Re: TABLESAMPLE patch is really in pretty sad shape
| От | Tom Lane |
|---|---|
| Тема | Re: TABLESAMPLE patch is really in pretty sad shape |
| Дата | |
| Msg-id | 14236.1437777381@sss.pgh.pa.us обсуждение исходный текст |
| Ответ на | Re: TABLESAMPLE patch is really in pretty sad shape (Tom Lane <tgl@sss.pgh.pa.us>) |
| Ответы |
Re: TABLESAMPLE patch is really in pretty sad shape
(Petr Jelinek <petr@2ndquadrant.com>)
|
| Список | pgsql-hackers |
I wrote:
> Petr Jelinek <petr@2ndquadrant.com> writes:
>> The only major difference that I see so far and I'd like you to
>> incorporate that into your patch is that I renamed the SampleScanCost to
>> SampleScanGetRelSize because that reflects much better the use of it, it
>> isn't really used for costing, but for getting the pages and tuples of
>> the baserel.
> Good suggestion. I was feeling vaguely uncomfortable with that name as
> well, given what the functionality ended up being.
After further thought it seemed like the right name to use is
SampleScanGetSampleSize, so as to avoid confusion between the size of the
relation and the size of the sample. (The planner is internally not
making such a distinction right now, but that doesn't mean we should
propagate that fuzzy thinking into the API spec.)
Attached is a more-or-less-final version of the proposed patch.
Major changes since yesterday:
* I worked over the contrib modules and docs.
* I thought of a reasonably easy way to do something with nonrepeatable
sampling methods inside join queries: we can simply wrap the SampleScan
plan node in a Materialize node, which will guard it against being
executed more than once. There might be a few corner cases where this
doesn't work fully desirably, but in testing it seemed to do the right
thing (and I added some regression tests about that). This seems
certainly a better answer than either throwing an error or ignoring
the problem.
Last chance for objections ...
regards, tom lane
diff --git a/contrib/pg_stat_statements/pg_stat_statements.c b/contrib/pg_stat_statements/pg_stat_statements.c
index 0eb991c..59b8a2e 100644
*** a/contrib/pg_stat_statements/pg_stat_statements.c
--- b/contrib/pg_stat_statements/pg_stat_statements.c
*************** JumbleRangeTable(pgssJumbleState *jstate
*** 2297,2302 ****
--- 2297,2303 ----
{
case RTE_RELATION:
APP_JUMB(rte->relid);
+ JumbleExpr(jstate, (Node *) rte->tablesample);
break;
case RTE_SUBQUERY:
JumbleQuery(jstate, rte->subquery);
*************** JumbleExpr(pgssJumbleState *jstate, Node
*** 2767,2772 ****
--- 2768,2782 ----
JumbleExpr(jstate, rtfunc->funcexpr);
}
break;
+ case T_TableSampleClause:
+ {
+ TableSampleClause *tsc = (TableSampleClause *) node;
+
+ APP_JUMB(tsc->tsmhandler);
+ JumbleExpr(jstate, (Node *) tsc->args);
+ JumbleExpr(jstate, (Node *) tsc->repeatable);
+ }
+ break;
default:
/* Only a warning, since we can stumble along anyway */
elog(WARNING, "unrecognized node type: %d",
diff --git a/contrib/tsm_system_rows/Makefile b/contrib/tsm_system_rows/Makefile
index 700ab27..609af46 100644
*** a/contrib/tsm_system_rows/Makefile
--- b/contrib/tsm_system_rows/Makefile
***************
*** 1,8 ****
! # src/test/modules/tsm_system_rows/Makefile
MODULE_big = tsm_system_rows
OBJS = tsm_system_rows.o $(WIN32RES)
! PGFILEDESC = "tsm_system_rows - SYSTEM TABLESAMPLE method which accepts number of rows as a limit"
EXTENSION = tsm_system_rows
DATA = tsm_system_rows--1.0.sql
--- 1,8 ----
! # contrib/tsm_system_rows/Makefile
MODULE_big = tsm_system_rows
OBJS = tsm_system_rows.o $(WIN32RES)
! PGFILEDESC = "tsm_system_rows - TABLESAMPLE method which accepts number of rows as a limit"
EXTENSION = tsm_system_rows
DATA = tsm_system_rows--1.0.sql
diff --git a/contrib/tsm_system_rows/expected/tsm_system_rows.out
b/contrib/tsm_system_rows/expected/tsm_system_rows.out
index 7e0f72b..87b4a8f 100644
*** a/contrib/tsm_system_rows/expected/tsm_system_rows.out
--- b/contrib/tsm_system_rows/expected/tsm_system_rows.out
***************
*** 1,31 ****
CREATE EXTENSION tsm_system_rows;
! CREATE TABLE test_tablesample (id int, name text) WITH (fillfactor=10); -- force smaller pages so we don't have to
loadtoo much data to get multiple pages
! INSERT INTO test_tablesample SELECT i, repeat(i::text, 1000) FROM generate_series(0, 30) s(i) ORDER BY i;
ANALYZE test_tablesample;
! SELECT count(*) FROM test_tablesample TABLESAMPLE system_rows (1000);
count
-------
31
(1 row)
! SELECT id FROM test_tablesample TABLESAMPLE system_rows (8) REPEATABLE (5432);
! id
! ----
! 7
! 14
! 21
! 28
! 4
! 11
! 18
! 25
! (8 rows)
! EXPLAIN SELECT id FROM test_tablesample TABLESAMPLE system_rows (20) REPEATABLE (10);
! QUERY PLAN
! -----------------------------------------------------------------------------------
! Sample Scan (system_rows) on test_tablesample (cost=0.00..80.20 rows=20 width=4)
(1 row)
! -- done
! DROP TABLE test_tablesample CASCADE;
--- 1,83 ----
CREATE EXTENSION tsm_system_rows;
! CREATE TABLE test_tablesample (id int, name text);
! INSERT INTO test_tablesample SELECT i, repeat(i::text, 1000)
! FROM generate_series(0, 30) s(i);
ANALYZE test_tablesample;
! SELECT count(*) FROM test_tablesample TABLESAMPLE system_rows (0);
! count
! -------
! 0
! (1 row)
!
! SELECT count(*) FROM test_tablesample TABLESAMPLE system_rows (1);
! count
! -------
! 1
! (1 row)
!
! SELECT count(*) FROM test_tablesample TABLESAMPLE system_rows (10);
! count
! -------
! 10
! (1 row)
!
! SELECT count(*) FROM test_tablesample TABLESAMPLE system_rows (100);
count
-------
31
(1 row)
! -- bad parameters should get through planning, but not execution:
! EXPLAIN (COSTS OFF)
! SELECT id FROM test_tablesample TABLESAMPLE system_rows (-1);
! QUERY PLAN
! ----------------------------------------
! Sample Scan on test_tablesample
! Sampling: system_rows ('-1'::bigint)
! (2 rows)
! SELECT id FROM test_tablesample TABLESAMPLE system_rows (-1);
! ERROR: sample size must not be negative
! -- fail, this method is not repeatable:
! SELECT * FROM test_tablesample TABLESAMPLE system_rows (10) REPEATABLE (0);
! ERROR: tablesample method system_rows does not support REPEATABLE
! LINE 1: SELECT * FROM test_tablesample TABLESAMPLE system_rows (10) ...
! ^
! -- but a join should be allowed:
! EXPLAIN (COSTS OFF)
! SELECT * FROM
! (VALUES (0),(10),(100)) v(nrows),
! LATERAL (SELECT count(*) FROM test_tablesample
! TABLESAMPLE system_rows (nrows)) ss;
! QUERY PLAN
! ----------------------------------------------------------
! Nested Loop
! -> Values Scan on "*VALUES*"
! -> Aggregate
! -> Sample Scan on test_tablesample
! Sampling: system_rows ("*VALUES*".column1)
! (5 rows)
!
! SELECT * FROM
! (VALUES (0),(10),(100)) v(nrows),
! LATERAL (SELECT count(*) FROM test_tablesample
! TABLESAMPLE system_rows (nrows)) ss;
! nrows | count
! -------+-------
! 0 | 0
! 10 | 10
! 100 | 31
! (3 rows)
!
! CREATE VIEW vv AS
! SELECT count(*) FROM test_tablesample TABLESAMPLE system_rows (20);
! SELECT * FROM vv;
! count
! -------
! 20
(1 row)
! DROP EXTENSION tsm_system_rows; -- fail, view depends on extension
! ERROR: cannot drop extension tsm_system_rows because other objects depend on it
! DETAIL: view vv depends on function system_rows(internal)
! HINT: Use DROP ... CASCADE to drop the dependent objects too.
diff --git a/contrib/tsm_system_rows/sql/tsm_system_rows.sql b/contrib/tsm_system_rows/sql/tsm_system_rows.sql
index bd81222..e3ab420 100644
*** a/contrib/tsm_system_rows/sql/tsm_system_rows.sql
--- b/contrib/tsm_system_rows/sql/tsm_system_rows.sql
***************
*** 1,14 ****
CREATE EXTENSION tsm_system_rows;
! CREATE TABLE test_tablesample (id int, name text) WITH (fillfactor=10); -- force smaller pages so we don't have to
loadtoo much data to get multiple pages
!
! INSERT INTO test_tablesample SELECT i, repeat(i::text, 1000) FROM generate_series(0, 30) s(i) ORDER BY i;
ANALYZE test_tablesample;
! SELECT count(*) FROM test_tablesample TABLESAMPLE system_rows (1000);
! SELECT id FROM test_tablesample TABLESAMPLE system_rows (8) REPEATABLE (5432);
! EXPLAIN SELECT id FROM test_tablesample TABLESAMPLE system_rows (20) REPEATABLE (10);
! -- done
! DROP TABLE test_tablesample CASCADE;
--- 1,39 ----
CREATE EXTENSION tsm_system_rows;
! CREATE TABLE test_tablesample (id int, name text);
! INSERT INTO test_tablesample SELECT i, repeat(i::text, 1000)
! FROM generate_series(0, 30) s(i);
ANALYZE test_tablesample;
! SELECT count(*) FROM test_tablesample TABLESAMPLE system_rows (0);
! SELECT count(*) FROM test_tablesample TABLESAMPLE system_rows (1);
! SELECT count(*) FROM test_tablesample TABLESAMPLE system_rows (10);
! SELECT count(*) FROM test_tablesample TABLESAMPLE system_rows (100);
! -- bad parameters should get through planning, but not execution:
! EXPLAIN (COSTS OFF)
! SELECT id FROM test_tablesample TABLESAMPLE system_rows (-1);
! SELECT id FROM test_tablesample TABLESAMPLE system_rows (-1);
!
! -- fail, this method is not repeatable:
! SELECT * FROM test_tablesample TABLESAMPLE system_rows (10) REPEATABLE (0);
!
! -- but a join should be allowed:
! EXPLAIN (COSTS OFF)
! SELECT * FROM
! (VALUES (0),(10),(100)) v(nrows),
! LATERAL (SELECT count(*) FROM test_tablesample
! TABLESAMPLE system_rows (nrows)) ss;
!
! SELECT * FROM
! (VALUES (0),(10),(100)) v(nrows),
! LATERAL (SELECT count(*) FROM test_tablesample
! TABLESAMPLE system_rows (nrows)) ss;
!
! CREATE VIEW vv AS
! SELECT count(*) FROM test_tablesample TABLESAMPLE system_rows (20);
!
! SELECT * FROM vv;
!
! DROP EXTENSION tsm_system_rows; -- fail, view depends on extension
diff --git a/contrib/tsm_system_rows/tsm_system_rows--1.0.sql b/contrib/tsm_system_rows/tsm_system_rows--1.0.sql
index 1a29c58..de508ed 100644
*** a/contrib/tsm_system_rows/tsm_system_rows--1.0.sql
--- b/contrib/tsm_system_rows/tsm_system_rows--1.0.sql
***************
*** 1,44 ****
! /* src/test/modules/tablesample/tsm_system_rows--1.0.sql */
-- complain if script is sourced in psql, rather than via CREATE EXTENSION
\echo Use "CREATE EXTENSION tsm_system_rows" to load this file. \quit
! CREATE FUNCTION tsm_system_rows_init(internal, int4, int4)
! RETURNS void
! AS 'MODULE_PATHNAME'
! LANGUAGE C STRICT;
!
! CREATE FUNCTION tsm_system_rows_nextblock(internal)
! RETURNS int4
! AS 'MODULE_PATHNAME'
! LANGUAGE C STRICT;
!
! CREATE FUNCTION tsm_system_rows_nexttuple(internal, int4, int2)
! RETURNS int2
! AS 'MODULE_PATHNAME'
! LANGUAGE C STRICT;
!
! CREATE FUNCTION tsm_system_rows_examinetuple(internal, int4, internal, bool)
! RETURNS bool
! AS 'MODULE_PATHNAME'
! LANGUAGE C STRICT;
!
! CREATE FUNCTION tsm_system_rows_end(internal)
! RETURNS void
! AS 'MODULE_PATHNAME'
! LANGUAGE C STRICT;
!
! CREATE FUNCTION tsm_system_rows_reset(internal)
! RETURNS void
! AS 'MODULE_PATHNAME'
! LANGUAGE C STRICT;
!
! CREATE FUNCTION tsm_system_rows_cost(internal, internal, internal, internal, internal, internal, internal)
! RETURNS void
! AS 'MODULE_PATHNAME'
LANGUAGE C STRICT;
-
- INSERT INTO pg_tablesample_method VALUES('system_rows', false, true,
- 'tsm_system_rows_init', 'tsm_system_rows_nextblock',
- 'tsm_system_rows_nexttuple', 'tsm_system_rows_examinetuple',
- 'tsm_system_rows_end', 'tsm_system_rows_reset', 'tsm_system_rows_cost');
--- 1,9 ----
! /* contrib/tsm_system_rows/tsm_system_rows--1.0.sql */
-- complain if script is sourced in psql, rather than via CREATE EXTENSION
\echo Use "CREATE EXTENSION tsm_system_rows" to load this file. \quit
! CREATE FUNCTION system_rows(internal)
! RETURNS tsm_handler
! AS 'MODULE_PATHNAME', 'tsm_system_rows_handler'
LANGUAGE C STRICT;
diff --git a/contrib/tsm_system_rows/tsm_system_rows.c b/contrib/tsm_system_rows/tsm_system_rows.c
index e325eaf..3321623 100644
*** a/contrib/tsm_system_rows/tsm_system_rows.c
--- b/contrib/tsm_system_rows/tsm_system_rows.c
***************
*** 1,240 ****
/*-------------------------------------------------------------------------
*
* tsm_system_rows.c
! * interface routines for system_rows tablesample method
*
*
! * Portions Copyright (c) 1996-2014, PostgreSQL Global Development Group
*
* IDENTIFICATION
! * contrib/tsm_system_rows_rowlimit/tsm_system_rows.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
- #include "fmgr.h"
-
- #include "access/tablesample.h"
#include "access/relscan.h"
#include "miscadmin.h"
- #include "nodes/execnodes.h"
- #include "nodes/relation.h"
#include "optimizer/clauses.h"
! #include "storage/bufmgr.h"
#include "utils/sampling.h"
PG_MODULE_MAGIC;
! /*
! * State
! */
typedef struct
{
- SamplerRandomState randstate;
uint32 seed; /* random seed */
! BlockNumber nblocks; /* number of block in relation */
! int32 ntuples; /* number of tuples to return */
! int32 donetuples; /* tuples already returned */
! OffsetNumber lt; /* last tuple returned from current block */
! BlockNumber step; /* step size */
BlockNumber lb; /* last block visited */
! BlockNumber doneblocks; /* number of already returned blocks */
! } SystemSamplerData;
!
!
! PG_FUNCTION_INFO_V1(tsm_system_rows_init);
! PG_FUNCTION_INFO_V1(tsm_system_rows_nextblock);
! PG_FUNCTION_INFO_V1(tsm_system_rows_nexttuple);
! PG_FUNCTION_INFO_V1(tsm_system_rows_examinetuple);
! PG_FUNCTION_INFO_V1(tsm_system_rows_end);
! PG_FUNCTION_INFO_V1(tsm_system_rows_reset);
! PG_FUNCTION_INFO_V1(tsm_system_rows_cost);
static uint32 random_relative_prime(uint32 n, SamplerRandomState randstate);
/*
! * Initializes the state.
