コード例 #1
0
static void mdlInitializeSizes(SimStruct *S)
{
  ssSetNumSFcnParams(S, 0);
  if (S->mdlInfo->genericFcn != NULL) {
    _GenericFcn fcn = S->mdlInfo->genericFcn;
    (fcn)(S, GEN_FCN_CHK_MODELREF_SOLVER_TYPE_EARLY, 2, NULL);
  }

  ssSetRTWGeneratedSFcn(S, 2);
  ssSetNumContStates(S, 0);
  ssSetNumDiscStates(S, 0);
  if (!ssSetNumInputPorts(S, 2))
    return;
  if (!ssSetInputPortVectorDimension(S, 0, 1))
    return;
  ssSetInputPortFrameData(S, 0, FRAME_NO);
  ssSetInputPortBusMode(S, 0, SL_NON_BUS_MODE)
    if (ssGetSimMode(S) != SS_SIMMODE_SIZES_CALL_ONLY)
  {
    ssSetInputPortDataType(S, 0, SS_DOUBLE);
  }

  ssSetInputPortDirectFeedThrough(S, 0, 1);
  ssSetInputPortRequiredContiguous(S, 0, 1);
  ssSetInputPortOptimOpts(S, 0, SS_NOT_REUSABLE_AND_GLOBAL);
  ssSetInputPortOverWritable(S, 0, FALSE);
  ssSetInputPortSampleTime(S, 0, 0.0);
  ssSetInputPortOffsetTime(S, 0, 0.0);
  if (!ssSetInputPortVectorDimension(S, 1, 1))
    return;
  ssSetInputPortFrameData(S, 1, FRAME_NO);
  ssSetInputPortBusMode(S, 1, SL_NON_BUS_MODE)
    if (ssGetSimMode(S) != SS_SIMMODE_SIZES_CALL_ONLY)
  {
    ssSetInputPortDataType(S, 1, SS_DOUBLE);
  }

  ssSetInputPortDirectFeedThrough(S, 1, 1);
  ssSetInputPortRequiredContiguous(S, 1, 1);
  ssSetInputPortOptimOpts(S, 1, SS_NOT_REUSABLE_AND_GLOBAL);
  ssSetInputPortOverWritable(S, 1, FALSE);
  ssSetInputPortSampleTime(S, 1, 0.0);
  ssSetInputPortOffsetTime(S, 1, 0.0);
  if (!ssSetNumOutputPorts(S, 1))
    return;
  if (!ssSetOutputPortVectorDimension(S, 0, 1))
    return;
  ssSetOutputPortFrameData(S, 0, FRAME_NO);
  ssSetOutputPortBusMode(S, 0, SL_NON_BUS_MODE)
    if (ssGetSimMode(S) != SS_SIMMODE_SIZES_CALL_ONLY)
  {
    ssSetOutputPortDataType(S, 0, SS_DOUBLE);
  }

  ssSetOutputPortSampleTime(S, 0, 0.0);
  ssSetOutputPortOffsetTime(S, 0, 0.0);
  ssSetOutputPortOkToMerge(S, 0, SS_OK_TO_MERGE);
  ssSetOutputPortOptimOpts(S, 0, SS_NOT_REUSABLE_AND_GLOBAL);
  rt_InitInfAndNaN(sizeof(real_T));

  {
    real_T minValue = rtMinusInf;
    real_T maxValue = rtInf;
    ssSetModelRefInputSignalDesignMin(S,0,&minValue);
    ssSetModelRefInputSignalDesignMax(S,0,&maxValue);
  }

  {
    real_T minValue = rtMinusInf;
    real_T maxValue = rtInf;
    ssSetModelRefInputSignalDesignMin(S,1,&minValue);
    ssSetModelRefInputSignalDesignMax(S,1,&maxValue);
  }

