Cleaned up error handling by introducing the DAI_THROWE macro.
[libdai.git] / include / dai / hak.h
1 /* Copyright (C) 2006-2008 Joris Mooij [joris dot mooij at tuebingen dot mpg dot de]
2 Radboud University Nijmegen, The Netherlands /
3 Max Planck Institute for Biological Cybernetics, Germany
4
5 This file is part of libDAI.
6
7 libDAI is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation; either version 2 of the License, or
10 (at your option) any later version.
11
12 libDAI is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
16
17 You should have received a copy of the GNU General Public License
18 along with libDAI; if not, write to the Free Software
19 Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
20 */
21
22
23 /// \file
24 /// \brief Defines class HAK.
25 /// \todo Improve documentation
26
27
28 #ifndef __defined_libdai_hak_h
29 #define __defined_libdai_hak_h
30
31
32 #include <string>
33 #include <dai/daialg.h>
34 #include <dai/regiongraph.h>
35 #include <dai/enum.h>
36 #include <dai/properties.h>
37
38
39 namespace dai {
40
41
42 /// Approximate inference algorithm: implementation of single-loop ("Generalized Belief Propagation") and double-loop algorithms by Heskes, Albers and Kappen
43 /** \todo Optimize HAK with precalculated indices, similarly to BP.
44 */
45 class HAK : public DAIAlgRG {
46 private:
47 std::vector<Factor> _Qa;
48 std::vector<Factor> _Qb;
49 std::vector<std::vector<Factor> > _muab;
50 std::vector<std::vector<Factor> > _muba;
51 /// Maximum difference encountered so far
52 double _maxdiff;
53 /// Number of iterations needed
54 size_t _iters;
55
56 public:
57 /// Parameters of this inference algorithm
58 struct Properties {
59 /// Enumeration of possible cluster choices
60 DAI_ENUM(ClustersType,MIN,DELTA,LOOP)
61
62 /// Verbosity
63 size_t verbose;
64
65 /// Maximum number of iterations
66 size_t maxiter;
67
68 /// Tolerance
69 double tol;
70
71 /// Damping constant
72 double damping;
73
74 /// How to choose the clusters
75 ClustersType clusters;
76
77 /// Use single-loop (GBP) or double-loop (HAK)
78 bool doubleloop;
79
80 /// Depth of loops (only relevant for clusters == ClustersType::LOOP)
81 size_t loopdepth;
82 } props;
83
84 /// Name of this inference algorithm
85 static const char *Name;
86
87 public:
88 /// Default constructor
89 HAK() : DAIAlgRG(), _Qa(), _Qb(), _muab(), _muba(), _maxdiff(0.0), _iters(0U), props() {}
90
91 /// Construct from FactorGraph fg and PropertySet opts
92 HAK( const FactorGraph &fg, const PropertySet &opts );
93
94 /// Construct from RegionGraph rg and PropertySet opts
95 HAK( const RegionGraph &rg, const PropertySet &opts );
96
97
98 /// @name General InfAlg interface
99 //@{
100 virtual HAK* clone() const { return new HAK(*this); }
101 virtual std::string identify() const;
102 virtual Factor belief( const Var &n ) const;
103 virtual Factor belief( const VarSet &ns ) const;
104 virtual std::vector<Factor> beliefs() const;
105 virtual Real logZ() const;
106 virtual void init();
107 virtual void init( const VarSet &ns );
108 virtual double run();
109 virtual double maxDiff() const { return _maxdiff; }
110 virtual size_t Iterations() const { return _iters; }
111 //@}
112
113
114 /// @name Additional interface specific for HAK
115 //@{
116 Factor & muab( size_t alpha, size_t _beta ) { return _muab[alpha][_beta]; }
117 Factor & muba( size_t alpha, size_t _beta ) { return _muba[alpha][_beta]; }
118 const Factor& Qa( size_t alpha ) const { return _Qa[alpha]; };
119 const Factor& Qb( size_t beta ) const { return _Qb[beta]; };
120
121 double doGBP();
122 double doDoubleLoop();
123 //@}
124
125 private:
126 void constructMessages();
127 void findLoopClusters( const FactorGraph &fg, std::set<VarSet> &allcl, VarSet newcl, const Var & root, size_t length, VarSet vars );
128
129 void setProperties( const PropertySet &opts );
130 PropertySet getProperties() const;
131 std::string printProperties() const;
132 };
133
134
135 } // end of namespace dai
136
137
138 #endif