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/*------------------------------------------------------------------------- * * genam.h * POSTGRES generalized index access method definitions. * * * Portions Copyright (c) 1996-2016, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * src/include/access/genam.h * *------------------------------------------------------------------------- */ #ifndef GENAM_H #define GENAM_H #include "access/sdir.h" #include "access/skey.h" #include "nodes/tidbitmap.h" #include "storage/lockdefs.h" #include "utils/relcache.h" #include "utils/snapshot.h" /* * Struct for statistics returned by ambuild */ typedef struct IndexBuildResult { double heap_tuples; /* # of tuples seen in parent table */ double index_tuples; /* # of tuples inserted into index */ } IndexBuildResult; /* * Struct for input arguments passed to ambulkdelete and amvacuumcleanup * * num_heap_tuples is accurate only when estimated_count is false; * otherwise it's just an estimate (currently, the estimate is the * prior value of the relation's pg_class.reltuples field). It will * always just be an estimate during ambulkdelete. */ typedef struct IndexVacuumInfo { Relation index; /* the index being vacuumed */ bool analyze_only; /* ANALYZE (without any actual vacuum) */ bool estimated_count; /* num_heap_tuples is an estimate */ int message_level; /* ereport level for progress messages */ double num_heap_tuples; /* tuples remaining in heap */ BufferAccessStrategy strategy; /* access strategy for reads */ } IndexVacuumInfo; /* * Struct for statistics returned by ambulkdelete and amvacuumcleanup * * This struct is normally allocated by the first ambulkdelete call and then * passed along through subsequent ones until amvacuumcleanup; however, * amvacuumcleanup must be prepared to allocate it in the case where no * ambulkdelete calls were made (because no tuples needed deletion). * Note that an index AM could choose to return a larger struct * of which this is just the first field; this provides a way for ambulkdelete * to communicate additional private data to amvacuumcleanup. * * Note: pages_removed is the amount by which the index physically shrank, * if any (ie the change in its total size on disk). pages_deleted and * pages_free refer to free space within the index file. Some index AMs * may compute num_index_tuples by reference to num_heap_tuples, in which * case they should copy the estimated_count field from IndexVacuumInfo. */ typedef struct IndexBulkDeleteResult { BlockNumber num_pages; /* pages remaining in index */ BlockNumber pages_removed; /* # removed during vacuum operation */ bool estimated_count; /* num_index_tuples is an estimate */ double num_index_tuples; /* tuples remaining */ double tuples_removed; /* # removed during vacuum operation */ BlockNumber pages_deleted; /* # unused pages in index */ BlockNumber pages_free; /* # pages available for reuse */ } IndexBulkDeleteResult; /* Typedef for callback function to determine if a tuple is bulk-deletable */ typedef bool (*IndexBulkDeleteCallback) (ItemPointer itemptr, void *state); /* struct definitions appear in relscan.h */ typedef struct IndexScanDescData *IndexScanDesc; typedef struct SysScanDescData *SysScanDesc; /* * Enumeration specifying the type of uniqueness check to perform in * index_insert(). * * UNIQUE_CHECK_YES is the traditional Postgres immediate check, possibly * blocking to see if a conflicting transaction commits. * * For deferrable unique constraints, UNIQUE_CHECK_PARTIAL is specified at * insertion time. The index AM should test if the tuple is unique, but * should not throw error, block, or prevent the insertion if the tuple * appears not to be unique. We'll recheck later when it is time for the * constraint to be enforced. The AM must return true if the tuple is * known unique, false if it is possibly non-unique. In the "true" case * it is safe to omit the later recheck. * * When it is time to recheck the deferred constraint, a pseudo-insertion * call is made with UNIQUE_CHECK_EXISTING. The tuple is already in the * index in this case, so it should not be inserted again. Rather, just * check for conflicting live tuples (possibly blocking). */ typedef enum IndexUniqueCheck { UNIQUE_CHECK_NO, /* Don't do any uniqueness checking */ UNIQUE_CHECK_YES, /* Enforce uniqueness at insertion time */ UNIQUE_CHECK_PARTIAL, /* Test uniqueness, but no error */ UNIQUE_CHECK_EXISTING /* Check if existing tuple is unique */ } IndexUniqueCheck; /* Nullable "ORDER BY col op const" distance */ typedef struct IndexOrderByDistance { double value; bool isnull; } IndexOrderByDistance; /* * generalized index_ interface routines (in indexam.c) */ /* * IndexScanIsValid * True iff the index scan is valid. */ #define IndexScanIsValid(scan) PointerIsValid(scan) extern Relation index_open(Oid relationId, LOCKMODE lockmode); extern void index_close(Relation relation, LOCKMODE lockmode); extern bool index_insert(Relation indexRelation, Datum *values, bool *isnull, ItemPointer heap_t_ctid, Relation heapRelation, IndexUniqueCheck checkUnique); extern IndexScanDesc index_beginscan(Relation heapRelation, Relation indexRelation, Snapshot snapshot, int nkeys, int norderbys); extern IndexScanDesc index_beginscan_bitmap(Relation indexRelation, Snapshot snapshot, int nkeys); extern void index_rescan(IndexScanDesc scan, ScanKey keys, int nkeys, ScanKey orderbys, int norderbys); extern void index_endscan(IndexScanDesc scan); extern void index_markpos(IndexScanDesc scan); extern void index_restrpos(IndexScanDesc scan); extern ItemPointer index_getnext_tid(IndexScanDesc scan, ScanDirection direction); extern HeapTuple index_fetch_heap(IndexScanDesc scan); extern HeapTuple index_getnext(IndexScanDesc scan, ScanDirection direction); extern int64 index_getbitmap(IndexScanDesc scan, TIDBitmap *bitmap); extern IndexBulkDeleteResult *index_bulk_delete(IndexVacuumInfo *info, IndexBulkDeleteResult *stats, IndexBulkDeleteCallback callback, void *callback_state); extern IndexBulkDeleteResult *index_vacuum_cleanup(IndexVacuumInfo *info, IndexBulkDeleteResult *stats); extern bool index_can_return(Relation indexRelation, int attno); extern RegProcedure index_getprocid(Relation irel, AttrNumber attnum, uint16 procnum); extern FmgrInfo *index_getprocinfo(Relation irel, AttrNumber attnum, uint16 procnum); /* * index access method support routines (in genam.c) */ extern IndexScanDesc RelationGetIndexScan(Relation indexRelation, int nkeys, int norderbys); extern void IndexScanEnd(IndexScanDesc scan); extern char *BuildIndexValueDescription(Relation indexRelation, Datum *values, bool *isnull); /* * heap-or-index access to system catalogs (in genam.c) */ extern SysScanDesc systable_beginscan(Relation heapRelation, Oid indexId, bool indexOK, Snapshot snapshot, int nkeys, ScanKey key); extern HeapTuple systable_getnext(SysScanDesc sysscan); extern bool systable_recheck_tuple(SysScanDesc sysscan, HeapTuple tup); extern void systable_endscan(SysScanDesc sysscan); extern SysScanDesc systable_beginscan_ordered(Relation heapRelation, Relation indexRelation, Snapshot snapshot, int nkeys, ScanKey key); extern HeapTuple systable_getnext_ordered(SysScanDesc sysscan, ScanDirection direction); extern void systable_endscan_ordered(SysScanDesc sysscan); #endif /* GENAM_H */