aGrUM 3.0.0
a C++ library for (probabilistic) graphical models
gum::MultiDimNoisyAND< GUM_SCALAR > Class Template Referencefinalabstract

Noisy AND representation. More...

#include <agrum/base/multidim/ICIModels/multiDimNoisyAND.h>

Inheritance diagram for gum::MultiDimNoisyAND< GUM_SCALAR >:
Collaboration diagram for gum::MultiDimNoisyAND< GUM_SCALAR >:

Public Member Functions

MultiDimContainer< GUM_SCALAR > * newFactory () const override
 This method creates a clone of this object, withouth its content (including variable), you must use this method if you want to ensure that the generated object has the same type than the object containing the called newFactory().
Constructors / Destructors
 MultiDimNoisyAND (GUM_SCALAR external_weight, GUM_SCALAR default_weight=(GUM_SCALAR) 1.0)
 Default constructor.
 MultiDimNoisyAND (const MultiDimNoisyAND< GUM_SCALAR > &from)
 Default constructor.
 MultiDimNoisyAND (const Bijection< const DiscreteVariable *, const DiscreteVariable * > &bij, const MultiDimNoisyAND< GUM_SCALAR > &from)
 Copy constructor using a bijection to swap variables from source.
 ~MultiDimNoisyAND () override
 Destructor.
Accessors / Modifiers
GUM_SCALAR get (const Instantiation &i) const override
 Returns the real name of the multiDimArray.
std::string toString () const override
 Returns the real name of the multiDimArray.
const std::string & name () const override
 Returns the real name of the multiDimArray.
Slave management and extension due to slave management
virtual std::string toString (const Instantiation *i) const =0
 Return a string representation of internal data about i in this.
Various methods.
std::string toString (const Instantiation *i) const override=0
 Display the internal representation of i.
bool operator== (const MultiDimContainer< GUM_SCALAR > &p) const
 Test if this MultiDimContainer is equal to p.
virtual void apply (std::function< GUM_SCALAR(GUM_SCALAR) > f) const
 Apply a function on every element of the container.
virtual GUM_SCALAR reduce (std::function< GUM_SCALAR(GUM_SCALAR, GUM_SCALAR) > f, GUM_SCALAR base) const
 compute lfold for this container
Accessors / Modifiers
void changeNotification (const gum::Instantiation &, const gum::DiscreteVariable *const, gum::Idx, gum::Idx) override
 Copy of a multiDimICIModel.
void setFirstNotification (const gum::Instantiation &) override
 Copy of a multiDimICIModel.
void setLastNotification (const gum::Instantiation &) override
 Copy of a multiDimICIModel.
void setIncNotification (const gum::Instantiation &) override
 Copy of a multiDimICIModel.
void setDecNotification (const gum::Instantiation &) override
 Copy of a multiDimICIModel.
void setChangeNotification (const gum::Instantiation &) override
 Copy of a multiDimICIModel.
void copyFrom (const MultiDimContainer< GUM_SCALAR > &src) const override
 Copy of a multiDimICIModel.
Size realSize () const override
GUM_SCALAR causalWeight (const DiscreteVariable &v) const
 Copy of a multiDimICIModel.
GUM_SCALAR externalWeight () const
 Copy of a multiDimICIModel.
Copy methods.
virtual void copyFrom (const MultiDimContainer< GUM_SCALAR > &src, Instantiation *p_i) const
 Basic copy of a MultiDimContainer.
virtual void extractFrom (const MultiDimContainer< GUM_SCALAR > &src, const Instantiation &mask)
 Basic extraction of a MultiDimContainer.
MultiDimAdressablegetMasterRef () override
 In order to insure the dereference for decorators, we need to virtualize the access to master pointer.
const MultiDimAdressablegetMasterRef () const override
 In order to insure the dereference for decorators, we need to virtualize the access to master pointer.
virtual void copy (const MultiDimContainer< GUM_SCALAR > &src)
 Removes all variables in this MultiDimContainer and copy the content of src, variables included.
Accessors / Modifiers
void set (const Instantiation &i, const GUM_SCALAR &value) const override
void fill (const GUM_SCALAR &) const override
Accessors / Modifiers
virtual void fill (const GUM_SCALAR &d) const=0
 Fill the table with d.
GUM_SCALAR operator[] (const Instantiation &i) const
 An [] operator using a Instantiation as argument.
virtual void populate (const std::vector< GUM_SCALAR > &v) const
 Automatically fills this MultiDimContainer with the values in v.
virtual void populate (std::initializer_list< GUM_SCALAR > l) const
 Automatically fills this MultiDimContainer with the values in l.
Accessors / Modifiers
const std::string & basename () const
 Returns the base class name of this MultiDimImplementation.
float compressionRate () const
 The compression ratio of the table (depending on the type of implementation).
virtual const GUM_SCALAR * data () const noexcept
 Returns a pointer to the contiguous data buffer, or nullptr if the implementation does not store data contiguously.
virtual GUM_SCALAR * data () noexcept
 Returns a mutable pointer to the contiguous data buffer, or nullptr if the implementation does not store data contiguously.
MultiDimInterface implementation
Idx nbrDim () const override
 Returns the number of vars in the multidimensional container.
Size domainSize () const override
 Returns the product of the variables domain size.
void add (const DiscreteVariable &v) override
 Adds a new var to the variables of the multidimensional matrix.
void erase (const DiscreteVariable &v) override
 Removes a var from the variables of the multidimensional matrix.
const Sequence< const DiscreteVariable * > & variablesSequence () const override
 Returns a const ref to the sequence of DiscreteVariable*.
const DiscreteVariablevariable (Idx i) const override
 Returns a const ref to the ith var.
const DiscreteVariablevariable (std::string_view name) const override
 Returns the variable with the name.
Idx pos (const DiscreteVariable &v) const override
 Returns the index of a variable.
bool contains (const DiscreteVariable &v) const override
 Returns true if var is in *this.
bool empty () const override
 Returns true if no var is in *this.
MultiDimAdressable implementation
bool registerSlave (Instantiation &slave) override
 Register i as a slave of this MultiDimAdressable.
bool unregisterSlave (Instantiation &slave) override
 Unregister i as a slave of this MultiDimAdressable.
MultiDimContainer implementation
void beginMultipleChanges () override
 Call this method before doing important changes in this MultiDimContainer.
void endMultipleChanges () override
 Call this method after doing important changes in this MultiDimContainer.
void endMultipleChanges (const GUM_SCALAR &) override
 Call this method after doing important changes in this MultiDimContainer.
Accessors / Modifiers
void replace (const DiscreteVariable &x, const DiscreteVariable &y)
 Replace variables in this multidim.

