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ug::LognormalRandomField< TData, dim, TRet > Class Template Reference

#include <lognormal_random_field.h>

+ Inheritance diagram for ug::LognormalRandomField< TData, dim, TRet >:

Public Member Functions

std::string config_string () const
 
TRet evaluate (TData &D, const MathVector< dim > &x, number time, int si) const
 
 LognormalRandomField ()
 
 LognormalRandomField (size_t N, double mean_f, double sigma_f, double sigma)
 
void set_config (size_t N, double mean_f, double sigma_f, double sigma)
 
void set_no_exp ()
 
virtual ~LognormalRandomField ()
 
- Public Member Functions inherited from ug::StdGlobPosData< TImpl, TData, dim, TRet >
virtual void compute (LocalVector *u, GridObject *elem, const MathVector< dim > vCornerCoords[], bool bDeriv=false)
 implement as a UserData
 
virtual void compute (LocalVectorTimeSeries *u, GridObject *elem, const MathVector< dim > vCornerCoords[], bool bDeriv=false)
 implement as a UserData
 
virtual bool constant () const
 returns if data is constant
 
virtual bool continuous () const
 returns if provided data is continuous over geometric object boundaries
 
template<int refDim>
void evaluate (TData vValue[], const MathVector< dim > vGlobIP[], number time, int si, GridObject *elem, const MathVector< dim > vCornerCoords[], const MathVector< refDim > vLocIP[], const size_t nip, LocalVector *u, const MathMatrix< refDim, dim > *vJT=NULL) const
 
virtual TRet operator() (TData &value, const MathVector< dim > &globIP, number time, int si) const
 returns value for a global position
 
virtual void operator() (TData vValue[], const MathVector< dim > vGlobIP[], number time, int si, const size_t nip) const
 returns value for global positions
 
virtual bool requires_grid_fct () const
 returns if grid function is needed for evaluation
 
- Public Member Functions inherited from ug::StdUserData< TImpl, TData, dim, TRet, TBase >
virtual void operator() (TData vValue[], const MathVector< dim > vGlobIP[], number time, int si, GridObject *elem, const MathVector< dim > vCornerCoords[], const MathVector< 1 > vLocIP[], const size_t nip, LocalVector *u, const MathMatrix< 1, dim > *vJT=NULL) const
 
virtual void operator() (TData vValue[], const MathVector< dim > vGlobIP[], number time, int si, GridObject *elem, const MathVector< dim > vCornerCoords[], const MathVector< 2 > vLocIP[], const size_t nip, LocalVector *u, const MathMatrix< 2, dim > *vJT=NULL) const
 
virtual void operator() (TData vValue[], const MathVector< dim > vGlobIP[], number time, int si, GridObject *elem, const MathVector< dim > vCornerCoords[], const MathVector< 3 > vLocIP[], const size_t nip, LocalVector *u, const MathMatrix< 3, dim > *vJT=NULL) const
 
- Public Member Functions inherited from ug::CplUserData< TData, dim, TRet >
bool defined (size_t s, size_t ip) const
 returns flag, if data is evaluated (for conditional data)
 
size_t num_ip (size_t s) const
 returns the number of integration points
 
size_t num_series () const
 explicitly forward some functions
 
void register_storage_callback (DataImport< TData, dim > *obj, void(DataImport< TData, dim >::*func)())
 register external callback, invoked when data storage changed
 
void unregister_storage_callback (DataImport< TData, dim > *obj)
 register all callbacks registered by class
 
TData & value (size_t s, size_t ip)
 returns the value at ip
 
const TData & value (size_t s, size_t ip) const
 returns the value at ip
 
TData * values (size_t s)
 returns all values for a series
 
const TData * values (size_t s) const
 returns all values for a series
 
 ~CplUserData ()
 destructor
 
- Public Member Functions inherited from ug::ICplUserData< dim >
bool at_current_time (size_t s) const
 returns true iff the time point specification is equal to the current one, or not specified
 
virtual void check_setup () const
 returns if the dependent data is ready for evaluation
 