  {
    real_T minValue = rtMinusInf;
    real_T maxValue = rtInf;
    ssSetModelRefOutputSignalDesignMin(S,0,&minValue);
    ssSetModelRefOutputSignalDesignMax(S,0,&maxValue);
  }

  {
    static ssRTWStorageType storageClass[3] = { SS_RTW_STORAGE_AUTO,
      SS_RTW_STORAGE_AUTO, SS_RTW_STORAGE_AUTO };

    ssSetModelRefPortRTWStorageClasses(S, storageClass);
  }

  ssSetNumSampleTimes(S, PORT_BASED_SAMPLE_TIMES);
  ssSetNumRWork(S, 0);
  ssSetNumIWork(S, 0);
  ssSetNumPWork(S, 0);
  ssSetNumModes(S, 0);
  ssSetNumZeroCrossingSignals(S, 0);
  ssSetOutputPortIsNonContinuous(S, 0, 0);
  ssSetOutputPortIsFedByBlockWithModesNoZCs(S, 0, 0);
  ssSetInputPortIsNotDerivPort(S, 0, 1);
  ssSetInputPortIsNotDerivPort(S, 1, 1);
  ssSetModelReferenceSampleTimeInheritanceRule(S,
    DISALLOW_SAMPLE_TIME_INHERITANCE);
  ssSetOptimizeModelRefInitCode(S, 0);
  ssSetModelReferenceNormalModeSupport(S, MDL_START_AND_MDL_PROCESS_PARAMS_OK);
  ssSetOptions(S, SS_OPTION_EXCEPTION_FREE_CODE |
               SS_OPTION_DISALLOW_CONSTANT_SAMPLE_TIME |
               SS_OPTION_SUPPORTS_ALIAS_DATA_TYPES |
               SS_OPTION_WORKS_WITH_CODE_REUSE |
               SS_OPTION_CALL_TERMINATE_ON_EXIT);
  if (S->mdlInfo->genericFcn != NULL) {
    ssRegModelRefChildModel(S,1,childModels);
  }

#if SS_SFCN_FOR_SIM

  if (S->mdlInfo->genericFcn != NULL &&
      ssGetSimMode(S) != SS_SIMMODE_SIZES_CALL_ONLY) {
    mr_vdmultRM_MdlInfoRegFcn(S, "vdmultRM");
  }

#endif

  if (!ssSetNumDWork(S, 1)) {
    return;
  }

#if SS_SFCN_FOR_SIM

  {
    int mdlrefDWTypeId;
    ssRegMdlRefDWorkType(S, &mdlrefDWTypeId);
    if (mdlrefDWTypeId == INVALID_DTYPE_ID )
      return;
    if (!ssSetDataTypeSize(S, mdlrefDWTypeId, sizeof(rtMdlrefDWork_mr_vdmultRM)))
      return;
    ssSetDWorkDataType(S, 0, mdlrefDWTypeId);
    ssSetDWorkWidth(S, 0, 1);
  }