Protected Member Functions

void replace_ (const DiscreteVariable *x, const DiscreteVariable *y) override
 This is called by MultiDimContainer::replace() to proceed with the replacing between x and y.
GUM_SCALAR & get_ (const Instantiation &i) const override
const MultiDimImplementation< GUM_SCALAR > * content () const final
 Returns the implementation for this object (may be *this).
MultiDimImplementation< GUM_SCALAR > * content () final
 Returns the implementation for this object (may be *this).
Fast large modifications in structures
virtual void commitMultipleChanges_ ()
 Synchronize content after MultipleChanges.
virtual void commitMultipleChanges_ (const GUM_SCALAR &value)
 Synchronize content after MultipleChanges.
bool isInMultipleChangeMethod_ () const
 Get the actual change method of this MultiDimImplementation.
bool isCommitNeeded_ () const
 Get the actual state of *this.
const List< Instantiation * > & slaves_ () const
 Returns a constant reference over the list of slaved instantiations.
virtual void invert_ (Idx p1, Idx p2)
 Inverts variables at position p1 and p2.

Protected Attributes

GUM_SCALAR _external_weight_
 \( p_0 \) in Henrion (89).
causal weights
GUM_SCALAR _default_weight_
 \( P(e | c_i) \) in Henrion (89) in a hashtable with a default_value.
HashTable< const DiscreteVariable *, GUM_SCALAR > _causal_weights_
 \( P(e | c_i) \) in Henrion (89) in a hashtable with a default_value.

Private Types

enum  _InternalChangeMethod_
 Used to represent in which change method this MultiDimImplementation is. More...
enum  _InternalChangeState_
 Used to represent in which change state this MultiDimImplementation is. More...

Private Member Functions

void _setNotCommitedChange_ ()
 Change the internalChangeState to NOT_COMMITTED_CHANGE.

Private Attributes

Sequence< const DiscreteVariable * > _vars_
 List of discrete variables (dimensions).
List< Instantiation * > _slaveInstantiations_
 List of instantiations of the tuples (sequences) of variables.
_InternalChangeMethod_ _internalChangeMethod_
 The current change method.
_InternalChangeState_ _internalChangeState_
 The current change state.
Size _domainSize_
 This MultiDimImplementation domain size.

Detailed Description

template<GUM_Numeric GUM_SCALAR>
class gum::MultiDimNoisyAND< GUM_SCALAR >

Noisy AND representation.

Noisy-AND as described for instance in (ECAI-14, 2000, Galan and Diez)

Warning
  • The first variable is assumed to be the NOISY-AND. The latter are the causes.
  • This code give probabilities for BINARY VARIABLES (other values are assumed to be of probability 0). But for optimization reason, we will never check if it is the case.

Definition at line 75 of file multiDimNoisyAND.h.

Member Enumeration Documentation

◆ _InternalChangeMethod_

enum gum::MultiDimImplementation::_InternalChangeMethod_ : char
strongprivateinherited

Used to represent in which change method this MultiDimImplementation is.

Definition at line 317 of file multiDimImplementation.h.

317: char { DIRECT_CHANGE, MULTIPLE_CHANGE };

◆ _InternalChangeState_

enum gum::MultiDimImplementation::_InternalChangeState_ : char
strongprivateinherited

Used to represent in which change state this MultiDimImplementation is.

Definition at line 320 of file multiDimImplementation.h.

320: char { NO_CHANGE, NOT_COMMITTED_CHANGE };

Constructor & Destructor Documentation

◆ MultiDimNoisyAND() [1/3]

template<GUM_Numeric GUM_SCALAR>
gum::MultiDimNoisyAND< GUM_SCALAR >::MultiDimNoisyAND ( GUM_SCALAR external_weight,
GUM_SCALAR default_weight = (GUM_SCALAR)1.0 )

Default constructor.

Exceptions
gum::InvalidArgumentif external_weight is null.

Definition at line 58 of file multiDimNoisyAND_tpl.h.

59 :
61 if (external_weight == 0) {
62 GUM_ERROR(InvalidArgument, "external weight can not be null for a NoisyAND")
63 }
64
66 }
Noisy AND representation.
MultiDimNoisyAND(GUM_SCALAR external_weight, GUM_SCALAR default_weight=(GUM_SCALAR) 1.0)
Default constructor.
#define GUM_ERROR(type, msg)
Definition exceptions.h:76

References gum::MultiDimICIModel< GUM_SCALAR >::MultiDimICIModel(), MultiDimNoisyAND(), and GUM_ERROR.

Referenced by MultiDimNoisyAND(), MultiDimNoisyAND(), MultiDimNoisyAND(), ~MultiDimNoisyAND(), and newFactory().

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◆ MultiDimNoisyAND() [2/3]

template<GUM_Numeric GUM_SCALAR>
gum::MultiDimNoisyAND< GUM_SCALAR >::MultiDimNoisyAND ( const MultiDimNoisyAND< GUM_SCALAR > & from)

Default constructor.

Exceptions
gum::InvalidArgumentif external_weight is null.

Definition at line 70 of file multiDimNoisyAND_tpl.h.

References gum::MultiDimICIModel< GUM_SCALAR >::MultiDimICIModel(), and MultiDimNoisyAND().

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◆ MultiDimNoisyAND() [3/3]

template<GUM_Numeric GUM_SCALAR>
gum::MultiDimNoisyAND< GUM_SCALAR >::MultiDimNoisyAND ( const Bijection< const DiscreteVariable *, const DiscreteVariable * > & bij,
const MultiDimNoisyAND< GUM_SCALAR > & from )

Copy constructor using a bijection to swap variables from source.

Parameters
bijFirst variables are new variables, seconds are in from.
fromthe copied instance

Definition at line 77 of file multiDimNoisyAND_tpl.h.

References gum::MultiDimICIModel< GUM_SCALAR >::MultiDimICIModel(), and MultiDimNoisyAND().

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◆ ~MultiDimNoisyAND()

template<GUM_Numeric GUM_SCALAR>
gum::MultiDimNoisyAND< GUM_SCALAR >::~MultiDimNoisyAND ( )
override

Destructor.

Definition at line 85 of file multiDimNoisyAND_tpl.h.

References MultiDimNoisyAND().

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Member Function Documentation

◆ _setNotCommitedChange_()

void gum::MultiDimImplementation< GUM_SCALAR >::_setNotCommitedChange_ ( )
privateinherited

Change the internalChangeState to NOT_COMMITTED_CHANGE.

Definition at line 334 of file multiDimImplementation_tpl.h.

286 {
288 }
abstract class for Conditional Indepency Models

◆ add()

void gum::MultiDimImplementation< GUM_SCALAR >::add ( const DiscreteVariable & v)
overrideinherited

Adds a new var to the variables of the multidimensional matrix.

