-/* $Id: rset.h,v 1.25 2004-08-06 09:43:03 heikki Exp $
- Copyright (C) 1995,1996,1997,1998,1999,2000,2001,2002
- Index Data Aps
+/* $Id: rset.h,v 1.47 2005-01-17 01:21:43 adam Exp $
+ Copyright (C) 1995-2005
+ Index Data ApS
This file is part of the Zebra server.
02111-1307, USA.
*/
-
-
#ifndef RSET_H
#define RSET_H
-#include <stdlib.h>
+/* unfortunately we need the isam includes here, for the arguments for */
+/* rsisamX_create */
+#include <idzebra/isamb.h>
+#include <idzebra/isamc.h>
+#include <idzebra/isams.h>
-#ifdef __cplusplus
-extern "C" {
-#endif
-typedef void *RSFD;
+YAZ_BEGIN_CDECL
+
+typedef struct rsfd *RSFD; /* Rset "file descriptor" */
+typedef struct rset *RSET; /* Result set */
+
+
+/**
+ * rset_term is all we need to know of a term to do ranking etc.
+ * As far as the rsets are concerned, it is just a dummy pointer to
+ * be passed around.
+ */
+
+struct rset_term {
+ /** the term itself */
+ char *name;
+ char *flags;
+ int type;
+ /** the rset corresponding to this term */
+ RSET rset;
+ /** private stuff for the ranking algorithm */
+ void *rankpriv;
+};
-typedef struct rset *RSET;
-typedef struct rset_term *RSET_TERM;
+typedef struct rset_term *TERMID;
+TERMID rset_term_create (const char *name, int length, const char *flags,
+ int type, NMEM nmem);
+
+
+/** rsfd is a "file descriptor" for reading from a rset */
+struct rsfd { /* the stuff common to all rsfd's. */
+ RSET rset; /* ptr to the rset this FD is opened to */
+ void *priv; /* private parameters for this type */
+ RSFD next; /* to keep lists of used/free rsfd's */
+};
+
+
+/**
+ * rset_control has function pointers to all the important functions
+ * of a rset. Each type of rset will have its own control block, pointing
+ * to the functions for that type. They all have their own create function
+ * which is not part of the control block, as it takes different args for
+ * each type.
+ */
struct rset_control
{
- char *desc; /* text description of set type (for debugging) */
- void *(*f_create)(RSET ct, const struct rset_control *sel, void *parms);
+ /** text description of set type (for debugging) */
+ char *desc;
+/* RSET rs_something_create(const struct rset_control *sel, ...); */
+ void (*f_delete)(RSET ct);
+
+ /** recursively fills the terms array with terms. call with curterm=0 */
+ /* always counts them all into cur, but of course won't touch the term */
+ /* array past max. You can use this to count, set max=0 */
+ void (*f_getterms)(RSET ct, TERMID *terms, int maxterms, int *curterm);
+
RSFD (*f_open)(RSET ct, int wflag);
void (*f_close)(RSFD rfd);
- void (*f_delete)(RSET ct);
- void (*f_rewind)(RSFD rfd);
- int (*f_forward)(RSET ct, RSFD rfd, void *buf, int *term_index,
- int (*cmpfunc)(const void *p1, const void *p2),
- const void *untilbuf);
- void (*f_pos)(RSFD rfd, zint *current, zint *total);
+ /** forward behaves like a read, but it skips some items first */
+ int (*f_forward)(RSFD rfd, void *buf, TERMID *term, const void *untilbuf);
+ void (*f_pos)(RSFD rfd, double *current, double *total);
/* returns -1,-1 if pos function not implemented for this type */
- int (*f_read)(RSFD rfd, void *buf, int *term_index);
+ int (*f_read)(RSFD rfd, void *buf, TERMID *term);
int (*f_write)(RSFD rfd, const void *buf);
};
-int rset_default_forward(RSET ct, RSFD rfd, void *buf, int *term_index,
- int (*cmpfunc)(const void *p1, const void *p2),
+/** rset_default_forward implements a generic forward with a read-loop */
+int rset_default_forward(RSFD rfd, void *buf, TERMID *term,
const void *untilbuf);
-void rset_default_pos(RSFD rfd, zint *current, zint *total);
-struct rset_term {
- char *name;
- int nn;
- char *flags;
- int count;
- int type;
+/** rset_get_no_terms is a getterms function for those that don't have any */
+void rset_get_no_terms(RSET ct, TERMID *terms, int maxterms, int *curterm);
+
+/**
+ * rset_get_one_term is a getterms function for those rsets that have
+ * exactly one term, like all rsisamX types.
+ */
+void rset_get_one_term(RSET ct,TERMID *terms,int maxterms,int *curterm);
+
+/**
+ * key_control contains all there is to know about the keys stored in
+ * an isam, and therefore operated by the rsets. Other than this info,
+ * all we assume is that all keys are the same size, and they can be
+ * memcpy'd around
+ */
+struct key_control {
+ int key_size;
+ int scope; /* default for what level we operate (book/chapter/verse) on*/
+ /* usual sysno/seqno is 2 */
+ int (*cmp) (const void *p1, const void *p2);
+ void (*key_logdump_txt) (int logmask, const void *p, const char *txt);
+ zint (*getseq)(const void *p);
+ /* FIXME - Should not need a getseq, it won't make much sense with */
+ /* higher-order keys. Use a (generalized) cmp instead, or something */
+ /* FIXME - decode and encode, and lots of other stuff */
};
+/**
+ * A rset is an ordered sequence of keys, either directly from an underlaying
+ * isam, or from one of the higher-level operator rsets (and, or, ...).
+ * Actually, it is "virtual base class", no pure rsets exist in the system,
+ * they all are of some derived type.
+ */
typedef struct rset
{
const struct rset_control *control;
- int flags;
- int count;
- void *buf;
- RSET_TERM *rset_terms;
- int no_rset_terms;
+ const struct key_control *keycontrol;
+ int count; /* reference count */
+ void *priv; /* stuff private to the given type of rset */
+ NMEM nmem; /* nibble memory for various allocs */
+ char my_nmem; /* Should the nmem be destroyed with the rset? */
+ /* 1 if created with it, 0 if passed from above */
+ RSFD free_list; /* all rfd's allocated but not currently in use */
+ RSFD use_list; /* all rfd's in use */
+ int scope; /* On what level do we count hits and compare them? */
+ TERMID term; /* the term thing for ranking etc */
} rset;
+/* rset is a "virtual base class", which will never exist on its own
+ * all instances are rsets of some specific type, like rsisamb, or rsbool
+ * They keep their own stuff behind the priv pointer. */
+
+/* On the old sysno-seqno type isams, the scope was hard-coded to be 2.
+ * This means that we count hits on the sysno level, and when matching an
+ * 'and', we consider it a match if both term occur within the same sysno.
+ * In more complex isams we can specify on what level we wish to do the
+ * matching and counting of hits. For example, we can have book / chapter /
+ * verse, and a seqno. Scope 2 means then "give me all verses that match",
+ * 3 would be chapters, 4 books.
+ * The resolution tells how much of the occurences we need to return. If we
+ * are doing some sort of proximity, we need to get the seqnos of all
+ * occurences, whereas if we are only counting hits, we do not need anything
+ * below the scope. Again 1 is seqnos, 2 sysnos (or verses), 3 books, etc.
+ */
+
+RSFD rfd_create_base(RSET rs);
+void rfd_delete_base(RSFD rfd);
+int rfd_is_last(RSFD rfd);
+
+RSET rset_create_base(const struct rset_control *sel,
+ NMEM nmem,
+ const struct key_control *kcontrol,
+ int scope,
+ TERMID term);
+
+void rset_delete(RSET rs);
+RSET rset_dup (RSET rs);
-RSET_TERM rset_term_create (const char *name, int length, const char *flags,
- int type);
-void rset_term_destroy (RSET_TERM t);
-RSET_TERM rset_term_dup (RSET_TERM t);
#define RSETF_READ 0
#define RSETF_WRITE 1
+/* RSFD rset_open(RSET rs, int wflag); */
+#define rset_open(rs, wflag) (*(rs)->control->f_open)((rs), (wflag))
-RSET rset_create(const struct rset_control *sel, void *parms);
-/* parameters? */
+/* void rset_close(RSFD rfd); */
+#define rset_close(rfd) (*(rfd)->rset->control->f_close)(rfd)
-/* int rset_open(RSET rs, int wflag); */
-#define rset_open(rs, wflag) (*(rs)->control->f_open)((rs), (wflag))
+/* int rset_forward(RSFD rfd, void *buf, TERMID term, void *untilbuf); */
+#define rset_forward(rfd, buf, term, untilbuf) \
+ (*(rfd)->rset->control->f_forward)((rfd),(buf),(term),(untilbuf))
-/* void rset_close(RSET rs); */
-#define rset_close(rs, rfd) (*(rs)->control->f_close)(rfd)
+/* void rset_getterms(RSET ct, TERMID *terms, int maxterms, int *curterm); */
+#define rset_getterms(ct, terms, maxterms, curterm) \
+ (*(ct)->control->f_getterms)((ct),(terms),(maxterms),(curterm))
-void rset_delete(RSET rs);
+/* int rset_pos(RSFD fd, double *current, double *total); */
+#define rset_pos(rfd,cur,tot) \
+ (*(rfd)->rset->control->f_pos)((rfd),(cur),(tot))
-RSET rset_dup (RSET rs);
+/* int rset_read(RSFD rfd, void *buf, TERMID term); */
+#define rset_read(rfd, buf, term) \
+ (*(rfd)->rset->control->f_read)((rfd), (buf), (term))
-/* void rset_rewind(RSET rs); */
-#define rset_rewind(rs, rfd) (*(rs)->control->f_rewind)((rfd))
+/* int rset_write(RSFD rfd, const void *buf); */
+#define rset_write(rfd, buf) (*(rfd)->rset->control->f_write)((rfd), (buf))
-/* int rset_forward(RSET rs, void *buf, int *indx, void *untilbuf); */
-#define rset_forward(rs, fd, buf, indx, cmpfunc, untilbuf) \
- (*(rs)->control->f_forward)((rs), (fd), (buf), (indx), (cmpfunc), (untilbuf))
+/* int rset_type (RSET) */
+#define rset_type(rs) ((rs)->control->desc)
-/* int rset_pos(RSET rs, RSFD fd, zint *current, zint *total); */
-#define rset_pos(rs,fd,cur,tot) \
- (*(rs)->control->f_pos)( (fd),(cur),(tot))
+/** rset_count counts or estimates the keys in it*/
+zint rset_count(RSET rs);
-/* int rset_read(RSET rs, void *buf, int *indx); */
-#define rset_read(rs, fd, buf, indx) (*(rs)->control->f_read)((fd), (buf), indx)
+RSET rstemp_create(NMEM nmem, const struct key_control *kcontrol,
+ int scope,
+ const char *temp_path, TERMID term);
-/* int rset_write(RSET rs, const void *buf); */
-#define rset_write(rs, fd, buf) (*(rs)->control->f_write)((fd), (buf))
+RSET rsnull_create(NMEM nmem, const struct key_control *kcontrol);
-/* int rset_type (RSET) */
-#define rset_type(rs) ((rs)->control->desc)
+RSET rsbool_create_and(NMEM nmem, const struct key_control *kcontrol,
+ int scope, RSET rset_l, RSET rset_r);
-#define RSET_FLAG_VOLATILE 1
+RSET rsbool_create_or (NMEM nmem, const struct key_control *kcontrol,
+ int scope, RSET rset_l, RSET rset_r);
-#define rset_is_volatile(rs) ((rs)->flags & RSET_FLAG_VOLATILE)
+RSET rsbool_create_not(NMEM nmem, const struct key_control *kcontrol,
+ int scope, RSET rset_l, RSET rset_r);
-#ifdef __cplusplus
-}
-#endif
+RSET rsbetween_create(NMEM nmem, const struct key_control *kcontrol,
+ int scope, RSET rset_l, RSET rset_m, RSET rset_r,
+ RSET rset_attr);
+
+RSET rsmulti_or_create(NMEM nmem, const struct key_control *kcontrol,
+ int scope, int no_rsets, RSET* rsets);
+
+RSET rsmulti_and_create(NMEM nmem, const struct key_control *kcontrol,
+ int scope, int no_rsets, RSET* rsets);
+
+RSET rsprox_create(NMEM nmem, const struct key_control *kcontrol,
+ int scope, int rset_no, RSET *rset,
+ int ordered, int exclusion, int relation, int distance);
+
+RSET rsisamb_create(NMEM nmem, const struct key_control *kcontrol,
+ int scope, ISAMB is, ISAMB_P pos, TERMID term);
+
+RSET rsisamc_create(NMEM nmem, const struct key_control *kcontrol,
+ int scope, ISAMC is, ISAMC_P pos, TERMID term);
+
+RSET rsisams_create(NMEM nmem, const struct key_control *kcontrol,
+ int scope, ISAMS is, ISAMS_P pos, TERMID term);
+
+
+YAZ_END_CDECL
#endif