#include <dai/mr.h>
Public Member Functions | |
MR () | |
Default constructor. | |
MR (const FactorGraph &fg, const PropertySet &opts) | |
Construct from FactorGraph fg and PropertySet opts. | |
General InfAlg interface | |
virtual MR * | clone () const |
Returns a pointer to a new, cloned copy of *this (i.e., virtual copy constructor). | |
virtual std::string | identify () const |
Identifies itself for logging purposes. | |
virtual Factor | belief (const Var &v) const |
Returns the (approximate) marginal probability distribution of a variable. | |
virtual Factor | belief (const VarSet &) const |
Returns the (approximate) marginal probability distribution of a set of variables. | |
virtual Factor | beliefV (size_t i) const |
Returns the (approximate) marginal probability distribution of the variable with index i. | |
virtual std::vector< Factor > | beliefs () const |
Returns all beliefs (approximate marginal probability distributions) calculated by the algorithm. | |
virtual Real | logZ () const |
Returns the logarithm of the (approximated) partition sum (normalizing constant of the factor graph). | |
virtual void | init () |
Initializes all data structures of the approximate inference algorithm. | |
virtual void | init (const VarSet &) |
Initializes all data structures corresponding to some set of variables. | |
virtual Real | run () |
Runs the approximate inference algorithm. | |
virtual Real | maxDiff () const |
Returns maximum difference between single variable beliefs in the last iteration. | |
virtual size_t | Iterations () const |
Returns number of iterations done (one iteration passes over the complete factorgraph). | |
virtual void | setProperties (const PropertySet &opts) |
Set parameters of this inference algorithm. | |
virtual PropertySet | getProperties () const |
Returns parameters of this inference algorithm converted into a PropertySet. | |
virtual std::string | printProperties () const |
Returns parameters of this inference algorithm formatted as a string in the format "[key1=val1,key2=val2,...,keyn=valn]". | |
Public Attributes | |
struct dai::MR::Properties | props |
Static Public Attributes | |
static const char * | Name = "MR" |
Name of this inference method. | |
Private Types | |
typedef boost::dynamic_bitset | sub_nb |
Type used for managing a subset of neighbors. | |
Private Member Functions | |
Real | calcCavityCorrelations () |
Initialize cors. | |
void | propagateCavityFields () |
Iterate update equations for cavity fields. | |
void | calcMagnetizations () |
Calculate magnetizations. | |
Real | _tJ (size_t i, sub_nb A) |
Calculate the product of all tJ[i][_j] for _j in A. | |
Real | Omega (size_t i, size_t _j, size_t _l) |
Calculate ![]() | |
Real | T (size_t i, sub_nb A) |
Calculate ![]() ![]() | |
Real | T (size_t i, size_t _j) |
Calculates ![]() | |
Real | Gamma (size_t i, size_t _j, size_t _l1, size_t _l2) |
Calculates ![]() | |
Real | Gamma (size_t i, size_t _l1, size_t _l2) |
Calculates ![]() | |
Real | appM (size_t i, sub_nb A) |
Approximates moments of variables in A. | |
void | sum_subs (size_t j, sub_nb A, Real *sum_even, Real *sum_odd) |
Calculate sum over all even/odd subsets B of A of _tJ(j,B) appM(j,B). | |
Private Attributes | |
bool | supported |
Is the underlying factor graph supported? | |
GraphAL | G |
The interaction graph (Markov graph). | |
std::vector< std::vector< Real > > | tJ |
tJ[i][_j] is the hyperbolic tangent of the interaction between spin i and its neighbour G.nb(i,_j) | |
std::vector< Real > | theta |
theta[i] is the local field on spin i | |
std::vector< std::vector< Real > > | M |
M[i][_j] is ![]() | |
std::vector< std::vector < std::vector< Real > > > | cors |
Cavity correlations. | |
std::vector< Real > | Mag |
Magnetizations. | |
Real | _maxdiff |
Maximum difference encountered so far. | |
size_t | _iters |
Number of iterations needed. | |
Classes | |
struct | Properties |
Parameters for MR. More... |
typedef boost::dynamic_bitset dai::MR::sub_nb [private] |
Type used for managing a subset of neighbors.
dai::MR::MR | ( | ) | [inline] |
Default constructor.
dai::MR::MR | ( | const FactorGraph & | fg, | |
const PropertySet & | opts | |||
) |
Construct from FactorGraph fg and PropertySet opts.
fg | Factor graph. | |
opts | Parameters |
NOT_IMPLEMENTED | if fg has factors depending on three or more variables or has variables with more than two possible states. |
virtual MR* dai::MR::clone | ( | ) | const [inline, virtual] |
Returns a pointer to a new, cloned copy of *this
(i.e., virtual copy constructor).
Implements dai::InfAlg.
string dai::MR::identify | ( | ) | const [virtual] |
Returns the (approximate) marginal probability distribution of a variable.
Reimplemented from dai::InfAlg.
Returns the (approximate) marginal probability distribution of a set of variables.
NOT_IMPLEMENTED | if not implemented/supported. | |
BELIEF_NOT_AVAILABLE | if the requested belief cannot be calculated with this algorithm. |
Implements dai::InfAlg.