See also
operator<<(MultiDimInterface& c, const DiscreteVariable& v)
Warning
Note that the variable passed in argument is not duplicated, that is, only a pointer toward the variable is kept by the MultiDimInterface.
Parameters
vThe new var.
Exceptions
DuplicateElementRaised if the variable already belongs to the sequence of variables.
OperationNotAllowedRaised if this object is non mutable.

Definition at line 195 of file multiDimImplementation_tpl.h.

95 {
96 // check if the variable already belongs to the tuple of variables
97 // of the Instantiation
98 if (_vars_.exists(&v)) {
99 GUM_ERROR(DuplicateElement, "Var " << v.name() << " already exists in this instantiation")
100 }
101 for (const auto& w: _vars_) {
102 if (w->name() == v.name())
104 "A var with name '" << v.name() << "' already exists in this instantiation");
105 }
106
108 GUM_ERROR(OutOfBounds, "adding variable '" << v.name() << "' would overflow domainSize")
109 }
111
112 _vars_.insert(&v);
113
114 // informs all the slaves that they have to update themselves
116 iter != _slaveInstantiations_.endSafe();
117 ++iter) {
118 (*iter)->addWithMaster(this, v);
119 }
120
122 }
const std::string & name() const override
returns the real name of the multiDimArray
Size domainSize() const override
Returns the product of the variables domain size.

◆ apply()

void gum::MultiDimContainer< GUM_SCALAR >::apply ( std::function< GUM_SCALAR(GUM_SCALAR) > f) const
virtualinherited

Apply a function on every element of the container.

Parameters
fthe function to apply

Definition at line 365 of file multiDimContainer_tpl.h.

200 {
201 Instantiation i(*this);
202 for (i.setFirst(); !i.end(); ++i) {
203 set(i, f(get(i)));
204 }
205 }

◆ basename()

const std::string & gum::MultiDimImplementation< GUM_SCALAR >::basename ( ) const
inherited

Returns the base class name of this MultiDimImplementation.

This method is used for chosing a proposer operator when no specialized operator have been defined.

Definition at line 135 of file multiDimImplementation_tpl.h.

298 {
299 static const std::string str = "MultiDimImplementation";
300 return str;
301 }

◆ beginMultipleChanges()

void gum::MultiDimImplementation< GUM_SCALAR >::beginMultipleChanges ( )
overrideinherited

Call this method before doing important changes in this MultiDimContainer.

Warning
Remember to call endMultipleChanges() when you finish your changes.

Definition at line 230 of file multiDimImplementation_tpl.h.

◆ causalWeight()

GUM_SCALAR gum::MultiDimICIModel< GUM_SCALAR >::causalWeight ( const DiscreteVariable & v) const
inherited

Copy of a multiDimICIModel.

This method is virtual because it should be optimized in certain MultiDimContainer.

Exceptions
OperationNotAllowedRaised if src does not have the same domain size than this MultiDimContainer.

Definition at line 154 of file multiDimICIModel_tpl.h.

107 {
108 auto p = _causal_weights_.tryGet(&v);
109 return p ? *p : _default_weight_;
110 }

References _causal_weights_, and variable().

Referenced by gum::MultiDimLogit< GUM_SCALAR >::get(), gum::MultiDimNoisyAND< GUM_SCALAR >::get(), gum::MultiDimNoisyORCompound< GUM_SCALAR >::get(), gum::MultiDimNoisyORNet< GUM_SCALAR >::get(), gum::MultiDimLogit< GUM_SCALAR >::toString(), gum::MultiDimNoisyAND< GUM_SCALAR >::toString(), gum::MultiDimNoisyORCompound< GUM_SCALAR >::toString(), and gum::MultiDimNoisyORNet< GUM_SCALAR >::toString().

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◆ changeNotification()

void gum::MultiDimICIModel< GUM_SCALAR >::changeNotification ( const gum::Instantiation & ,
const gum::DiscreteVariable * const ,
gum::Idx ,
gum::Idx  )
overridevirtualinherited

Copy of a multiDimICIModel.

This method is virtual because it should be optimized in certain MultiDimContainer.

Exceptions
OperationNotAllowedRaised if src does not have the same domain size than this MultiDimContainer.

Implements gum::MultiDimAdressable.

Definition at line 120 of file multiDimICIModel_tpl.h.

181 {}

References _causal_weights_.

◆ commitMultipleChanges_() [1/2]

void gum::MultiDimImplementation< GUM_SCALAR >::commitMultipleChanges_ ( )
protectedvirtualinherited

Synchronize content after MultipleChanges.

Definition at line 247 of file multiDimImplementation_tpl.h.

257 {
258 // empty!
259 }

◆ commitMultipleChanges_() [2/2]

void gum::MultiDimImplementation< GUM_SCALAR >::commitMultipleChanges_ ( const GUM_SCALAR & value)
protectedvirtualinherited

Synchronize content after MultipleChanges.

Parameters
valueDefault value for uninitialized values.

Definition at line 253 of file multiDimImplementation_tpl.h.

262 {
263 // empty!
264 }

◆ compressionRate()

float gum::MultiDimImplementation< GUM_SCALAR >::compressionRate ( ) const
inherited

The compression ratio of the table (depending on the type of implementation).

This method uses domainSize() and realSize() to compute the ratio, both methods are virtual and should be surcharge if a subclass has a special policies about memory management.

Warning
This compression ratio is not exactly the memory compression ratio. It is computed in terms of number of parameters.
Returns
Returns the compression ration of the table.

Definition at line 162 of file multiDimImplementation_tpl.h.

292 {
293 return ((float)1) - (float)realSize() / (float)domainSize();
294 }

◆ contains()

bool gum::MultiDimImplementation< GUM_SCALAR >::contains ( const DiscreteVariable & v) const
overrideinherited

Returns true if var is in *this.

Parameters
vA DiscreteVariable.
Returns
Returns true if var is in *this.

Definition at line 206 of file multiDimImplementation_tpl.h.

212 {
213 return _vars_.exists(&v);
214 }

◆ content() [1/2]

const MultiDimImplementation< GUM_SCALAR > * gum::MultiDimImplementation< GUM_SCALAR >::content ( ) const
finalprotectedinherited

Returns the implementation for this object (may be *this).

Definition at line 302 of file multiDimImplementation_tpl.h.

335 {
336 return this;
337 }

◆ content() [2/2]

MultiDimImplementation< GUM_SCALAR > * gum::MultiDimImplementation< GUM_SCALAR >::content ( )
finalprotectedinherited

Returns the implementation for this object (may be *this).

Definition at line 307 of file multiDimImplementation_tpl.h.