*/
Datum
! tsm_system_rows_init(PG_FUNCTION_ARGS)
{
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
! uint32 seed = PG_GETARG_UINT32(1);
! int32 ntuples = PG_ARGISNULL(2) ? -1 : PG_GETARG_INT32(2);
! HeapScanDesc scan = tsdesc->heapScan;
! SystemSamplerData *sampler;
!
! if (ntuples < 1)
! ereport(ERROR,
! (errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
! errmsg("invalid sample size"),
! errhint("Sample size must be positive integer value.")));
!
! sampler = palloc0(sizeof(SystemSamplerData));
!
! /* Remember initial values for reinit */
! sampler->seed = seed;
! sampler->nblocks = scan->rs_nblocks;
! sampler->ntuples = ntuples;
! sampler->donetuples = 0;
! sampler->lt = InvalidOffsetNumber;
! sampler->doneblocks = 0;
!
! sampler_random_init_state(sampler->seed, sampler->randstate);
! /* Find relative prime as step size for linear probing. */
! sampler->step = random_relative_prime(sampler->nblocks, sampler->randstate);
! /*
! * Randomize start position so that blocks close to step size don't have
! * higher probability of being chosen on very short scan.
! */
! sampler->lb = sampler_random_fract(sampler->randstate) *
! (sampler->nblocks / sampler->step);
! tsdesc->tsmdata = (void *) sampler;
! PG_RETURN_VOID();
}
/*
! * Get next block number or InvalidBlockNumber when we're done.
! *
! * Uses linear probing algorithm for picking next block.
*/
! Datum
! tsm_system_rows_nextblock(PG_FUNCTION_ARGS)
{
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
! SystemSamplerData *sampler = (SystemSamplerData *) tsdesc->tsmdata;
! sampler->lb = (sampler->lb + sampler->step) % sampler->nblocks;
! sampler->doneblocks++;
! /* All blocks have been read, we're done */
! if (sampler->doneblocks > sampler->nblocks ||
! sampler->donetuples >= sampler->ntuples)
! PG_RETURN_UINT32(InvalidBlockNumber);
! PG_RETURN_UINT32(sampler->lb);
! }
! /*
! * Get next tuple offset in current block or InvalidOffsetNumber if we are done
! * with this block.
! */
! Datum
! tsm_system_rows_nexttuple(PG_FUNCTION_ARGS)
! {
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
! OffsetNumber maxoffset = PG_GETARG_UINT16(2);
! SystemSamplerData *sampler = (SystemSamplerData *) tsdesc->tsmdata;
! OffsetNumber tupoffset = sampler->lt;
! if (tupoffset == InvalidOffsetNumber)
! tupoffset = FirstOffsetNumber;
else
! tupoffset++;
!
! if (tupoffset > maxoffset ||
! sampler->donetuples >= sampler->ntuples)
! tupoffset = InvalidOffsetNumber;
! sampler->lt = tupoffset;
! PG_RETURN_UINT16(tupoffset);
}
/*
! * Examine tuple and decide if it should be returned.
*/
! Datum
! tsm_system_rows_examinetuple(PG_FUNCTION_ARGS)
{
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
! bool visible = PG_GETARG_BOOL(3);
! SystemSamplerData *sampler = (SystemSamplerData *) tsdesc->tsmdata;
!
! if (!visible)
! PG_RETURN_BOOL(false);
!
! sampler->donetuples++;
!
! PG_RETURN_BOOL(true);
}
/*
! * Cleanup method.
*/
! Datum
! tsm_system_rows_end(PG_FUNCTION_ARGS)
{
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
! pfree(tsdesc->tsmdata);
! PG_RETURN_VOID();
}
/*
! * Reset state (called by ReScan).
*/
! Datum
! tsm_system_rows_reset(PG_FUNCTION_ARGS)
{
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
! SystemSamplerData *sampler = (SystemSamplerData *) tsdesc->tsmdata;
! sampler->lt = InvalidOffsetNumber;
! sampler->donetuples = 0;
! sampler->doneblocks = 0;
! sampler_random_init_state(sampler->seed, sampler->randstate);
! sampler->step = random_relative_prime(sampler->nblocks, sampler->randstate);
! sampler->lb = sampler_random_fract(sampler->randstate) * (sampler->nblocks / sampler->step);
! PG_RETURN_VOID();
}
/*
! * Costing function.
*/
! Datum
! tsm_system_rows_cost(PG_FUNCTION_ARGS)
{
! PlannerInfo *root = (PlannerInfo *) PG_GETARG_POINTER(0);
! Path *path = (Path *) PG_GETARG_POINTER(1);
! RelOptInfo *baserel = (RelOptInfo *) PG_GETARG_POINTER(2);
! List *args = (List *) PG_GETARG_POINTER(3);
! BlockNumber *pages = (BlockNumber *) PG_GETARG_POINTER(4);
! double *tuples = (double *) PG_GETARG_POINTER(5);
! Node *limitnode;
! int32 ntuples;
! limitnode = linitial(args);
! limitnode = estimate_expression_value(root, limitnode);
! if (IsA(limitnode, RelabelType))
! limitnode = (Node *) ((RelabelType *) limitnode)->arg;
! if (IsA(limitnode, Const))
! ntuples = DatumGetInt32(((Const *) limitnode)->constvalue);
! else
{
! /* Default ntuples if the estimation didn't return Const. */
! ntuples = 1000;
}
! *pages = Min(baserel->pages, ntuples);
! *tuples = ntuples;
! path->rows = *tuples;
! PG_RETURN_VOID();
}
static uint32
gcd(uint32 a, uint32 b)
{
--- 1,350 ----
/*-------------------------------------------------------------------------
*
* tsm_system_rows.c
! * support routines for SYSTEM_ROWS tablesample method
*
+ * The desire here is to produce a random sample with a given number of rows
+ * (or the whole relation, if that is fewer rows). We use a block-sampling
+ * approach. To ensure that the whole relation will be visited if necessary,
+ * we start at a randomly chosen block and then advance with a stride that
+ * is randomly chosen but is relatively prime to the relation's nblocks.
*
! * Because of the dependence on nblocks, this method cannot be repeatable
! * across queries. (Even if the user hasn't explicitly changed the relation,
! * maintenance activities such as autovacuum might change nblocks.) However,
! * we can at least make it repeatable across scans, by determining the
! * sampling pattern only once on the first scan. This means that rescans
! * won't visit blocks added after the first scan, but that is fine since
! * such blocks shouldn't contain any visible tuples anyway.
! *
! * Portions Copyright (c) 1996-2015, PostgreSQL Global Development Group
! * Portions Copyright (c) 1994, Regents of the University of California
*
* IDENTIFICATION
! * contrib/tsm_system_rows/tsm_system_rows.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include "access/relscan.h"
+ #include "access/tsmapi.h"
+ #include "catalog/pg_type.h"
#include "miscadmin.h"
#include "optimizer/clauses.h"
! #include "optimizer/cost.h"
#include "utils/sampling.h"
PG_MODULE_MAGIC;
! PG_FUNCTION_INFO_V1(tsm_system_rows_handler);
!
!
! /* Private state */
typedef struct
{
uint32 seed; /* random seed */
! int64 ntuples; /* number of tuples to return */
! int64 donetuples; /* number of tuples already returned */
! /* these three values are not changed during a rescan: */
! BlockNumber nblocks; /* number of blocks in relation */
! BlockNumber firstblock; /* first block to sample from */
! BlockNumber step; /* step size, or 0 if not set yet */
! BlockNumber doneblocks; /* number of already-scanned blocks */
BlockNumber lb; /* last block visited */
! OffsetNumber lt; /* last tuple returned from current block */
! } SystemRowsSamplerData;
+ static void system_rows_samplescangetsamplesize(PlannerInfo *root,
+ RelOptInfo *baserel,
+ List *paramexprs,
+ BlockNumber *pages,
+ double *tuples);
+ static void system_rows_initsamplescan(SampleScanState *node,
+ int eflags);
+ static void system_rows_beginsamplescan(SampleScanState *node,
+ Datum *params,
+ int nparams,
+ uint32 seed);
+ static BlockNumber system_rows_nextsampleblock(SampleScanState *node);
+ static OffsetNumber system_rows_nextsampletuple(SampleScanState *node,
+ BlockNumber blockno,
+ OffsetNumber maxoffset);
+ static bool SampleOffsetVisible(OffsetNumber tupoffset, HeapScanDesc scan);
static uint32 random_relative_prime(uint32 n, SamplerRandomState randstate);
+
/*
! * Create a TsmRoutine descriptor for the SYSTEM_ROWS method.
*/
Datum
! tsm_system_rows_handler(PG_FUNCTION_ARGS)
{
! TsmRoutine *tsm = makeNode(TsmRoutine);
! tsm->parameterTypes = list_make1_oid(INT8OID);
! /* See notes at head of file */
! tsm->repeatable_across_queries = false;
! tsm->repeatable_across_scans = true;
! tsm->SampleScanGetSampleSize = system_rows_samplescangetsamplesize;
! tsm->InitSampleScan = system_rows_initsamplescan;
! tsm->BeginSampleScan = system_rows_beginsamplescan;
! tsm->NextSampleBlock = system_rows_nextsampleblock;
! tsm->NextSampleTuple = system_rows_nextsampletuple;
! tsm->EndSampleScan = NULL;
! PG_RETURN_POINTER(tsm);
}
/*
! * Sample size estimation.
*/
! static void
! system_rows_samplescangetsamplesize(PlannerInfo *root,
! RelOptInfo *baserel,
! List *paramexprs,
! BlockNumber *pages,
! double *tuples)
{
! Node *limitnode;
! int64 ntuples;
! double npages;
! /* Try to extract an estimate for the limit rowcount */
! limitnode = (Node *) linitial(paramexprs);
! limitnode = estimate_expression_value(root, limitnode);
! if (IsA(limitnode, Const) &&
! !((Const *) limitnode)->constisnull)
! {
! ntuples = DatumGetInt64(((Const *) limitnode)->constvalue);
! if (ntuples < 0)
! {
! /* Default ntuples if the value is bogus */
! ntuples = 1000;
! }
! }
! else
! {
! /* Default ntuples if the estimation didn't return Const */
! ntuples = 1000;
! }
! /* Clamp to the estimated relation size */
! if (ntuples > baserel->tuples)
! ntuples = (int64) baserel->tuples;
! ntuples = clamp_row_est(ntuples);
! if (baserel->tuples > 0 && baserel->pages > 0)
! {
! /* Estimate number of pages visited based on tuple density */
! double density = baserel->tuples / (double) baserel->pages;
! npages = ntuples / density;
! }
else
! {
! /* For lack of data, assume one tuple per page */
! npages = ntuples;
! }
! /* Clamp to sane value */
! npages = clamp_row_est(Min((double) baserel->pages, npages));
! *pages = npages;
! *tuples = ntuples;
}
/*
! * Initialize during executor setup.
*/
! static void
! system_rows_initsamplescan(SampleScanState *node, int eflags)
{
! node->tsm_state = palloc0(sizeof(SystemRowsSamplerData));
! /* Note the above leaves tsm_state->step equal to zero */
}
/*
! * Examine parameters and prepare for a sample scan.
*/
! static void
! system_rows_beginsamplescan(SampleScanState *node,
! Datum *params,
! int nparams,
! uint32 seed)
{
! SystemRowsSamplerData *sampler = (SystemRowsSamplerData *) node->tsm_state;
! int64 ntuples = DatumGetInt64(params[0]);
! if (ntuples < 0)
! ereport(ERROR,
! (errcode(ERRCODE_INVALID_TABLESAMPLE_ARGUMENT),
! errmsg("sample size must not be negative")));
! sampler->seed = seed;
! sampler->ntuples = ntuples;
! sampler->donetuples = 0;
! /* we intentionally do not change nblocks/firstblock/step here */
! sampler->doneblocks = 0;
! /* lb will be initialized during first NextSampleBlock call */
! sampler->lt = InvalidOffsetNumber;
}
/*
! * Select next block to sample.
! *
! * Uses linear probing algorithm for picking next block.
*/
! static BlockNumber
! system_rows_nextsampleblock(SampleScanState *node)
{
! SystemRowsSamplerData *sampler = (SystemRowsSamplerData *) node->tsm_state;
! HeapScanDesc scan = node->ss.ss_currentScanDesc;
! /* First call within scan? */
! if (sampler->doneblocks == 0)
! {
! /* First scan within query? */
! if (sampler->step == 0)
! {
! /* Initialize now that we have scan descriptor */
! SamplerRandomState randstate;
! /* If relation is empty, there's nothing to scan */
! if (scan->rs_nblocks == 0)
! return InvalidBlockNumber;
! /* We only need an RNG during this setup step */
! sampler_random_init_state(sampler->seed, randstate);
!
! /* Compute nblocks/firstblock/step only once per query */
! sampler->nblocks = scan->rs_nblocks;
!
! /* Choose random starting block within the relation */
! /* (Actually this is the predecessor of the first block visited) */
! sampler->firstblock = sampler_random_fract(randstate) *
! sampler->nblocks;
!
! /* Find relative prime as step size for linear probing */
! sampler->step = random_relative_prime(sampler->nblocks, randstate);
! }
!
! /* Reinitialize lb */
! sampler->lb = sampler->firstblock;
! }
!
! /* If we've read all blocks or returned all needed tuples, we're done */
! if (++sampler->doneblocks > sampler->nblocks ||
! sampler->donetuples >= sampler->ntuples)
! return InvalidBlockNumber;
!
! /*
! * It's probably impossible for scan->rs_nblocks to decrease between scans
! * within a query; but just in case, loop until we select a block number
! * less than scan->rs_nblocks. We don't care if scan->rs_nblocks has
! * increased since the first scan.
! */
! do
! {
! /* Advance lb, using uint64 arithmetic to forestall overflow */
! sampler->lb = ((uint64) sampler->lb + sampler->step) % sampler->nblocks;
! } while (sampler->lb >= scan->rs_nblocks);
!
! return sampler->lb;
}
/*
! * Select next sampled tuple in current block.
! *
! * In block sampling, we just want to sample all the tuples in each selected
! * block.
! *
! * When we reach end of the block, return InvalidOffsetNumber which tells
! * SampleScan to go to next block.
*/
! static OffsetNumber
! system_rows_nextsampletuple(SampleScanState *node,
! BlockNumber blockno,
! OffsetNumber maxoffset)
{
! SystemRowsSamplerData *sampler = (SystemRowsSamplerData *) node->tsm_state;
! HeapScanDesc scan = node->ss.ss_currentScanDesc;
! OffsetNumber tupoffset = sampler->lt;
! /* Quit if we've returned all needed tuples */
! if (sampler->donetuples >= sampler->ntuples)
! return InvalidOffsetNumber;
! /*
! * Because we should only count visible tuples as being returned, we need
! * to search for a visible tuple rather than just let the core code do it.
! */
! /* We rely on the data accumulated in pagemode access */
! Assert(scan->rs_pageatatime);
! for (;;)
{
! /* Advance to next possible offset on page */
! if (tupoffset == InvalidOffsetNumber)
! tupoffset = FirstOffsetNumber;
! else
! tupoffset++;
!
! /* Done? */
! if (tupoffset > maxoffset)
! {
! tupoffset = InvalidOffsetNumber;
! break;
! }
!
! /* Found a candidate? */
! if (SampleOffsetVisible(tupoffset, scan))
! {
! sampler->donetuples++;
! break;
! }
}
! sampler->lt = tupoffset;
! return tupoffset;
}
+ /*
+ * Check if tuple offset is visible
+ *
+ * In pageatatime mode, heapgetpage() already did visibility checks,
+ * so just look at the info it left in rs_vistuples[].
+ */
+ static bool
+ SampleOffsetVisible(OffsetNumber tupoffset, HeapScanDesc scan)
+ {
+ int start = 0,
+ end = scan->rs_ntuples - 1;
+
+ while (start <= end)
+ {
+ int mid = (start + end) / 2;
+ OffsetNumber curoffset = scan->rs_vistuples[mid];
+
+ if (tupoffset == curoffset)
+ return true;
+ else if (tupoffset < curoffset)
+ end = mid - 1;
+ else
+ start = mid + 1;
+ }
+
+ return false;
+ }
+ /*
+ * Compute greatest common divisor of two uint32's.
