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author | Georgey | 2017-07-05 11:40:43 +0530 |
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committer | Georgey | 2017-07-05 11:40:43 +0530 |
commit | 938fef4a37a7b7c61b4b6ff74cb4cfd2f100c427 (patch) | |
tree | b343c0ee5609433c80e0de1db8b6886c9126dc2d /thirdparty/linux/include/coin1/Cgl012cut.hpp | |
parent | 5b72577efe080c5294b32d804e4d26351fef30bc (diff) | |
download | FOSSEE-Optimization-toolbox-938fef4a37a7b7c61b4b6ff74cb4cfd2f100c427.tar.gz FOSSEE-Optimization-toolbox-938fef4a37a7b7c61b4b6ff74cb4cfd2f100c427.tar.bz2 FOSSEE-Optimization-toolbox-938fef4a37a7b7c61b4b6ff74cb4cfd2f100c427.zip |
Added linux shared libraries and header files for int and ecos functions
Diffstat (limited to 'thirdparty/linux/include/coin1/Cgl012cut.hpp')
-rw-r--r-- | thirdparty/linux/include/coin1/Cgl012cut.hpp | 464 |
1 files changed, 464 insertions, 0 deletions
diff --git a/thirdparty/linux/include/coin1/Cgl012cut.hpp b/thirdparty/linux/include/coin1/Cgl012cut.hpp new file mode 100644 index 0000000..2814b0a --- /dev/null +++ b/thirdparty/linux/include/coin1/Cgl012cut.hpp @@ -0,0 +1,464 @@ +// $Id: Cgl012cut.hpp 1149 2013-10-21 18:23:53Z tkr $ +// Copyright (C) 2010, International Business Machines +// Corporation and others. All Rights Reserved. +// This code is licensed under the terms of the Eclipse Public License (EPL). +/** @file 012cut.h Include file for C coded 0-1/2 separator */ +#ifndef CGL012CUT +#define CGL012CUT +#include <cstdio> +#include <cstdlib> +#include <cmath> + +#define CGL_NEW_SHORT +#ifndef CGL_NEW_SHORT +typedef /* arc */ + struct arc_st +{ + int len; /* length of the arc */ + struct node_st *head; /* head node */ +} + arc; + +typedef /* node */ + struct node_st +{ + arc *first; /* first outgoing arc */ + int dist; /* tentative shortest path length */ + struct node_st *parent; /* parent pointer */ + struct node_st *next; /* next node in queue */ + struct node_st *prev; /* previous node in queue */ + int status; /* status of node */ + int temp; /* for temporary labels */ + int index; /* index of the node in the graph */ +} node; +#endif +typedef struct +{ + int length; // Length of arc + int to; // To node +} cgl_arc; + +typedef struct +{ + cgl_arc * firstArc; // First outgoing arc + int parentNode; // Parent node in shortest path + int index; // Which node I am + int distanceBack; // Distance back to source +} cgl_node; + +typedef struct +{ + int nnodes; // Number of nodes in graph + int narcs; // Number of arcs in graph + cgl_node * nodes; + cgl_arc * arcs; +} cgl_graph; +/* #define PRINT */ +/* #define PRINT_CUTS */ +#define REDUCTION + +typedef struct { +int mr; /* number of rows in the ILP matrix */ +int mc; /* number of columns in the ILP matrix */ +int mnz; /* number of nonzero's in the ILP matrix */ +int *mtbeg; /* starting position of each row in arrays mtind and mtval */ +int *mtcnt; /* number of entries of each row in arrays mtind and mtval */ +int *mtind; /* column indices of the nonzero entries of the ILP matrix */ +int *mtval; /* values of the nonzero entries of the ILP matrix */ +int *vlb; /* lower bounds on the variables */ +int *vub; /* upper bounds on the variables */ +int *mrhs; /* right hand sides of the constraints */ +char *msense; /* senses of the constraints: 'L', 'G' or 'E' */ +const double *xstar; /* current optimal solution of the LP relaxation */ +} ilp; + +typedef struct { +int mr; /* number of rows in the parity ILP matrix */ +int mc; /* number of columns in the parity ILP matrix */ +int mnz; /* number of 1's in the parity ILP matrix */ +int *mtbeg; /* starting position of each row in arrays mtind and mtval */ +int *mtcnt; /* number of entries of each row in arrays mtind and mtval */ +int *mtind; /* column indices of the 1's of the parity ILP matrix */ +short int *mrhs; /* right hand side parity of the constraints */ +double *xstar; /* current optimal solution of the LP relaxation */ +double *slack; /* slack of the constraints w.r.t. xstar */ +short int *row_to_delete; /* flag for marking rows not to be considered */ +short int *col_to_delete; /* flag for marking columns not to be considered */ +int *gcd; /* greatest common divisor of each row in the input ILP matrix */ +short int *possible_weak; /* possible weakening types of each column */ +short int *type_even_weak; /* type of even weakening of each column + (lower or upper bound weakening) */ +short int *type_odd_weak; /* type of odd