328 {
329 return this;
330 }

◆ copy()

void gum::MultiDimContainer< GUM_SCALAR >::copy ( const MultiDimContainer< GUM_SCALAR > & src)
virtualinherited

Removes all variables in this MultiDimContainer and copy the content of src, variables included.

Parameters
srcThe MultiDimContainer to copy.

Definition at line 314 of file multiDimContainer_tpl.h.

284 {
285 this->beginMultipleChanges();
286
287 Size nbr = this->nbrDim();
288
289 for (Idx i = 0; i < nbr; i++) {
290 this->erase(this->variable(0));
291 }
292
293 for (Idx i = 0; i < src.nbrDim(); i++) {
294 this->add(src.variable(i));
295 }
296
297 this->endMultipleChanges();
298 this->copyFrom(src);
299 }
void copyFrom(const MultiDimContainer< GUM_SCALAR > &src) const override
void erase(const DiscreteVariable &v) override
void add(const DiscreteVariable &v) override
const DiscreteVariable & variable(Idx i) const override

◆ copyFrom() [1/2]

void gum::MultiDimICIModel< GUM_SCALAR >::copyFrom ( const MultiDimContainer< GUM_SCALAR > & src) const
overridevirtualinherited

Copy of a multiDimICIModel.

This method is virtual because it should be optimized in certain MultiDimContainer.

Exceptions
OperationNotAllowedRaised if src does not have the same domain size than this MultiDimContainer.

Reimplemented from gum::MultiDimContainer< GUM_SCALAR >.

Definition at line 146 of file multiDimICIModel_tpl.h.

146 {
147 if (auto p = dynamic_cast< const MultiDimICIModel< GUM_SCALAR >* >(&src)) {
148 if (src.domainSize() != this->domainSize()) {
149 GUM_ERROR(OperationNotAllowed, "Domain sizes do not fit")
150 }
153 for (Idx i = 1; i < this->nbrDim(); i++) {
154 _causal_weights_.set(const_cast< const DiscreteVariable* >(&this->variable(i)),
156 }
157 } else {
159 }
160 }
virtual void copyFrom(const MultiDimContainer< GUM_ELEMENT > &src) const
Basic copy of a MultiDimContainer.
GUM_ELEMENT _external_weight_
in Henrion (89).
GUM_ELEMENT _default_weight_
in Henrion (89) in a hashtable with a default_value.
GUM_ELEMENT causalWeight(const DiscreteVariable &v) const
Copy of a multiDimICIModel.
void set(const Instantiation &i, const GUM_ELEMENT &value) const override

◆ copyFrom() [2/2]

void gum::MultiDimContainer< GUM_SCALAR >::copyFrom ( const MultiDimContainer< GUM_SCALAR > & src,
Instantiation * p_i ) const
virtualinherited

Basic copy of a MultiDimContainer.

This method is virtual because it should be optimized in certain MultiDimContainer.

Parameters
srcThe MultiDimContainer src which values are copied.
p_iGive the order to iterate in this MultiDimContainer during the copy (nullptr will correctly copy if this is a reorganization of src).
Exceptions
OperationNotAllowedRaised if src does not have the same domain size than this MultiDimContainer.

Definition at line 266 of file multiDimContainer_tpl.h.

221 {
222 if (src.domainSize() != domainSize()) {
224 "Domain sizes do not fit : " << src.domainSize() << "!=" << domainSize());
225 }
226
227 if (p_i == nullptr) { // if null, we just follow the same order
229 for (i.setFirst(); !i.end(); ++i) {
230 set(i, src[i]);
231 }
232 } else {
233 Instantiation i_dest(*this);
235 for (i_dest.setFirst(), i_src.setFirst(); !i_dest.end(); i_dest.incIn(*p_i), ++i_src) {
236 set(i_dest, src[i_src]);
237 }
238 }
239 }

◆ data() [1/2]

const GUM_SCALAR * gum::MultiDimImplementation< GUM_SCALAR >::data ( ) const
virtualnoexceptinherited

Returns a pointer to the contiguous data buffer, or nullptr if the implementation does not store data contiguously.

Subclasses backed by a contiguous array (e.g. MultiDimArray) override this to expose direct memory access, enabling zero-copy interop with external libraries such as NumPy.

Returns
Pointer to the first element of the contiguous buffer, or nullptr.

Definition at line 175 of file multiDimImplementation_tpl.h.

340 {
341 return nullptr;
342 }

◆ data() [2/2]

GUM_SCALAR * gum::MultiDimImplementation< GUM_SCALAR >::data ( )
virtualnoexceptinherited

Returns a mutable pointer to the contiguous data buffer, or nullptr if the implementation does not store data contiguously.

Returns
Pointer to the first element of the contiguous buffer, or nullptr.

Definition at line 184 of file multiDimImplementation_tpl.h.

345 {
346 return nullptr;
347 }

◆ domainSize()

Size gum::MultiDimImplementation< GUM_SCALAR >::domainSize ( ) const
overrideinherited

Returns the product of the variables domain size.

Returns
Returns the product of the variables domain size.

Definition at line 193 of file multiDimImplementation_tpl.h.

187 {
188 return _domainSize_;
189 }

◆ empty()

bool gum::MultiDimImplementation< GUM_SCALAR >::empty ( ) const
overrideinherited

Returns true if no var is in *this.

Returns
Returns true if no var is in *this.

Definition at line 208 of file multiDimImplementation_tpl.h.

226 {
227 GUM_ASSERT(!this->isCommitNeeded_());
228 return _vars_.empty();
229 }
bool empty() const override
Returns true if no var is in *this.

◆ endMultipleChanges() [1/2]

void gum::MultiDimImplementation< GUM_SCALAR >::endMultipleChanges ( )
overrideinherited

◆ endMultipleChanges() [2/2]

void gum::MultiDimImplementation< GUM_SCALAR >::endMultipleChanges ( const GUM_SCALAR & x)
overrideinherited

◆ erase()

void gum::MultiDimImplementation< GUM_SCALAR >::erase ( const DiscreteVariable & v)
overrideinherited

Removes a var from the variables of the multidimensional matrix.

See also
operator>>(MultiDimInterface& c, const DiscreteVariable& v)
Exceptions
OperationNotAllowedRaised if this object is non mutable.
NotFoundRaised if v does not belong to this.

Definition at line 197 of file multiDimImplementation_tpl.h.

127 {
128 // check that the variable does actually belong to the
129 // MultiDimImplementation
130 if (!_vars_.exists(&v)) { GUM_ERROR(NotFound, "Var does not exist in this implementation") }
131
133
134 _vars_.erase(&v);
135
136 // informs all the slaves that they have to update themselves
138 iter != _slaveInstantiations_.endSafe();
139 ++iter) {
140 (*iter)->eraseWithMaster(this, v);
141 }
142
144 }

◆ externalWeight()

GUM_SCALAR gum::MultiDimICIModel< GUM_SCALAR >::externalWeight ( ) const
inherited

Copy of a multiDimICIModel.

This method is virtual because it should be optimized in certain MultiDimContainer.

Exceptions
OperationNotAllowedRaised if src does not have the same domain size than this MultiDimContainer.

Definition at line 158 of file multiDimICIModel_tpl.h.

124 {
125 return _external_weight_;
126 }

References gum::MultiDimContainer< GUM_ELEMENT >::copyFrom().

Referenced by gum::MultiDimLogit< GUM_SCALAR >::get(), gum::MultiDimNoisyAND< GUM_SCALAR >::get(), gum::MultiDimNoisyORCompound< GUM_SCALAR >::get(), gum::MultiDimNoisyORNet< GUM_SCALAR >::get(), gum::MultiDimLogit< GUM_SCALAR >::toString(), gum::MultiDimNoisyAND< GUM_SCALAR >::toString(), gum::MultiDimNoisyORCompound< GUM_SCALAR >::toString(), and gum::MultiDimNoisyORNet< GUM_SCALAR >::toString().

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◆ extractFrom()

void gum::MultiDimContainer< GUM_SCALAR >::extractFrom ( const MultiDimContainer< GUM_SCALAR > & src,
const Instantiation & mask )
virtualinherited

Basic extraction of a MultiDimContainer.

This method is virtual because it should be optimized in certain MultiDimContainer.

Parameters
srcThe MultiDimContainer src which datas are copied.
maskpartial instantiation of variables of the Tensor : the

extraction will concern every variable not in the instantiation and the copy of data will use the (relevant) values in this instantiation.

Definition at line 280 of file multiDimContainer_tpl.h.

243 {
244 this->beginMultipleChanges();
245
246 Size nbr = this->nbrDim();
247 for (Idx i = 0; i < nbr; i++) {
248 this->erase(this->variable(0));
249 }
250
251 for (Idx i = 0; i < src.nbrDim(); i++) {
252 if (!imask.contains(src.variable(i))) this->add(src.variable(i));
253 }
254
255 this->endMultipleChanges();
256
257 if (this->nbrDim() == 0) { GUM_ERROR(FatalError, "Empty tensor") }
258
260 inst.setVals(imask);
261 for (inst.setFirstOut(imask); !inst.end(); inst.incOut(imask))
262 set(inst, src[inst]);
263 }
bool contains(const DiscreteVariable &v) const override
Returns true if var is in *this.

◆ fill() [1/2]

virtual void gum::MultiDimContainer< GUM_SCALAR >::fill ( const GUM_SCALAR & d) const
pure virtualinherited

Fill the table with d.

Parameters
dThe value used to fill this MultiDimContainer.

Implemented in gum::MultiDimDecorator< GUM_SCALAR >.

◆ fill() [2/2]

void gum::MultiDimReadOnly< GUM_SCALAR >::fill ( const GUM_SCALAR & ) const
overrideinherited
Warning
An OperationNotAllowed will be raised because this is a read only table.

Definition at line 107 of file multiDimReadOnly_tpl.h.

87 {
88 GUM_ERROR(OperationNotAllowed, "Write access to an aggregator")
89 }

◆ get()

template<GUM_Numeric GUM_SCALAR>
GUM_SCALAR gum::MultiDimNoisyAND< GUM_SCALAR >::get ( const Instantiation & i) const
overridevirtual

Returns the real name of the multiDimArray.

In aGrUM, all the types of multi-dimensional arrays/functionals have a name that describes what they are in reality. For instance, a table stored in extension is a "MultiDimArray", one that stores only non zero elements is a "MultiDimSparseArray", and so on. These names are unique for each type of implementation and is used by the system to determine which is the best functions to use, say, when we wish to use operators such as operator+ on two MultiDimImplementations.

Reimplemented from gum::MultiDimContainer< GUM_SCALAR >.

Definition at line 90 of file multiDimNoisyAND_tpl.h.

90 {
91 if (this->nbrDim() < 1) {
92 GUM_ERROR(OperationNotAllowed, "Not enough variable for a NoisyAND ")
93 }
94
95 const DiscreteVariable& C = this->variable((Idx)0);
96
97 if (i.val(C) > 1) return (GUM_SCALAR)0.0;
98
100
101 for (Idx j = 1; j < this->nbrDim(); j++) {
102 const DiscreteVariable& v = this->variable(j);
103
104 if (i.val(v) == 0) {
105 fact *= ((GUM_SCALAR)1.0 - this->causalWeight(v));
106 } else {
107 fact *= this->causalWeight(v);
108 }
109 }
110
111 return (i.val(C) == 1) ? fact : (GUM_SCALAR)1.0 - fact;
112 }

References gum::MultiDimICIModel< GUM_SCALAR >::causalWeight(), gum::MultiDimICIModel< GUM_SCALAR >::externalWeight(), GUM_ERROR, gum::MultiDimICIModel< GUM_SCALAR >::nbrDim(), gum::Instantiation::val(), and gum::MultiDimICIModel< GUM_SCALAR >::variable().

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◆ get_()

GUM_SCALAR & gum::MultiDimReadOnly< GUM_SCALAR >::get_ ( const Instantiation & i) const
overrideprotectedinherited
Warning
An OperationNotAllowed will be raised because this is a read only table.

Definition at line 116 of file multiDimReadOnly_tpl.h.

94 {
95 GUM_ERROR(OperationNotAllowed, "No (unconst) access to an aggregator")
96 }

◆ getMasterRef() [1/2]

const MultiDimAdressable & gum::MultiDimContainer< GUM_SCALAR >::getMasterRef ( ) const
overrideinherited

In order to insure the dereference for decorators, we need to virtualize the access to master pointer.

Returns
Returns the master of this MultiDimAdressable.

Definition at line 305 of file multiDimContainer_tpl.h.

307 {
308 return static_cast< const MultiDimAdressable& >(*content());
309 }
const MultiDimImplementation< GUM_SCALAR > * content() const final

◆ getMasterRef() [2/2]

MultiDimAdressable & gum::MultiDimContainer< GUM_SCALAR >::getMasterRef ( )
overrideinherited

In order to insure the dereference for decorators, we need to virtualize the access to master pointer.

Returns
Returns the ref to content as MultiDimAdressable&

Definition at line 298 of file multiDimContainer_tpl.h.

302 {
303 return static_cast< MultiDimAdressable& >(*content());
304 }

◆ invert_()

void gum::MultiDimImplementation< GUM_SCALAR >::invert_ ( Idx p1,
Idx p2 )
protectedvirtualinherited

Inverts variables at position p1 and p2.