+ */
static uint32
gcd(uint32 a, uint32 b)
{
*************** gcd(uint32 a, uint32 b)
*** 250,271 ****
return b;
}
static uint32
random_relative_prime(uint32 n, SamplerRandomState randstate)
{
! /* Pick random starting number, with some limits on what it can be. */
! uint32 r = (uint32) sampler_random_fract(randstate) * n / 2 + n / 4,
! t;
/*
* This should only take 2 or 3 iterations as the probability of 2 numbers
! * being relatively prime is ~61%.
*/
! while ((t = gcd(r, n)) > 1)
{
CHECK_FOR_INTERRUPTS();
! r /= t;
! }
return r;
}
--- 360,388 ----
return b;
}
+ /*
+ * Pick a random value less than and relatively prime to n, if possible
+ * (else return 1).
+ */
static uint32
random_relative_prime(uint32 n, SamplerRandomState randstate)
{
! uint32 r;
!
! /* Safety check to avoid infinite loop or zero result for small n. */
! if (n <= 1)
! return 1;
/*
* This should only take 2 or 3 iterations as the probability of 2 numbers
! * being relatively prime is ~61%; but just in case, we'll include a
! * CHECK_FOR_INTERRUPTS in the loop.
*/
! do
{
CHECK_FOR_INTERRUPTS();
! r = (uint32) (sampler_random_fract(randstate) * n);
! } while (r == 0 || gcd(r, n) > 1);
return r;
}
diff --git a/contrib/tsm_system_rows/tsm_system_rows.control b/contrib/tsm_system_rows/tsm_system_rows.control
index 84ea7ad..4bd0232 100644
*** a/contrib/tsm_system_rows/tsm_system_rows.control
--- b/contrib/tsm_system_rows/tsm_system_rows.control
***************
*** 1,5 ****
# tsm_system_rows extension
! comment = 'SYSTEM TABLESAMPLE method which accepts number rows as a limit'
default_version = '1.0'
module_pathname = '$libdir/tsm_system_rows'
relocatable = true
--- 1,5 ----
# tsm_system_rows extension
! comment = 'TABLESAMPLE method which accepts number of rows as a limit'
default_version = '1.0'
module_pathname = '$libdir/tsm_system_rows'
relocatable = true
diff --git a/contrib/tsm_system_time/Makefile b/contrib/tsm_system_time/Makefile
index c42c1c6..168becf 100644
*** a/contrib/tsm_system_time/Makefile
--- b/contrib/tsm_system_time/Makefile
***************
*** 1,8 ****
! # src/test/modules/tsm_system_time/Makefile
MODULE_big = tsm_system_time
OBJS = tsm_system_time.o $(WIN32RES)
! PGFILEDESC = "tsm_system_time - SYSTEM TABLESAMPLE method which accepts number rows of as a limit"
EXTENSION = tsm_system_time
DATA = tsm_system_time--1.0.sql
--- 1,8 ----
! # contrib/tsm_system_time/Makefile
MODULE_big = tsm_system_time
OBJS = tsm_system_time.o $(WIN32RES)
! PGFILEDESC = "tsm_system_time - TABLESAMPLE method which accepts time in milliseconds as a limit"
EXTENSION = tsm_system_time
DATA = tsm_system_time--1.0.sql
diff --git a/contrib/tsm_system_time/expected/tsm_system_time.out
b/contrib/tsm_system_time/expected/tsm_system_time.out
index 32ad03c..ac44f30 100644
*** a/contrib/tsm_system_time/expected/tsm_system_time.out
--- b/contrib/tsm_system_time/expected/tsm_system_time.out
***************
*** 1,54 ****
CREATE EXTENSION tsm_system_time;
! CREATE TABLE test_tablesample (id int, name text) WITH (fillfactor=10); -- force smaller pages so we don't have to
loadtoo much data to get multiple pages
! INSERT INTO test_tablesample SELECT i, repeat(i::text, 1000) FROM generate_series(0, 30) s(i) ORDER BY i;
ANALYZE test_tablesample;
! SELECT count(*) FROM test_tablesample TABLESAMPLE system_time (1000);
count
-------
31
(1 row)
! SELECT id FROM test_tablesample TABLESAMPLE system_time (1000) REPEATABLE (5432);
! id
! ----
! 7
! 14
! 21
! 28
! 4
! 11
! 18
! 25
! 1
! 8
! 15
! 22
! 29
! 5
! 12
! 19
! 26
! 2
! 9
! 16
! 23
! 30
! 6
! 13
! 20
! 27
! 3
! 10
! 17
! 24
! 0
! (31 rows)
! EXPLAIN SELECT id FROM test_tablesample TABLESAMPLE system_time (100) REPEATABLE (10);
! QUERY PLAN
! ------------------------------------------------------------------------------------
! Sample Scan (system_time) on test_tablesample (cost=0.00..100.25 rows=25 width=4)
! (1 row)
! -- done
! DROP TABLE test_tablesample CASCADE;
--- 1,100 ----
CREATE EXTENSION tsm_system_time;
! CREATE TABLE test_tablesample (id int, name text);
! INSERT INTO test_tablesample SELECT i, repeat(i::text, 1000)
! FROM generate_series(0, 30) s(i);
ANALYZE test_tablesample;
! -- It's a bit tricky to test SYSTEM_TIME in a platform-independent way.
! -- We can test the zero-time corner case ...
! SELECT count(*) FROM test_tablesample TABLESAMPLE system_time (0);
! count
! -------
! 0
! (1 row)
!
! -- ... and we assume that this will finish before running out of time:
! SELECT count(*) FROM test_tablesample TABLESAMPLE system_time (100000);
count
-------
31
(1 row)
! -- bad parameters should get through planning, but not execution:
! EXPLAIN (COSTS OFF)
! SELECT id FROM test_tablesample TABLESAMPLE system_time (-1);
! QUERY PLAN
! --------------------------------------------------
! Sample Scan on test_tablesample
! Sampling: system_time ('-1'::double precision)
! (2 rows)
! SELECT id FROM test_tablesample TABLESAMPLE system_time (-1);
! ERROR: sample collection time must not be negative
! -- fail, this method is not repeatable:
! SELECT * FROM test_tablesample TABLESAMPLE system_time (10) REPEATABLE (0);
! ERROR: tablesample method system_time does not support REPEATABLE
! LINE 1: SELECT * FROM test_tablesample TABLESAMPLE system_time (10) ...
! ^
! -- since it's not repeatable, we expect a Materialize node in these plans:
! EXPLAIN (COSTS OFF)
! SELECT * FROM
! (VALUES (0),(100000)) v(time),
! LATERAL (SELECT COUNT(*) FROM test_tablesample
! TABLESAMPLE system_time (100000)) ss;
! QUERY PLAN
! ------------------------------------------------------------------------
! Nested Loop
! -> Aggregate
! -> Materialize
! -> Sample Scan on test_tablesample
! Sampling: system_time ('100000'::double precision)
! -> Values Scan on "*VALUES*"
! (6 rows)
! SELECT * FROM
! (VALUES (0),(100000)) v(time),
! LATERAL (SELECT COUNT(*) FROM test_tablesample
! TABLESAMPLE system_time (100000)) ss;
! time | count
! --------+-------
! 0 | 31
! 100000 | 31
! (2 rows)
!
! EXPLAIN (COSTS OFF)
! SELECT * FROM
! (VALUES (0),(100000)) v(time),
! LATERAL (SELECT COUNT(*) FROM test_tablesample
! TABLESAMPLE system_time (time)) ss;
! QUERY PLAN
! ----------------------------------------------------------------
! Nested Loop
! -> Values Scan on "*VALUES*"
! -> Aggregate
! -> Materialize
! -> Sample Scan on test_tablesample
! Sampling: system_time ("*VALUES*".column1)
! (6 rows)
!
! SELECT * FROM
! (VALUES (0),(100000)) v(time),
! LATERAL (SELECT COUNT(*) FROM test_tablesample
! TABLESAMPLE system_time (time)) ss;
! time | count
! --------+-------
! 0 | 0
! 100000 | 31
! (2 rows)
!
! CREATE VIEW vv AS
! SELECT * FROM test_tablesample TABLESAMPLE system_time (20);
! EXPLAIN (COSTS OFF) SELECT * FROM vv;
! QUERY PLAN
! --------------------------------------------------
! Sample Scan on test_tablesample
! Sampling: system_time ('20'::double precision)
! (2 rows)
!
! DROP EXTENSION tsm_system_time; -- fail, view depends on extension
! ERROR: cannot drop extension tsm_system_time because other objects depend on it
! DETAIL: view vv depends on function system_time(internal)
! HINT: Use DROP ... CASCADE to drop the dependent objects too.
diff --git a/contrib/tsm_system_time/sql/tsm_system_time.sql b/contrib/tsm_system_time/sql/tsm_system_time.sql
index 68dbbf9..117de16 100644
*** a/contrib/tsm_system_time/sql/tsm_system_time.sql
--- b/contrib/tsm_system_time/sql/tsm_system_time.sql
***************
*** 1,14 ****
CREATE EXTENSION tsm_system_time;
! CREATE TABLE test_tablesample (id int, name text) WITH (fillfactor=10); -- force smaller pages so we don't have to
loadtoo much data to get multiple pages
!
! INSERT INTO test_tablesample SELECT i, repeat(i::text, 1000) FROM generate_series(0, 30) s(i) ORDER BY i;
ANALYZE test_tablesample;
! SELECT count(*) FROM test_tablesample TABLESAMPLE system_time (1000);
! SELECT id FROM test_tablesample TABLESAMPLE system_time (1000) REPEATABLE (5432);
! EXPLAIN SELECT id FROM test_tablesample TABLESAMPLE system_time (100) REPEATABLE (10);
! -- done
! DROP TABLE test_tablesample CASCADE;
--- 1,51 ----
CREATE EXTENSION tsm_system_time;
! CREATE TABLE test_tablesample (id int, name text);
! INSERT INTO test_tablesample SELECT i, repeat(i::text, 1000)
! FROM generate_series(0, 30) s(i);
ANALYZE test_tablesample;
! -- It's a bit tricky to test SYSTEM_TIME in a platform-independent way.
! -- We can test the zero-time corner case ...
! SELECT count(*) FROM test_tablesample TABLESAMPLE system_time (0);
! -- ... and we assume that this will finish before running out of time:
! SELECT count(*) FROM test_tablesample TABLESAMPLE system_time (100000);
! -- bad parameters should get through planning, but not execution:
! EXPLAIN (COSTS OFF)
! SELECT id FROM test_tablesample TABLESAMPLE system_time (-1);
! SELECT id FROM test_tablesample TABLESAMPLE system_time (-1);
!
! -- fail, this method is not repeatable:
! SELECT * FROM test_tablesample TABLESAMPLE system_time (10) REPEATABLE (0);
!
! -- since it's not repeatable, we expect a Materialize node in these plans:
! EXPLAIN (COSTS OFF)
! SELECT * FROM
! (VALUES (0),(100000)) v(time),
! LATERAL (SELECT COUNT(*) FROM test_tablesample
! TABLESAMPLE system_time (100000)) ss;
!
! SELECT * FROM
! (VALUES (0),(100000)) v(time),
! LATERAL (SELECT COUNT(*) FROM test_tablesample
! TABLESAMPLE system_time (100000)) ss;
!
! EXPLAIN (COSTS OFF)
! SELECT * FROM
! (VALUES (0),(100000)) v(time),
! LATERAL (SELECT COUNT(*) FROM test_tablesample
! TABLESAMPLE system_time (time)) ss;
!
! SELECT * FROM
! (VALUES (0),(100000)) v(time),
! LATERAL (SELECT COUNT(*) FROM test_tablesample
! TABLESAMPLE system_time (time)) ss;
!
! CREATE VIEW vv AS
! SELECT * FROM test_tablesample TABLESAMPLE system_time (20);
!
! EXPLAIN (COSTS OFF) SELECT * FROM vv;
!
! DROP EXTENSION tsm_system_time; -- fail, view depends on extension
diff --git a/contrib/tsm_system_time/tsm_system_time--1.0.sql b/contrib/tsm_system_time/tsm_system_time--1.0.sql
index 1f390d6..c59d2e8 100644
*** a/contrib/tsm_system_time/tsm_system_time--1.0.sql
--- b/contrib/tsm_system_time/tsm_system_time--1.0.sql
***************
*** 1,39 ****
! /* src/test/modules/tablesample/tsm_system_time--1.0.sql */
-- complain if script is sourced in psql, rather than via CREATE EXTENSION
\echo Use "CREATE EXTENSION tsm_system_time" to load this file. \quit
! CREATE FUNCTION tsm_system_time_init(internal, int4, int4)
! RETURNS void
! AS 'MODULE_PATHNAME'
! LANGUAGE C STRICT;
!
! CREATE FUNCTION tsm_system_time_nextblock(internal)
! RETURNS int4
! AS 'MODULE_PATHNAME'
! LANGUAGE C STRICT;
!
! CREATE FUNCTION tsm_system_time_nexttuple(internal, int4, int2)
! RETURNS int2
! AS 'MODULE_PATHNAME'
! LANGUAGE C STRICT;
!
! CREATE FUNCTION tsm_system_time_end(internal)
! RETURNS void
! AS 'MODULE_PATHNAME'
! LANGUAGE C STRICT;
!
! CREATE FUNCTION tsm_system_time_reset(internal)
! RETURNS void
! AS 'MODULE_PATHNAME'
! LANGUAGE C STRICT;
!
! CREATE FUNCTION tsm_system_time_cost(internal, internal, internal, internal, internal, internal, internal)
! RETURNS void
! AS 'MODULE_PATHNAME'
LANGUAGE C STRICT;
-
- INSERT INTO pg_tablesample_method VALUES('system_time', false, true,
- 'tsm_system_time_init', 'tsm_system_time_nextblock',
- 'tsm_system_time_nexttuple', '-', 'tsm_system_time_end',
- 'tsm_system_time_reset', 'tsm_system_time_cost');
--- 1,9 ----
! /* contrib/tsm_system_time/tsm_system_time--1.0.sql */
-- complain if script is sourced in psql, rather than via CREATE EXTENSION
\echo Use "CREATE EXTENSION tsm_system_time" to load this file. \quit
! CREATE FUNCTION system_time(internal)
! RETURNS tsm_handler
! AS 'MODULE_PATHNAME', 'tsm_system_time_handler'
LANGUAGE C STRICT;
diff --git a/contrib/tsm_system_time/tsm_system_time.c b/contrib/tsm_system_time/tsm_system_time.c
index 7708fc0..234d7e8 100644
*** a/contrib/tsm_system_time/tsm_system_time.c
--- b/contrib/tsm_system_time/tsm_system_time.c
***************
*** 1,286 ****
/*-------------------------------------------------------------------------
*
* tsm_system_time.c
! * interface routines for system_time tablesample method
*
*
! * Portions Copyright (c) 1996-2014, PostgreSQL Global Development Group
*
* IDENTIFICATION
! * contrib/tsm_system_time_rowlimit/tsm_system_time.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
! #include "fmgr.h"
- #include "access/tablesample.h"
#include "access/relscan.h"
#include "miscadmin.h"
- #include "nodes/execnodes.h"
- #include "nodes/relation.h"
#include "optimizer/clauses.h"
! #include "storage/bufmgr.h"
#include "utils/sampling.h"
#include "utils/spccache.h"
- #include "utils/timestamp.h"
PG_MODULE_MAGIC;
! /*
! * State
! */
typedef struct
{
- SamplerRandomState randstate;
uint32 seed; /* random seed */
! BlockNumber nblocks; /* number of block in relation */
! int32 time; /* time limit for sampling */
! TimestampTz start_time; /* start time of sampling */
! TimestampTz end_time; /* end time of sampling */
! OffsetNumber lt; /* last tuple returned from current block */
! BlockNumber step; /* step size */
BlockNumber lb; /* last block visited */
! BlockNumber estblocks; /* estimated number of returned blocks
! * (moving) */
! BlockNumber doneblocks; /* number of already returned blocks */
! } SystemSamplerData;
!
!
! PG_FUNCTION_INFO_V1(tsm_system_time_init);
! PG_FUNCTION_INFO_V1(tsm_system_time_nextblock);
! PG_FUNCTION_INFO_V1(tsm_system_time_nexttuple);
! PG_FUNCTION_INFO_V1(tsm_system_time_end);
! PG_FUNCTION_INFO_V1(tsm_system_time_reset);
! PG_FUNCTION_INFO_V1(tsm_system_time_cost);
static uint32 random_relative_prime(uint32 n, SamplerRandomState randstate);
/*
! * Initializes the state.