weakening of each column + (lower or upper bound weakening) */ +double *loss_even_weak; /* loss for the even weakening of each column */ +double *loss_odd_weak; /* loss for the odd weakening of each column */ +double *min_loss_by_weak; /* minimum loss for the weakening of each column */ +} parity_ilp; + +typedef struct { +int nweak; /* number of variables weakened */ +int *var; /* list of variables weakened */ +short int *type; /* type of weakening (lower or upper bound weakening) */ +} info_weak; + +typedef struct { +int endpoint1, endpoint2; /* endpoints of the edge */ +double weight; /* edge weight */ +short int parity; /* edge parity (even or odd) */ +int constr; /* constraint associated with the edge */ +info_weak *weak; /* weakening information */ +} edge; + +typedef struct { +int nnodes; /* number of nodes */ +int nedges; /* number of edges */ +int *nodes; /* indexes of the ILP columns corresponding to the nodes */ +int *ind; /* indexes of the nodes corresponding to the ILP columns */ +edge **even_adj_list; /* pointers to the even edges */ +edge **odd_adj_list; /* pointers to the odd edges */ +} separation_graph; + +#ifndef CGL_NEW_SHORT +typedef struct { +int nnodes; /* number of nodes */ +int narcs; /* number of arcs */ +node *nodes; /* array of the nodes - see "types_db.h" */ +arc *arcs; /* array of the arcs - see "types_db.h" */ +} auxiliary_graph; +#else +typedef struct { +int nnodes; /* number of nodes */ +int narcs; /* number of arcs */ +cgl_node *nodes; /* array of the nodes - see "types_db.h" */ +cgl_arc *arcs; /* array of the arcs - see "types_db.h" */ +} auxiliary_graph; +#endif + +typedef struct { +long dist; /* distance from/to root */ +int pred; /* index of the predecessor */ +} short_path_node; + +typedef struct { +double weight; /* overall weight of the cycle */ +int length; /* number of edges in the cycle */ +edge **edge_list; /* list of edges in the cycle */ +} cycle; + +typedef struct { +int cnum; /* overall number of cycles */ +cycle **list; /* pointers to the cycles in the list */ +} cycle_list; + +typedef struct { +int n_of_constr; /* number of constraints combined to get the cut */ +int *constr_list; /* list of the constraints combined */ +short int *in_constr_list; /* flag saying whether a given constraint is + in the list of constraints of the cut (IN) + or not (OUT) */ +int cnzcnt; /* overall number of nonzero's in the cut */ +int *cind; /* column indices of the nonzero entries of the cut */ +int *cval; /* values of the nonzero entries of the cut */ +int crhs; /* right hand side of the cut */ +char csense; /* sense of the cut: 'L', 'G' or 'E' */ +double violation; /* violation of the cut w.r.t. the current LP solution */ +} cut; + +typedef struct { +int cnum; /* overall number of cuts */ +cut **list; /* pointers to the cuts in the list */ +} cut_list; + +typedef struct { +int n_of_constr; /* number of constraints combined to get the cut */ +int *constr_list; /* list of the constraints combined */ +int code; /* identifier of the cut */ +int n_it_violated; /* number of consecutive iterations (starting from the + last and going backward) in which the cut was + violated by the LP solution */ +int it_found; /* iteration in which the cut was separated */ +double score; /* score of the cut, used to choose wich cut should be + added to the current LP (if any) */ +} pool_cut; + +typedef struct { +int cnum; /* overall number of cuts */ +pool_cut **list; /* pointers to the cuts in the list */ +int *ncod; /* number of cuts with a given code in the pool */ +} pool_cut_list; + +typedef struct { +int *ccoef; /* coefficients of the cut */ +int crhs; /* right hand side of the cut */ +int pool_index; /* index of the cut in the pool */ +double score; /* cut score (to be maximized) */ +} select_cut; + +typedef struct { +int n_it_zero; /* number of consecutive iterations (starting from the + last and going backward) in which each variable took + the value 0 in the LP solution */ +} log_var; +/** 012Cut Generator Class + + This class is to make Cgl01cut thread safe etc +*/ + +class Cgl012Cut { + +public: + + /**@name Generate Cuts */ + //@{ +int sep_012_cut( +/* + INPUT parameters: +*/ +int mr, /* number of rows in the ILP matrix */ +int mc, /* number of columns in the ILP matrix */ +int mnz, /* number of nonzero's in the ILP matrix */ +int *mtbeg, /* starting position of each row in arrays mtind and mtval */ +int *mtcnt, /* number of entries of each row in arrays mtind and mtval */ +int *mtind, /* column indices of the nonzero entries of the ILP matrix */ +int *mtval, /* values of the nonzero entries of the ILP matrix */ +int *vlb, /* lower bounds on the variables */ +int *vub, /* upper bounds on the variables */ +int *mrhs, /* right hand sides of the constraints */ +char *msense, /* senses of the constraints: 'L', 'G' or 'E' */ +const double *xstar, /* current optimal solution of the LP relaxation */ +bool aggressive, /* flag asking whether as many cuts as possible are + required on output (TRUE) or not (FALSE) */ +/* + OUTPUT parameters (the memory for the vectors is allocated INTERNALLY + by the procedure: if some memory is already allocated, it is FREED): +*/ +int *cnum, /* number of violated 0-1/2 cuts identified by the procedure */ +int *cnzcnt, /* overall number of nonzero's in the cuts */ +int **cbeg, /* starting position of each cut in arrays cind and cval */ +int **ccnt, /* number of entries of each cut in arrays cind and cval */ +int **cind, /* column indices of the nonzero entries of the cuts */ +int **cval, /* values of the nonzero entries of the cuts */ +int **crhs, /* right hand sides of the cuts */ +char **csense /* senses of the cuts: 'L', 'G' or 'E' */ +/* + NOTE that all the numerical input/output vectors are INTEGER (with + the exception of xstar), since the procedure is intended to work + with pure ILP's, and that the ILP matrix has to be given on input + in ROW format. +*/ + ); +void ilp_load( + int mr, /* number of rows in the ILP matrix */ + int mc, /* number of columns in the ILP matrix */ + int mnz, /* number of nonzero's in the ILP matrix */ + int *mtbeg, /* starting position of each row in arrays mtind and mtval */ + int *mtcnt, /* number of entries of each row in arrays mtind and mtval */ + int *mtind, /* column indices of the nonzero entries of the ILP matrix */ + int *mtval, /* values of the nonzero entries of the ILP matrix */ + int *vlb, /* lower bounds on the variables */ + int *vub, /* upper bounds on the variables */ + int *mrhs, /* right hand sides of the constraints */ + char *msense /* senses of the constraints: 'L', 'G' or 'E' */ + ); +void free_ilp(); +/* alloc_parity_ilp: allocate the memory for the parity ILP data structure */ + +void alloc_parity_ilp( + int mr, /* number of rows in the ILP matrix */ + int mc, /* number of columns in the ILP matrix */ + int mnz /* number of nonzero's in the ILP matrix */ + ); +void free_parity_ilp(); + void initialize_log_var(); +/* free_log_var */ + void free_log_var(); +private: +/* best_weakening: find the best upper/lower bound weakening of a set + of variables */ + +int best_weakening( + int n_to_weak, /* number of variables to weaken */ +int *vars_to_weak, /* indices of the variables to weaken */ +short int original_parity, /* original parity of the constraint to weaken */ +double original_slack, /* original slack of the constraint to weaken */ +double *best_even_slack, /* best possible slack of a weakened constraint + with even right-hand-side */ +double *best_odd_slack, /* best possible slack of a weakened constraint + with odd right-hand-side */ +info_weak **info_even_weak, /* weakening information about the best possible + even weakened constraint */ +info_weak **info_odd_weak, /* weakening information about the best possible + odd weakened constraint */ +short int only_odd, /* flag which tells whether only an odd weakening is of + interest (TRUE) or both weakenings are (FALSE) */ +short int only_viol /* flag which tells whether only an inequality of + slack smaller than MAX_SLACK is of interest (TRUE) + otherwise (FALSE) */ + ); + +/* best_cut: find the coefficients, the rhs and the violation of the + best possible cut that can be obtained by weakening a given set of + coefficients to even and a rhs to odd, dividing by 2 and rounding */ + +short int best_cut( + int *ccoef, /* vector of the coefficients */ + int *crhs, /* pointer to rhs value */ + double *violation, /* violation of the cut */ + short int update, /* TRUE/FALSE: if TRUE, the new ccoef and crhs are + given on output */ + short int only_viol /* flag which tells whether only an inequality of + slack smaller than MAX_SLACK is of interest (TRUE) + otherwise (FALSE) */ + ); +/* get_cut: extract a hopefully violated cut from an odd cycle of the + separation graph */ + +cut *get_cut( + cycle *s_cyc /* shortest odd cycles identified in the separation graph */ + ); + +/* update_log_var: update the log information for the problem variables */ + void update_log_var(); + +/* basic_separation: try to identify violated 0-1/2 cuts by using the + original procedure described in Caprara and Fischetti's MP paper */ + + cut_list *basic_separation(); + +/* score_by_moving: compute the score of the best cut obtainable from + the current local search solution by inserting/deleting a constraint */ + +double score_by_moving( + int i, /* constraint to be moved */ + short int itype, /* type of move - ADD or DEL */ + double thresh /* minimum value of an interesting score */ + ); +/* modify_current: update the current local search solution by inserting/ + deleting a constraint */ + +void modify_current( + int i, /* constraint to be moved */ + short int itype /* type of move - ADD or DEL */ + ); + +/* best neighbour: find the cut to be added/deleted from the current + solution among those allowed by the tabu rules */ + + short int best_neighbour(cut_list *out_cuts /* list of the violated cuts found */); + +/* add_tight_constraint: initialize the current cut by adding a tight + constraint to it */ + + void add_tight_constraint(); + +/* tabu_012: try to identify violated 0-1/2 cuts by a simple tabu search + procedure adapted from that used by Battiti and Protasi for finding + large cliques */ + + cut_list *tabu_012(); +/* initialize: initialize the data structures for local search */ + + void initialize(); +/* restart: perform a restart of the search - IMPORTANT: in the current + implementation vector last_moved is not cleared at restart */ + + void restart(short int failure /* flag forcing the restart if some trouble occurred */); + void print_constr(int i /* constraint to be printed */); + void print_parity_ilp(); + +/* get_parity_ilp: construct an internal data structure containing all the + information which can be useful for 0-1/2 cut separation */ + + void get_parity_ilp(); +/* initialize_sep_graph: allocate and initialize the data structure + to contain the information associated with a separation graph */ + + separation_graph *initialize_sep_graph(); + void print_cut(cut *v_cut); +/* get_ori_cut_coef: get the coefficients of a cut, before dividing by 2 and + rounding, starting from the list of the constraints combined to get + the cut */ + +short int get_ori_cut_coef( + int n_of_constr, /* number of constraints combined */ + int *constr_list, /* list of the constraints combined */ + int *ccoef, /* cut left hand side coefficients */ + int *crhs, /* cut right hand side */ + short int only_viol /* flag which tells whether only an inequality of + slack smaller than MAX_SLACK is of interest (TRUE) + otherwise (FALSE) */ + ); +/* define_cut: construct a cut data structure from a vector of + coefficients and a right-hand-side */ + +cut *define_cut( + int *ccoef, /* coefficients of the cut */ + int crhs /* right hand side of the cut */ + ); + +/* cut_score: define the score of a (violated) cut */ + +double cut_score( + int *ccoef, /* cut left hand side coefficients */ + int crhs, /* cut right hand side */ + double viol, /* cut violation */ + short int only_viol /* flag which tells whether only an inequality of + slack smaller than MAX_SLACK is of interest (TRUE) + otherwise (FALSE) */ + ); +/* get_current_cut: return a cut data type with the information about + the current cut of the search procedure */ + + cut *get_current_cut(); +/* print_cur_cut: display cur_cut on output */ + + void print_cur_cut(); + void print_cut_list(cut_list *cuts); + //@} +public: + /**@name Constructors and destructors */ + //@{ + /// Default constructor + Cgl012Cut (); + + /// Copy constructor + Cgl012Cut ( + const Cgl012Cut &); + + /// Assignment operator + Cgl012Cut & + operator=( + const Cgl012Cut& rhs); + + /// Destructor + virtual ~Cgl012Cut (); + //@} + +private: + + // Private member methods + + /**@name Private methods */ + //@{ + //@} + + + /**@name Private member data */ + //@{ + +ilp *inp_ilp; /* input ILP data structure */ +parity_ilp *p_ilp; /* parity ILP data structure */ +int iter; +double gap; +double maxgap; +int errorNo; +int sep_iter; /* number of the current separation iteration */ +log_var **vlog; /* information about the value attained + by the variables in the last iterations, + used to possibly set to 0 some coefficient + > 0 in a cut to be added */ +bool aggr; /* flag saying whether as many cuts as possible are required + from the separation procedure (TRUE) or not (FALSE) */ + //@} +}; +#endif |