Factor dai::MR::beliefV | ( | size_t | i | ) | const [virtual] |
Returns the (approximate) marginal probability distribution of the variable with index i.
For some approximate inference algorithms, using beliefV() is preferred to belief() for performance reasons.
Reimplemented from dai::InfAlg.
vector< Factor > dai::MR::beliefs | ( | ) | const [virtual] |
Returns all beliefs (approximate marginal probability distributions) calculated by the algorithm.
Implements dai::InfAlg.
virtual Real dai::MR::logZ | ( | ) | const [inline, virtual] |
Returns the logarithm of the (approximated) partition sum (normalizing constant of the factor graph).
NOT_IMPLEMENTED | if not implemented/supported |
Implements dai::InfAlg.
virtual void dai::MR::init | ( | ) | [inline, virtual] |
Initializes all data structures of the approximate inference algorithm.
Implements dai::InfAlg.
virtual void dai::MR::init | ( | const VarSet & | vs | ) | [inline, virtual] |
Initializes all data structures corresponding to some set of variables.
This method can be used to do a partial initialization after a part of the factor graph has changed. Instead of initializing all data structures, it only initializes those involving the variables in vs.
NOT_IMPLEMENTED | if not implemented/supported |
Implements dai::InfAlg.
Real dai::MR::run | ( | ) | [virtual] |
virtual Real dai::MR::maxDiff | ( | ) | const [inline, virtual] |
Returns maximum difference between single variable beliefs in the last iteration.
NOT_IMPLEMENTED | if not implemented/supported |
Reimplemented from dai::InfAlg.
virtual size_t dai::MR::Iterations | ( | ) | const [inline, virtual] |
Returns number of iterations done (one iteration passes over the complete factorgraph).
NOT_IMPLEMENTED | if not implemented/supported |
Reimplemented from dai::InfAlg.
void dai::MR::setProperties | ( | const PropertySet & | opts | ) | [virtual] |
Set parameters of this inference algorithm.
The parameters are set according to the PropertySet opts. The values can be stored either as std::string or as the type of the corresponding MF::props member.
Implements dai::InfAlg.
PropertySet dai::MR::getProperties | ( | ) | const [virtual] |
Returns parameters of this inference algorithm converted into a PropertySet.
Implements dai::InfAlg.
string dai::MR::printProperties | ( | ) | const [virtual] |
Returns parameters of this inference algorithm formatted as a string in the format "[key1=val1,key2=val2,...,keyn=valn]".
Implements dai::InfAlg.
Real dai::MR::calcCavityCorrelations | ( | ) | [private] |
Initialize cors.
void dai::MR::propagateCavityFields | ( | ) | [private] |
Iterate update equations for cavity fields.
void dai::MR::calcMagnetizations | ( | ) | [private] |
Calculate magnetizations.
Calculate the product of all tJ[i][_j] for _j in A.
i | variable index | |
A | subset of neighbors of variable i |
Real dai::MR::Omega | ( | size_t | i, | |
size_t | _j, | |||
size_t | _l | |||
) | [private] |
Calculate as defined in [MoR05] eqn. (2.15).
Calculate as defined in [MoR05] eqn. (2.17) with
.
i | variable index | |
A | subset of neighbors of variable i |
Real dai::MR::T | ( | size_t | i, | |
size_t | _j | |||
) | [private] |
Calculates where j is the _j 'th neighbor of i.
Real dai::MR::Gamma | ( | size_t | i, | |
size_t | _j, | |||
size_t | _l1, | |||
size_t | _l2 | |||
) | [private] |
Calculates as defined in [MoR05] eqn. (2.16).
Real dai::MR::Gamma | ( | size_t | i, | |
size_t | _l1, | |||
size_t | _l2 | |||
) | [private] |
Calculates as defined in [MoK07] on page 1141.
Approximates moments of variables in A.
Calculate the moment of variables in A from M and cors, neglecting higher order cumulants, defined as the sum over all partitions of A into subsets of cardinality two at most of the product of the cumulants (either first order, i.e. M, or second order, i.e. cors) of the entries of the partitions.
i | variable index | |
A | subset of neighbors of variable i |
Calculate sum over all even/odd subsets B of A of _tJ(j,B) appM(j,B).
j | variable index | |
A | subset of neighbors of variable j | |
sum_even | on return, will contain the sum over all even subsets | |
sum_odd | on return, will contain the sum over all odd subsets |
bool dai::MR::supported [private] |
Is the underlying factor graph supported?
GraphAL dai::MR::G [private] |
The interaction graph (Markov graph).
std::vector<std::vector<Real> > dai::MR::tJ [private] |
tJ[i][_j] is the hyperbolic tangent of the interaction between spin i and its neighbour G.nb(i,_j)
std::vector<Real> dai::MR::theta [private] |
theta[i] is the local field on spin i
std::vector<std::vector<Real> > dai::MR::M [private] |
M[i][_j] is .
std::vector<std::vector<std::vector<Real> > > dai::MR::cors [private] |
Cavity correlations.
std::vector<Real> dai::MR::Mag [private] |
Magnetizations.
Real dai::MR::_maxdiff [private] |
Maximum difference encountered so far.
size_t dai::MR::_iters [private] |
Number of iterations needed.
const char * dai::MR::Name = "MR" [static] |
Name of this inference method.