lemon/tolerance.h
author Peter Kovacs <kpeter@inf.elte.hu>
Tue, 24 Mar 2009 00:18:25 +0100
changeset 596 8c3112a66878
parent 440 88ed40ad0d4f
parent 497 7d7d9debb29a
permissions -rw-r--r--
Use XTI implementation instead of ATI in NetworkSimplex (#234)

XTI (eXtended Threaded Index) is an imporved version of the widely
known ATI (Augmented Threaded Index) method for storing and updating
the spanning tree structure in Network Simplex algorithms.

In the ATI data structure three indices are stored for each node:
predecessor, thread and depth. In the XTI data structure depth is
replaced by the number of successors and the last successor
(according to the thread index).
     1 /* -*- mode: C++; indent-tabs-mode: nil; -*-
     2  *
     3  * This file is a part of LEMON, a generic C++ optimization library.
     4  *
     5  * Copyright (C) 2003-2009
     6  * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
     7  * (Egervary Research Group on Combinatorial Optimization, EGRES).
     8  *
     9  * Permission to use, modify and distribute this software is granted
    10  * provided that this copyright notice appears in all copies. For
    11  * precise terms see the accompanying LICENSE file.
    12  *
    13  * This software is provided "AS IS" with no warranty of any kind,
    14  * express or implied, and with no claim as to its suitability for any
    15  * purpose.
    16  *
    17  */
    18 
    19 #ifndef LEMON_TOLERANCE_H
    20 #define LEMON_TOLERANCE_H
    21 
    22 ///\ingroup misc
    23 ///\file
    24 ///\brief A basic tool to handle the anomalies of calculation with
    25 ///floating point numbers.
    26 ///
    27 
    28 namespace lemon {
    29 
    30   /// \addtogroup misc
    31   /// @{
    32 
    33   ///\brief A class to provide a basic way to
    34   ///handle the comparison of numbers that are obtained
    35   ///as a result of a probably inexact computation.
    36   ///
    37   ///\ref Tolerance is a class to provide a basic way to
    38   ///handle the comparison of numbers that are obtained
    39   ///as a result of a probably inexact computation.
    40   ///
    41   ///The general implementation is suitable only if the data type is exact,
    42   ///like the integer types, otherwise a specialized version must be
    43   ///implemented. These specialized classes like
    44   ///Tolerance<double> may offer additional tuning parameters.
    45   ///
    46   ///\sa Tolerance<float>
    47   ///\sa Tolerance<double>
    48   ///\sa Tolerance<long double>
    49 
    50   template<class T>
    51   class Tolerance
    52   {
    53   public:
    54     typedef T Value;
    55 
    56     ///\name Comparisons
    57     ///The concept is that these bool functions return \c true only if
    58     ///the related comparisons hold even if some numerical error appeared
    59     ///during the computations.
    60 
    61     ///@{
    62 
    63     ///Returns \c true if \c a is \e surely strictly less than \c b
    64     static bool less(Value a,Value b) {return a<b;}
    65     ///Returns \c true if \c a is \e surely different from \c b
    66     static bool different(Value a,Value b) {return a!=b;}
    67     ///Returns \c true if \c a is \e surely positive
    68     static bool positive(Value a) {return static_cast<Value>(0) < a;}
    69     ///Returns \c true if \c a is \e surely negative
    70     static bool negative(Value a) {return a < static_cast<Value>(0);}
    71     ///Returns \c true if \c a is \e surely non-zero
    72     static bool nonZero(Value a) {return a != static_cast<Value>(0);}
    73 
    74     ///@}
    75 
    76     ///Returns the zero value.
    77     static Value zero() {return static_cast<Value>(0);}
    78 
    79     //   static bool finite(Value a) {}
    80     //   static Value big() {}
    81     //   static Value negativeBig() {}
    82   };
    83 
    84 
    85   ///Float specialization of Tolerance.
    86 
    87   ///Float specialization of Tolerance.
    88   ///\sa Tolerance
    89   ///\relates Tolerance
    90   template<>
    91   class Tolerance<float>
    92   {
    93     static float def_epsilon;
    94     float _epsilon;
    95   public:
    96     ///\e
    97     typedef float Value;
    98 
    99     ///Constructor setting the epsilon tolerance to the default value.
   100     Tolerance() : _epsilon(def_epsilon) {}
   101     ///Constructor setting the epsilon tolerance to the given value.
   102     Tolerance(float e) : _epsilon(e) {}
   103 
   104     ///Returns the epsilon value.
   105     Value epsilon() const {return _epsilon;}
   106     ///Sets the epsilon value.
   107     void epsilon(Value e) {_epsilon=e;}
   108 
   109     ///Returns the default epsilon value.
   110     static Value defaultEpsilon() {return def_epsilon;}
   111     ///Sets the default epsilon value.
   112     static void defaultEpsilon(Value e) {def_epsilon=e;}
   113 
   114     ///\name Comparisons
   115     ///See \ref lemon::Tolerance "Tolerance" for more details.
