synthesized block */
struct {
void *AQHandles;
void *SlioLTF;
} HiddenToAsyncQueue_InsertedF_cg; /* synthesized block */
struct {
void *AQHandles;
void *SlioLTF;
} HiddenToAsyncQueue_InsertedFo_k; /* synthesized block */
struct {
void *AQHandles;
void *SlioLTF;
} HiddenToAsyncQueue_InsertedFo_g; /* synthesized block */
struct {
void *AQHandles;
void *SlioLTF;
} HiddenToAsyncQueue_InsertedFo_d; /* synthesized block */
struct {
void *AQHandles;
void *SlioLTF;
} HiddenToAsyncQueue_InsertedFo_j; /* synthesized block */
struct {
void *AQHandles;
void *SlioLTF;
} HiddenToAsyncQueue_InsertedFo_b; /* synthesized block */
struct {
void *AQHandles;
void *SlioLTF;
} HiddenToAsyncQueue_InsertedFo_i; /* synthesized block */
struct {
void *AQHandles;
void *SlioLTF;
} HiddenToAsyncQueue_InsertedFo_e; /* synthesized block */
struct {
void *AQHandles;
void *SlioLTF;
} HiddenToAsyncQueue_InsertedFo_h; /* synthesized block */
struct {
void *AQHandles;
void *SlioLTF;
} HiddenToAsyncQueue_InsertedF_bl; /* synthesized block */
struct {
void *AQHandles;
void *SlioLTF;
} HiddenToAsyncQueue_InsertedF_cb; /* synthesized block */
struct {
void *AQHandles;
void *SlioLTF;
} HiddenToAsyncQueue_InsertedFo_l; /* synthesized block */
struct {
void *AQHandles;
void *SlioLTF;
} HiddenToAsyncQueue_InsertedF_ga; /* synthesized block */
struct {
void *AQHandles;
void *SlioLTF;
} HiddenToAsyncQueue_InsertedF_gg; /* synthesized block */
struct {
int_T PrevIndex;
} FromWs_IWORK; /* '<S10>/FromWs' */
int_T CANPack_ModeSignalID; /* '<S5>/CAN Pack' */
int_T CANWrite1_IWORK; /* '<S5>/CAN Write1' */
int_T CANSetup_IWORK; /* '<S1>/CAN Setup' */
int_T CANRead1_IWORK; /* '<S1>/CAN Read1' */
int_T CANUnpack2_ModeSignalID; /* '<S1>/CAN Unpack2' */
int_T CANUnpack2_StatusPortID; /* '<S1>/CAN Unpack2' */
} DW_WheelSpd1_T;
/* Backward compatible GRT Identifiers */
#define rtB WheelSpd1_B
#define BlockIO B_WheelSpd1_T
#define rtP WheelSpd1_P
#define Parameters P_WheelSpd1_T
#define rtDWork WheelSpd1_DW
#define D_Work DW_WheelSpd1_T
/* Parameters (default storage) */
struct P_WheelSpd1_T_ {
real_T K; /* Variable: K
* Referenced by:
* '<S7>/Gain'
* '<S8>/Constant2'
* '<S17>/Gain'
*/
real_T P; /* Variable: P
* Referenced by:
* '<S7>/Constant3'
* '<S7>/Constant4'
* '<S7>/Constant5'
* '<S8>/Constant16'
* '<S17>/Constant3'
* '<S17>/Constant4'
* '<S17>/Constant5'
*/
real_T Ts; /* Variable: Ts
* Referenced by:
* '<S9>/Constant'
* '<S9>/gain'
* '<S11>/gain'
* '<S12>/gain'
* '<S13>/gain'
* '<S14>/Constant'
* '<S14>/gain'
* '<S15>/Constant'
* '<S22>/gain'
* '<S23>/gain'
* '<S24>/gain'
* '<S25>/Constant'
* '<S25>/gain'
* '<S26>/Constant'
* '<S20>/Constant'
* '<S20>/Constant2'
* '<S21>/gain'
*/
real_T Wn; /* Variable: Wn
* Referenced by:
* '<S7>/Constant3'
* '<S7>/Constant4'
* '<S8>/Constant1'
* '<S17>/Constant3'
* '<S17>/Constant4'
*/
real_T jeta; /* Variable: jeta
* Referenced by:
* '<S7>/Constant3'
* '<S7>/Constant4'
* '<S8>/Constant17'
* '<S17>/Constant3'
* '<S17>/Constant4'
*/
real_T ChirpSignal_T; /* Mask Parameter: ChirpSignal_T
* Referenced by: '<S6>/targetTime'
*/