Call this from subclass when you want to invert position of two variables in the MultiDimImplementation.

Parameters
p1The first position.
p2The second position.

Definition at line 295 of file multiDimImplementation_tpl.h.

316 {
317 _vars_.swap(p1, p2);
318 }

◆ isCommitNeeded_()

bool gum::MultiDimImplementation< GUM_SCALAR >::isCommitNeeded_ ( ) const
protectedinherited

Get the actual state of *this.

Returns
Returns true if a commit is needed.

Definition at line 265 of file multiDimImplementation_tpl.h.

◆ isInMultipleChangeMethod_()

bool gum::MultiDimImplementation< GUM_SCALAR >::isInMultipleChangeMethod_ ( ) const
protectedinherited

Get the actual change method of this MultiDimImplementation.

Returns
Returns true if in multiple changes.

Definition at line 259 of file multiDimImplementation_tpl.h.

◆ name()

template<GUM_Numeric GUM_SCALAR>
const std::string & gum::MultiDimNoisyAND< GUM_SCALAR >::name ( ) const
overridevirtual

Returns the real name of the multiDimArray.

In aGrUM, all the types of multi-dimensional arrays/functionals have a name that describes what they are in reality. For instance, a table stored in extension is a "MultiDimArray", one that stores only non zero elements is a "MultiDimSparseArray", and so on. These names are unique for each type of implementation and is used by the system to determine which is the best functions to use, say, when we wish to use operators such as operator+ on two MultiDimImplementations.

Reimplemented from gum::MultiDimICIModel< GUM_SCALAR >.

Definition at line 142 of file multiDimNoisyAND_tpl.h.

142 {
143 static const std::string str = "MultiDimNoisyAND";
144 return str;
145 }

◆ nbrDim()

Idx gum::MultiDimImplementation< GUM_SCALAR >::nbrDim ( ) const
overrideinherited

Returns the number of vars in the multidimensional container.

Returns
Returns the number of vars in the multidimensional container.

Definition at line 191 of file multiDimImplementation_tpl.h.

182 {
183 return _vars_.size();
184 }

Referenced by gum::MultiDimLogit< GUM_SCALAR >::get(), gum::MultiDimNoisyAND< GUM_SCALAR >::get(), gum::MultiDimNoisyORCompound< GUM_SCALAR >::get(), gum::MultiDimNoisyORNet< GUM_SCALAR >::get(), realSize(), and gum::MultiDimLogit< GUM_SCALAR >::toString().

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◆ newFactory()

template<GUM_Numeric GUM_SCALAR>
MultiDimContainer< GUM_SCALAR > * gum::MultiDimNoisyAND< GUM_SCALAR >::newFactory ( ) const
nodiscardoverridevirtual

This method creates a clone of this object, withouth its content (including variable), you must use this method if you want to ensure that the generated object has the same type than the object containing the called newFactory().

For example :

Multidimensional matrix stored as an array in memory.
MultiDimContainer< GUM_ELEMENT > * newFactory() const override
Default constructor.
Abstract base class for all multi dimensionnal containers.

Then x is a MultiDimArray<double>*.

Warning
you must desallocate by yourself the memory
Returns
an empty clone of this object with the same type

Implements gum::MultiDimReadOnly< GUM_SCALAR >.

Definition at line 136 of file multiDimNoisyAND_tpl.h.

136 {
138 }

References MultiDimNoisyAND(), gum::MultiDimICIModel< GUM_SCALAR >::_default_weight_, and gum::MultiDimICIModel< GUM_SCALAR >::_external_weight_.

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◆ operator==()

bool gum::MultiDimContainer< GUM_SCALAR >::operator== ( const MultiDimContainer< GUM_SCALAR > & p) const
inherited

Test if this MultiDimContainer is equal to p.

Parameters
pThe MultiDimContainer to test for equality.
Returns
Returns true if this MultiDimContainer is equal to p.

Definition at line 359 of file multiDimContainer_tpl.h.

149 {
150 if ((nbrDim() == p.nbrDim()) && (domainSize() == p.domainSize())) {
151 if (nbrDim() == 0) return true;
152
153 for (auto iter = variablesSequence().beginSafe(); iter != variablesSequence().endSafe();
154 ++iter) {
155 if (!p.variablesSequence().exists(*iter)) { return false; }
156 }
157 } else {
158 return false;
159 }
160
161 Instantiation i(*this);
163 for (i.setFirst(); !i.end(); ++i) {
164 if (cmp(get(i), p.get(i))) { return false; }
165 }
166
167 return true;
168 }
virtual GUM_ELEMENT get(const Instantiation &i) const
Returns the value pointed by i.
const Sequence< const DiscreteVariable * > & variablesSequence() const override

◆ operator[]()

GUM_SCALAR gum::MultiDimContainer< GUM_SCALAR >::operator[] ( const Instantiation & i) const
inherited

An [] operator using a Instantiation as argument.

Warning
If i variables set is disjoint with this MultiDimContainer then 0 is assumed for dimensions (i.e. variables) not prensent in the instantiation.
Parameters
iAn Instantiation.
Returns
Returns the adressed (GUM_ELEMENT) value.

Definition at line 184 of file multiDimContainer_tpl.h.

103 {
104 return get(i);
105 }

◆ populate() [1/2]

void gum::MultiDimContainer< GUM_SCALAR >::populate ( const std::vector< GUM_SCALAR > & v) const
virtualinherited

Automatically fills this MultiDimContainer with the values in v.

The order used to fill this MultiDimContainer is the same as with an instantiation over it.

Size cpt = 0;
Instantiation i( *this );
for (i.setFirst(); !i.end(); ++i, ++cpt) {
set(i, v[cpt]);
}
Class for assigning/browsing values to tuples of discrete variables.
std::size_t Size
In aGrUM, hashed values are unsigned long int.
Definition types.h:74
Parameters
vVector of values.
Exceptions
SizeErrorRaised if v size's does not matches this MultiDimContainer domain size.

Definition at line 210 of file multiDimContainer_tpl.h.

172 {
173 if (domainSize() != v.size()) {
174 GUM_ERROR(SizeError, "Sizes do not match : " << domainSize() << "!=" << v.size())
175 }
176
177 Size cpt = 0;
178
179 Instantiation i(*this);
180
181 for (i.setFirst(); !i.end(); ++i, ++cpt)
182 set(i, v[cpt]);
183 }

◆ populate() [2/2]

void gum::MultiDimContainer< GUM_SCALAR >::populate ( std::initializer_list< GUM_SCALAR > l) const
virtualinherited

Automatically fills this MultiDimContainer with the values in l.

The order used to fill this MultiDimContainer is the same as with an instantiation over it.