void clear ()
 clear all data
 
int dim_local_ips () const
 returns current local ip dimension
 
 ICplUserData ()
 default constructor
 
const MathVector< dim > & ip (size_t s, size_t ip) const
 returns global ip
 
const MathVector< dim > * ips (size_t s) const
 returns global ips
 
template<int ldim>
const MathVector< ldim > & local_ip (size_t s, size_t ip) const
 returns local ip
 
template<int ldim>
const MathVector< ldim > * local_ips (size_t s) const
 returns local ips
 
virtual SmartPtr< ICplUserDataneeded_data (size_t i)
 return needed data
 
size_t num_ip (size_t s) const
 returns the number of integration points
 
virtual size_t num_needed_data () const
 number of other Data this data depends on
 
size_t num_series () const
 returns the number of ip series
 
template<int ldim>
size_t register_local_ip_series (const MathVector< ldim > *vPos, const size_t numIP, bool bMayChange=true)
 set local positions without the specification of the time point, returns series id
 
template<int ldim>
size_t register_local_ip_series (const MathVector< ldim > *vPos, const size_t numIP, const int timePointSpec, bool bMayChange=true)
 set local positions, returns series id
 
void set_global_ips (size_t s, const MathVector< dim > *vPos, size_t numIP)
 set global positions
 
template<int ldim>
void set_local_ips (const size_t seriesId, const MathVector< ldim > *vPos, const size_t numIP)
 sets new local ip positions for a local ip series
 
void set_subset (int si)
 set the subset of evaluation
 
void set_time_point (const size_t seriesId, const int timePointSpec)
 sets a new time point for a local ip series
 
void set_time_point (size_t timePoint)
 sets the current time point
 
void set_times (const std::vector< number > &vTime)
 set evaluation time
 
int subset () const
 returns the subset of evaluation
 
number time () const
 get the current evaluation time
 
number time (size_t s) const
 get the specified evaluation time
 
size_t time_point ()
 returns the current time point
 
size_t time_point (size_t s) const
 returns the time point specification (in particular, the current one, if the own one not specified)
 
int time_point_specification (size_t s) const
 returns the time point specification (note: it may be -1, i.e. not specified)
 
virtual void update_dof_sizes (const LocalIndices &ind)
 resize arrays
 
virtual bool zero_derivative () const
 returns if data depends on solution
 
virtual ~ICplUserData ()
 virtual desctructor
 
- Public Member Functions inherited from ug::UserDataInfo
const FunctionGroupfunction_group () const
 Function Group of functions.
 
const FunctionIndexMappingmap () const
 get function mapping
 
size_t num_fct () const
 number of functions this export depends on
 
const char * obj_name ()
 gets the name of the object (s. the field m_objName)
 
virtual void set_function_pattern (ConstSmartPtr< FunctionPattern > fctPatt)
 sets the function pattern for a possibly needed grid function
 
void set_obj_name (const char *name)
 sets the name of the object (s. the field m_objName)
 
virtual ~UserDataInfo ()
 virtual destructor
 
- Public Member Functions inherited from ug::UserData< TData, dim, TRet >
int get_dim () const
 returns dimension
 
virtual void operator() (TData &value, const MathVector< dim > &globIP, number time, int si, Vertex *vrt) const
 returns a value at a vertex
 
std::string type () const
 returns type of data as string (e.g. "Number", "Vector", "Matrix")
 
TRet operator() (TData &value, const MathVector< dim > &globIP, number time, int si, GridObject *elem, const MathVector< dim > vCornerCoords[], const MathVector< 1 > &locIP, LocalVector *u) const
 
TRet operator() (TData &value, const MathVector< dim > &globIP, number time, int si, GridObject *elem, const MathVector< dim > vCornerCoords[], const MathVector< 2 > &locIP, LocalVector *u) const
 
TRet operator() (TData &value, const MathVector< dim > &globIP, number time, int si, GridObject *elem, const MathVector< dim > vCornerCoords[], const MathVector< 3 > &locIP, LocalVector *u) const
 

Private Member Functions

double eval_K (const MathVector< dim > &x) const
 
double gasdev ()
 
double undev ()
 