real_T ChirpSignal_f1; /* Mask Parameter: ChirpSignal_f1
* Referenced by:
* '<S6>/deltaFreq'
* '<S6>/initialFreq'
*/
real_T ChirpSignal_f2; /* Mask Parameter: ChirpSignal_f2
* Referenced by: '<S6>/deltaFreq'
*/
real_T CANSetup_P1_Size[2]; /* Computed Parameter: CANSetup_P1_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P1; /* Expression: id
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P2_Size[2]; /* Computed Parameter: CANSetup_P2_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P2[2]; /* Computed Parameter: CANSetup_P2
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P3_Size[2]; /* Computed Parameter: CANSetup_P3_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P3; /* Expression: PCISlot
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P4_Size[2]; /* Computed Parameter: CANSetup_P4_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P4; /* Expression: port1
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P5_Size[2]; /* Computed Parameter: CANSetup_P5_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P5; /* Expression: port2
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P6_Size[2]; /* Computed Parameter: CANSetup_P6_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P6; /* Expression: opModeCAN1
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P7_Size[2]; /* Computed Parameter: CANSetup_P7_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P7[4]; /* Expression: usrBdrCAN1
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P8_Size[2]; /* Computed Parameter: CANSetup_P8_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P8[6]; /* Expression: usrBdrFD1
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P9_Size[2]; /* Computed Parameter: CANSetup_P9_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P9[2]; /* Expression: stdAccMaskCAN1
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P10_Size[2]; /* Computed Parameter: CANSetup_P10_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P10[2]; /* Expression: extAccMaskCAN1
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P11_Size[2]; /* Computed Parameter: CANSetup_P11_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P11; /* Expression: opModeCAN2
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P12_Size[2]; /* Computed Parameter: CANSetup_P12_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P12[4]; /* Expression: usrBdrCAN2
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P13_Size[2]; /* Computed Parameter: CANSetup_P13_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P13[6]; /* Expression: usrBdrFD2
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P14_Size[2]; /* Computed Parameter: CANSetup_P14_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P14[2]; /* Expression: stdAccMaskCAN2
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P15_Size[2]; /* Computed Parameter: CANSetup_P15_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P15[2]; /* Expression: extAccMaskCAN2
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P16_Size[2]; /* Computed Parameter: CANSetup_P16_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P16; /* Expression: initStruct
