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Revision 575 - (download) (as text) (annotate)
Sat Feb 26 18:07:35 2005 UTC (15 years, 1 month ago) by maechler
File size: 7786 byte(s)
use "(.)" against "-Wall" warning
/*
 * Copyright 1997, Regents of the University of Minnesota
 *
 * struct.h
 *
 * This file contains data structures for ILU routines.
 *
 * Started 9/26/95
 * George
 *
 * $Id: struct.h,v 1.1 2003/12/31 21:32:30 bates Exp $
 */

/* Undefine the following #define in order to use short int as the idxtype */
#define IDXTYPE_INT

/* Indexes are as long as integers for now */
#ifdef IDXTYPE_INT
typedef int idxtype;
#else
typedef short idxtype;
#endif

#define MAXIDX	(1 << (8*sizeof(idxtype)-2))


/*************************************************************************
* The following data structure stores key-value pair
**************************************************************************/
struct KeyValueType {
  idxtype key;
  idxtype val;
};

typedef struct KeyValueType KeyValueType;


/*************************************************************************
* The following data structure will hold a node of a doubly-linked list.
**************************************************************************/
struct ListNodeType {
  int id;                       	/* The id value of the node */
  struct ListNodeType *prev, *next;     /* It's a doubly-linked list */
};

typedef struct ListNodeType ListNodeType;



/*************************************************************************
* The following data structure is used to store the buckets for the
* refinment algorithms
**************************************************************************/
struct PQueueType {
  int type;                     /* The type of the representation used */
  int nnodes;
  int maxnodes;
  int mustfree;

  /* Linear array version of the data structures */
  int pgainspan, ngainspan;     /* plus and negative gain span */
  int maxgain;
  ListNodeType *nodes;
  ListNodeType **buckets;

  /* Heap version of the data structure */
  KeyValueType *heap;
  idxtype *locator;
};

typedef struct PQueueType PQueueType;


/*************************************************************************
* The following data structure stores an edge
**************************************************************************/
struct edegreedef {
  idxtype pid;
  idxtype ed;
};
typedef struct edegreedef EDegreeType;


/*************************************************************************
* The following data structure stores an edge for vol
**************************************************************************/
struct vedegreedef {
  idxtype pid;
  idxtype ed, ned;
  idxtype gv;
};
typedef struct vedegreedef VEDegreeType;


/*************************************************************************
* This data structure holds various working space data
**************************************************************************/
struct workspacedef {
  idxtype *core;			/* Where pairs, indices, and degrees are coming from */
  int maxcore, ccore;

  EDegreeType *edegrees;
  VEDegreeType *vedegrees;
  int cdegree;

  idxtype *auxcore;			/* This points to the memory of the edegrees */

  idxtype *pmat;			/* An array of k^2 used for eliminating domain
                                           connectivity in k-way refinement */
};

typedef struct workspacedef WorkSpaceType;


/*************************************************************************
* The following data structure holds information on degrees for k-way
* partition
**************************************************************************/
struct rinfodef {
 int id, ed;            	/* ID/ED of nodes */
 int ndegrees;          	/* The number of different ext-degrees */
 EDegreeType *edegrees;     	/* List of edges */
};

typedef struct rinfodef RInfoType;


/*************************************************************************
* The following data structure holds information on degrees for k-way
* vol-based partition
**************************************************************************/
struct vrinfodef {
 int id, ed, nid;            	/* ID/ED of nodes */
 int gv;            		/* IV/EV of nodes */
 int ndegrees;          	/* The number of different ext-degrees */
 VEDegreeType *edegrees;     	/* List of edges */
};

typedef struct vrinfodef VRInfoType;


/*************************************************************************
* The following data structure holds information on degrees for k-way
* partition
**************************************************************************/
struct nrinfodef {
 idxtype edegrees[2];
};

typedef struct nrinfodef NRInfoType;


/*************************************************************************
* This data structure holds the input graph
**************************************************************************/
struct graphdef {
  idxtype *gdata, *rdata;	/* Memory pools for graph and refinement data.
                                   This is where memory is allocated and used
                                   the rest of the fields in this structure */

  int nvtxs, nedges;		/* The # of vertices and edges in the graph */
  idxtype *xadj;		/* Pointers to the locally stored vertices */
  idxtype *vwgt;		/* Vertex weights */
  idxtype *vsize;		/* Vertex sizes for min-volume formulation */
  idxtype *adjncy;		/* Array that stores the adjacency lists of nvtxs */
  idxtype *adjwgt;		/* Array that stores the weights of the adjacency lists */

  idxtype *adjwgtsum;		/* The sum of the adjacency weight of each vertex */

  idxtype *label;

  idxtype *cmap;

  /* Partition parameters */
  int mincut, minvol;
  idxtype *where, *pwgts;
  int nbnd;
  idxtype *bndptr, *bndind;

  /* Bisection refinement parameters */
  idxtype *id, *ed;

  /* K-way refinement parameters */
  RInfoType *rinfo;

  /* K-way volume refinement parameters */
  VRInfoType *vrinfo;

  /* Node refinement information */
  NRInfoType *nrinfo;


  /* Additional info needed by the MOC routines */
  int ncon;			/* The # of constrains */
  float *nvwgt;			/* Normalized vertex weights */
  float *npwgts;		/* The normalized partition weights */

  struct graphdef *coarser, *finer;
};

typedef struct graphdef GraphType;



/*************************************************************************
* The following data type implements a timer
**************************************************************************/
typedef double timer;


/*************************************************************************
* The following structure stores information used by Metis
**************************************************************************/
struct controldef {
  int CoarsenTo;		/* The # of vertices in the coarsest graph */
  int dbglvl;			/* Controls the debuging output of the program */
  int CType;			/* The type of coarsening */
  int IType;			/* The type of initial partitioning */
  int RType;			/* The type of refinement */
  int maxvwgt;			/* The maximum allowed weight for a vertex */
  float nmaxvwgt;		/* The maximum allowed weight for a vertex for each constrain */
  int optype;			/* Type of operation */
  int pfactor;			/* .1*prunning factor */
  int nseps;			/* The number of separators to be found during multiple bisections */
  int oflags;

  WorkSpaceType wspace;		/* Work Space Informations */

  /* Various Timers */
  timer TotalTmr, InitPartTmr, MatchTmr, ContractTmr, CoarsenTmr, UncoarsenTmr,
        SepTmr, RefTmr, ProjectTmr, SplitTmr, AuxTmr1, AuxTmr2, AuxTmr3, AuxTmr4, AuxTmr5, AuxTmr6;

};

typedef struct controldef CtrlType;


/*************************************************************************
* The following data structure stores max-partition weight info for
* Vertical MOC k-way refinement
**************************************************************************/
struct vpwgtdef {
  float max[2][MAXNCON];
  int imax[2][MAXNCON];
};

typedef struct vpwgtdef VPInfoType;





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