Size cpt = 0;
Instantiation i( *this );
for (i.setFirst(); !i.end(); ++i, ++cpt) {
set(i, v[cpt]);
}
Parameters
lcontains the data.
Exceptions
SizeErrorRaised if l size's does not matches this MultiDimContainer domain size.

Definition at line 230 of file multiDimContainer_tpl.h.

186 {
187 if (domainSize() != l.size()) {
188 GUM_ERROR(SizeError, "Sizes do not match : " << domainSize() << "!=" << l.size())
189 }
190
191 Instantiation i(*this);
192 // insert all the elements
193 for (const auto& elt: l) {
194 set(i, elt);
195 ++i;
196 }
197 }

◆ pos()

Idx gum::MultiDimImplementation< GUM_SCALAR >::pos ( const DiscreteVariable & v) const
overrideinherited

Returns the index of a variable.

Parameters
vThe variable for which the index is returned.
Returns
Returns the index of a variable.
Exceptions
NotFoundRaised if v is not in this multidimensional matrix.

Definition at line 204 of file multiDimImplementation_tpl.h.

207 {
208 return _vars_.pos(&v);
209 }
Idx pos(const DiscreteVariable &v) const override
Returns the index of a variable.

◆ realSize()

Size gum::MultiDimICIModel< GUM_SCALAR >::realSize ( ) const
overridevirtualinherited
Returns
the real number of parameters used for this table. This function is used for compute
See also
compressionRatio()

Implements gum::MultiDimImplementation< GUM_SCALAR >.

Definition at line 152 of file multiDimICIModel_tpl.h.

204 {
205 return this->nbrDim();
206 }

References _default_weight_, and nbrDim().

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◆ reduce()

GUM_SCALAR gum::MultiDimContainer< GUM_SCALAR >::reduce ( std::function< GUM_SCALAR(GUM_SCALAR, GUM_SCALAR) > f,
GUM_SCALAR base ) const
virtualinherited

compute lfold for this container

Parameters
fthe function to apply
basethe initial value

Definition at line 372 of file multiDimContainer_tpl.h.

210 {
212 Instantiation i(*this);
213 for (i.setFirst(); !i.end(); ++i) {
214 tmp = f(tmp, get(i));
215 }
216 return tmp;
217 }

◆ registerSlave()

bool gum::MultiDimImplementation< GUM_SCALAR >::registerSlave ( Instantiation & slave)
overrideinherited

Register i as a slave of this MultiDimAdressable.

Parameters
iThe Instantiation to enslave.
Returns
Returns true if i becomes a slave of this MultiDimAdressable.

Definition at line 216 of file multiDimImplementation_tpl.h.

157 {
158 // check that the Instantiation has the same variables as this
159 if (slave.nbrDim() != _vars_.size()) return false;
160
162 iter != _vars_.endSafe();
163 ++iter)
164 if (!slave.contains(*iter)) return false;
165
166 slave.synchronizeWithMaster(this);
167
169
170 return true;
171 }

◆ replace()

INLINE void gum::MultiDimInterface::replace ( const DiscreteVariable & x,
const DiscreteVariable & y )
inherited

Replace variables in this multidim.

If x is in this MultiDim and y has the same domain size, then x will be replace by y in this MultiDim.

Parameters
xThe variable in this which will be replaced.
yThe variable replacing y.
Exceptions
NotFoundRaised if x does not belong to this MultiDim.
OperationNotAllowedIf y and x are not interchangeable.
DuplicateElementIf y is already in this MultiDim.

Definition at line 190 of file multiDimInterface_inl.h.

57 {
58 if (!contains(x)) { GUM_ERROR(NotFound, "could not find the variable") }
59
60 if (contains(y)) { GUM_ERROR(DuplicateElement, "variable " << y << " already in MultiDim") }
61
62 if (x.domainSize() != y.domainSize()) {
63 GUM_ERROR(OperationNotAllowed, "incompatible variables")
64 }
65
66 replace_(&x, &y);
67 }
void replace_(const DiscreteVariable *x, const DiscreteVariable *y) override

◆ replace_()

void gum::MultiDimICIModel< GUM_SCALAR >::replace_ ( const DiscreteVariable * x,
const DiscreteVariable * y )
overrideprotectedvirtualinherited

This is called by MultiDimContainer::replace() to proceed with the replacing between x and y.

This is called only when everything have been checked.

Parameters
xThe variable to replace in
yThe second variable to swap.

Implements gum::MultiDimInterface.

Definition at line 192 of file multiDimICIModel_tpl.h.

171 {
175 }
void replace_(const DiscreteVariable *x, const DiscreteVariable *y) override
Replace variable x by y.

◆ set()

void gum::MultiDimReadOnly< GUM_SCALAR >::set ( const Instantiation & i,
const GUM_SCALAR & value ) const
overrideinherited
Warning
An OperationNotAllowed will be raised because this is a read only table.

Definition at line 101 of file multiDimReadOnly_tpl.h.

80 {
81 GUM_ERROR(OperationNotAllowed, "Write access to an aggregator")
82 }

◆ setChangeNotification()

void gum::MultiDimICIModel< GUM_SCALAR >::setChangeNotification ( const gum::Instantiation & )
overridevirtualinherited

Copy of a multiDimICIModel.

This method is virtual because it should be optimized in certain MultiDimContainer.

Exceptions
OperationNotAllowedRaised if src does not have the same domain size than this MultiDimContainer.

Implements gum::MultiDimAdressable.

Definition at line 133 of file multiDimICIModel_tpl.h.

196{}

◆ setDecNotification()

void gum::MultiDimICIModel< GUM_SCALAR >::setDecNotification ( const gum::Instantiation & )
overridevirtualinherited

Copy of a multiDimICIModel.

This method is virtual because it should be optimized in certain MultiDimContainer.

Exceptions
OperationNotAllowedRaised if src does not have the same domain size than this MultiDimContainer.

Implements gum::MultiDimAdressable.

Definition at line 131 of file multiDimICIModel_tpl.h.

193{}

◆ setFirstNotification()

void gum::MultiDimICIModel< GUM_SCALAR >::setFirstNotification ( const gum::Instantiation & )
overridevirtualinherited

Copy of a multiDimICIModel.

This method is virtual because it should be optimized in certain MultiDimContainer.

Exceptions
OperationNotAllowedRaised if src does not have the same domain size than this MultiDimContainer.

Implements gum::MultiDimAdressable.

Definition at line 125 of file multiDimICIModel_tpl.h.

184{}

References _external_weight_.

◆ setIncNotification()

void gum::MultiDimICIModel< GUM_SCALAR >::setIncNotification ( const gum::Instantiation & )
overridevirtualinherited

Copy of a multiDimICIModel.

This method is virtual because it should be optimized in certain MultiDimContainer.