Private Attributes

bool m_bNoExp
 
double m_dMean_f
 
double m_dSigma
 
double m_dSigma_f
 
double m_N
 
MathVector< dim > m_sigma
 
std::vector< double > m_vRandomAlpha
 
std::vector< MathVector< dim > > m_vRandomQvec
 

Additional Inherited Members

- Public Types inherited from ug::CplUserData< TData, dim, TRet >
typedef ICplUserData< dim > base_type
 type of base class
 
- Public Types inherited from ug::UserData< TData, dim, TRet >
typedef TData data_type
 
typedef TRet return_type
 
- Protected Member Functions inherited from ug::StdGlobPosData< TImpl, TData, dim, TRet >
TImpl & getImpl ()
 access to implementation
 
const TImpl & getImpl () const
 const access to implementation
 
- Protected Member Functions inherited from ug::StdUserData< TImpl, TData, dim, TRet, TBase >
TImpl & getImpl ()
 access to implementation
 
const TImpl & getImpl () const
 const access to implementation
 
- Protected Member Functions inherited from ug::CplUserData< TData, dim, TRet >
void call_storage_callback () const
 calls are registered external storage callbacks
 
void check_series (size_t s) const
 checks in debug mode the correct index
 
void check_series_ip (size_t s, size_t ip) const
 checks in debug mode the correct index
 
virtual void local_ip_series_added (const size_t seriesID)
 resizes the data field, when local ip changed signaled
 
virtual void local_ip_series_to_be_cleared ()
 free the data field memory and set series to zero
 
virtual void local_ips_changed (const size_t seriesID, const size_t newNumIP)
 implement callback, called when local IPs changed
 
virtual void value_storage_changed (const size_t seriesID)
 callback, invoked when storage of data has changed for a series
 
- Protected Member Functions inherited from ug::ICplUserData< dim >
void check_s (size_t s) const
 checks in debug mode the correct usage of indices
 
void check_s_ip (size_t s, size_t ip) const
 checks in debug mode the correct usage of indices
 
std::vector< const MathVector< 1 > * > & get_local_ips (Int2Type< 1 >)
 help function to get local ips
 
const std::vector< const MathVector< 1 > * > & get_local_ips (Int2Type< 1 >) const
 
std::vector< const MathVector< 2 > * > & get_local_ips (Int2Type< 2 >)
 
const std::vector< const MathVector< 2 > * > & get_local_ips (Int2Type< 2 >) const
 
std::vector< const MathVector< 3 > * > & get_local_ips (Int2Type< 3 >)
 
const std::vector< const MathVector< 3 > * > & get_local_ips (Int2Type< 3 >) const
 
virtual void global_ips_changed (const size_t seriesID, const MathVector< dim > *vPos, const size_t numIP)
 callback invoked after global ips have been changed
 
- Protected Attributes inherited from ug::ICplUserData< dim >
int m_defaultTimePoint
 default time point (or -1 if not specified)
 
int m_locPosDim
 dimension of local position (-1 indicates no dim set)
 
std::vector< const MathVector< 1 > * > m_pvLocIP1d
 local ips of dimension 1d-3d
 
std::vector< const MathVector< 2 > * > m_pvLocIP2d
 
std::vector< const MathVector< 3 > * > m_pvLocIP3d
 
int m_si
 subset for evaluation
 
size_t m_timePoint
 current time point (used if no explicit specification for series)
 
std::vector< bool > m_vMayChange
 flags if local ips may change
 
std::vector< size_t > m_vNumIP
 number of evaluation points (-1 indicates no ips set)
 
std::vector< numberm_vTime
 time for evaluation
 
std::vector< int > m_vTimePoint
 time points for the series
 
std::vector< const MathVector< dim > * > m_vvGlobPos
 global ips
 
- Protected Attributes inherited from ug::UserDataInfo
FunctionGroup m_fctGrp
 functions the data depends on
 
FunctionIndexMapping m_map
 Mapping for import fct.
 
SmartPtr< char > m_objName
 This field is used mainly for debugging: One can assign a name to the object to identify it when running.
 

Constructor & Destructor Documentation

◆ LognormalRandomField() [1/2]

template<typename TData , int dim, typename TRet = void>
ug::LognormalRandomField< TData, dim, TRet >::LognormalRandomField ( )
inline

References ug::LognormalRandomField< TData, dim, TRet >::m_bNoExp, and ug::LognormalRandomField< TData, dim, TRet >::set_config().