#endif

  ssSetNeedAbsoluteTime(S, 1);
}
コード例 #2
0
return ; } static void mdlInitializeSizes ( SimStruct * S ) {
ssSetNumSFcnParams ( S , 0 ) ; ssFxpSetU32BitRegionCompliant ( S , 1 ) ;
rt_InitInfAndNaN ( sizeof ( real_T ) ) ; if ( S -> mdlInfo -> genericFcn != (
NULL ) ) { _GenericFcn fcn = S -> mdlInfo -> genericFcn ; real_T lifeSpan =
rtInf ; real_T startTime = 0.0 ; real_T stopTime = rtInf ; int_T hwSettings [
15 ] ; int_T opSettings [ 1 ] ; boolean_T concurrTaskSupport = 0 ; boolean_T
hasDiscTs = 1 ; real_T fixedStep = 0.001 ; ( fcn ) ( S ,
GEN_FCN_CHK_MODELREF_SOLVER_TYPE_EARLY , 2 , ( NULL ) ) ; ( fcn ) ( S ,
GEN_FCN_MODELREF_RATE_GROUPED , 0 , ( NULL ) ) ; if ( ! ( fcn ) ( S ,
GEN_FCN_CHK_MODELREF_LIFE_SPAN , - 1 , & lifeSpan ) ) return ; if ( ! ( fcn )
( S , GEN_FCN_CHK_MODELREF_START_TIME , - 1 , & startTime ) ) return ; if ( !
( fcn ) ( S , GEN_FCN_CHK_MODELREF_STOP_TIME , - 1 , & stopTime ) ) return ;
hwSettings [ 0 ] = 16 ; hwSettings [ 1 ] = 16 ; hwSettings [ 2 ] = 16 ;
hwSettings [ 3 ] = 32 ; hwSettings [ 4 ] = 32 ; hwSettings [ 5 ] = 64 ;
hwSettings [ 6 ] = 16 ; hwSettings [ 7 ] = 0 ; hwSettings [ 8 ] = 1 ;
hwSettings [ 9 ] = 16 ; hwSettings [ 10 ] = 1 ; hwSettings [ 11 ] = 2 ;
hwSettings [ 12 ] = 2 ; hwSettings [ 13 ] = 64 ; hwSettings [ 14 ] = 0 ; if (
! ( fcn ) ( S , GEN_FCN_CHK_MODELREF_HARDWARE_SETTINGS , 15 , hwSettings ) )
return ; opSettings [ 0 ] = 0 ; if ( ! ( fcn ) ( S ,
GEN_FCN_CHK_MODELREF_OPTIM_SETTINGS , 1 , opSettings ) ) return ; if ( ! (
fcn ) ( S , GEN_FCN_CHK_MODELREF_CONCURRETNT_TASK_SUPPORT , ( int_T )
concurrTaskSupport , ( NULL ) ) ) return ; if ( ! ( fcn ) ( S ,
GEN_FCN_CHK_MODELREF_SOLVER_TYPE , 0 , & hasDiscTs ) ) return ; if ( ! ( fcn
) ( S , GEN_FCN_CHK_MODELREF_SOLVER_NAME , 0 , ( void * ) "FixedStepDiscrete"
) ) return ; if ( ! ( fcn ) ( S , GEN_FCN_CHK_MODELREF_SOLVER_MODE ,
SOLVER_MODE_SINGLETASKING , ( NULL ) ) ) return ; if ( ! ( fcn ) ( S ,
GEN_FCN_CHK_MODELREF_FIXED_STEP , 0 , & fixedStep ) ) return ; ( fcn ) ( S ,
GEN_FCN_CHK_MODELREF_FRAME_UPGRADE_DIAGNOSTICS , 1 , ( NULL ) ) ; } { static
const char * globalVarList [ ] = { "Cntrl_Status" , "DT_PRECISION_HI" ,
"DT_PRECISION_LO" , "EV_Param" , "Motor_Cmds" , "Power_Lims" ,
"brake_cmd_table" , "ctrlConst" , "decel_cmd_vec" , "regen_pwr_vec" } ;
ssRegModelRefGlobalVarUsage ( S , 10 , ( void * ) globalVarList ) ; }
ssSetRTWGeneratedSFcn ( S , 2 ) ; ssSetNumContStates ( S , 0 ) ;
ssSetNumDiscStates ( S , 0 ) ; if ( ! ssSetNumInputPorts ( S , 8 ) ) return ;
if ( ! ssSetInputPortVectorDimension ( S , 0 , 1 ) ) return ;
ssSetInputPortDimensionsMode ( S , 0 , FIXED_DIMS_MODE ) ;
ssSetInputPortFrameData ( S , 0 , FRAME_NO ) ; if ( ssGetSimMode ( S ) !=
SS_SIMMODE_SIZES_CALL_ONLY ) { ssSetInputPortDataType ( S , 0 , SS_SINGLE ) ;
} ssSetInputPortDirectFeedThrough ( S , 0 , 1 ) ;
ssSetInputPortRequiredContiguous ( S , 0 , 1 ) ; ssSetInputPortOptimOpts ( S
, 0 , SS_NOT_REUSABLE_AND_LOCAL ) ; ssSetInputPortOverWritable ( S , 0 ,
FALSE ) ; ssSetInputPortSampleTime ( S , 0 , 0.001 ) ;
ssSetInputPortOffsetTime ( S , 0 , 0.0 ) ; if ( !
ssSetInputPortVectorDimension ( S , 1 , 1 ) ) return ;
ssSetInputPortDimensionsMode ( S , 1 , FIXED_DIMS_MODE ) ;
ssSetInputPortFrameData ( S , 1 , FRAME_NO ) ; if ( ssGetSimMode ( S ) !=
SS_SIMMODE_SIZES_CALL_ONLY ) { ssSetInputPortDataType ( S , 1 , SS_SINGLE ) ;
} ssSetInputPortDirectFeedThrough ( S , 1 , 1 ) ;
ssSetInputPortRequiredContiguous ( S , 1 , 1 ) ; ssSetInputPortOptimOpts ( S
, 1 , SS_NOT_REUSABLE_AND_LOCAL ) ; ssSetInputPortOverWritable ( S , 1 ,
FALSE ) ; ssSetInputPortSampleTime ( S , 1 , 0.001 ) ;
ssSetInputPortOffsetTime ( S , 1 , 0.0 ) ; if ( !
ssSetInputPortVectorDimension ( S , 2 , 1 ) ) return ;
ssSetInputPortDimensionsMode ( S , 2 , FIXED_DIMS_MODE ) ;
ssSetInputPortFrameData ( S , 2 , FRAME_NO ) ; if ( ssGetSimMode ( S ) !=
SS_SIMMODE_SIZES_CALL_ONLY ) { ssSetInputPortDataType ( S , 2 , SS_SINGLE ) ;
} ssSetInputPortDirectFeedThrough ( S , 2 , 0 ) ;
ssSetInputPortRequiredContiguous ( S , 2 , 1 ) ; ssSetInputPortOptimOpts ( S
, 2 , SS_NOT_REUSABLE_AND_LOCAL ) ; ssSetInputPortOverWritable ( S , 2 ,
FALSE ) ; ssSetInputPortSampleTime ( S , 2 , 0.001 ) ;
ssSetInputPortOffsetTime ( S , 2 , 0.0 ) ; if ( !
ssSetInputPortVectorDimension ( S , 3 , 1 ) ) return ;
ssSetInputPortDimensionsMode ( S , 3 , FIXED_DIMS_MODE ) ;
ssSetInputPortFrameData ( S , 3 , FRAME_NO ) ; if ( ssGetSimMode ( S ) !=
SS_SIMMODE_SIZES_CALL_ONLY ) { ssSetInputPortDataType ( S , 3 , SS_SINGLE ) ;
} ssSetInputPortDirectFeedThrough ( S , 3 , 0 ) ;
ssSetInputPortRequiredContiguous ( S , 3 , 1 ) ; ssSetInputPortOptimOpts ( S
, 3 , SS_NOT_REUSABLE_AND_LOCAL ) ; ssSetInputPortOverWritable ( S , 3 ,
FALSE ) ; ssSetInputPortSampleTime ( S , 3 , 0.001 ) ;
ssSetInputPortOffsetTime ( S , 3 , 0.0 ) ; if ( !
ssSetInputPortVectorDimension ( S , 4 , 1 ) ) return ;
ssSetInputPortDimensionsMode ( S , 4 , FIXED_DIMS_MODE ) ;
ssSetInputPortFrameData ( S , 4 , FRAME_NO ) ; if ( ssGetSimMode ( S ) !=
SS_SIMMODE_SIZES_CALL_ONLY ) { ssSetInputPortDataType ( S , 4 , SS_SINGLE ) ;
} ssSetInputPortDirectFeedThrough ( S , 4 , 1 ) ;
ssSetInputPortRequiredContiguous ( S , 4 , 1 ) ; ssSetInputPortOptimOpts ( S
, 4 , SS_NOT_REUSABLE_AND_LOCAL ) ; ssSetInputPortOverWritable ( S , 4 ,
FALSE ) ; ssSetInputPortSampleTime ( S , 4 , 0.001 ) ;
ssSetInputPortOffsetTime ( S , 4 , 0.0 ) ; if ( !
ssSetInputPortVectorDimension ( S , 5 , 1 ) ) return ;
ssSetInputPortDimensionsMode ( S , 5 , FIXED_DIMS_MODE ) ;
ssSetInputPortFrameData ( S , 5 , FRAME_NO ) ; if ( ssGetSimMode ( S ) !=
SS_SIMMODE_SIZES_CALL_ONLY ) { ssSetInputPortDataType ( S , 5 , SS_SINGLE ) ;
} ssSetInputPortDirectFeedThrough ( S , 5 , 1 ) ;
ssSetInputPortRequiredContiguous ( S , 5 , 1 ) ; ssSetInputPortOptimOpts ( S
, 5 , SS_NOT_REUSABLE_AND_LOCAL ) ; ssSetInputPortOverWritable ( S , 5 ,
FALSE ) ; ssSetInputPortSampleTime ( S , 5 , 0.001 ) ;
ssSetInputPortOffsetTime ( S , 5 , 0.0 ) ; if ( !
ssSetInputPortVectorDimension ( S , 6 , 1 ) ) return ;
ssSetInputPortDimensionsMode ( S , 6 , FIXED_DIMS_MODE ) ;
ssSetInputPortFrameData ( S , 6 , FRAME_NO ) ; if ( ssGetSimMode ( S ) !=
SS_SIMMODE_SIZES_CALL_ONLY ) { ssSetInputPortDataType ( S , 6 , SS_SINGLE ) ;
} ssSetInputPortDirectFeedThrough ( S , 6 , 1 ) ;
ssSetInputPortRequiredContiguous ( S , 6 , 1 ) ; ssSetInputPortOptimOpts ( S
, 6 , SS_REUSABLE_AND_LOCAL ) ; ssSetInputPortOverWritable ( S , 6 , FALSE )
; ssSetInputPortSampleTime ( S , 6 , 0.001 ) ; ssSetInputPortOffsetTime ( S ,
6 , 0.0 ) ; if ( ! ssSetInputPortVectorDimension ( S , 7 , 1 ) ) return ;
ssSetInputPortDimensionsMode ( S , 7 , FIXED_DIMS_MODE ) ;
ssSetInputPortFrameData ( S , 7 , FRAME_NO ) ; if ( ssGetSimMode ( S ) !=
SS_SIMMODE_SIZES_CALL_ONLY ) { ssSetInputPortDataType ( S , 7 , SS_SINGLE ) ;
} ssSetInputPortDirectFeedThrough ( S , 7 , 1 ) ;
ssSetInputPortRequiredContiguous ( S , 7 , 1 ) ; ssSetInputPortOptimOpts ( S
, 7 , SS_REUSABLE_AND_LOCAL ) ; ssSetInputPortOverWritable ( S , 7 , FALSE )
; ssSetInputPortSampleTime ( S , 7 , 0.001 ) ; ssSetInputPortOffsetTime ( S ,
7 , 0.0 ) ; if ( ! ssSetNumOutputPorts ( S , 3 ) ) return ; if ( !
ssSetOutputPortVectorDimension ( S , 0 , 1 ) ) return ;
ssSetOutputPortDimensionsMode ( S , 0 , FIXED_DIMS_MODE ) ;
ssSetOutputPortFrameData ( S , 0 , FRAME_NO ) ; if ( ssGetSimMode ( S ) !=
SS_SIMMODE_SIZES_CALL_ONLY ) {
#if defined (MATLAB_MEX_FILE)
{ DTypeId dataTypeIdReg ; ssRegisterTypeFromNamedObject ( S , "Cntrl_Status"
, & dataTypeIdReg ) ; if ( dataTypeIdReg == INVALID_DTYPE_ID ) return ;
ssSetOutputPortDataType ( S , 0 , dataTypeIdReg ) ; }
#endif
} ssSetOutputPortSampleTime ( S , 0 , 0.001 ) ; ssSetOutputPortOffsetTime ( S
, 0 , 0.0 ) ; ssSetOutputPortDiscreteValuedOutput ( S , 0 , 0 ) ;
ssSetOutputPortOkToMerge ( S , 0 , SS_OK_TO_MERGE ) ;
ssSetOutputPortOptimOpts ( S , 0 , SS_NOT_REUSABLE_AND_GLOBAL ) ; if ( !
ssSetOutputPortVectorDimension ( S , 1 , 1 ) ) return ;
ssSetOutputPortDimensionsMode ( S , 1 , FIXED_DIMS_MODE ) ;
ssSetOutputPortFrameData ( S , 1 , FRAME_NO ) ; if ( ssGetSimMode ( S ) !=
SS_SIMMODE_SIZES_CALL_ONLY ) {
#if defined (MATLAB_MEX_FILE)
{ DTypeId dataTypeIdReg ; ssRegisterTypeFromNamedObject ( S , "Motor_Cmds" ,
& dataTypeIdReg ) ; if ( dataTypeIdReg == INVALID_DTYPE_ID ) return ;
ssSetOutputPortDataType ( S , 1 , dataTypeIdReg ) ; }
#endif
} ssSetOutputPortSampleTime ( S , 1 , 0.001 ) ; ssSetOutputPortOffsetTime ( S
, 1 , 0.0 ) ; ssSetOutputPortDiscreteValuedOutput ( S , 1 , 0 ) ;
ssSetOutputPortOkToMerge ( S , 1 , SS_OK_TO_MERGE ) ;
ssSetOutputPortOptimOpts ( S , 1 , SS_NOT_REUSABLE_AND_LOCAL ) ; if ( !
ssSetOutputPortVectorDimension ( S , 2 , 1 ) ) return ;
ssSetOutputPortDimensionsMode ( S , 2 , FIXED_DIMS_MODE ) ;
ssSetOutputPortFrameData ( S , 2 , FRAME_NO ) ; if ( ssGetSimMode ( S ) !=
SS_SIMMODE_SIZES_CALL_ONLY ) { ssSetOutputPortDataType ( S , 2 , SS_SINGLE )
; } ssSetOutputPortSampleTime ( S , 2 , 0.001 ) ; ssSetOutputPortOffsetTime (
S , 2 , 0.0 ) ; ssSetOutputPortDiscreteValuedOutput ( S , 2 , 0 ) ;
ssSetOutputPortOkToMerge ( S , 2 , SS_OK_TO_MERGE ) ;
ssSetOutputPortOptimOpts ( S , 2 , SS_NOT_REUSABLE_AND_LOCAL ) ; { real_T
minValue = rtMinusInf ; real_T maxValue = rtInf ;
ssSetModelRefInputSignalDesignMin ( S , 0 , & minValue ) ;
ssSetModelRefInputSignalDesignMax ( S , 0 , & maxValue ) ; } { real_T
minValue = rtMinusInf ; real_T maxValue = rtInf ;
ssSetModelRefInputSignalDesignMin ( S , 1 , & minValue ) ;
ssSetModelRefInputSignalDesignMax ( S , 1 , & maxValue ) ; } { real_T
minValue = rtMinusInf ; real_T maxValue = rtInf ;
