/usr/include/coin/CoinPresolvePsdebug.hpp is in coinor-libcoinutils-dev 2.9.10-1ubuntu2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 | /* $Id: CoinPresolvePsdebug.hpp 1560 2012-11-24 00:29:01Z lou $ */
// Copyright (C) 2002, International Business Machines
// Corporation and others. All Rights Reserved.
// This code is licensed under the terms of the Eclipse Public License (EPL).
#ifndef CoinPresolvePsdebug_H
#define CoinPresolvePsdebug_H
/*
The current idea of the relation between PRESOLVE_DEBUG and
PRESOLVE_CONSISTENCY is that PRESOLVE_CONSISTENCY triggers the consistency
checks and PRESOLVE_DEBUG triggers consistency checks and output.
This isn't always true in the code, but that's the goal. Really,
the whole compile-time scheme should be replaced with something more
user-friendly (control variables that can be changed during the run).
Also floating about are PRESOLVE_SUMMARY and COIN_PRESOLVE_TUNING.
-- lh, 111208 --
*/
/*! \defgroup PresolveDebugFunctions Presolve Debug Functions
These functions implement consistency checks on data structures involved
in presolve and postsolve and on the components of the lp solution.
To use these functions, include CoinPresolvePsdebug.hpp in your file and
define the compile-time constants PRESOLVE_SUMMARY, PRESOLVE_DEBUG, and
PRESOLVE_CONSISTENCY. A value is needed (<i>i.e.</i>, PRESOLVE_DEBUG=1).
In a few places, higher values will get you a bit more output.
********
Define the symbols PRESOLVE_DEBUG and PRESOLVE_CONSISTENCY on the configure
command line (use ADD_CXXFLAGS), in a Makefile, or similar and do a full
rebuild (including any presolve driver code). If the symbols are not
consistently nonzero across *all* presolve code, you'll get something
between garbage and a core dump! Debugging adds messages to CoinMessage
and allocates and maintains arrays that hold debug information.
That said, given that you've configured and built with PRESOLVE_DEBUG and
PRESOLVE_CONSISTENCY nonzero everywhere, it's safe to adjust PRESOLVE_DEBUG
to values in the range 1..n in individual files to increase or decrease the
amount of output.
The suggested approach for PRESOLVE_DEBUG is to define it to 1 in the build
and then increase it in individual presolve code files to get more detail.
********
*/
//@{
/*! \relates CoinPresolveMatrix
\brief Check column-major and/or row-major matrices for duplicate
entries in the major vectors.
By default, scans both the column- and row-major matrices. Set doCol (doRow)
to false to suppress the column (row) scan.
*/
void presolve_no_dups(const CoinPresolveMatrix *preObj,
bool doCol = true, bool doRow = true) ;
/*! \relates CoinPresolveMatrix
\brief Check the links which track storage order for major vectors in
the bulk storage area.
By default, scans both the column- and row-major matrix. Set doCol = false to
suppress the column-major scan. Set doRow = false to suppres the row-major
scan.
*/
void presolve_links_ok(const CoinPresolveMatrix *preObj,
bool doCol = true, bool doRow = true) ;
/*! \relates CoinPresolveMatrix
\brief Check for explicit zeros in the column- and/or row-major matrices.
By default, scans both the column- and row-major matrices. Set doCol (doRow)
to false to suppress the column (row) scan.
*/
void presolve_no_zeros(const CoinPresolveMatrix *preObj,
bool doCol = true, bool doRow = true) ;
/*! \relates CoinPresolveMatrix
\brief Checks for equivalence of the column- and row-major matrices.
Normally the routine will test for coefficient presence and value. Set
\p chkvals to false to suppress the check for equal value.
*/
void presolve_consistent(const CoinPresolveMatrix *preObj,
bool chkvals = true) ;
/*! \relates CoinPostsolveMatrix
\brief Checks that column threads agree with column lengths
*/
void presolve_check_threads(const CoinPostsolveMatrix *obj) ;
/*! \relates CoinPostsolveMatrix
\brief Checks the free list
Scans the thread of free locations in the bulk store and checks that all
entries are reasonable (0 <= index < bulk0_). If chkElemCnt is true, it
also checks that the total number of entries in the matrix plus the
locations on the free list total to the size of the bulk store. Postsolve
routines do not maintain an accurate element count, but this is useful
for checking a newly constructed postsolve matrix.
*/
void presolve_check_free_list(const CoinPostsolveMatrix *obj,
bool chkElemCnt = false) ;
/*! \relates CoinPostsolveMatrix
\brief Check stored reduced costs for accuracy and consistency with
variable status.
The routine will check the value of the reduced costs for architectural
variables (CoinPrePostsolveMatrix::rcosts_). It performs an accuracy check
by recalculating the reduced cost from scratch. It will also check the
value for consistency with the status information in
CoinPrePostsolveMatrix::colstat_.
*/
void presolve_check_reduced_costs(const CoinPostsolveMatrix *obj) ;
/*! \relates CoinPostsolveMatrix
\brief Check the dual variables for consistency with row activity.
The routine checks that the value of the dual variable is consistent
with the state of the constraint (loose, tight at lower bound, or tight at
upper bound).
*/
void presolve_check_duals(const CoinPostsolveMatrix *postObj) ;
/*! \relates CoinPresolveMatrix
\brief Check primal solution and architectural variable status.
The architectural variables can be checked for bogus values, feasibility,
and valid status. The row activity is checked for bogus values, accuracy,
and feasibility. By default, row activity is not checked (presolve is
sloppy about maintaining it). See the definitions in
CoinPresolvePsdebug.cpp for more information.
*/
void presolve_check_sol(const CoinPresolveMatrix *preObj,
int chkColSol = 2, int chkRowAct = 1,
int chkStatus = 1) ;
/*! \relates CoinPostsolveMatrix
\brief Check primal solution and architectural variable status.
The architectural variables can be checked for bogus values, feasibility,
and valid status. The row activity is checked for bogus values, accuracy,
and feasibility. See the definitions in CoinPresolvePsdebug.cpp for more
information.
*/
void presolve_check_sol(const CoinPostsolveMatrix *postObj,
int chkColSol = 2, int chkRowAct = 2,
int chkStatus = 1) ;
/*! \relates CoinPresolveMatrix
\brief Check for the proper number of basic variables.
*/
void presolve_check_nbasic(const CoinPresolveMatrix *preObj) ;
/*! \relates CoinPostsolveMatrix
\brief Check for the proper number of basic variables.
*/
void presolve_check_nbasic(const CoinPostsolveMatrix *postObj) ;
//@}
#endif
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