*/
Datum
! tsm_system_time_init(PG_FUNCTION_ARGS)
{
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
! uint32 seed = PG_GETARG_UINT32(1);
! int32 time = PG_ARGISNULL(2) ? -1 : PG_GETARG_INT32(2);
! HeapScanDesc scan = tsdesc->heapScan;
! SystemSamplerData *sampler;
!
! if (time < 1)
! ereport(ERROR,
! (errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
! errmsg("invalid time limit"),
! errhint("Time limit must be positive integer value.")));
!
! sampler = palloc0(sizeof(SystemSamplerData));
!
! /* Remember initial values for reinit */
! sampler->seed = seed;
! sampler->nblocks = scan->rs_nblocks;
! sampler->lt = InvalidOffsetNumber;
! sampler->estblocks = 2;
! sampler->doneblocks = 0;
! sampler->time = time;
! sampler->start_time = GetCurrentTimestamp();
! sampler->end_time = TimestampTzPlusMilliseconds(sampler->start_time,
! sampler->time);
!
! sampler_random_init_state(sampler->seed, sampler->randstate);
! /* Find relative prime as step size for linear probing. */
! sampler->step = random_relative_prime(sampler->nblocks, sampler->randstate);
! /*
! * Randomize start position so that blocks close to step size don't have
! * higher probability of being chosen on very short scan.
! */
! sampler->lb = sampler_random_fract(sampler->randstate) * (sampler->nblocks / sampler->step);
! tsdesc->tsmdata = (void *) sampler;
! PG_RETURN_VOID();
}
/*
! * Get next block number or InvalidBlockNumber when we're done.
! *
! * Uses linear probing algorithm for picking next block.
*/
! Datum
! tsm_system_time_nextblock(PG_FUNCTION_ARGS)
{
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
! SystemSamplerData *sampler = (SystemSamplerData *) tsdesc->tsmdata;
!
! sampler->lb = (sampler->lb + sampler->step) % sampler->nblocks;
! sampler->doneblocks++;
! /* All blocks have been read, we're done */
! if (sampler->doneblocks > sampler->nblocks)
! PG_RETURN_UINT32(InvalidBlockNumber);
! /*
! * Update the estimations for time limit at least 10 times per estimated
! * number of returned blocks to handle variations in block read speed.
! */
! if (sampler->doneblocks % Max(sampler->estblocks / 10, 1) == 0)
{
! TimestampTz now = GetCurrentTimestamp();
! long secs;
! int usecs;
! int usecs_remaining;
! int time_per_block;
! TimestampDifference(sampler->start_time, now, &secs, &usecs);
! usecs += (int) secs *1000000;
! time_per_block = usecs / sampler->doneblocks;
! /* No time left, end. */
! TimestampDifference(now, sampler->end_time, &secs, &usecs);
! if (secs <= 0 && usecs <= 0)
! PG_RETURN_UINT32(InvalidBlockNumber);
! /* Remaining microseconds */
! usecs_remaining = usecs + (int) secs *1000000;
! /* Recalculate estimated returned number of blocks */
! if (time_per_block < usecs_remaining && time_per_block > 0)
! sampler->estblocks = sampler->time * time_per_block;
}
! PG_RETURN_UINT32(sampler->lb);
}
/*
! * Get next tuple offset in current block or InvalidOffsetNumber if we are done
! * with this block.
*/
! Datum
! tsm_system_time_nexttuple(PG_FUNCTION_ARGS)
{
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
! OffsetNumber maxoffset = PG_GETARG_UINT16(2);
! SystemSamplerData *sampler = (SystemSamplerData *) tsdesc->tsmdata;
! OffsetNumber tupoffset = sampler->lt;
!
! if (tupoffset == InvalidOffsetNumber)
! tupoffset = FirstOffsetNumber;
! else
! tupoffset++;
!
! if (tupoffset > maxoffset)
! tupoffset = InvalidOffsetNumber;
!
! sampler->lt = tupoffset;
!
! PG_RETURN_UINT16(tupoffset);
}
/*
! * Cleanup method.
*/
! Datum
! tsm_system_time_end(PG_FUNCTION_ARGS)
{
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
! pfree(tsdesc->tsmdata);
! PG_RETURN_VOID();
}
/*
! * Reset state (called by ReScan).
*/
! Datum
! tsm_system_time_reset(PG_FUNCTION_ARGS)
{
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
! SystemSamplerData *sampler = (SystemSamplerData *) tsdesc->tsmdata;
! sampler->lt = InvalidOffsetNumber;
! sampler->start_time = GetCurrentTimestamp();
! sampler->end_time = TimestampTzPlusMilliseconds(sampler->start_time,
! sampler->time);
! sampler->estblocks = 2;
! sampler->doneblocks = 0;
! sampler_random_init_state(sampler->seed, sampler->randstate);
! sampler->step = random_relative_prime(sampler->nblocks, sampler->randstate);
! sampler->lb = sampler_random_fract(sampler->randstate) * (sampler->nblocks / sampler->step);
! PG_RETURN_VOID();
! }
! /*
! * Costing function.
! */
! Datum
! tsm_system_time_cost(PG_FUNCTION_ARGS)
! {
! PlannerInfo *root = (PlannerInfo *) PG_GETARG_POINTER(0);
! Path *path = (Path *) PG_GETARG_POINTER(1);
! RelOptInfo *baserel = (RelOptInfo *) PG_GETARG_POINTER(2);
! List *args = (List *) PG_GETARG_POINTER(3);
! BlockNumber *pages = (BlockNumber *) PG_GETARG_POINTER(4);
! double *tuples = (double *) PG_GETARG_POINTER(5);
! Node *limitnode;
! int32 time;
! BlockNumber relpages;
! double reltuples;
! double density;
! double spc_random_page_cost;
! limitnode = linitial(args);
! limitnode = estimate_expression_value(root, limitnode);
! if (IsA(limitnode, RelabelType))
! limitnode = (Node *) ((RelabelType *) limitnode)->arg;
! if (IsA(limitnode, Const))
! time = DatumGetInt32(((Const *) limitnode)->constvalue);
! else
! {
! /* Default time (1s) if the estimation didn't return Const. */
! time = 1000;
}
! relpages = baserel->pages;
! reltuples = baserel->tuples;
! /* estimate the tuple density */
! if (relpages > 0)
! density = reltuples / (double) relpages;
! else
! density = (BLCKSZ - SizeOfPageHeaderData) / baserel->width;
/*
! * We equal random page cost value to number of ms it takes to read the
! * random page here which is far from accurate but we don't have anything
! * better to base our predicted page reads.
*/
! get_tablespace_page_costs(baserel->reltablespace,
! &spc_random_page_cost,
! NULL);
! /*
! * Assumption here is that we'll never read less than 1% of table pages,
! * this is here mainly because it is much less bad to overestimate than
! * underestimate and using just spc_random_page_cost will probably lead to
! * underestimations in general.
! */
! *pages = Min(baserel->pages, Max(time / spc_random_page_cost, baserel->pages / 100));
! *tuples = rint(density * (double) *pages * path->rows / baserel->tuples);
! path->rows = *tuples;
! PG_RETURN_VOID();
}
static uint32
gcd(uint32 a, uint32 b)
{
--- 1,320 ----
/*-------------------------------------------------------------------------
*
* tsm_system_time.c
! * support routines for SYSTEM_TIME tablesample method
*
+ * The desire here is to produce a random sample with as many rows as possible
+ * in no more than the specified amount of time. We use a block-sampling
+ * approach. To ensure that the whole relation will be visited if necessary,
+ * we start at a randomly chosen block and then advance with a stride that
+ * is randomly chosen but is relatively prime to the relation's nblocks.
*
! * Because of the time dependence, this method is necessarily unrepeatable.
! * However, we do what we can to reduce surprising behavior by selecting
! * the sampling pattern just once per query, much as in tsm_system_rows.
! *
! * Portions Copyright (c) 1996-2015, PostgreSQL Global Development Group
! * Portions Copyright (c) 1994, Regents of the University of California
*
* IDENTIFICATION
! * contrib/tsm_system_time/tsm_system_time.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
! #ifdef _MSC_VER
! #include <float.h> /* for _isnan */
! #endif
! #include <math.h>
#include "access/relscan.h"
+ #include "access/tsmapi.h"
+ #include "catalog/pg_type.h"
#include "miscadmin.h"
#include "optimizer/clauses.h"
! #include "optimizer/cost.h"
#include "utils/sampling.h"
#include "utils/spccache.h"
PG_MODULE_MAGIC;
! PG_FUNCTION_INFO_V1(tsm_system_time_handler);
!
!
! /* Private state */
typedef struct
{
uint32 seed; /* random seed */
! double millis; /* time limit for sampling */
! instr_time start_time; /* scan start time */
! /* these three values are not changed during a rescan: */
! BlockNumber nblocks; /* number of blocks in relation */
! BlockNumber firstblock; /* first block to sample from */
! BlockNumber step; /* step size, or 0 if not set yet */
! BlockNumber doneblocks; /* number of already-scanned blocks */
BlockNumber lb; /* last block visited */
! OffsetNumber lt; /* last tuple returned from current block */
! } SystemTimeSamplerData;
+ static void system_time_samplescangetsamplesize(PlannerInfo *root,
+ RelOptInfo *baserel,
+ List *paramexprs,
+ BlockNumber *pages,
+ double *tuples);
+ static void system_time_initsamplescan(SampleScanState *node,
+ int eflags);
+ static void system_time_beginsamplescan(SampleScanState *node,
+ Datum *params,
+ int nparams,
+ uint32 seed);
+ static BlockNumber system_time_nextsampleblock(SampleScanState *node);
+ static OffsetNumber system_time_nextsampletuple(SampleScanState *node,
+ BlockNumber blockno,
+ OffsetNumber maxoffset);
static uint32 random_relative_prime(uint32 n, SamplerRandomState randstate);
+
/*
! * Create a TsmRoutine descriptor for the SYSTEM_TIME method.
*/
Datum
! tsm_system_time_handler(PG_FUNCTION_ARGS)
{
! TsmRoutine *tsm = makeNode(TsmRoutine);
! tsm->parameterTypes = list_make1_oid(FLOAT8OID);
! /* See notes at head of file */
! tsm->repeatable_across_queries = false;
! tsm->repeatable_across_scans = false;
! tsm->SampleScanGetSampleSize = system_time_samplescangetsamplesize;
! tsm->InitSampleScan = system_time_initsamplescan;
! tsm->BeginSampleScan = system_time_beginsamplescan;
! tsm->NextSampleBlock = system_time_nextsampleblock;
! tsm->NextSampleTuple = system_time_nextsampletuple;
! tsm->EndSampleScan = NULL;
! PG_RETURN_POINTER(tsm);
}
/*
! * Sample size estimation.
*/
! static void
! system_time_samplescangetsamplesize(PlannerInfo *root,
! RelOptInfo *baserel,
! List *paramexprs,
! BlockNumber *pages,
! double *tuples)
{
! Node *limitnode;
! double millis;
! double spc_random_page_cost;
! double npages;
! double ntuples;
! /* Try to extract an estimate for the limit time spec */
! limitnode = (Node *) linitial(paramexprs);
! limitnode = estimate_expression_value(root, limitnode);
! if (IsA(limitnode, Const) &&
! !((Const *) limitnode)->constisnull)
{
! millis = DatumGetFloat8(((Const *) limitnode)->constvalue);
! if (millis < 0 || isnan(millis))
! {
! /* Default millis if the value is bogus */
! millis = 1000;
! }
! }
! else
! {
! /* Default millis if the estimation didn't return Const */
! millis = 1000;
! }
! /* Get the planner's idea of cost per page read */
! get_tablespace_page_costs(baserel->reltablespace,
! &spc_random_page_cost,
! NULL);
! /*
! * Estimate the number of pages we can read by assuming that the cost
! * figure is expressed in milliseconds. This is completely, unmistakably
! * bogus, but we have to do something to produce an estimate and there's
! * no better answer.
! */
! if (spc_random_page_cost > 0)
! npages = millis / spc_random_page_cost;
! else
! npages = millis; /* even more bogus, but whatcha gonna do? */
! /* Clamp to sane value */
! npages = clamp_row_est(Min((double) baserel->pages, npages));
! if (baserel->tuples > 0 && baserel->pages > 0)
! {
! /* Estimate number of tuples returned based on tuple density */
! double density = baserel->tuples / (double) baserel->pages;
! ntuples = npages * density;
! }
! else
! {
! /* For lack of data, assume one tuple per page */
! ntuples = npages;
}
! /* Clamp to the estimated relation size */
! ntuples = clamp_row_est(Min(baserel->tuples, ntuples));
!
! *pages = npages;
! *tuples = ntuples;
}
/*
! * Initialize during executor setup.
*/
! static void
! system_time_initsamplescan(SampleScanState *node, int eflags)
{
! node->tsm_state = palloc0(sizeof(SystemTimeSamplerData));
! /* Note the above leaves tsm_state->step equal to zero */
}
/*
! * Examine parameters and prepare for a sample scan.
*/
! static void
! system_time_beginsamplescan(SampleScanState *node,
! Datum *params,
! int nparams,
! uint32 seed)
{
! SystemTimeSamplerData *sampler = (SystemTimeSamplerData *) node->tsm_state;
! double millis = DatumGetFloat8(params[0]);
! if (millis < 0 || isnan(millis))
! ereport(ERROR,
! (errcode(ERRCODE_INVALID_TABLESAMPLE_ARGUMENT),
! errmsg("sample collection time must not be negative")));
! sampler->seed = seed;
! sampler->millis = millis;
! /* we intentionally do not change nblocks/firstblock/step here */
! sampler->doneblocks = 0;
! /* lb, start_time will be initialized during first NextSampleBlock call */
! sampler->lt = InvalidOffsetNumber;
}
/*
! * Select next block to sample.
! *
! * Uses linear probing algorithm for picking next block.
*/
! static BlockNumber
! system_time_nextsampleblock(SampleScanState *node)
{
! SystemTimeSamplerData *sampler = (SystemTimeSamplerData *) node->tsm_state;
! HeapScanDesc scan = node->ss.ss_currentScanDesc;
! instr_time cur_time;
! /* First call within scan? */
! if (sampler->doneblocks == 0)
! {
! /* First scan within query? */
! if (sampler->step == 0)
! {
! /* Initialize now that we have scan descriptor */
! SamplerRandomState randstate;
! /* If relation is empty, there's nothing to scan */
! if (scan->rs_nblocks == 0)
! return InvalidBlockNumber;
! /* We only need an RNG during this setup step */
! sampler_random_init_state(sampler->seed, randstate);
! /* Compute nblocks/firstblock/step only once per query */
! sampler->nblocks = scan->rs_nblocks;
! /* Choose random starting block within the relation */
! /* (Actually this is the predecessor of the first block visited) */
! sampler->firstblock = sampler_random_fract(randstate) *
! sampler->nblocks;
! /* Find relative prime as step size for linear probing */
! sampler->step = random_relative_prime(sampler->nblocks, randstate);
! }
! /* Reinitialize lb and start_time */
! sampler->lb = sampler->firstblock;
! INSTR_TIME_SET_CURRENT(sampler->start_time);
}
! /* If we've read all blocks in relation, we're done */
! if (++sampler->doneblocks > sampler->nblocks)
! return InvalidBlockNumber;
! /* If we've used up all the allotted time, we're done */
! INSTR_TIME_SET_CURRENT(cur_time);
! INSTR_TIME_SUBTRACT(cur_time, sampler->start_time);
! if (INSTR_TIME_GET_MILLISEC(cur_time) >= sampler->millis)
! return InvalidBlockNumber;
/*
! * It's probably impossible for scan->rs_nblocks to decrease between scans
! * within a query; but just in case, loop until we select a block number
! * less than scan->rs_nblocks. We don't care if scan->rs_nblocks has
! * increased since the first scan.
*/
! do
! {
! /* Advance lb, using uint64 arithmetic to forestall overflow */
! sampler->lb = ((uint64) sampler->lb + sampler->step) % sampler->nblocks;
! } while (sampler->lb >= scan->rs_nblocks);
! return sampler->lb;
! }
! /*
! * Select next sampled tuple in current block.