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P17_Size[2]; /* Computed Parameter: CANSetup_P17_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P17; /* Expression: termStruct
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P18_Size[2]; /* Computed Parameter: CANSetup_P18_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P18[5]; /* Computed Parameter: CANSetup_P18
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P19_Size[2]; /* Computed Parameter: CANSetup_P19_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P19; /* Expression: qtyMod
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P20_Size[2]; /* Computed Parameter: CANSetup_P20_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P20[2]; /* Expression: chNo
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P21_Size[2]; /* Computed Parameter: CANSetup_P21_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P21[2]; /* Expression: ptTypes
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P22_Size[2]; /* Computed Parameter: CANSetup_P22_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P22[2]; /* Expression: isProtlFD
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P23_Size[2]; /* Computed Parameter: CANSetup_P23_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P23[2]; /* Expression: protlHelpIdx
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P24_Size[2]; /* Computed Parameter: CANSetup_P24_Size
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANSetup_P24; /* Expression: isFDMod
* Referenced by: '<S1>/CAN Setup'
*/
real_T CANRead1_P1_Size[2]; /* Computed Parameter: CANRead1_P1_Size
* Referenced by: '<S1>/CAN Read1'
*/
real_T CANRead1_P1; /* Expression: id
* Referenced by: '<S1>/CAN Read1'
*/
real_T CANRead1_P2_Size[2]; /* Computed Parameter: CANRead1_P2_Size
* Referenced by: '<S1>/CAN Read1'
*/
real_T CANRead1_P2; /* Expression: sampleTime
* Referenced by: '<S1>/CAN Read1'
*/
real_T CANRead1_P3_Size[2]; /* Computed Parameter: CANRead1_P3_Size
* Referenced by: '<S1>/CAN Read1'
*/
real_T CANRead1_P3; /* Expression: messageType
* Referenced by: '<S1>/CAN Read1'
*/
real_T CANRead1_P4_Size[2]; /* Computed Parameter: CANRead1_P4_Size
* Referenced by: '<S1>/CAN Read1'
*/
real_T CANRead1_P4[5]; /* Computed Parameter: CANRead1_P4
* Referenced by: '<S1>/CAN Read1'
*/
real_T CANRead1_P5_Size[2]; /* Computed Parameter: CANRead1_P5_Size
* Referenced by: '<S1>/CAN Read1'
*/
real_T CANRead1_P5; /* Expression: ptIdx
* Referenced by: '<S1>/CAN Read1'
*/
real_T CANRead1_P6_Size[2]; /* Computed Parameter: CANRead1_P6_Size
* Referenced by: '<S1>/CAN Read1'
*/
real_T CANRead1_P6; /* Expression: isFDMod
* Referenced by: '<S1>/CAN Read1'
*/
real_T Gain_Gain; /* Expression: 60
* Referenced by: '<S4>/Gain'
*/
real_T Gain1_Gain; /* Expression: 30
* Referenced by: '<S4>/Gain1'
*/
real_T ContMode_Value; /* Expression: 1
* Referenced by: '<S4>/ContMode'
*/
real_T ContM_Gain; /* Expression: 0
* Referenced by: '<S4>/ContM'
*/
real_T Constant_Value; /* Expression: 1