◆ LognormalRandomField() [2/2]

template<typename TData , int dim, typename TRet = void>
ug::LognormalRandomField< TData, dim, TRet >::LognormalRandomField ( size_t  N,
double  mean_f,
double  sigma_f,
double  sigma 
)
inline

References ug::LognormalRandomField< TData, dim, TRet >::m_bNoExp, and ug::LognormalRandomField< TData, dim, TRet >::set_config().

◆ ~LognormalRandomField()

template<typename TData , int dim, typename TRet = void>
virtual ug::LognormalRandomField< TData, dim, TRet >::~LognormalRandomField ( )
inlinevirtual

Member Function Documentation

◆ config_string()

template<typename TData , int dim, typename TRet >
std::string ug::LognormalRandomField< TData, dim, TRet >::config_string ( ) const

References ug::TrueFalseString().

◆ eval_K()

template<typename TData , int dim, typename TRet >
double ug::LognormalRandomField< TData, dim, TRet >::eval_K ( const MathVector< dim > &  x) const
private

References ug::VecDot().

◆ evaluate()

template<typename TData , int dim, typename TRet >
TRet ug::LognormalRandomField< TData, dim, TRet >::evaluate ( TData &  D,
const MathVector< dim > &  x,
number  time,
int  si 
) const
inline

◆ gasdev()

template<typename TData , int dim, typename TRet >
double ug::LognormalRandomField< TData, dim, TRet >::gasdev ( )
private

References ug::urand().

◆ set_config()

template<typename TData , int dim, typename TRet >
void ug::LognormalRandomField< TData, dim, TRet >::set_config ( size_t  N,
double  mean_f,
double  sigma_f,
double  sigma 
)

Referenced by ug::LognormalRandomField< TData, dim, TRet >::LognormalRandomField(), and ug::LognormalRandomField< TData, dim, TRet >::LognormalRandomField().

◆ set_no_exp()

template<typename TData , int dim, typename TRet = void>
void ug::LognormalRandomField< TData, dim, TRet >::set_no_exp ( )
inline

References ug::LognormalRandomField< TData, dim, TRet >::m_bNoExp.

◆ undev()

template<typename TData , int dim, typename TRet >
double ug::LognormalRandomField< TData, dim, TRet >::undev ( )
private

References ug::urand().

Member Data Documentation

◆ m_bNoExp

template<typename TData , int dim, typename TRet = void>
bool ug::LognormalRandomField< TData, dim, TRet >::m_bNoExp
private

Referenced by ug::LognormalRandomField< TData, dim, TRet >::LognormalRandomField(), ug::LognormalRandomField< TData, dim, TRet >::LognormalRandomField(), and ug::LognormalRandomField< TData, dim, TRet >::set_no_exp().

◆ m_dMean_f

template<typename TData , int dim, typename TRet = void>
double ug::LognormalRandomField< TData, dim, TRet >::m_dMean_f
private

◆ m_dSigma

template<typename TData , int dim, typename TRet = void>
double ug::LognormalRandomField< TData, dim, TRet >::m_dSigma
private

◆ m_dSigma_f

template<typename TData , int dim, typename TRet = void>
double ug::LognormalRandomField< TData, dim, TRet >::m_dSigma_f
private

◆ m_N

template<typename TData , int dim, typename TRet = void>
double ug::LognormalRandomField< TData, dim, TRet >::m_N
private

◆ m_sigma

template<typename TData , int dim, typename TRet = void>
MathVector<dim> ug::LognormalRandomField< TData, dim, TRet >::m_sigma
private

◆ m_vRandomAlpha

template<typename TData , int dim, typename TRet = void>
std::vector<double> ug::LognormalRandomField< TData, dim, TRet >::m_vRandomAlpha
private

◆ m_vRandomQvec

template<typename TData , int dim, typename TRet = void>
std::vector<MathVector<dim> > ug::LognormalRandomField< TData, dim, TRet >::m_vRandomQvec
private
The documentation for this class was generated from the following files: