doc/html/cutsel__dynamic_8h_source.php

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 /**@file   cutsel_dynamic.h
  * @ingroup CUTSELECTORS
  * @brief  dynamic cut selector
  * @author Christoph Graczyk
  *
  *  The dynamic cut selector is an extension of the hybrid cut selector to employ a dynamic range for the orthogonality
  *  filtering, dependent on the efficacy ratio between cuts. It allows the user to specify a minimum efficacy gain in
  *  percentage to filter cuts, which corresponds geometrically to the idealized shift from the LP solution adding only
  *  the first cut to the intersection with the second cut.
  *  In this way we can enforce a minimum orthogonality between cuts through the efficacy ratio. This should, in theory,
  *  avoid the selection of cutting plane pairs that do not improve the lp solution, but only increase the number of cuts
  *  in the lp.
  *
  *  The selector allows the user to specify a filtering strategy during cut selection ('d'ynamic- and 'f'ull dynamic),
  *  which determines how the orthogonality filtering is applied.
  *  In both cases, after a cut is selected, the remaining cuts are resorted by computing their relative efficacy to the
  *  selected cut. The efficacy ratio is then used to filter the cuts based on the filtering strategy:
  *  - 'd'ynamic-parallelism: The dynamic parallelism strategy filters cuts based on the efficacy ratio between cut
  *  pairs. It only filters cuts that are not theoretically improving the efficacy of the pair given the first cut, i.e.,
  *  the efficacy ratio is below the minimum efficacy gain in percentage, without calculating or resorting the cut array.
  *
  *  - 'f'ull dynamic parallelism: The full dynamic parallelism strategy filters cuts based on the efficacy ratio between
  *  cut pairs by iteratively recomputing the score given the previously selected cut. This results in a set of cuts
  *  that is a sequence of theoretically most effective almost orthogonal cuts, whereby almost orthogonal means that
  *  the efficacy ratio is above the minimum efficacy gain in percentage.
  */

 /*---+----1----+----2----+----3----+----4----+----5----+----6----+----7----+----8----+----9----+----0----+----1----+----2*/

 #ifndef __SCIP_CUTSEL_DYNAMIC_H__
 #define __SCIP_CUTSEL_DYNAMIC_H__


 #include "scip/scip.h"

 #ifdef __cplusplus
 extern "C" {
 #endif

 /** creates the dynamic hybrid separator and includes it in SCIP
  *
  * @ingroup CutSelectorIncludes
  */
 SCIP_EXPORT
 SCIP_RETCODE SCIPincludeCutselDynamic(
    SCIP*                 scip                /**< SCIP data structure */
    );

 /**@addtogroup CUTSELECTORS
  *
  * @{
  */

 /** perform a cut selection algorithm for the given array of cuts
  *
  *  This is an extension of the hybrid cutselector to employ a dynamic range
  *  when applying orthogonality filtering, dependent on the efficacy ratio between cuts.
  *
  *  The input cuts array should be resorted such that the selected cuts come first.
  */
 SCIP_EXPORT
 SCIP_RETCODE SCIPselectCutsDynamic(
     SCIP*                 scip,               /**< SCIP data structure */
     SCIP_ROW**            cuts,               /**< array with cuts to perform selection algorithm */
     SCIP_ROW**            forcedcuts,         /**< array with forced cuts */
     SCIP_RANDNUMGEN*      randnumgen,         /**< random number generator for tie-breaking, or NULL */
     char                  filtermode,         /**< filtering strategy during cut selection (
                                               *  'd'ynamic- and 'f'ull dynamic parallelism) */
     SCIP_Real             mingain,            /**< minimum efficacy gain in percentage to filter cuts */
     SCIP_Real             maxparall,          /**< maximal parallelism for all cuts that are not good */
     SCIP_Real             dircutoffdistweight,/**< weight of directed cutoff distance in cut score calculation */
     SCIP_Real             efficacyweight,     /**< weight of efficacy in cut score calculation */
     SCIP_Real             objparalweight,     /**< weight of objective parallelism in cut score calculation */
     SCIP_Real             intsupportweight,   /**< weight of integral support in cut score calculation */
     int                   ncuts,              /**< number of cuts in cuts array */
     int                   nforcedcuts,        /**< number of forced cuts */
     int                   maxselectedcuts,    /**< maximal number of cuts from cuts array to select */
     int*                  nselectedcuts      /**< pointer to return number of selected cuts from cuts array */
   );

 /** @} */

 #ifdef __cplusplus
 }
 #endif

 #endif
Scip
Definition: struct_scip.h:69

SCIP_RETCODE
enum SCIP_Retcode SCIP_RETCODE
Definition: type_retcode.h:63

SCIP_RandNumGen
Definition: struct_misc.h:268

SCIPincludeCutselDynamic
SCIP_RETCODE SCIPincludeCutselDynamic(SCIP *scip)
Definition: cutsel_dynamic.c:457

SCIP_Row
Definition: struct_lp.h:201

SCIPselectCutsDynamic
SCIP_RETCODE SCIPselectCutsDynamic(SCIP *scip, SCIP_ROW **cuts, SCIP_ROW **forcedcuts, SCIP_RANDNUMGEN *randnumgen, char filtermode, SCIP_Real mingain, SCIP_Real maxparall, SCIP_Real dircutoffdistweight, SCIP_Real efficacyweight, SCIP_Real objparalweight, SCIP_Real intsupportweight, int ncuts, int nforcedcuts, int maxselectedcuts, int *nselectedcuts)
Definition: cutsel_dynamic.c:540

SCIP_Real
#define SCIP_Real
Definition: def.h:173

scip
Definition: objbenders.h:43

scip.h
SCIP callable library.