* Referenced by: '<S5>/Constant'
*/
real_T Constant1_Value; /* Expression: 4
* Referenced by: '<S5>/Constant1'
*/
real_T Constant2_Value; /* Expression: 0
* Referenced by: '<S5>/Constant2'
*/
real_T Constant3_Value; /* Expression: 10
* Referenced by: '<S5>/Constant3'
*/
real_T Constant4_Value; /* Expression: -10
* Referenced by: '<S5>/Constant4'
*/
real_T InputSelector_Value; /* Expression: 3
* Referenced by: '<S4>/InputSelector'
*/
real_T Gain_Gain_a; /* Expression: 0.5
* Referenced by: '<S6>/Gain'
*/
real_T InputSine_Amp; /* Expression: 1000
* Referenced by: '<S4>/InputSine'
*/
real_T InputSine_Bias; /* Expression: 0
* Referenced by: '<S4>/InputSine'
*/
real_T InputSine_Freq; /* Expression: 0.1*2*pi
* Referenced by: '<S4>/InputSine'
*/
real_T InputSine_Phase; /* Expression: 0
* Referenced by: '<S4>/InputSine'
*/
real_T d1_InitialCondition; /* Expression: 0
* Referenced by: '<S9>/d1'
*/
real_T Constant1_Value_n; /* Expression: 1
* Referenced by: '<S9>/Constant1'
*/
real_T Constant1_Value_a; /* Expression: 3
* Referenced by: '<S4>/Constant1'
*/
real_T gain2_Gain; /* Expression: 2*pi
* Referenced by: '<S9>/gain2'
*/
real_T gain1_Gain; /* Expression: 2
* Referenced by: '<S9>/gain1'
*/
real_T d_InitialCondition; /* Expression: 0
* Referenced by: '<S9>/d'
*/
real_T d_InitialCondition_j; /* Expression: 0
* Referenced by: '<S22>/d'
*/
real_T d1_InitialCondition_p; /* Expression: 0
* Referenced by: '<S22>/d1'
*/
real_T d_InitialCondition_b; /* Expression: 0
* Referenced by: '<S23>/d'
*/
real_T d1_InitialCondition_j; /* Expression: 0
* Referenced by: '<S23>/d1'
*/
real_T d_InitialCondition_f; /* Expression: 0
* Referenced by: '<S24>/d'
*/
real_T d1_InitialCondition_l; /* Expression: 0
* Referenced by: '<S24>/d1'
*/
real_T Delay1_InitialCondition; /* Expression: 0
* Referenced by: '<S26>/Delay1'
*/
real_T gain1_Gain_b; /* Expression: 2
* Referenced by: '<S26>/gain1'
*/
real_T Delay_InitialCondition; /* Expression: 0
* Referenced by: '<S26>/Delay'
*/
real_T FF_CutoffFreq_Value; /* Expression: 30
* Referenced by: '<S8>/FF_CutoffFreq'
*/
real_T gain2_Gain_p; /* Expression: 2*pi
* Referenced by: '<S26>/gain2'
*/
real_T gain3_Gain; /* Expression: 2
* Referenced by: '<S26>/gain3'
*/
real_T Constant1_Value_p; /* Expression: 8
* Referenced by: '<S26>/Constant1'
*/
real_T Delay2_InitialCondition; /* Expression: 0
* Referenced by: '<S26>/Delay2'
*/
real_T gain4_Gain; /* Expression: 4
* Referenced by: '<S26>/gain4'
*/
real_T zeta_Value; /* Expression: 0.707
* Referenced by: '<S17>/zeta'
*/
real_T Constant2_Value_f; /* Expression: 4
* Referenced by: '<S26>/Constant2'
*/
real_T Delay3_InitialCondition; /* Expression: 0
* Referenced by: '<S26>/Delay3'
*/
real_T d1_InitialCondition_e; /* Expression: 0
* Referenced by: '<S25>/d1'
*/
real_T Constant1_Value_h; /* Expression: 1
* Referenced by: '<S25>/Constant1'
*/
real_T Constant1_Value_i; /* Expression: 30
* Referenced by: '<S17>/Constant1'
*/
real_T gain2_Gain_po; /* Expression: 2*pi
* Referenced by: '<S25>/gain2'
*/
real_T gain1_Gain_f; /* Expression: 2
* Referenced by: '<S25>/gain1'