! *
! * In block sampling, we just want to sample all the tuples in each selected
! * block.
! *
! * When we reach end of the block, return InvalidOffsetNumber which tells
! * SampleScan to go to next block.
! */
! static OffsetNumber
! system_time_nextsampletuple(SampleScanState *node,
! BlockNumber blockno,
! OffsetNumber maxoffset)
! {
! SystemTimeSamplerData *sampler = (SystemTimeSamplerData *) node->tsm_state;
! OffsetNumber tupoffset = sampler->lt;
!
! /* Advance to next possible offset on page */
! if (tupoffset == InvalidOffsetNumber)
! tupoffset = FirstOffsetNumber;
! else
! tupoffset++;
!
! /* Done? */
! if (tupoffset > maxoffset)
! tupoffset = InvalidOffsetNumber;
!
! sampler->lt = tupoffset;
!
! return tupoffset;
}
+ /*
+ * Compute greatest common divisor of two uint32's.
+ */
static uint32
gcd(uint32 a, uint32 b)
{
*************** gcd(uint32 a, uint32 b)
*** 296,317 ****
return b;
}
static uint32
random_relative_prime(uint32 n, SamplerRandomState randstate)
{
! /* Pick random starting number, with some limits on what it can be. */
! uint32 r = (uint32) sampler_random_fract(randstate) * n / 2 + n / 4,
! t;
/*
* This should only take 2 or 3 iterations as the probability of 2 numbers
! * being relatively prime is ~61%.
*/
! while ((t = gcd(r, n)) > 1)
{
CHECK_FOR_INTERRUPTS();
! r /= t;
! }
return r;
}
--- 330,358 ----
return b;
}
+ /*
+ * Pick a random value less than and relatively prime to n, if possible
+ * (else return 1).
+ */
static uint32
random_relative_prime(uint32 n, SamplerRandomState randstate)
{
! uint32 r;
!
! /* Safety check to avoid infinite loop or zero result for small n. */
! if (n <= 1)
! return 1;
/*
* This should only take 2 or 3 iterations as the probability of 2 numbers
! * being relatively prime is ~61%; but just in case, we'll include a
! * CHECK_FOR_INTERRUPTS in the loop.
*/
! do
{
CHECK_FOR_INTERRUPTS();
! r = (uint32) (sampler_random_fract(randstate) * n);
! } while (r == 0 || gcd(r, n) > 1);
return r;
}
diff --git a/contrib/tsm_system_time/tsm_system_time.control b/contrib/tsm_system_time/tsm_system_time.control
index ebcee19..c247987 100644
*** a/contrib/tsm_system_time/tsm_system_time.control
--- b/contrib/tsm_system_time/tsm_system_time.control
***************
*** 1,5 ****
# tsm_system_time extension
! comment = 'SYSTEM TABLESAMPLE method which accepts time in milliseconds as a limit'
default_version = '1.0'
module_pathname = '$libdir/tsm_system_time'
relocatable = true
--- 1,5 ----
# tsm_system_time extension
! comment = 'TABLESAMPLE method which accepts time in milliseconds as a limit'
default_version = '1.0'
module_pathname = '$libdir/tsm_system_time'
relocatable = true
diff --git a/doc/src/sgml/catalogs.sgml b/doc/src/sgml/catalogs.sgml
index 2c2190f..9096ee5 100644
*** a/doc/src/sgml/catalogs.sgml
--- b/doc/src/sgml/catalogs.sgml
***************
*** 279,289 ****
</row>
<row>
- <entry><link
linkend="catalog-pg-tablesample-method"><structname>pg_tablesample_method</structname></link></entry>
- <entry>table sampling methods</entry>
- </row>
-
- <row>
<entry><link linkend="catalog-pg-tablespace"><structname>pg_tablespace</structname></link></entry>
<entry>tablespaces within this database cluster</entry>
</row>
--- 279,284 ----
***************
*** 6132,6252 ****
</sect1>
- <sect1 id="catalog-pg-tablesample-method">
- <title><structname>pg_tabesample_method</structname></title>
-
- <indexterm zone="catalog-pg-tablesample-method">
- <primary>pg_am</primary>
- </indexterm>
-
- <para>
- The catalog <structname>pg_tablesample_method</structname> stores
- information about table sampling methods which can be used in
- <command>TABLESAMPLE</command> clause of a <command>SELECT</command>
- statement.
- </para>
-
- <table>
- <title><structname>pg_tablesample_method</> Columns</title>
-
- <tgroup cols="4">
- <thead>
- <row>
- <entry>Name</entry>
- <entry>Type</entry>
- <entry>References</entry>
- <entry>Description</entry>
- </row>
- </thead>
- <tbody>
-
- <row>
- <entry><structfield>oid</structfield></entry>
- <entry><type>oid</type></entry>
- <entry></entry>
- <entry>Row identifier (hidden attribute; must be explicitly selected)</entry>
- </row>
-
- <row>
- <entry><structfield>tsmname</structfield></entry>
- <entry><type>name</type></entry>
- <entry></entry>
- <entry>Name of the sampling method</entry>
- </row>
-
- <row>
- <entry><structfield>tsmseqscan</structfield></entry>
- <entry><type>bool</type></entry>
- <entry></entry>
- <entry>If true, the sampling method scans the whole table sequentially.
- </entry>
- </row>
-
- <row>
- <entry><structfield>tsmpagemode</structfield></entry>
- <entry><type>bool</type></entry>
- <entry></entry>
- <entry>If true, the sampling method always reads the pages completely.
- </entry>
- </row>
-
- <row>
- <entry><structfield>tsminit</structfield></entry>
- <entry><type>regproc</type></entry>
- <entry><literal><link linkend="catalog-pg-proc"><structname>pg_proc</structname></link>.oid</literal></entry>
- <entry><quote>Initialize the sampling scan</quote> function</entry>
- </row>
-
- <row>
- <entry><structfield>tsmnextblock</structfield></entry>
- <entry><type>regproc</type></entry>
- <entry><literal><link linkend="catalog-pg-proc"><structname>pg_proc</structname></link>.oid</literal></entry>
- <entry><quote>Get next block number</quote> function</entry>
- </row>
-
- <row>
- <entry><structfield>tsmnexttuple</structfield></entry>
- <entry><type>regproc</type></entry>
- <entry><literal><link linkend="catalog-pg-proc"><structname>pg_proc</structname></link>.oid</literal></entry>
- <entry><quote>Get next tuple offset</quote> function</entry>
- </row>
-
- <row>
- <entry><structfield>tsmexaminetuple</structfield></entry>
- <entry><type>regproc</type></entry>
- <entry><literal><link linkend="catalog-pg-proc"><structname>pg_proc</structname></link>.oid</literal></entry>
- <entry>Function which examines the tuple contents and decides if to
- return it, or zero if none</entry>
- </row>
-
- <row>
- <entry><structfield>tsmend</structfield></entry>
- <entry><type>regproc</type></entry>
- <entry><literal><link linkend="catalog-pg-proc"><structname>pg_proc</structname></link>.oid</literal></entry>
- <entry><quote>End the sampling scan</quote> function</entry>
- </row>
-
- <row>
- <entry><structfield>tsmreset</structfield></entry>
- <entry><type>regproc</type></entry>
- <entry><literal><link linkend="catalog-pg-proc"><structname>pg_proc</structname></link>.oid</literal></entry>
- <entry><quote>Restart the state of sampling scan</quote> function</entry>
- </row>
-
- <row>
- <entry><structfield>tsmcost</structfield></entry>
- <entry><type>regproc</type></entry>
- <entry><literal><link linkend="catalog-pg-proc"><structname>pg_proc</structname></link>.oid</literal></entry>
- <entry>Costing function</entry>
- </row>
-
- </tbody>
- </tgroup>
- </table>
-
- </sect1>
-
-
<sect1 id="catalog-pg-tablespace">
<title><structname>pg_tablespace</structname></title>
--- 6127,6132 ----
diff --git a/doc/src/sgml/datatype.sgml b/doc/src/sgml/datatype.sgml
index 8e13555..d24249e 100644
*** a/doc/src/sgml/datatype.sgml
--- b/doc/src/sgml/datatype.sgml
*************** SELECT * FROM pg_attribute
*** 4623,4628 ****
--- 4623,4632 ----
</indexterm>
<indexterm zone="datatype-pseudo">
+ <primary>tsm_handler</primary>
+ </indexterm>
+
+ <indexterm zone="datatype-pseudo">
<primary>cstring</primary>
</indexterm>
*************** SELECT * FROM pg_attribute
*** 4717,4722 ****
--- 4721,4731 ----
</row>
<row>
+ <entry><type>tsm_handler</></entry>
+ <entry>A tablesample method handler is declared to return <type>tsm_handler</>.</entry>
+ </row>
+
+ <row>
<entry><type>record</></entry>
<entry>Identifies a function returning an unspecified row type.</entry>
</row>
diff --git a/doc/src/sgml/postgres.sgml b/doc/src/sgml/postgres.sgml
index d1703e9..7e82cdc 100644
*** a/doc/src/sgml/postgres.sgml
--- b/doc/src/sgml/postgres.sgml
***************
*** 243,248 ****
--- 243,249 ----
&nls;
&plhandler;
&fdwhandler;
+ &tablesample-method;
&custom-scan;
&geqo;
&indexam;
***************
*** 250,256 ****
&spgist;
&gin;
&brin;
- &tablesample-method;
&storage;
&bki;
&planstats;
--- 251,256 ----
diff --git a/doc/src/sgml/ref/select.sgml b/doc/src/sgml/ref/select.sgml
index 632d793..44810f4 100644
*** a/doc/src/sgml/ref/select.sgml
--- b/doc/src/sgml/ref/select.sgml
*************** SELECT [ ALL | DISTINCT [ ON ( <replacea
*** 49,55 ****
<phrase>where <replaceable class="parameter">from_item</replaceable> can be one of:</phrase>
! [ ONLY ] <replaceable class="parameter">table_name</replaceable> [ * ] [ [ AS ] <replaceable
class="parameter">alias</replaceable>[ ( <replaceable class="parameter">column_alias</replaceable> [, ...] ) ] ] [
TABLESAMPLE<replaceable class="parameter">sampling_method</replaceable> ( <replaceable
class="parameter">argument</replaceable>[, ...] ) [ REPEATABLE ( <replaceable class="parameter">seed</replaceable> ) ]
]
[ LATERAL ] ( <replaceable class="parameter">select</replaceable> ) [ AS ] <replaceable
class="parameter">alias</replaceable>[ ( <replaceable class="parameter">column_alias</replaceable> [, ...] ) ]
<replaceable class="parameter">with_query_name</replaceable> [ [ AS ] <replaceable
class="parameter">alias</replaceable>[ ( <replaceable class="parameter">column_alias</replaceable> [, ...] ) ] ]
[ LATERAL ] <replaceable class="parameter">function_name</replaceable> ( [ <replaceable
class="parameter">argument</replaceable>[, ...] ] )
--- 49,56 ----
<phrase>where <replaceable class="parameter">from_item</replaceable> can be one of:</phrase>
! [ ONLY ] <replaceable class="parameter">table_name</replaceable> [ * ] [ [ AS ] <replaceable
class="parameter">alias</replaceable>[ ( <replaceable class="parameter">column_alias</replaceable> [, ...] ) ] ]
! [ TABLESAMPLE <replaceable class="parameter">sampling_method</replaceable> ( <replaceable
class="parameter">argument</replaceable>[, ...] ) [ REPEATABLE ( <replaceable class="parameter">seed</replaceable> ) ]
]
[ LATERAL ] ( <replaceable class="parameter">select</replaceable> ) [ AS ] <replaceable
class="parameter">alias</replaceable>[ ( <replaceable class="parameter">column_alias</replaceable> [, ...] ) ]
<replaceable class="parameter">with_query_name</replaceable> [ [ AS ] <replaceable
class="parameter">alias</replaceable>[ ( <replaceable class="parameter">column_alias</replaceable> [, ...] ) ] ]
[ LATERAL ] <replaceable class="parameter">function_name</replaceable> ( [ <replaceable
class="parameter">argument</replaceable>[, ...] ] )
*************** TABLE [ ONLY ] <replaceable class="param
*** 326,375 ****
</varlistentry>
<varlistentry>
- <term>TABLESAMPLE <replaceable class="parameter">sampling_method</replaceable> ( <replaceable
class="parameter">argument</replaceable>[, ...] ) [ REPEATABLE ( <replaceable class="parameter">seed</replaceable> )
]</term>
- <listitem>
- <para>
- Table sample clause after
- <replaceable class="parameter">table_name</replaceable> indicates that
- a <replaceable class="parameter">sampling_method</replaceable> should
- be used to retrieve subset of rows in the table.
- The <replaceable class="parameter">sampling_method</replaceable> can be
- any sampling method installed in the database. There are currently two
- sampling methods available in the standard
- <productname>PostgreSQL</productname> distribution:
- <itemizedlist>
- <listitem>
- <para><literal>SYSTEM</literal></para>
- </listitem>
- <listitem>
- <para><literal>BERNOULLI</literal></para>
- </listitem>
- </itemizedlist>
- Both of these sampling methods currently accept only single argument
- which is the percent (floating point from 0 to 100) of the rows to
- be returned.
- The <literal>SYSTEM</literal> sampling method does block level
- sampling with each block having the same chance of being selected and
- returns all rows from each selected block.
- The <literal>BERNOULLI</literal> scans whole table and returns
- individual rows with equal probability. Additional sampling methods
- may be installed in the database via extensions.
- </para>
- <para>
- The optional parameter <literal>REPEATABLE</literal> uses the seed
- parameter, which can be a number or expression producing a number, as
- a random seed for sampling. Note that subsequent commands may return
- different results even if same <literal>REPEATABLE</literal> clause was
- specified. This happens because <acronym>DML</acronym> statements and
- maintenance operations such as <command>VACUUM</> may affect physical
- distribution of data. The <function>setseed()</> function will not
- affect the sampling result when the <literal>REPEATABLE</literal>
- parameter is used.
- </para>
- </listitem>
- </varlistentry>
-
- <varlistentry>
<term><replaceable class="parameter">alias</replaceable></term>
<listitem>
<para>
--- 327,332 ----
*************** TABLE [ ONLY ] <replaceable class="param
*** 388,393 ****
--- 345,405 ----
</varlistentry>
<varlistentry>
+ <term><literal>TABLESAMPLE <replaceable class="parameter">sampling_method</replaceable> ( <replaceable
class="parameter">argument</replaceable>[, ...] ) [ REPEATABLE ( <replaceable class="parameter">seed</replaceable> )
]</literal></term>
+ <listitem>
+ <para>
+ A <literal>TABLESAMPLE</> clause after
+ a <replaceable class="parameter">table_name</> indicates that the
+ specified <replaceable class="parameter">sampling_method</replaceable>
+ should be used to retrieve a subset of the rows in that table.
+ This sampling precedes the application of any other filters such
+ as <literal>WHERE</> clauses.
+ The standard <productname>PostgreSQL</productname> distribution
+ includes two sampling methods, <literal>BERNOULLI</literal>
+ and <literal>SYSTEM</literal>, and other sampling methods can be
+ installed in the database via extensions.
+ </para>
+
+ <para>
+ The <literal>BERNOULLI</> and <literal>SYSTEM</> sampling methods
+ each accept a single <replaceable class="parameter">argument</>
+ which is the fraction of the table to sample, expressed as a
+ percentage between 0 and 100. This argument can be
+ any <type>real</>-valued expression. (Other sampling methods might
+ accept more or different arguments.) These two methods each return
+ a randomly-chosen sample of the table that will contain
+ approximately the specified percentage of the table's rows.
+ The <literal>BERNOULLI</literal> method scans the whole table and
+ selects or ignores individual rows independently with the specified
+ probability.
+ The <literal>SYSTEM</literal> method does block-level sampling with
+ each block having the specified chance of being selected; all rows
+ in each selected block are returned.
+ The <literal>SYSTEM</literal> method is significantly faster than
+ the <literal>BERNOULLI</literal> method when small sampling
+ percentages are specified, but it may return a less-random sample of
+ the table as a result of clustering effects.
+ </para>
+
+ <para>
+ The optional <literal>REPEATABLE</literal> clause specifies
+ a <replaceable class="parameter">seed</> number or expression to use
+ for generating random numbers within the sampling method. The seed
+ value can be any non-null floating-point value. Two queries that
+ specify the same seed and <replaceable class="parameter">argument</>
+ values will select the same sample of the table, if the table has
+ not been changed meanwhile. But different seed values will usually
+ produce different samples.