   116 
   117     ///@{
   118 
   119     ///Returns \c true if \c a is \e surely strictly less than \c b
   120     bool less(Value a,Value b) const {return a+_epsilon<b;}
   121     ///Returns \c true if \c a is \e surely different from \c b
   122     bool different(Value a,Value b) const { return less(a,b)||less(b,a); }
   123     ///Returns \c true if \c a is \e surely positive
   124     bool positive(Value a) const { return _epsilon<a; }
   125     ///Returns \c true if \c a is \e surely negative
   126     bool negative(Value a) const { return -_epsilon>a; }
   127     ///Returns \c true if \c a is \e surely non-zero
   128     bool nonZero(Value a) const { return positive(a)||negative(a); }
   129 
   130     ///@}
   131 
   132     ///Returns zero
   133     static Value zero() {return 0;}
   134   };
   135 
   136   ///Double specialization of Tolerance.
   137 
   138   ///Double specialization of Tolerance.
   139   ///\sa Tolerance
   140   ///\relates Tolerance
   141   template<>
   142   class Tolerance<double>
   143   {
   144     static double def_epsilon;
   145     double _epsilon;
   146   public:
   147     ///\e
   148     typedef double Value;
   149 
   150     ///Constructor setting the epsilon tolerance to the default value.
   151     Tolerance() : _epsilon(def_epsilon) {}
   152     ///Constructor setting the epsilon tolerance to the given value.
   153     Tolerance(double e) : _epsilon(e) {}
   154 
   155     ///Returns the epsilon value.
   156     Value epsilon() const {return _epsilon;}
   157     ///Sets the epsilon value.
   158     void epsilon(Value e) {_epsilon=e;}
   159 
   160     ///Returns the default epsilon value.
   161     static Value defaultEpsilon() {return def_epsilon;}
   162     ///Sets the default epsilon value.
   163     static void defaultEpsilon(Value e) {def_epsilon=e;}
   164 
   165     ///\name Comparisons
   166     ///See \ref lemon::Tolerance "Tolerance" for more details.
   167 
   168     ///@{
   169 
   170     ///Returns \c true if \c a is \e surely strictly less than \c b
   171     bool less(Value a,Value b) const {return a+_epsilon<b;}
   172     ///Returns \c true if \c a is \e surely different from \c b
   173     bool different(Value a,Value b) const { return less(a,b)||less(b,a); }
   174     ///Returns \c true if \c a is \e surely positive
   175     bool positive(Value a) const { return _epsilon<a; }
   176     ///Returns \c true if \c a is \e surely negative
   177     bool negative(Value a) const { return -_epsilon>a; }
   178     ///Returns \c true if \c a is \e surely non-zero
   179     bool nonZero(Value a) const { return positive(a)||negative(a); }
   180 
   181     ///@}
   182 
   183     ///Returns zero
   184     static Value zero() {return 0;}
   185   };
   186 
   187   ///Long double specialization of Tolerance.
   188 
   189   ///Long double specialization of Tolerance.
   190   ///\sa Tolerance
   191   ///\relates Tolerance
   192   template<>
   193   class Tolerance<long double>
   194   {
   195     static long double def_epsilon;
   196     long double _epsilon;
   197   public:
   198     ///\e
   199     typedef long double Value;
   200 
   201     ///Constructor setting the epsilon tolerance to the default value.
   202     Tolerance() : _epsilon(def_epsilon) {}
   203     ///Constructor setting the epsilon tolerance to the given value.
   204     Tolerance(long double e) : _epsilon(e) {}
   205 
   206     ///Returns the epsilon value.
   207     Value epsilon() const {return _epsilon;}
   208     ///Sets the epsilon value.
   209     void epsilon(Value e) {_epsilon=e;}
   210 
   211     ///Returns the default epsilon value.
   212     static Value defaultEpsilon() {return def_epsilon;}
   213     ///Sets the default epsilon value.
   214     static void defaultEpsilon(Value e) {def_epsilon=e;}
   215 
   216     ///\name Comparisons
   217     ///See \ref lemon::Tolerance "Tolerance" for more details.
   218 
   219     ///@{
   220 
   221     ///Returns \c true if \c a is \e surely strictly less than \c b
   222     bool less(Value a,Value b) const {return a+_epsilon<b;}
   223     ///Returns \c true if \c a is \e surely different from \c b
   224     bool different(Value a,Value b) const { return less(a,b)||less(b,a); }
   225     ///Returns \c true if \c a is \e surely positive
   226     bool positive(Value a) const { return _epsilon<a; }
   227     ///Returns \c true if \c a is \e surely negative
   228     bool negative(Value a) const { return -_epsilon>a; }
   229     ///Returns \c true if \c a is \e surely non-zero
   230     bool nonZero(Value a) const { return positive(a)||negative(a); }
   231 
   232     ///@}
   233 
   234     ///Returns zero
   235     static Value zero() {return 0;}
   236   };
   237 
   238   /// @}
   239 
   240 } //namespace lemon
   241 
   242 #endif //LEMON_TOLERANCE_H