*/
real_T d_InitialCondition_o; /* Expression: 0
* Referenced by: '<S25>/d'
*/
real_T FFGain_Gain; /* Expression: 1
* Referenced by: '<S17>/FFGain'
*/
real_T Selector_Value; /* Expression: 1
* Referenced by: '<S8>/Selector'
*/
real_T BW_P_Value; /* Expression: 2.3
* Referenced by: '<S8>/BW_P'
*/
real_T Gain_Gain_n; /* Expression: 2*pi
* Referenced by: '<S18>/Gain'
*/
real_T BW_PI_Value; /* Expression: 15
* Referenced by: '<S8>/BW_PI'
*/
real_T gain_Gain; /* Expression: 2*pi
* Referenced by: '<S19>/gain '
*/
real_T Constant1_Value_l; /* Expression: 1
* Referenced by: '<S20>/Constant1'
*/
real_T Constant_Value_d; /* Expression: 0.05
* Referenced by: '<S19>/Constant'
*/
real_T gain2_Gain_c; /* Expression: 2*pi
* Referenced by: '<S20>/gain2'
*/
real_T gain3_Gain_o; /* Expression: 2
* Referenced by: '<S20>/gain3'
*/
real_T d1_InitialCondition_a; /* Expression: 0
* Referenced by: '<S21>/d1'
*/
real_T d_InitialCondition_g; /* Expression: 0
* Referenced by: '<S21>/d'
*/
real_T d1_InitialCondition_g; /* Expression: 0
* Referenced by: '<S20>/d1'
*/
real_T d_InitialCondition_l; /* Expression: 0
* Referenced by: '<S20>/d'
*/
real_T FBGain_Gain; /* Expression: 1
* Referenced by: '<S8>/FBGain'
*/
real_T Memory_InitialCondition; /* Expression: 0
* Referenced by: '<S4>/Memory'
*/
real_T d_InitialCondition_k; /* Expression: 0
* Referenced by: '<S11>/d'
*/
real_T d1_InitialCondition_e1; /* Expression: 0
* Referenced by: '<S11>/d1'
*/
real_T d_InitialCondition_be; /* Expression: 0
* Referenced by: '<S12>/d'
*/
real_T d1_InitialCondition_h; /* Expression: 0
* Referenced by: '<S12>/d1'
*/
real_T d_InitialCondition_k0; /* Expression: 0
* Referenced by: '<S13>/d'
*/
real_T d1_InitialCondition_d; /* Expression: 0
* Referenced by: '<S13>/d1'
*/
real_T d1_InitialCondition_c; /* Expression: 0
* Referenced by: '<S14>/d1'
*/
real_T Constant1_Value_id; /* Expression: 1
* Referenced by: '<S14>/Constant1'
*/
real_T Pole_Value; /* Expression: 5
* Referenced by: '<S4>/Pole'
*/
real_T gain2_Gain_a; /* Expression: 2*pi
* Referenced by: '<S14>/gain2'
*/
real_T gain1_Gain_f2; /* Expression: 2
* Referenced by: '<S14>/gain1'
*/
real_T d_InitialCondition_kh; /* Expression: 0
* Referenced by: '<S14>/d'
*/
real_T Delay1_InitialCondition_c; /* Expression: 0
* Referenced by: '<S15>/Delay1'
*/
real_T gain1_Gain_n; /* Expression: 2
* Referenced by: '<S15>/gain1'
*/
real_T Delay_InitialCondition_c; /* Expression: 0
* Referenced by: '<S15>/Delay'
*/
real_T Qfilter2_Value; /* Expression: 0.4
* Referenced by: '<S4>/Qfilter2'
*/
real_T gain2_Gain_f; /* Expression: 2*pi
* Referenced by: '<S15>/gain2'
*/
real_T gain3_Gain_d; /* Expression: 2
* Referenced by: '<S15>/gain3'
*/
real_T Constant1_Value_e; /* Expression: 8
* Referenced by: '<S15>/Constant1'
*/
real_T Delay2_InitialCondition_c; /* Expression: 0
* Referenced by: '<S15>/Delay2'
*/
real_T gain4_Gain_i; /* Expression: 4
* Referenced by: '<S15>/gain4'
*/
real_T zeta1_Value; /* Expression: 0.707
* Referenced by: '<S7>/zeta1'
*/
real_T Constant2_Value_h; /* Expression: 4
* Referenced by: '<S15>/Constant2'
*/
real_T Delay3_InitialCondition_f; /* Expression: 0
* Referenced by: '<S15>/Delay3'
*/
real_T DOBFlag_Value; /* Expression: 1
* Referenced by: '<S4>/DOBFlag'
*/
real_T ControlFlag_Gain; /* Expression: 1
* Referenced by: '<S4>/ControlFlag'
*/
real_T Saturation_UpperSat; /* Expression: 20
* Referenced by: '<S4>/Saturation'
*/
real_T Saturation_LowerSat; /* Expression: -20
* Referenced by: '<S4>/Saturation'
*/
real_T CANWrite1_P1_Size[2]; /* Computed Parameter: CANWrite1_P1_Size
* Referenced by: '<S5>/CAN Write1'
*/
real_T CANWrite1_P1; /* Expression: id
* Referenced by: '<S5>/CAN Write1'
*/
real_T CANWrite1_P2_Size[2]; /* Computed Parameter: CANWrite1_P2_Size
* Referenced by: '<S5>/CAN Write1'
*/
real_T CANWrite1_P2; /* Expression: sampleTime
* Referenced by: '<S5>/CAN Write1'
*/
real_T CANWrite1_P3_Size[2]; /* Computed Parameter: CANWrite1_P3_Size
* Referenced by: '<S5>/CAN Write1'
*/
real_T CANWrite1_P3; /* Expression: messageType
* Referenced by: '<S5>/CAN Write1'
*/
real_T CANWrite1_P4_Size[2]; /* Computed Parameter: CANWrite1_P4_Size
* Referenced by: '<S5>/CAN Write1'
*/
real_T CANWrite1_P4; /* Expression: enaStatusPort
* Referenced by: '<S5>/CAN Write1'
*/
real_T CANWrite1_P5_Size[2]; /* Computed Parameter: CANWrite1_P5_Size
* Referenced by: '<S5>/CAN Write1'
*/
real_T CANWrite1_P5[5]; /* Computed Parameter: CANWrite1_P5
* Referenced by: '<S5>/CAN Write1'
*/
real_T CANWrite1_P6_Size[2]; /* Computed Parameter: CANWrite1_P6_Size
* Referenced by: '<S5>/CAN Write1'
*/
real_T CANWrite1_P6; /* Expression: ptIdx
* Referenced by: '<S5>/CAN Write1'
*/
real_T CANWrite1_P7_Size[2]; /* Computed Parameter: CANWrite1_P7_Size
* Referenced by: '<S5>/CAN Write1'
*/
real_T CANWrite1_P7; /* Expression: isFDMod
* Referenced by: '<S5>/CAN Write1'
*/
uint32_T Delay1_DelayLength; /* Computed Parameter: Delay1_DelayLength
* Referenced by: '<S26>/Delay1'
*/
uint32_T Delay_DelayLength; /* Computed Parameter: Delay_DelayLength
* Referenced by: '<S26>/Delay'
*/
uint32_T Delay2_DelayLength; /* Computed Parameter: Delay2_DelayLength
* Referenced by: '<S26>/Delay2'
*/
uint32_T Delay3_DelayLength; /* Computed Parameter: Delay3_DelayLength
* Referenced by: '<S26>/Delay3'
*/
uint32_T Delay1_DelayLength_g; /* Computed Parameter: Delay1_DelayLength_g
* Referenced by: '<S15>/Delay1'
*/
uint32_T Delay_DelayLength_f; /* Computed Parameter: Delay_DelayLength_f
* Referenced by: '<S15>/Delay'
*/
uint32_T Delay2_DelayLength_c; /* Computed Parameter: Delay2_DelayLength_c
* Referenced by: '<S15>/Delay2'
*/
uint32_T Delay3_DelayLength_g; /* Computed Parameter: Delay3_DelayLength_g
* Referenced by: '<S15>/Delay3'
*/
};
/* Real-time Model Data Structure */
struct tag_RTM_WheelSpd1_T {
const char_T *path;
const char_T *modelName;
struct SimStruct_tag * *childSfunctions;
const char_T *errorStatus;
SS_SimMode simMode;
RTWLogInfo *rtwLogInfo;
RTWExtModeInfo *extModeInfo;
RTWSolverInfo solverInfo;
RTWSolverInfo *solverInfoPtr;
void *sfcnInfo;
/*
* NonInlinedSFcns:
* The following substructure contains information regarding
* non-inlined s-functions used in the model.