Exceptions
OperationNotAllowedRaised if src does not have the same domain size than this MultiDimContainer.

Implements gum::MultiDimAdressable.

Definition at line 129 of file multiDimICIModel_tpl.h.

190{}

References MultiDimICIModel(), and _external_weight_.

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◆ setLastNotification()

void gum::MultiDimICIModel< GUM_SCALAR >::setLastNotification ( const gum::Instantiation & )
overridevirtualinherited

Copy of a multiDimICIModel.

This method is virtual because it should be optimized in certain MultiDimContainer.

Exceptions
OperationNotAllowedRaised if src does not have the same domain size than this MultiDimContainer.

Implements gum::MultiDimAdressable.

Definition at line 127 of file multiDimICIModel_tpl.h.

187{}

◆ slaves_()

const List< Instantiation * > & gum::MultiDimImplementation< GUM_SCALAR >::slaves_ ( ) const
protectedinherited

Returns a constant reference over the list of slaved instantiations.

Returns
Returns a constant reference over the list of slaved instantiations.

Definition at line 273 of file multiDimImplementation_tpl.h.

280 {
282 }

◆ toString() [1/3]

◆ toString() [2/3]

template<GUM_Numeric GUM_SCALAR>
std::string gum::MultiDimNoisyAND< GUM_SCALAR >::toString ( ) const
overridevirtual

Returns the real name of the multiDimArray.

In aGrUM, all the types of multi-dimensional arrays/functionals have a name that describes what they are in reality. For instance, a table stored in extension is a "MultiDimArray", one that stores only non zero elements is a "MultiDimSparseArray", and so on. These names are unique for each type of implementation and is used by the system to determine which is the best functions to use, say, when we wish to use operators such as operator+ on two MultiDimImplementations.

Reimplemented from gum::MultiDimICIModel< GUM_SCALAR >.

Definition at line 115 of file multiDimNoisyAND_tpl.h.

115 {
118 << this->externalWeight() << "]";
119
123
124 s << ")";
125 return s.str();
126 }

References gum::MultiDimICIModel< GUM_SCALAR >::causalWeight(), gum::MultiDimICIModel< GUM_SCALAR >::externalWeight(), and gum::MultiDimImplementation< GUM_ELEMENT >::variable().

Referenced by gum::operator<<().

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◆ toString() [3/3]

std::string gum::MultiDimContainer< GUM_SCALAR >::toString ( const Instantiation * i) const
overridepure virtualinherited

Display the internal representation of i.

Returns
Returns an internal representation of i.

◆ unregisterSlave()

bool gum::MultiDimImplementation< GUM_SCALAR >::unregisterSlave ( Instantiation & slave)
overrideinherited

Unregister i as a slave of this MultiDimAdressable.

Parameters
iThe Instantiation to free.
Returns
Returns true, whatever happens.

Definition at line 218 of file multiDimImplementation_tpl.h.

176 {
177 _slaveInstantiations_.eraseByVal(&slave);
178 return true;
179 }

◆ variable() [1/2]

const DiscreteVariable & gum::MultiDimImplementation< GUM_SCALAR >::variable ( Idx i) const
overrideinherited

Returns a const ref to the ith var.

param i An index of this multidimensional matrix.

Returns
Returns a const ref to the ith var.
Exceptions
NotFoundRaised if i does not reference a variable in this multidimensional matrix.

Definition at line 201 of file multiDimImplementation_tpl.h.

192 {
193 return *(_vars_.atPos(i));
194 }

Referenced by causalWeight(), gum::MultiDimLogit< GUM_SCALAR >::get(), gum::MultiDimNoisyAND< GUM_SCALAR >::get(), gum::MultiDimNoisyORCompound< GUM_SCALAR >::get(), gum::MultiDimNoisyORNet< GUM_SCALAR >::get(), and gum::MultiDimLogit< GUM_SCALAR >::toString().

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◆ variable() [2/2]

const DiscreteVariable & gum::MultiDimImplementation< GUM_SCALAR >::variable ( std::string_view name) const
overrideinherited

Returns the variable with the name.

Parameters
nameThe index of the variable
Returns
Returns the variable qith the name in the tuple. @warging This function is not O(1)
Exceptions
NotFoundRaised if the element cannot be found.

Definition at line 202 of file multiDimImplementation_tpl.h.

198 {
199 for (const auto& v: _vars_) {
200 if (v->name() == name) return *v;
201 }
202
203 GUM_ERROR(NotFound, "'" << name << "' can not be found in the multidim structure.")
204 }

◆ variablesSequence()

const Sequence< const DiscreteVariable * > & gum::MultiDimImplementation< GUM_SCALAR >::variablesSequence ( ) const
overrideinherited

Returns a const ref to the sequence of DiscreteVariable*.

Returns
Returns a const ref to the sequence of DiscreteVariable*.

Definition at line 199 of file multiDimImplementation_tpl.h.

220 {
221 return _vars_;
222 }

Member Data Documentation

◆ _causal_weights_

HashTable< const DiscreteVariable*, GUM_SCALAR > gum::MultiDimICIModel< GUM_SCALAR >::_causal_weights_
mutableprotectedinherited

\( P(e | c_i) \) in Henrion (89) in a hashtable with a default_value.

Definition at line 189 of file multiDimICIModel.h.

Referenced by causalWeight(), changeNotification(), and name().

◆ _default_weight_

GUM_SCALAR gum::MultiDimICIModel< GUM_SCALAR >::_default_weight_
mutableprotectedinherited

◆ _domainSize_

Size gum::MultiDimImplementation< GUM_SCALAR >::_domainSize_
privateinherited

This MultiDimImplementation domain size.

Definition at line 329 of file multiDimImplementation.h.

◆ _external_weight_

◆ _internalChangeMethod_

_InternalChangeMethod_ gum::MultiDimImplementation< GUM_SCALAR >::_internalChangeMethod_
privateinherited

The current change method.

Definition at line 323 of file multiDimImplementation.h.

◆ _internalChangeState_

_InternalChangeState_ gum::MultiDimImplementation< GUM_SCALAR >::_internalChangeState_
privateinherited

The current change state.

Definition at line 326 of file multiDimImplementation.h.

◆ _slaveInstantiations_

List< Instantiation* > gum::MultiDimImplementation< GUM_SCALAR >::_slaveInstantiations_
privateinherited

List of instantiations of the tuples (sequences) of variables.

Definition at line 314 of file multiDimImplementation.h.

◆ _vars_

Sequence< const DiscreteVariable* > gum::MultiDimImplementation< GUM_SCALAR >::_vars_
privateinherited

List of discrete variables (dimensions).

Definition at line 311 of file multiDimImplementation.h.


The documentation for this class was generated from the following files: