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><H1
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><A
NAME="INDEX-FUNCTIONS"
>50.2. Index Access Method Functions</A
></H1
><P
> The index construction and maintenance functions that an index access
method must provide are:
</P
><P
></P><PRE
CLASS="PROGRAMLISTING"
>IndexBuildResult *
ambuild (Relation heapRelation,
Relation indexRelation,
IndexInfo *indexInfo);</PRE
><P>
Build a new index. The index relation has been physically created,
but is empty. It must be filled in with whatever fixed data the
access method requires, plus entries for all tuples already existing
in the table. Ordinarily the <CODE
CLASS="FUNCTION"
>ambuild</CODE
> function will call
<CODE
CLASS="FUNCTION"
>IndexBuildHeapScan()</CODE
> to scan the table for existing tuples
and compute the keys that need to be inserted into the index.
The function must return a palloc'd struct containing statistics about
the new index.
</P
><P
></P><PRE
CLASS="PROGRAMLISTING"
>bool
aminsert (Relation indexRelation,
Datum *values,
bool *isnull,
ItemPointer heap_tid,
Relation heapRelation,
bool check_uniqueness);</PRE
><P>
Insert a new tuple into an existing index. The <TT
CLASS="LITERAL"
>values</TT
> and
<TT
CLASS="LITERAL"
>isnull</TT
> arrays give the key values to be indexed, and
<TT
CLASS="LITERAL"
>heap_tid</TT
> is the TID to be indexed.
If the access method supports unique indexes (its
<TT
CLASS="STRUCTNAME"
>pg_am</TT
>.<TT
CLASS="STRUCTFIELD"
>amcanunique</TT
> flag is true) then
<TT
CLASS="LITERAL"
>check_uniqueness</TT
> might be true, in which case the access method
must verify that there is no conflicting row; this is the only situation in
which the access method normally needs the <TT
CLASS="LITERAL"
>heapRelation</TT
>
parameter. See <A
HREF="index-unique-checks.html"
>Section 50.5</A
> for details.
The result is TRUE if an index entry was inserted, FALSE if not. (A FALSE
result does not denote an error condition, but is used for cases such
as an index method refusing to index a NULL.)
</P
><P
></P><PRE
CLASS="PROGRAMLISTING"
>IndexBulkDeleteResult *
ambulkdelete (IndexVacuumInfo *info,
IndexBulkDeleteResult *stats,
IndexBulkDeleteCallback callback,
void *callback_state);</PRE
><P>
Delete tuple(s) from the index. This is a <SPAN
CLASS="QUOTE"
>"bulk delete"</SPAN
> operation
that is intended to be implemented by scanning the whole index and checking
each entry to see if it should be deleted.
The passed-in <TT
CLASS="LITERAL"
>callback</TT
> function must be called, in the style
<TT
CLASS="LITERAL"
>callback(<TT
CLASS="REPLACEABLE"
><I
>TID</I
></TT
>, callback_state) returns bool</TT
>,
to determine whether any particular index entry, as identified by its
referenced TID, is to be deleted. Must return either NULL or a palloc'd
struct containing statistics about the effects of the deletion operation.
It is OK to return NULL if no information needs to be passed on to
<CODE
CLASS="FUNCTION"
>amvacuumcleanup</CODE
>.
</P
><P
> Because of limited <TT
CLASS="VARNAME"
>maintenance_work_mem</TT
>,
<CODE
CLASS="FUNCTION"
>ambulkdelete</CODE
> might need to be called more than once when many
tuples are to be deleted. The <TT
CLASS="LITERAL"
>stats</TT
> argument is the result
of the previous call for this index (it is NULL for the first call within a
<TT
CLASS="COMMAND"
>VACUUM</TT
> operation). This allows the AM to accumulate statistics
across the whole operation. Typically, <CODE
CLASS="FUNCTION"
>ambulkdelete</CODE
> will
modify and return the same struct if the passed <TT
CLASS="LITERAL"
>stats</TT
> is not
null.
</P
><P
></P><PRE
CLASS="PROGRAMLISTING"
>IndexBulkDeleteResult *
amvacuumcleanup (IndexVacuumInfo *info,
IndexBulkDeleteResult *stats);</PRE
><P>
Clean up after a <TT
CLASS="COMMAND"
>VACUUM</TT
> operation (zero or more
<CODE
CLASS="FUNCTION"
>ambulkdelete</CODE
> calls). This does not have to do anything
beyond returning index statistics, but it might perform bulk cleanup
such as reclaiming empty index pages. <TT
CLASS="LITERAL"
>stats</TT
> is whatever the
last <CODE
CLASS="FUNCTION"
>ambulkdelete</CODE
> call returned, or NULL if
<CODE
CLASS="FUNCTION"
>ambulkdelete</CODE
> was not called because no tuples needed to be
deleted. If the result is not NULL it must be a palloc'd struct.
The statistics it contains will be used to update <TT
CLASS="STRUCTNAME"
>pg_class</TT
>,
and will be reported by <TT
CLASS="COMMAND"
>VACUUM</TT
> if <TT
CLASS="LITERAL"
>VERBOSE</TT
> is given.
It is OK to return NULL if the index was not changed at all during the
<TT
CLASS="COMMAND"
>VACUUM</TT
> operation, but otherwise correct stats should
be returned.
</P
><P
> As of <SPAN
CLASS="PRODUCTNAME"
>PostgreSQL</SPAN
> 8.4,
<CODE
CLASS="FUNCTION"
>amvacuumcleanup</CODE
> will also be called at completion of an
<TT
CLASS="COMMAND"
>ANALYZE</TT
> operation. In this case <TT
CLASS="LITERAL"
>stats</TT
> is always
NULL and any return value will be ignored. This case can be distinguished
by checking <TT
CLASS="LITERAL"
>info->analyze_only</TT
>. It is recommended
that the access method do nothing except post-insert cleanup in such a
call, and that only in an autovacuum worker process.
</P
><P
></P><PRE
CLASS="PROGRAMLISTING"
>void
amcostestimate (PlannerInfo *root,
IndexOptInfo *index,
List *indexQuals,
RelOptInfo *outer_rel,
Cost *indexStartupCost,
Cost *indexTotalCost,
Selectivity *indexSelectivity,
double *indexCorrelation);</PRE
><P>
Estimate the costs of an index scan. This function is described fully
in <A
HREF="index-cost-estimation.html"
>Section 50.6</A
>, below.
</P
><P
></P><PRE
CLASS="PROGRAMLISTING"
>bytea *
amoptions (ArrayType *reloptions,
bool validate);</PRE
><P>
Parse and validate the reloptions array for an index. This is called only
when a non-null reloptions array exists for the index.
<TT
CLASS="PARAMETER"
>reloptions</TT
> is a <TT
CLASS="TYPE"
>text</TT
> array containing entries of the
form <TT
CLASS="REPLACEABLE"
><I
>name</I
></TT
><TT
CLASS="LITERAL"
>=</TT
><TT
CLASS="REPLACEABLE"
><I
>value</I
></TT
>.
The function should construct a <TT
CLASS="TYPE"
>bytea</TT
> value, which will be copied
into the <TT
CLASS="STRUCTFIELD"
>rd_options</TT
> field of the index's relcache entry.
The data contents of the <TT
CLASS="TYPE"
>bytea</TT
> value are open for the access
method to define; most of the standard access methods use struct
<TT
CLASS="STRUCTNAME"
>StdRdOptions</TT
>.
When <TT
CLASS="PARAMETER"
>validate</TT
> is true, the function should report a suitable
error message if any of the options are unrecognized or have invalid
values; when <TT
CLASS="PARAMETER"
>validate</TT
> is false, invalid entries should be
silently ignored. (<TT
CLASS="PARAMETER"
>validate</TT
> is false when loading options
already stored in <TT
CLASS="STRUCTNAME"
>pg_catalog</TT
>; an invalid entry could only
be found if the access method has changed its rules for options, and in
that case ignoring obsolete entries is appropriate.)
It is OK to return NULL if default behavior is wanted.
</P
><P
> The purpose of an index, of course, is to support scans for tuples matching
an indexable <TT
CLASS="LITERAL"
>WHERE</TT
> condition, often called a
<I
CLASS="FIRSTTERM"
>qualifier</I
> or <I
CLASS="FIRSTTERM"
>scan key</I
>. The semantics of
index scanning are described more fully in <A
HREF="index-scanning.html"
>Section 50.3</A
>,
below. An index access method can support <SPAN
CLASS="QUOTE"
>"plain"</SPAN
> index scans,
<SPAN
CLASS="QUOTE"
>"bitmap"</SPAN
> index scans, or both. The scan-related functions that an
index access method must or may provide are:
</P
><P
></P><PRE
CLASS="PROGRAMLISTING"
>IndexScanDesc
ambeginscan (Relation indexRelation,
int nkeys,
ScanKey key);</PRE
><P>
Begin a new scan. The <TT
CLASS="LITERAL"
>key</TT
> array (of length <TT
CLASS="LITERAL"
>nkeys</TT
>)
describes the scan key(s) for the index scan. The result must be a
palloc'd struct. For implementation reasons the index access method
<SPAN
CLASS="emphasis"
><I
CLASS="EMPHASIS"
>must</I
></SPAN
> create this struct by calling
<CODE
CLASS="FUNCTION"
>RelationGetIndexScan()</CODE
>. In most cases
<CODE
CLASS="FUNCTION"
>ambeginscan</CODE
> itself does little beyond making that call;
the interesting parts of index-scan startup are in <CODE
CLASS="FUNCTION"
>amrescan</CODE
>.
</P
><P
></P><PRE
CLASS="PROGRAMLISTING"
>boolean
amgettuple (IndexScanDesc scan,
ScanDirection direction);</PRE
><P>
Fetch the next tuple in the given scan, moving in the given
direction (forward or backward in the index). Returns TRUE if a tuple was
obtained, FALSE if no matching tuples remain. In the TRUE case the tuple
TID is stored into the <TT
CLASS="LITERAL"
>scan</TT
> structure. Note that
<SPAN
CLASS="QUOTE"
>"success"</SPAN
> means only that the index contains an entry that matches
the scan keys, not that the tuple necessarily still exists in the heap or
will pass the caller's snapshot test. On success, <CODE
CLASS="FUNCTION"
>amgettuple</CODE
>
must also set <TT
CLASS="LITERAL"
>scan->xs_recheck</TT
> to TRUE or FALSE.
FALSE means it is certain that the index entry matches the scan keys.
TRUE means this is not certain, and the conditions represented by the
scan keys must be rechecked against the heap tuple after fetching it.
This provision supports <SPAN
CLASS="QUOTE"
>"lossy"</SPAN
> index operators.
Note that rechecking will extend only to the scan conditions; a partial
index predicate (if any) is never rechecked by <CODE
CLASS="FUNCTION"
>amgettuple</CODE
>
callers.
</P
><P
> The <CODE
CLASS="FUNCTION"
>amgettuple</CODE
> function need only be provided if the access
method supports <SPAN
CLASS="QUOTE"
>"plain"</SPAN
> index scans. If it doesn't, the
<TT
CLASS="STRUCTFIELD"
>amgettuple</TT
> field in its <TT
CLASS="STRUCTNAME"
>pg_am</TT
> row must
be set to zero.
</P
><P
></P><PRE
CLASS="PROGRAMLISTING"
>int64
amgetbitmap (IndexScanDesc scan,
TIDBitmap *tbm);</PRE
><P>
Fetch all tuples in the given scan and add them to the caller-supplied
TIDBitmap (that is, OR the set of tuple IDs into whatever set is already
in the bitmap). The number of tuples fetched is returned (this might be
just an approximate count, for instance some AMs do not detect duplicates).
While inserting tuple IDs into the bitmap, <CODE
CLASS="FUNCTION"
>amgetbitmap</CODE
> can
indicate that rechecking of the scan conditions is required for specific
tuple IDs. This is analogous to the <TT
CLASS="LITERAL"
>xs_recheck</TT
> output parameter
of <CODE
CLASS="FUNCTION"
>amgettuple</CODE
>. Note: in the current implementation, support
for this feature is conflated with support for lossy storage of the bitmap
itself, and therefore callers recheck both the scan conditions and the
partial index predicate (if any) for recheckable tuples. That might not
always be true, however.
<CODE
CLASS="FUNCTION"
>amgetbitmap</CODE
> and
<CODE
CLASS="FUNCTION"
>amgettuple</CODE
> cannot be used in the same index scan; there
are other restrictions too when using <CODE
CLASS="FUNCTION"
>amgetbitmap</CODE
>, as explained
in <A
HREF="index-scanning.html"
>Section 50.3</A
>.
</P
><P
> The <CODE
CLASS="FUNCTION"
>amgetbitmap</CODE
> function need only be provided if the access
method supports <SPAN
CLASS="QUOTE"
>"bitmap"</SPAN
> index scans. If it doesn't, the
<TT
CLASS="STRUCTFIELD"
>amgetbitmap</TT
> field in its <TT
CLASS="STRUCTNAME"
>pg_am</TT
> row must
be set to zero.
</P
><P
></P><PRE
CLASS="PROGRAMLISTING"
>void
amrescan (IndexScanDesc scan,
ScanKey key);</PRE
><P>
Restart the given scan, possibly with new scan keys (to continue using
the old keys, NULL is passed for <TT
CLASS="LITERAL"
>key</TT
>). Note that it is not
possible for the number of keys to be changed. In practice the restart
feature is used when a new outer tuple is selected by a nested-loop join
and so a new key comparison value is needed, but the scan key structure
remains the same. This function is also called by
<CODE
CLASS="FUNCTION"
>RelationGetIndexScan()</CODE
>, so it is used for initial setup
of an index scan as well as rescanning.
</P
><P
></P><PRE
CLASS="PROGRAMLISTING"
>void
amendscan (IndexScanDesc scan);</PRE
><P>
End a scan and release resources. The <TT
CLASS="LITERAL"
>scan</TT
> struct itself
should not be freed, but any locks or pins taken internally by the
access method must be released.
</P
><P
></P><PRE
CLASS="PROGRAMLISTING"
>void
ammarkpos (IndexScanDesc scan);</PRE
><P>
Mark current scan position. The access method need only support one
remembered scan position per scan.
</P
><P
></P><PRE
CLASS="PROGRAMLISTING"
>void
amrestrpos (IndexScanDesc scan);</PRE
><P>
Restore the scan to the most recently marked position.
</P
><P
> By convention, the <TT
CLASS="LITERAL"
>pg_proc</TT
> entry for an index
access method function should show the correct number of arguments,
but declare them all as type <TT
CLASS="TYPE"
>internal</TT
> (since most of the arguments
have types that are not known to SQL, and we don't want users calling
the functions directly anyway). The return type is declared as
<TT
CLASS="TYPE"
>void</TT
>, <TT
CLASS="TYPE"
>internal</TT
>, or <TT
CLASS="TYPE"
>boolean</TT
> as appropriate.
The only exception is <CODE
CLASS="FUNCTION"
>amoptions</CODE
>, which should be correctly
declared as taking <TT
CLASS="TYPE"
>text[]</TT
> and <TT
CLASS="TYPE"
>bool</TT
> and returning
<TT
CLASS="TYPE"
>bytea</TT
>. This provision allows client code to execute
<CODE
CLASS="FUNCTION"
>amoptions</CODE
> to test validity of options settings.
</P
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