*/
struct {
RTWSfcnInfo sfcnInfo;
time_T *taskTimePtrs[2];
SimStruct childSFunctions[3];
SimStruct *childSFunctionPtrs[3];
struct _ssBlkInfo2 blkInfo2[3];
struct _ssSFcnModelMethods2 methods2[3];
struct _ssSFcnModelMethods3 methods3[3];
struct _ssSFcnModelMethods4 methods4[3];
struct _ssStatesInfo2 statesInfo2[3];
ssPeriodicStatesInfo periodicStatesInfo[3];
struct _ssPortInfo2 inputOutputPortInfo2[3];
struct {
time_T sfcnPeriod[1];
time_T sfcnOffset[1];
int_T sfcnTsMap[1];
uint_T attribs[24];
mxArray *params[24];
struct _ssDWorkRecord dWork[1];
struct _ssDWorkAuxRecord dWorkAux[1];
} Sfcn0;
struct {
time_T sfcnPeriod[1];
time_T sfcnOffset[1];
int_T sfcnTsMap[1];
struct _ssPortOutputs outputPortInfo[2];
struct _ssOutPortUnit outputPortUnits[2];
struct _ssOutPortCoSimAttribute outputPortCoSimAttribute[2];
uint_T attribs[6];
mxArray *params[6];
struct _ssDWorkRecord dWork[1];
struct _ssDWorkAuxRecord dWorkAux[1];
} Sfcn1;
struct {
time_T sfcnPeriod[1];
time_T sfcnOffset[1];
int_T sfcnTsMap[1];
struct _ssPortInputs inputPortInfo[1];
struct _ssInPortUnit inputPortUnits[1];
struct _ssInPortCoSimAttribute inputPortCoSimAttribute[1];
uint_T attribs[7];
mxArray *params[7];
struct _ssDWorkRecord dWork[2];
struct _ssDWorkAuxRecord dWorkAux[2];
} Sfcn2;
} NonInlinedSFcns;
void *blockIO;
const void *constBlockIO;
void *defaultParam;
ZCSigState *prevZCSigState;
real_T *contStates;
int_T *periodicContStateIndices;
real_T *periodicContStateRanges;
real_T *derivs;
void *zcSignalValues;
void *inputs;
void *outputs;
boolean_T *contStateDisabled;
boolean_T zCCacheNeedsReset;
boolean_T derivCacheNeedsReset;
boolean_T CTOutputIncnstWithState;
void *dwork;
/*
* DataMapInfo:
* The following substructure contains information regarding
* structures generated in the model's C API.
*/
struct {
rtwCAPI_ModelMappingInfo mmi;
} DataMapInfo;
/*
* Sizes:
* The following substructure contains sizes information
* for many of the model attributes such as inputs, outputs,
* dwork, sample times, etc.
*/
struct {
uint32_T checksums[4];
uint32_T options;
int_T numContStates;
int_T numPeriodicContStates;
int_T numU;
int_T numY;
int_T numSampTimes;
int_T numBlocks;
int_T numBlockIO;
int_T numBlockPrms;
int_T numDwork;
int_T numSFcnPrms;
int_T numSFcns;
int_T numIports;
int_T numOports;
int_T numNonSampZCs;
int_T sysDirFeedThru;
int_T rtwGenSfcn;
} Sizes;
/*
* SpecialInfo:
* The following substructure contains special information
* related to other components that are dependent on RTW.
*/
struct {
const void *mappingInfo;
void *xpcData;
} SpecialInfo;
/*
* Timing:
* The following substructure contains information regarding
* the timing information for the model.