+ If <literal>REPEATABLE</literal> is not given then a new random
+ sample is selected for each query.
+ Note that some add-on sampling methods do not
+ accept <literal>REPEATABLE</literal>, and will always produce new
+ samples on each use.
+ </para>
+ </listitem>
+ </varlistentry>
+
+ <varlistentry>
<term><replaceable class="parameter">select</replaceable></term>
<listitem>
<para>
*************** SELECT distributors.* WHERE distributors
*** 1871,1876 ****
--- 1883,1898 ----
</refsect2>
<refsect2>
+ <title><literal>TABLESAMPLE</literal> Clause Restrictions</title>
+
+ <para>
+ The <literal>TABLESAMPLE</> clause is currently accepted only on
+ regular tables and materialized views. According to the SQL standard
+ it should be possible to apply it to any <literal>FROM</> item.
+ </para>
+ </refsect2>
+
+ <refsect2>
<title>Function Calls in <literal>FROM</literal></title>
<para>
*************** SELECT distributors.* WHERE distributors
*** 1993,2011 ****
</para>
</refsect2>
- <refsect2>
- <title><literal>TABLESAMPLE</literal> clause</title>
-
- <para>
- The <literal>TABLESAMPLE</> clause is currently accepted only on physical
- relations and materialized views.
- </para>
-
- <para>
- Additional modules allow you to install custom sampling methods and use
- them instead of the SQL standard methods.
- </para>
- </refsect2>
-
</refsect1>
</refentry>
--- 2015,2019 ----
diff --git a/doc/src/sgml/tablesample-method.sgml b/doc/src/sgml/tablesample-method.sgml
index 48eb7fe..464298f 100644
*** a/doc/src/sgml/tablesample-method.sgml
--- b/doc/src/sgml/tablesample-method.sgml
***************
*** 1,139 ****
<!-- doc/src/sgml/tablesample-method.sgml -->
<chapter id="tablesample-method">
! <title>Writing A TABLESAMPLE Sampling Method</title>
<indexterm zone="tablesample-method">
! <primary>tablesample method</primary>
</indexterm>
<para>
! The <command>TABLESAMPLE</command> clause implementation in
! <productname>PostgreSQL</> supports creating a custom sampling methods.
! These methods control what sample of the table will be returned when the
! <command>TABLESAMPLE</command> clause is used.
</para>
! <sect1 id="tablesample-method-functions">
! <title>Tablesample Method Functions</title>
<para>
! The tablesample method must provide following set of functions:
</para>
<para>
<programlisting>
void
! tsm_init (TableSampleDesc *desc,
! uint32 seed, ...);
</programlisting>
! Initialize the tablesample scan. The function is called at the beginning
! of each relation scan.
</para>
<para>
- Note that the first two parameters are required but you can specify
- additional parameters which then will be used by the <command>TABLESAMPLE</>
- clause to determine the required user input in the query itself.
- This means that if your function will specify additional float4 parameter
- named percent, the user will have to call the tablesample method with
- expression which evaluates (or can be coerced) to float4.
- For example this definition:
- <programlisting>
- tsm_init (TableSampleDesc *desc,
- uint32 seed, float4 pct);
- </programlisting>
- Will lead to SQL call like this:
<programlisting>
! ... TABLESAMPLE yourmethod(0.5) ...
</programlisting>
</para>
<para>
! <programlisting>
! BlockNumber
! tsm_nextblock (TableSampleDesc *desc);
! </programlisting>
! Returns the block number of next page to be scanned. InvalidBlockNumber
! should be returned if the sampling has reached end of the relation.
</para>
<para>
! <programlisting>
! OffsetNumber
! tsm_nexttuple (TableSampleDesc *desc, BlockNumber blockno,
! OffsetNumber maxoffset);
! </programlisting>
! Return next tuple offset for the current page. InvalidOffsetNumber should
! be returned if the sampling has reached end of the page.
</para>
<para>
<programlisting>
void
! tsm_end (TableSampleDesc *desc);
</programlisting>
! The scan has finished, cleanup any left over state.
</para>
<para>
! <programlisting>
! void
! tsm_reset (TableSampleDesc *desc);
! </programlisting>
! The scan needs to rescan the relation again, reset any tablesample method
! state.
</para>
<para>
<programlisting>
! void
! tsm_cost (PlannerInfo *root, Path *path, RelOptInfo *baserel,
! List *args, BlockNumber *pages, double *tuples);
</programlisting>
! This function is used by optimizer to decide best plan and is also used
! for output of <command>EXPLAIN</>.
</para>
<para>
! There is one more function which tablesampling method can implement in order
! to gain more fine grained control over sampling. This function is optional:
</para>
<para>
<programlisting>
! bool
! tsm_examinetuple (TableSampleDesc *desc, BlockNumber blockno,
! HeapTuple tuple, bool visible);
</programlisting>
! Function that enables the sampling method to examine contents of the tuple
! (for example to collect some internal statistics). The return value of this
! function is used to determine if the tuple should be returned to client.
! Note that this function will receive even invisible tuples but it is not
! allowed to return true for such tuple (if it does,
! <productname>PostgreSQL</> will raise an error).
</para>
<para>
- As you can see most of the tablesample method interfaces get the
- <structname>TableSampleDesc</> as a first parameter. This structure holds
- state of the current scan and also provides storage for the tablesample
- method's state. It is defined as following:
<programlisting>
! typedef struct TableSampleDesc {
! HeapScanDesc heapScan;
! TupleDesc tupDesc;
!
! void *tsmdata;
! } TableSampleDesc;
</programlisting>
! Where <structfield>heapScan</> is the descriptor of the physical table scan.
! It's possible to get table size info from it. The <structfield>tupDesc</>
! represents the tuple descriptor of the tuples returned by the scan and passed
! to the <function>tsm_examinetuple()</> interface. The <structfield>tsmdata</>
! can be used by tablesample method itself to store any state info it might
! need during the scan. If used by the method, it should be <function>pfree</>d
! in <function>tsm_end()</> function.
</para>
</sect1>
</chapter>
--- 1,293 ----
<!-- doc/src/sgml/tablesample-method.sgml -->
<chapter id="tablesample-method">
! <title>Writing A Table Sampling Method</title>
<indexterm zone="tablesample-method">
! <primary>table sampling method</primary>
! </indexterm>
!
! <indexterm zone="tablesample-method">
! <primary><literal>TABLESAMPLE</literal> method</primary>
</indexterm>
<para>
! <productname>PostgreSQL</>'s implementation of the <literal>TABLESAMPLE</>
! clause supports custom table sampling methods, in addition to
! the <literal>BERNOULLI</> and <literal>SYSTEM</> methods that are required
! by the SQL standard. The sampling method determines which rows of the
! table will be selected when the <literal>TABLESAMPLE</> clause is used.
</para>
! <para>
! At the SQL level, a table sampling method is represented by a single SQL
! function, typically implemented in C, having the signature
! <programlisting>
! method_name(internal) RETURNS tsm_handler
! </programlisting>
! The name of the function is the same method name appearing in the
! <literal>TABLESAMPLE</> clause. The <type>internal</> argument is a dummy
! (always having value zero) that simply serves to prevent this function from
! being called directly from a SQL command.
! The result of the function must be a palloc'd struct of
! type <type>TsmRoutine</>, which contains pointers to support functions for
! the sampling method. These support functions are plain C functions and
! are not visible or callable at the SQL level. The support functions are
! described in <xref linkend="tablesample-support-functions">.
! </para>
!
! <para>
! In addition to function pointers, the <type>TsmRoutine</> struct must
! include these additional fields:
! </para>
!
! <variablelist>
! <varlistentry>
! <term><literal>List *parameterTypes</literal></term>
! <listitem>
! <para>
! This is an OID list containing the data type OIDs of the parameter(s)
! that will be accepted by the <literal>TABLESAMPLE</> clause when this
! sampling method is used. For example, for the built-in methods, this
! list contains a single item with value <literal>FLOAT4OID</>, which
! represents the sampling percentage. Custom sampling methods can have
! more or different parameters.
! </para>
! </listitem>
! </varlistentry>
!
! <varlistentry>
! <term><literal>bool repeatable_across_queries</literal></term>
! <listitem>
! <para>
! If <literal>true</>, the sampling method can deliver identical samples
! across successive queries, if the same parameters
! and <literal>REPEATABLE</> seed value are supplied each time and the
! table contents have not changed. When this is <literal>false</>,
! the <literal>REPEATABLE</> clause is not accepted for use with the
! sampling method.
! </para>
! </listitem>
! </varlistentry>
!
! <varlistentry>
! <term><literal>bool repeatable_across_scans</literal></term>
! <listitem>
! <para>
! If <literal>true</>, the sampling method can deliver identical samples
! across successive scans in the same query (assuming unchanging
! parameters, seed value, and snapshot).
! When this is <literal>false</>, the planner will not select plans that
! would require scanning the sampled table more than once, since that
! might result in inconsistent query output.
! </para>
! </listitem>
! </varlistentry>
! </variablelist>
!
! <para>
! The <type>TsmRoutine</> struct type is declared
! in <filename>src/include/access/tsmapi.h</>, which see for additional
! details.
! </para>
!
! <sect1 id="tablesample-support-functions">
! <title>Sampling Method Support Functions</title>
<para>
! The TSM handler function returns a palloc'd <type>TsmRoutine</> struct
! containing pointers to the support functions described below. Most of
! the functions are required, but some are optional, and those pointers can
! be NULL.
</para>
<para>
<programlisting>
void
! SampleScanGetSampleSize (PlannerInfo *root,
! RelOptInfo *baserel,
! List *paramexprs,
! BlockNumber *pages,
! double *tuples);
</programlisting>
!
! This function is called during planning. It must estimate the number of
! relation pages that will be read during a sample scan, and the number of
! tuples that will be selected by the scan. (For example, these might be
! determined by estimating the sampling fraction, and then multiplying
! the <literal>baserel->pages</> and <literal>baserel->tuples</>
! numbers by that, being sure to round the results to integral values.)
! The <literal>paramexprs</> list holds the expression(s) that are
! parameters to the <literal>TABLESAMPLE</> clause. It is recommended to
! use <function>estimate_expression_value()</> to try to reduce these
! expressions to constants, if their values are needed for estimation
! purposes; but the function must provide size estimates even if they cannot
! be reduced, and it should not fail even if the values appear invalid
! (remember that they're only estimates of what the run-time values will be).
! The <literal>pages</> and <literal>tuples</> parameters are outputs.
</para>
+
<para>
<programlisting>
! void
! InitSampleScan (SampleScanState *node,
! int eflags);
</programlisting>
+
+ Initialize for execution of a SampleScan plan node.
+ This is called during executor startup.
+ It should perform any initialization needed before processing can start.
+ The <structname>SampleScanState</> node has already been created, but
+ its <structfield>tsm_state</> field is NULL.
+ The <function>InitSampleScan</> function can palloc whatever internal
+ state data is needed by the sampling method, and store a pointer to
+ it in <literal>node->tsm_state</>.
+ Information about the table to scan is accessible through other fields
+ of the <structname>SampleScanState</> node (but note that the
+ <literal>node->ss.ss_currentScanDesc</> scan descriptor is not set
+ up yet).
+ <literal>eflags</> contains flag bits describing the executor's
+ operating mode for this plan node.
</para>
<para>
! When <literal>(eflags & EXEC_FLAG_EXPLAIN_ONLY)</> is true,
! the scan will not actually be performed, so this function should only do
! the minimum required to make the node state valid for <command>EXPLAIN</>
! and <function>EndSampleScan</>.
</para>
<para>
! This function can be omitted (set the pointer to NULL), in which case
! <function>BeginSampleScan</> must perform all initialization needed
! by the sampling method.
</para>
<para>
<programlisting>
void
! BeginSampleScan (SampleScanState *node,
! Datum *params,
! int nparams,
! uint32 seed);
</programlisting>
!
! Begin execution of a sampling scan.
! This is called just before the first attempt to fetch a tuple, and
! may be called again if the scan needs to be restarted.
! Information about the table to scan is accessible through fields
! of the <structname>SampleScanState</> node (but note that the
! <literal>node->ss.ss_currentScanDesc</> scan descriptor is not set
! up yet).
! The <literal>params</> array, of length <literal>nparams</>, contains the
! values of the parameters supplied in the <literal>TABLESAMPLE</> clause.
! These will have the number and types specified in the sampling
! method's <literal>parameterTypes</literal> list, and have been checked
! to not be null.
! <literal>seed</> contains a seed to use for any random numbers generated
! within the sampling method; it is either a hash derived from the
! <literal>REPEATABLE</> value if one was given, or the result
! of <literal>random()</> if not.
</para>
<para>
! This function may adjust the fields <literal>node->use_bulkread</>
! and <literal>node->use_pagemode</>.
! If <literal>node->use_bulkread</> is <literal>true</>, which it is by
! default, the scan will use a buffer access strategy that encourages
! recycling buffers after use. It might be reasonable to set this
! to <literal>false</> if the scan will visit only a small fraction of the
! table's pages.
! If <literal>node->use_pagemode</> is <literal>true</>, which it is by
! default, the scan will perform visibility checking in a single pass for
! all tuples on each visited page. It might be reasonable to set this
! to <literal>false</> if the scan will select only a small fraction of the
! tuples on each visited page. That will result in fewer tuple visibility
! checks being performed, though each one will be more expensive because it
! will require more locking.
! </para>
!
! <para>
! If the sampling method is
! marked <literal>repeatable_across_scans</literal>, it must be able to
! select the same set of tuples during a rescan as it did originally, that is
! a fresh call of <function>BeginSampleScan</> must lead to selecting the
! same tuples as before (if the <literal>TABLESAMPLE</> parameters
! and seed don't change).
</para>
<para>
<programlisting>
! BlockNumber
! NextSampleBlock (SampleScanState *node);
</programlisting>
!
! Returns the block number of the next page to be scanned, or
! <literal>InvalidBlockNumber</> if no pages remain to be scanned.
</para>
<para>
! This function can be omitted (set the pointer to NULL), in which case
! the core code will perform a sequential scan of the entire relation.
! Such a scan can use synchronized scanning, so that the sampling method
! cannot assume that the relation pages are visited in the same order on
! each scan.
</para>
<para>
<programlisting>
! OffsetNumber
! NextSampleTuple (SampleScanState *node,
! BlockNumber blockno,
! OffsetNumber maxoffset);
</programlisting>
!
! Returns the offset number of the next tuple to be sampled on the
! specified page, or <literal>InvalidOffsetNumber</> if no tuples remain to
! be sampled. <literal>maxoffset</> is the largest offset number in use
! on the page.
</para>
+ <note>
+ <para>
+ <function>NextSampleTuple</> is not explicitly told which of the offset
+ numbers in the range <literal>1 .. maxoffset</> actually contain valid
+ tuples. This is not normally a problem since the core code ignores
+ requests to sample missing or invisible tuples; that should not result in
+ any bias in the sample. However, if necessary, the function can
+ examine <literal>node->ss.ss_currentScanDesc->rs_vistuples[]</>
+ to identify which tuples are valid and visible. (This
+ requires <literal>node->use_pagemode</> to be <literal>true</>.)
+ </para>
+ </note>
+
+ <note>
+ <para>
+ <function>NextSampleTuple</> must <emphasis>not</> assume
+ that <literal>blockno</> is the same page number returned by the most
+ recent <function>NextSampleBlock</> call. It was returned by some
+ previous <function>NextSampleBlock</> call, but the core code is allowed
+ to call <function>NextSampleBlock</> in advance of actually scanning
+ pages, so as to support prefetching. It is OK to assume that once
+ sampling of a given page begins, successive <function>NextSampleTuple</>
+ calls all refer to the same page until <literal>InvalidOffsetNumber</> is
+ returned.
+ </para>
+ </note>
+
<para>
<programlisting>
! void
! EndSampleScan (SampleScanState *node);
</programlisting>
!
! End the scan and release resources. It is normally not important
! to release palloc'd memory, but any externally-visible resources
! should be cleaned up.
! This function can be omitted (set the pointer to NULL) in the common
! case where no such resources exist.