ssSetModelRefInputSignalDesignMin ( S , 2 , & minValue ) ;
ssSetModelRefInputSignalDesignMax ( S , 2 , & maxValue ) ; } { real_T
minValue = rtMinusInf ; real_T maxValue = rtInf ;
ssSetModelRefInputSignalDesignMin ( S , 3 , & minValue ) ;
ssSetModelRefInputSignalDesignMax ( S , 3 , & maxValue ) ; } { real_T
minValue = rtMinusInf ; real_T maxValue = rtInf ;
ssSetModelRefInputSignalDesignMin ( S , 4 , & minValue ) ;
ssSetModelRefInputSignalDesignMax ( S , 4 , & maxValue ) ; } { real_T
minValue = rtMinusInf ; real_T maxValue = rtInf ;
ssSetModelRefInputSignalDesignMin ( S , 5 , & minValue ) ;
ssSetModelRefInputSignalDesignMax ( S , 5 , & maxValue ) ; } { real_T
minValue = rtMinusInf ; real_T maxValue = rtInf ;
ssSetModelRefInputSignalDesignMin ( S , 6 , & minValue ) ;
ssSetModelRefInputSignalDesignMax ( S , 6 , & maxValue ) ; } { real_T
minValue = rtMinusInf ; real_T maxValue = rtInf ;
ssSetModelRefInputSignalDesignMin ( S , 7 , & minValue ) ;
ssSetModelRefInputSignalDesignMax ( S , 7 , & maxValue ) ; } { real_T
minValue = rtMinusInf ; real_T maxValue = rtInf ;
ssSetModelRefOutputSignalDesignMin ( S , 0 , & minValue ) ;
ssSetModelRefOutputSignalDesignMax ( S , 0 , & maxValue ) ; } { real_T
minValue = rtMinusInf ; real_T maxValue = rtInf ;
ssSetModelRefOutputSignalDesignMin ( S , 1 , & minValue ) ;
ssSetModelRefOutputSignalDesignMax ( S , 1 , & maxValue ) ; } { real_T
minValue = rtMinusInf ; real_T maxValue = rtInf ;
ssSetModelRefOutputSignalDesignMin ( S , 2 , & minValue ) ;
ssSetModelRefOutputSignalDesignMax ( S , 2 , & maxValue ) ; } { static
ssRTWStorageType storageClass [ 11 ] = { SS_RTW_STORAGE_AUTO ,
SS_RTW_STORAGE_AUTO , SS_RTW_STORAGE_AUTO , SS_RTW_STORAGE_AUTO ,
SS_RTW_STORAGE_AUTO , SS_RTW_STORAGE_AUTO , SS_RTW_STORAGE_AUTO ,
SS_RTW_STORAGE_AUTO , SS_RTW_STORAGE_AUTO , SS_RTW_STORAGE_AUTO ,
SS_RTW_STORAGE_AUTO } ; ssSetModelRefPortRTWStorageClasses ( S , storageClass
) ; } ssSetModelRefSignalLoggingSaveFormat ( S , SS_DATASET_FORMAT ) ;
ssSetNumSampleTimes ( S , PORT_BASED_SAMPLE_TIMES ) ; ssSetNumRWork ( S , 0 )
; ssSetNumIWork ( S , 0 ) ; ssSetNumPWork ( S , 0 ) ; ssSetNumModes ( S , 0 )
; { int_T zcsIdx = 0 ; } ssSetOutputPortIsNonContinuous ( S , 0 , 0 ) ;
ssSetOutputPortIsFedByBlockWithModesNoZCs ( S , 0 , 0 ) ;
ssSetOutputPortIsNonContinuous ( S , 1 , 0 ) ;
ssSetOutputPortIsFedByBlockWithModesNoZCs ( S , 1 , 0 ) ;