*/
struct {
time_T stepSize;
uint32_T clockTick0;
uint32_T clockTickH0;
time_T stepSize0;
uint32_T clockTick1;
uint32_T clockTickH1;
time_T stepSize1;
time_T tStart;
time_T tFinal;
time_T timeOfLastOutput;
void *timingData;
real_T *varNextHitTimesList;
SimTimeStep simTimeStep;
boolean_T stopRequestedFlag;
time_T *sampleTimes;
time_T *offsetTimes;
int_T *sampleTimeTaskIDPtr;
int_T *sampleHits;
int_T *perTaskSampleHits;
time_T *t;
time_T sampleTimesArray[2];
time_T offsetTimesArray[2];
int_T sampleTimeTaskIDArray[2];
int_T sampleHitArray[2];
int_T perTaskSampleHitsArray[4];
time_T tArray[2];
} Timing;
};
/* Block parameters (default storage) */
extern P_WheelSpd1_T WheelSpd1_P;
/* Block signals (default storage) */
extern B_WheelSpd1_T WheelSpd1_B;
/* Block states (default storage) */
extern DW_WheelSpd1_T WheelSpd1_DW;
/*====================*
* External functions *
*====================*/
extern WheelSpd1_rtModel *WheelSpd1(void);
extern void MdlInitializeSizes(void);
extern void MdlInitializeSampleTimes(void);
extern void MdlInitialize(void);
extern void MdlStart(void);
extern void MdlOutputs(int_T tid);
extern void MdlUpdate(int_T tid);
extern void MdlTerminate(void);
/* Function to get C API Model Mapping Static Info */
extern const rtwCAPI_ModelMappingStaticInfo*
WheelSpd1_GetCAPIStaticMap(void);
/* Real-time Model object */
extern RT_MODEL_WheelSpd1_T *const WheelSpd1_M;
/*-
* The generated code includes comments that allow you to trace directly
* back to the appropriate location in the model. The basic format
* is <system>/block_name, where system is the system number (uniquely
* assigned by Simulink) and block_name is the name of the block.
*
* Use the MATLAB hilite_system command to trace the generated code back
* to the model. For example,
*
* hilite_system('<S3>') - opens system 3
* hilite_system('<S3>/Kp') - opens and selects block Kp which resides in S3
*
* Here is the system hierarchy for this model
*
* '<Root>' : 'WheelSpd1'
* '<S1>' : 'WheelSpd1/DAQ_In'
* '<S2>' : 'WheelSpd1/DAQ_Out'
* '<S3>' : 'WheelSpd1/Input Signal Conditioning'
* '<S4>' : 'WheelSpd1/Mon_Cont'
* '<S5>' : 'WheelSpd1/DAQ_Out/CANBoard'
* '<S6>' : 'WheelSpd1/Mon_Cont/Chirp Signal'
* '<S7>' : 'WheelSpd1/Mon_Cont/DOB'
* '<S8>' : 'WheelSpd1/Mon_Cont/FF+PID Controller'
* '<S9>' : 'WheelSpd1/Mon_Cont/LPFM'
* '<S10>' : 'WheelSpd1/Mon_Cont/Signal Builder'
* '<S11>' : 'WheelSpd1/Mon_Cont/DOB/Dot3'
* '<S12>' : 'WheelSpd1/Mon_Cont/DOB/Dot4'
* '<S13>' : 'WheelSpd1/Mon_Cont/DOB/Dot5'
* '<S14>' : 'WheelSpd1/Mon_Cont/DOB/LPFM'
* '<S15>' : 'WheelSpd1/Mon_Cont/DOB/Second order LPF'
* '<S16>' : 'WheelSpd1/Mon_Cont/FF+PID Controller/FB'
* '<S17>' : 'WheelSpd1/Mon_Cont/FF+PID Controller/FF'
* '<S18>' : 'WheelSpd1/Mon_Cont/FF+PID Controller/FB/P'
* '<S19>' : 'WheelSpd1/Mon_Cont/FF+PID Controller/FB/PI'
* '<S20>' : 'WheelSpd1/Mon_Cont/FF+PID Controller/FB/PI/HPF'
* '<S21>' : 'WheelSpd1/Mon_Cont/FF+PID Controller/FB/PI/Integrator1'
* '<S22>' : 'WheelSpd1/Mon_Cont/FF+PID Controller/FF/Dot'
* '<S23>' : 'WheelSpd1/Mon_Cont/FF+PID Controller/FF/Dot2'
* '<S24>' : 'WheelSpd1/Mon_Cont/FF+PID Controller/FF/Dot3'
* '<S25>' : 'WheelSpd1/Mon_Cont/FF+PID Controller/FF/LPFM'
* '<S26>' : 'WheelSpd1/Mon_Cont/FF+PID Controller/FF/Second order LPF'
*/
#endif /* RTW_HEADER_WheelSpd1_h_ */
Reference in New Issue View Git Blame Copy Permalink