</para>
+
</sect1>
</chapter>
diff --git a/doc/src/sgml/tsm-system-rows.sgml b/doc/src/sgml/tsm-system-rows.sgml
index 0c2f177..93aa536 100644
*** a/doc/src/sgml/tsm-system-rows.sgml
--- b/doc/src/sgml/tsm-system-rows.sgml
***************
*** 8,31 ****
</indexterm>
<para>
! The <filename>tsm_system_rows</> module provides the tablesample method
! <literal>SYSTEM_ROWS</literal>, which can be used inside the
! <command>TABLESAMPLE</command> clause of a <command>SELECT</command>.
</para>
<para>
! This tablesample method uses a linear probing algorithm to read sample
! of a table and uses actual number of rows as limit (unlike the
! <literal>SYSTEM</literal> tablesample method which limits by percentage
! of a table).
</para>
<sect2>
<title>Examples</title>
<para>
! Here is an example of selecting sample of a table with
! <literal>SYSTEM_ROWS</>. First install the extension:
</para>
<programlisting>
--- 8,44 ----
</indexterm>
<para>
! The <filename>tsm_system_rows</> module provides the table sampling method
! <literal>SYSTEM_ROWS</literal>, which can be used in
! the <literal>TABLESAMPLE</> clause of a <xref linkend="sql-select">
! command.
</para>
<para>
! This table sampling method accepts a single integer argument that is the
! maximum number of rows to read. The resulting sample will always contain
! exactly that many rows, unless the table does not contain enough rows, in
! which case the whole table is selected.
! </para>
!
! <para>
! Like the built-in <literal>SYSTEM</literal> sampling
! method, <literal>SYSTEM_ROWS</literal> performs block-level sampling, so
! that the sample is not completely random but may be subject to clustering
! effects, especially if only a small number of rows are requested.
! </para>
!
! <para>
! <literal>SYSTEM_ROWS</literal> does not support
! the <literal>REPEATABLE</literal> clause.
</para>
<sect2>
<title>Examples</title>
<para>
! Here is an example of selecting a sample of a table with
! <literal>SYSTEM_ROWS</>. First install the extension:
</para>
<programlisting>
*************** CREATE EXTENSION tsm_system_rows;
*** 33,40 ****
</programlisting>
<para>
! Then you can use it in <command>SELECT</command> command same way as other
! tablesample methods:
<programlisting>
SELECT * FROM my_table TABLESAMPLE SYSTEM_ROWS(100);
--- 46,52 ----
</programlisting>
<para>
! Then you can use it in a <command>SELECT</command> command, for instance:
<programlisting>
SELECT * FROM my_table TABLESAMPLE SYSTEM_ROWS(100);
*************** SELECT * FROM my_table TABLESAMPLE SYSTE
*** 42,49 ****
</para>
<para>
! The above command will return a sample of 100 rows from the table my_table
! (less if the table does not have 100 visible rows).
</para>
</sect2>
--- 54,62 ----
</para>
<para>
! This command will return a sample of 100 rows from the
! table <structname>my_table</> (unless the table does not have 100
! visible rows, in which case all its rows are returned).
</para>
</sect2>
diff --git a/doc/src/sgml/tsm-system-time.sgml b/doc/src/sgml/tsm-system-time.sgml
index 2343ab1..3f8ff1a 100644
*** a/doc/src/sgml/tsm-system-time.sgml
--- b/doc/src/sgml/tsm-system-time.sgml
***************
*** 8,32 ****
</indexterm>
<para>
! The <filename>tsm_system_time</> module provides the tablesample method
! <literal>SYSTEM_TIME</literal>, which can be used inside the
! <command>TABLESAMPLE</command> clause of a <command>SELECT</command>.
</para>
<para>
! This tablesample method uses a linear probing algorithm to read sample
! of a table and uses time in milliseconds as limit (unlike the
! <literal>SYSTEM</literal> tablesample method which limits by percentage
! of a table). This gives you some control over the length of execution
! of your query.
</para>
<sect2>
<title>Examples</title>
<para>
! Here is an example of selecting sample of a table with
! <literal>SYSTEM_TIME</>. First install the extension:
</para>
<programlisting>
--- 8,46 ----
</indexterm>
<para>
! The <filename>tsm_system_time</> module provides the table sampling method
! <literal>SYSTEM_TIME</literal>, which can be used in
! the <literal>TABLESAMPLE</> clause of a <xref linkend="sql-select">
! command.
</para>
<para>
! This table sampling method accepts a single floating-point argument that
! is the maximum number of milliseconds to spend reading the table. This
! gives you direct control over how long the query takes, at the price that
! the size of the sample becomes hard to predict. The resulting sample will
! contain as many rows as could be read in the specified time, unless the
! whole table has been read first.
! </para>
!
! <para>
! Like the built-in <literal>SYSTEM</literal> sampling
! method, <literal>SYSTEM_TIME</literal> performs block-level sampling, so
! that the sample is not completely random but may be subject to clustering
! effects, especially if only a small number of rows are selected.
! </para>
!
! <para>
! <literal>SYSTEM_TIME</literal> does not support
! the <literal>REPEATABLE</literal> clause.
</para>
<sect2>
<title>Examples</title>
<para>
! Here is an example of selecting a sample of a table with
! <literal>SYSTEM_TIME</>. First install the extension:
</para>
<programlisting>
*************** CREATE EXTENSION tsm_system_time;
*** 34,41 ****
</programlisting>
<para>
! Then you can use it in a <command>SELECT</command> command the same way as
! other tablesample methods:
<programlisting>
SELECT * FROM my_table TABLESAMPLE SYSTEM_TIME(1000);
--- 48,54 ----
</programlisting>
<para>
! Then you can use it in a <command>SELECT</command> command, for instance:
<programlisting>
SELECT * FROM my_table TABLESAMPLE SYSTEM_TIME(1000);
*************** SELECT * FROM my_table TABLESAMPLE SYSTE
*** 43,50 ****
</para>
<para>
! The above command will return as large a sample of my_table as it can read in
! 1 second (or less if it reads whole table faster).
</para>
</sect2>
--- 56,64 ----
</para>
<para>
! This command will return as large a sample of <structname>my_table</> as
! it can read in 1 second (1000 milliseconds). Of course, if the whole
! table can be read in under 1 second, all its rows will be returned.
</para>
</sect2>
diff --git a/src/backend/access/heap/heapam.c b/src/backend/access/heap/heapam.c
index 6f4ff27..050efdc 100644
*** a/src/backend/access/heap/heapam.c
--- b/src/backend/access/heap/heapam.c
*************** bool synchronize_seqscans = true;
*** 80,87 ****
static HeapScanDesc heap_beginscan_internal(Relation relation,
Snapshot snapshot,
int nkeys, ScanKey key,
! bool allow_strat, bool allow_sync, bool allow_pagemode,
! bool is_bitmapscan, bool is_samplescan,
bool temp_snap);
static HeapTuple heap_prepare_insert(Relation relation, HeapTuple tup,
TransactionId xid, CommandId cid, int options);
--- 80,90 ----
static HeapScanDesc heap_beginscan_internal(Relation relation,
Snapshot snapshot,
int nkeys, ScanKey key,
! bool allow_strat,
! bool allow_sync,
! bool allow_pagemode,
! bool is_bitmapscan,
! bool is_samplescan,
bool temp_snap);
static HeapTuple heap_prepare_insert(Relation relation, HeapTuple tup,
TransactionId xid, CommandId cid, int options);
*************** static const int MultiXactStatusLock[Max
*** 207,213 ****
* ----------------
*/
static void
! initscan(HeapScanDesc scan, ScanKey key, bool is_rescan)
{
bool allow_strat;
bool allow_sync;
--- 210,216 ----
* ----------------
*/
static void
! initscan(HeapScanDesc scan, ScanKey key, bool keep_startblock)
{
bool allow_strat;
bool allow_sync;
*************** initscan(HeapScanDesc scan, ScanKey key,
*** 257,268 ****
scan->rs_strategy = NULL;
}
! if (is_rescan)
{
/*
! * If rescan, keep the previous startblock setting so that rewinding a
! * cursor doesn't generate surprising results. Reset the syncscan
! * setting, though.
*/
scan->rs_syncscan = (allow_sync && synchronize_seqscans);
}
--- 260,271 ----
scan->rs_strategy = NULL;
}
! if (keep_startblock)
{
/*
! * When rescanning, we want to keep the previous startblock setting,
! * so that rewinding a cursor doesn't generate surprising results.
! * Reset the active syncscan setting, though.
*/
scan->rs_syncscan = (allow_sync && synchronize_seqscans);
}
*************** heap_openrv_extended(const RangeVar *rel
*** 1313,1318 ****
--- 1316,1325 ----
/* ----------------
* heap_beginscan - begin relation scan
*
+ * heap_beginscan is the "standard" case.
+ *
+ * heap_beginscan_catalog differs in setting up its own temporary snapshot.
+ *
* heap_beginscan_strat offers an extended API that lets the caller control
* whether a nondefault buffer access strategy can be used, and whether
* syncscan can be chosen (possibly resulting in the scan not starting from
*************** heap_openrv_extended(const RangeVar *rel
*** 1323,1330 ****
* really quite unlike a standard seqscan, there is just enough commonality
* to make it worth using the same data structure.
*
! * heap_beginscan_samplingscan is alternate entry point for setting up a
! * HeapScanDesc for a TABLESAMPLE scan.
* ----------------
*/
HeapScanDesc
--- 1330,1340 ----
* really quite unlike a standard seqscan, there is just enough commonality
* to make it worth using the same data structure.
*
! * heap_beginscan_sampling is an alternative entry point for setting up a
! * HeapScanDesc for a TABLESAMPLE scan. As with bitmap scans, it's worth
! * using the same data structure although the behavior is rather different.
! * In addition to the options offered by heap_beginscan_strat, this call
! * also allows control of whether page-mode visibility checking is used.
* ----------------
*/
HeapScanDesc
*************** heap_beginscan_bm(Relation relation, Sna
*** 1366,1383 ****
HeapScanDesc
heap_beginscan_sampling(Relation relation, Snapshot snapshot,
int nkeys, ScanKey key,
! bool allow_strat, bool allow_pagemode)
{
return heap_beginscan_internal(relation, snapshot, nkeys, key,
! allow_strat, false, allow_pagemode,
false, true, false);
}
static HeapScanDesc
heap_beginscan_internal(Relation relation, Snapshot snapshot,
int nkeys, ScanKey key,
! bool allow_strat, bool allow_sync, bool allow_pagemode,
! bool is_bitmapscan, bool is_samplescan, bool temp_snap)
{
HeapScanDesc scan;
--- 1376,1397 ----
HeapScanDesc
heap_beginscan_sampling(Relation relation, Snapshot snapshot,
int nkeys, ScanKey key,
! bool allow_strat, bool allow_sync, bool allow_pagemode)
{
return heap_beginscan_internal(relation, snapshot, nkeys, key,
! allow_strat, allow_sync, allow_pagemode,
false, true, false);
}
static HeapScanDesc
heap_beginscan_internal(Relation relation, Snapshot snapshot,
int nkeys, ScanKey key,
! bool allow_strat,
! bool allow_sync,
! bool allow_pagemode,
! bool is_bitmapscan,
! bool is_samplescan,
! bool temp_snap)
{
HeapScanDesc scan;
*************** heap_rescan(HeapScanDesc scan,
*** 1462,1467 ****
--- 1476,1502 ----
}
/* ----------------
+ * heap_rescan_set_params - restart a relation scan after changing params
+ *
+ * This call allows changing the buffer strategy, syncscan, and pagemode
+ * options before starting a fresh scan. Note that although the actual use
+ * of syncscan might change (effectively, enabling or disabling reporting),
+ * the previously selected startblock will be kept.
+ * ----------------
+ */
+ void
+ heap_rescan_set_params(HeapScanDesc scan, ScanKey key,
+ bool allow_strat, bool allow_sync, bool allow_pagemode)
+ {
+ /* adjust parameters */
+ scan->rs_allow_strat = allow_strat;
+ scan->rs_allow_sync = allow_sync;
+ scan->rs_pageatatime = allow_pagemode && IsMVCCSnapshot(scan->rs_snapshot);
+ /* ... and rescan */
+ heap_rescan(scan, key);
+ }
+
+ /* ----------------
* heap_endscan - end relation scan
*
* See how to integrate with index scans.
diff --git a/src/backend/access/tablesample/Makefile b/src/backend/access/tablesample/Makefile
index 46eeb59..68d9ab2 100644
*** a/src/backend/access/tablesample/Makefile
--- b/src/backend/access/tablesample/Makefile
***************
*** 1,10 ****
#-------------------------------------------------------------------------
#
# Makefile--
! # Makefile for utils/tablesample
#
# IDENTIFICATION
! # src/backend/utils/tablesample/Makefile
#
#-------------------------------------------------------------------------
--- 1,10 ----
#-------------------------------------------------------------------------
#
# Makefile--
! # Makefile for access/tablesample
#
# IDENTIFICATION
! # src/backend/access/tablesample/Makefile
#
#-------------------------------------------------------------------------
*************** subdir = src/backend/access/tablesample
*** 12,17 ****
top_builddir = ../../../..
include $(top_builddir)/src/Makefile.global
! OBJS = tablesample.o system.o bernoulli.o
include $(top_srcdir)/src/backend/common.mk
--- 12,17 ----
top_builddir = ../../../..
include $(top_builddir)/src/Makefile.global
! OBJS = bernoulli.o system.o tablesample.o
include $(top_srcdir)/src/backend/common.mk
diff --git a/src/backend/access/tablesample/bernoulli.c b/src/backend/access/tablesample/bernoulli.c
index 0a53900..9875f33 100644
*** a/src/backend/access/tablesample/bernoulli.c
--- b/src/backend/access/tablesample/bernoulli.c
***************
*** 1,233 ****
/*-------------------------------------------------------------------------
*
* bernoulli.c
! * interface routines for BERNOULLI tablesample method
*
! * Portions Copyright (c) 1996-2014, PostgreSQL Global Development Group
*
* IDENTIFICATION
! * src/backend/utils/tablesample/bernoulli.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
! #include "fmgr.h"
! #include "access/tablesample.h"
! #include "access/relscan.h"
! #include "nodes/execnodes.h"
! #include "nodes/relation.h"
#include "optimizer/clauses.h"
! #include "storage/bufmgr.h"
! #include "utils/sampling.h"
! /* tsdesc */
typedef struct
{
uint32 seed; /* random seed */
- BlockNumber startblock; /* starting block, we use ths for syncscan
- * support */
- BlockNumber nblocks; /* number of blocks */
- BlockNumber blockno; /* current block */
- float4 probability; /* probabilty that tuple will be returned
- * (0.0-1.0) */
OffsetNumber lt; /* last tuple returned from current block */
- SamplerRandomState randstate; /* random generator tsdesc */
} BernoulliSamplerData;
/*
! * Initialize the state.
*/
Datum
! tsm_bernoulli_init(PG_FUNCTION_ARGS)
{
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
! uint32 seed = PG_GETARG_UINT32(1);
! float4 percent = PG_ARGISNULL(2) ? -1 : PG_GETARG_FLOAT4(2);
! HeapScanDesc scan = tsdesc->heapScan;
! BernoulliSamplerData *sampler;
!
! if (percent < 0 || percent > 100)
! ereport(ERROR,
! (errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
! errmsg("invalid sample size"),
! errhint("Sample size must be numeric value between 0 and 100 (inclusive).")));
!
! sampler = palloc0(sizeof(BernoulliSamplerData));
!
! /* Remember initial values for reinit */
! sampler->seed = seed;
! sampler->startblock = scan->rs_startblock;
! sampler->nblocks = scan->rs_nblocks;
! sampler->blockno = InvalidBlockNumber;
! sampler->probability = percent / 100;
! sampler->lt = InvalidOffsetNumber;
! sampler_random_init_state(sampler->seed, sampler->randstate);
! tsdesc->tsmdata = (void *) sampler;
! PG_RETURN_VOID();
}
/*
! * Get next block number to read or InvalidBlockNumber if we are at the
! * end of the relation.
*/
! Datum
! tsm_bernoulli_nextblock(PG_FUNCTION_ARGS)
{
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
! BernoulliSamplerData *sampler = (BernoulliSamplerData *) tsdesc->tsmdata;
! /*
! * Bernoulli sampling scans all blocks on the table and supports syncscan
! * so loop from startblock to startblock instead of from 0 to nblocks.