ssSetOutputPortIsNonContinuous ( S , 2 , 0 ) ;
ssSetOutputPortIsFedByBlockWithModesNoZCs ( S , 2 , 0 ) ;
ssSetInputPortIsNotDerivPort ( S , 0 , 1 ) ; ssSetInputPortIsNotDerivPort ( S
, 1 , 1 ) ; ssSetInputPortIsNotDerivPort ( S , 2 , 1 ) ;
ssSetInputPortIsNotDerivPort ( S , 3 , 1 ) ; ssSetInputPortIsNotDerivPort ( S
, 4 , 1 ) ; ssSetInputPortIsNotDerivPort ( S , 5 , 1 ) ;
ssSetInputPortIsNotDerivPort ( S , 6 , 1 ) ; ssSetInputPortIsNotDerivPort ( S
, 7 , 1 ) ; ssSetModelReferenceSampleTimeInheritanceRule ( S ,
DISALLOW_SAMPLE_TIME_INHERITANCE ) ; ssSetOptimizeModelRefInitCode ( S , 1 )
; ssSetAcceptsFcnCallInputs ( S ) ; { static const char * inlinedVars [ ] = {
"EV_Param" , "brake_cmd_table" , "ctrlConst" , "decel_cmd_vec" ,
"regen_pwr_vec" } ; ssSetModelRefInlinedVars ( S , 5 , ( void * ) inlinedVars
) ; } ssSetModelReferenceNormalModeSupport ( S ,
MDL_START_AND_MDL_PROCESS_PARAMS_OK ) ; ssSupportsMultipleExecInstances ( S ,
FALSE ) ; ssRegisterMsgForNotSupportingMultiExecInst ( S ,
 "<diag_root><diag id=\"Simulink:blocks:ImplicitIterSS_SigObjExpStorageClassNotSupportedInside\"><arguments><arg type=\"numeric\">1</arg><arg type=\"encoded\">RQBWAF8AUAB3AHIAXwBNAGEAbgBhAGcAZQByAC8AUABvAHcAZQByAF8AQwBvAG4AdAByAG8AbAAvAEUAcgByAG8AcgAgAFMAdQBtAAAA</arg><arg type=\"encoded\">cABvAHcAZQByAF8AZQByAHIAbwByAAAA</arg><arg type=\"encoded\">PABfAF8AaQBpAFMAUwBfAF8APgA8AC8AXwBfAGkAaQBTAFMAXwBfAD4AAAA=</arg><arg type=\"encoded\">PABfAF8AaQB0AGUAcgBCAGwAawBfAF8APgA8AC8AXwBfAGkAdABlAHIAQgBsAGsAXwBfAD4AAAA=</arg></arguments></diag>\n</diag_root>"
) ; ssHasStateInsideForEachSS ( S , FALSE ) ; ssSetModelRefHasParforForEachSS
( S , FALSE ) ; ssSetModelRefHasVariantModelOrSubsystem ( S , FALSE ) ;
ssSetNumAsyncTs ( S , 0 ) ; ssSetOptions ( S , SS_OPTION_EXCEPTION_FREE_CODE
| SS_OPTION_DISALLOW_CONSTANT_SAMPLE_TIME |
SS_OPTION_SUPPORTS_ALIAS_DATA_TYPES | SS_OPTION_WORKS_WITH_CODE_REUSE ) ; if
( S -> mdlInfo -> genericFcn != ( NULL ) ) { ssRegModelRefChildModel ( S , 1
, childModels ) ; }
#if SS_SFCN_FOR_SIM
if ( S -> mdlInfo -> genericFcn != ( NULL ) && ssGetSimMode ( S ) !=
SS_SIMMODE_SIZES_CALL_ONLY ) { int_T retVal = 1 ;
mr_EV_Pwr_Manager_MdlInfoRegFcn ( S , "EV_Pwr_Manager" , & retVal ) ; if ( !
retVal ) return ; }
#endif
ssSetNumDWork ( S , 0 ) ; slmrSetHasNonVirtualConstantTs ( S , true ) ;
ssSetNeedAbsoluteTime ( S , 1 ) ; ssSetModelRefHasEnablePort ( S , 0 ) ; }