! */
! if (sampler->blockno == InvalidBlockNumber)
! sampler->blockno = sampler->startblock;
else
{
! sampler->blockno++;
! if (sampler->blockno >= sampler->nblocks)
! sampler->blockno = 0;
! if (sampler->blockno == sampler->startblock)
! PG_RETURN_UINT32(InvalidBlockNumber);
! }
! PG_RETURN_UINT32(sampler->blockno);
}
/*
! * Get next tuple from current block.
! *
! * This method implements the main logic in bernoulli sampling.
! * The algorithm simply generates new random number (in 0.0-1.0 range) and if
! * it falls within user specified probability (in the same range) return the
! * tuple offset.
! *
! * It is ok here to return tuple offset without knowing if tuple is visible
! * and not check it via examinetuple. The reason for that is that we do the
! * coinflip (random number generation) for every tuple in the table. Since all
! * tuples have same probability of being returned the visible and invisible
! * tuples will be returned in same ratio as they have in the actual table.
! * This means that there is no skew towards either visible or invisible tuples
! * and the number of visible tuples returned from the executor node should
! * match the fraction of visible tuples which was specified by user.
*
! * This is faster than doing the coinflip in examinetuple because we don't
! * have to do visibility checks on uninteresting tuples.
*
! * If we reach end of the block return InvalidOffsetNumber which tells
* SampleScan to go to next block.
*/
! Datum
! tsm_bernoulli_nexttuple(PG_FUNCTION_ARGS)
{
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
! OffsetNumber maxoffset = PG_GETARG_UINT16(2);
! BernoulliSamplerData *sampler = (BernoulliSamplerData *) tsdesc->tsmdata;
OffsetNumber tupoffset = sampler->lt;
! float4 probability = sampler->probability;
if (tupoffset == InvalidOffsetNumber)
tupoffset = FirstOffsetNumber;
else
tupoffset++;
/*
! * Loop over tuple offsets until the random generator returns value that
! * is within the probability of returning the tuple or until we reach end
! * of the block.
*
! * (This is our implementation of bernoulli trial)
*/
! while (sampler_random_fract(sampler->randstate) > probability)
{
! tupoffset++;
! if (tupoffset > maxoffset)
break;
}
if (tupoffset > maxoffset)
- /* Tell SampleScan that we want next block. */
tupoffset = InvalidOffsetNumber;
sampler->lt = tupoffset;
! PG_RETURN_UINT16(tupoffset);
! }
!
! /*
! * Cleanup method.
! */
! Datum
! tsm_bernoulli_end(PG_FUNCTION_ARGS)
! {
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
!
! pfree(tsdesc->tsmdata);
!
! PG_RETURN_VOID();
! }
!
! /*
! * Reset tsdesc (called by ReScan).
! */
! Datum
! tsm_bernoulli_reset(PG_FUNCTION_ARGS)
! {
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
! BernoulliSamplerData *sampler = (BernoulliSamplerData *) tsdesc->tsmdata;
!
! sampler->blockno = InvalidBlockNumber;
! sampler->lt = InvalidOffsetNumber;
! sampler_random_init_state(sampler->seed, sampler->randstate);
!
! PG_RETURN_VOID();
! }
!
! /*
! * Costing function.
! */
! Datum
! tsm_bernoulli_cost(PG_FUNCTION_ARGS)
! {
! PlannerInfo *root = (PlannerInfo *) PG_GETARG_POINTER(0);
! Path *path = (Path *) PG_GETARG_POINTER(1);
! RelOptInfo *baserel = (RelOptInfo *) PG_GETARG_POINTER(2);
! List *args = (List *) PG_GETARG_POINTER(3);
! BlockNumber *pages = (BlockNumber *) PG_GETARG_POINTER(4);
! double *tuples = (double *) PG_GETARG_POINTER(5);
! Node *pctnode;
! float4 samplesize;
!
! *pages = baserel->pages;
!
! pctnode = linitial(args);
! pctnode = estimate_expression_value(root, pctnode);
!
! if (IsA(pctnode, RelabelType))
! pctnode = (Node *) ((RelabelType *) pctnode)->arg;
!
! if (IsA(pctnode, Const))
! {
! samplesize = DatumGetFloat4(((Const *) pctnode)->constvalue);
! samplesize /= 100.0;
! }
! else
! {
! /* Default samplesize if the estimation didn't return Const. */
! samplesize = 0.1f;
! }
!
! *tuples = path->rows * samplesize;
! path->rows = *tuples;
!
! PG_RETURN_VOID();
}
--- 1,223 ----
/*-------------------------------------------------------------------------
*
* bernoulli.c
! * support routines for BERNOULLI tablesample method
*
! * To ensure repeatability of samples, it is necessary that selection of a
! * given tuple be history-independent; otherwise syncscanning would break
! * repeatability, to say nothing of logically-irrelevant maintenance such
! * as physical extension or shortening of the relation.
! *
! * To achieve that, we proceed by hashing each candidate TID together with
! * the active seed, and then selecting it if the hash is less than the
! * cutoff value computed from the selection probability by BeginSampleScan.
! *
! *
! * Portions Copyright (c) 1996-2015, PostgreSQL Global Development Group
! * Portions Copyright (c) 1994, Regents of the University of California
*
* IDENTIFICATION
! * src/backend/access/tablesample/bernoulli.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
! #ifdef _MSC_VER
! #include <float.h> /* for _isnan */
! #endif
! #include <math.h>
! #include "access/hash.h"
! #include "access/tsmapi.h"
! #include "catalog/pg_type.h"
#include "optimizer/clauses.h"
! #include "optimizer/cost.h"
! #include "utils/builtins.h"
! /* Private state */
typedef struct
{
+ uint64 cutoff; /* select tuples with hash less than this */
uint32 seed; /* random seed */
OffsetNumber lt; /* last tuple returned from current block */
} BernoulliSamplerData;
+
+ static void bernoulli_samplescangetsamplesize(PlannerInfo *root,
+ RelOptInfo *baserel,
+ List *paramexprs,
+ BlockNumber *pages,
+ double *tuples);
+ static void bernoulli_initsamplescan(SampleScanState *node,
+ int eflags);
+ static void bernoulli_beginsamplescan(SampleScanState *node,
+ Datum *params,
+ int nparams,
+ uint32 seed);
+ static OffsetNumber bernoulli_nextsampletuple(SampleScanState *node,
+ BlockNumber blockno,
+ OffsetNumber maxoffset);
+
+
/*
! * Create a TsmRoutine descriptor for the BERNOULLI method.
*/
Datum
! tsm_bernoulli_handler(PG_FUNCTION_ARGS)
{
! TsmRoutine *tsm = makeNode(TsmRoutine);
! tsm->parameterTypes = list_make1_oid(FLOAT4OID);
! tsm->repeatable_across_queries = true;
! tsm->repeatable_across_scans = true;
! tsm->SampleScanGetSampleSize = bernoulli_samplescangetsamplesize;
! tsm->InitSampleScan = bernoulli_initsamplescan;
! tsm->BeginSampleScan = bernoulli_beginsamplescan;
! tsm->NextSampleBlock = NULL;
! tsm->NextSampleTuple = bernoulli_nextsampletuple;
! tsm->EndSampleScan = NULL;
! PG_RETURN_POINTER(tsm);
}
/*
! * Sample size estimation.
*/
! static void
! bernoulli_samplescangetsamplesize(PlannerInfo *root,
! RelOptInfo *baserel,
! List *paramexprs,
! BlockNumber *pages,
! double *tuples)
{
! Node *pctnode;
! float4 samplefract;
! /* Try to extract an estimate for the sample percentage */
! pctnode = (Node *) linitial(paramexprs);
! pctnode = estimate_expression_value(root, pctnode);
!
! if (IsA(pctnode, Const) &&
! !((Const *) pctnode)->constisnull)
! {
! samplefract = DatumGetFloat4(((Const *) pctnode)->constvalue);
! if (samplefract >= 0 && samplefract <= 100 && !isnan(samplefract))
! samplefract /= 100.0f;
! else
! {
! /* Default samplefract if the value is bogus */
! samplefract = 0.1f;
! }
! }
else
{
! /* Default samplefract if the estimation didn't return Const */
! samplefract = 0.1f;
! }
! /* We'll visit all pages of the baserel */
! *pages = baserel->pages;
! *tuples = clamp_row_est(baserel->tuples * samplefract);
! }
! /*
! * Initialize during executor setup.
! */
! static void
! bernoulli_initsamplescan(SampleScanState *node, int eflags)
! {
! node->tsm_state = palloc0(sizeof(BernoulliSamplerData));
}
/*
! * Examine parameters and prepare for a sample scan.
! */
! static void
! bernoulli_beginsamplescan(SampleScanState *node,
! Datum *params,
! int nparams,
! uint32 seed)
! {
! BernoulliSamplerData *sampler = (BernoulliSamplerData *) node->tsm_state;
! double percent = DatumGetFloat4(params[0]);
!
! if (percent < 0 || percent > 100 || isnan(percent))
! ereport(ERROR,
! (errcode(ERRCODE_INVALID_TABLESAMPLE_ARGUMENT),
! errmsg("sample percentage must be between 0 and 100")));
!
! /*
! * The cutoff is sample probability times (PG_UINT32_MAX + 1); we have to
! * store that as a uint64, of course. Note that this gives strictly
! * correct behavior at the limits of zero or one probability.
! */
! sampler->cutoff = rint(((double) PG_UINT32_MAX + 1) * percent / 100);
! sampler->seed = seed;
! sampler->lt = InvalidOffsetNumber;
! }
!
! /*
! * Select next sampled tuple in current block.
*
! * It is OK here to return an offset without knowing if the tuple is visible
! * (or even exists). The reason is that we do the coinflip for every tuple
! * offset in the table. Since all tuples have the same probability of being
! * returned, it doesn't matter if we do extra coinflips for invisible tuples.
*
! * When we reach end of the block, return InvalidOffsetNumber which tells
* SampleScan to go to next block.
*/
! static OffsetNumber
! bernoulli_nextsampletuple(SampleScanState *node,
! BlockNumber blockno,
! OffsetNumber maxoffset)
{
! BernoulliSamplerData *sampler = (BernoulliSamplerData *) node->tsm_state;
OffsetNumber tupoffset = sampler->lt;
! uint32 hashinput[3];
+ /* Advance to first/next tuple in block */
if (tupoffset == InvalidOffsetNumber)
tupoffset = FirstOffsetNumber;
else
tupoffset++;
/*
! * We compute the hash by applying hash_any to an array of 3 uint32's
! * containing the block, offset, and seed. This is efficient to set up,
! * and with the current implementation of hash_any, it gives
! * machine-independent results, which is a nice property for regression
! * testing.
*
! * These words in the hash input are the same throughout the block:
*/
! hashinput[0] = blockno;
! hashinput[2] = sampler->seed;
!
! /*
! * Loop over tuple offsets until finding suitable TID or reaching end of
! * block.
! */
! for (; tupoffset <= maxoffset; tupoffset++)
{
! uint32 hash;
! hashinput[1] = tupoffset;
!
! hash = DatumGetUInt32(hash_any((const unsigned char *) hashinput,
! (int) sizeof(hashinput)));
! if (hash < sampler->cutoff)
break;
}
if (tupoffset > maxoffset)
tupoffset = InvalidOffsetNumber;
sampler->lt = tupoffset;
! return tupoffset;
}
diff --git a/src/backend/access/tablesample/system.c b/src/backend/access/tablesample/system.c
index 1d83436..d93aff6 100644
*** a/src/backend/access/tablesample/system.c
--- b/src/backend/access/tablesample/system.c
***************
*** 1,186 ****
/*-------------------------------------------------------------------------
*
* system.c
! * interface routines for system tablesample method
*
*
! * Portions Copyright (c) 1996-2014, PostgreSQL Global Development Group
*
* IDENTIFICATION
! * src/backend/utils/tablesample/system.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
! #include "fmgr.h"
! #include "access/tablesample.h"
#include "access/relscan.h"
! #include "nodes/execnodes.h"
! #include "nodes/relation.h"
#include "optimizer/clauses.h"
! #include "storage/bufmgr.h"
! #include "utils/sampling.h"
! /*
! * State
! */
typedef struct
{
! BlockSamplerData bs;
uint32 seed; /* random seed */
! BlockNumber nblocks; /* number of block in relation */
! int samplesize; /* number of blocks to return */
OffsetNumber lt; /* last tuple returned from current block */
} SystemSamplerData;
! /*
! * Initializes the state.
! */
! Datum
! tsm_system_init(PG_FUNCTION_ARGS)
! {
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
! uint32 seed = PG_GETARG_UINT32(1);
! float4 percent = PG_ARGISNULL(2) ? -1 : PG_GETARG_FLOAT4(2);
! HeapScanDesc scan = tsdesc->heapScan;
! SystemSamplerData *sampler;
!
! if (percent < 0 || percent > 100)
! ereport(ERROR,
! (errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
! errmsg("invalid sample size"),
! errhint("Sample size must be numeric value between 0 and 100 (inclusive).")));
!
! sampler = palloc0(sizeof(SystemSamplerData));
!
! /* Remember initial values for reinit */
! sampler->seed = seed;
! sampler->nblocks = scan->rs_nblocks;
! sampler->samplesize = 1 + (int) (sampler->nblocks * (percent / 100.0));
! sampler->lt = InvalidOffsetNumber;
!
! BlockSampler_Init(&sampler->bs, sampler->nblocks, sampler->samplesize,
! sampler->seed);
!
! tsdesc->tsmdata = (void *) sampler;
- PG_RETURN_VOID();
- }
/*
! * Get next block number or InvalidBlockNumber when we're done.
! *
! * Uses the same logic as ANALYZE for picking the random blocks.
*/
Datum
! tsm_system_nextblock(PG_FUNCTION_ARGS)
{
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
! SystemSamplerData *sampler = (SystemSamplerData *) tsdesc->tsmdata;
! BlockNumber blockno;
!
! if (!BlockSampler_HasMore(&sampler->bs))
! PG_RETURN_UINT32(InvalidBlockNumber);
! blockno = BlockSampler_Next(&sampler->bs);
! PG_RETURN_UINT32(blockno);
}
/*
! * Get next tuple offset in current block or InvalidOffsetNumber if we are done
! * with this block.
*/
! Datum
! tsm_system_nexttuple(PG_FUNCTION_ARGS)
{
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
! OffsetNumber maxoffset = PG_GETARG_UINT16(2);
! SystemSamplerData *sampler = (SystemSamplerData *) tsdesc->tsmdata;
! OffsetNumber tupoffset = sampler->lt;
! if (tupoffset == InvalidOffsetNumber)
! tupoffset = FirstOffsetNumber;
! else
! tupoffset++;
! if (tupoffset > maxoffset)
! tupoffset = InvalidOffsetNumber;
! sampler->lt = tupoffset;
! PG_RETURN_UINT16(tupoffset);
}
/*
! * Cleanup method.
*/
! Datum
! tsm_system_end(PG_FUNCTION_ARGS)
{
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
!
! pfree(tsdesc->tsmdata);
!
! PG_RETURN_VOID();
}
/*
! * Reset state (called by ReScan).
*/
! Datum
! tsm_system_reset(PG_FUNCTION_ARGS)
{
! TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
! SystemSamplerData *sampler = (SystemSamplerData *) tsdesc->tsmdata;
! sampler->lt = InvalidOffsetNumber;
! BlockSampler_Init(&sampler->bs, sampler->nblocks, sampler->samplesize,
! sampler->seed);
! PG_RETURN_VOID();
}
/*
! * Costing function.
*/
! Datum
! tsm_system_cost(PG_FUNCTION_ARGS)
{
! PlannerInfo *root = (PlannerInfo *) PG_GETARG_POINTER(0);
! Path *path = (Path *) PG_GETARG_POINTER(1);
! RelOptInfo *baserel = (RelOptInfo *) PG_GETARG_POINTER(2);
! List *args = (List *) PG_GETARG_POINTER(3);
! BlockNumber *pages = (BlockNumber *) PG_GETARG_POINTER(4);
! double *tuples = (double *) PG_GETARG_POINTER(5);
! Node *pctnode;
! float4 samplesize;
!
! pctnode = linitial(args);
! pctnode = estimate_expression_value(root, pctnode);
! if (IsA(pctnode, RelabelType))
! pctnode = (Node *) ((RelabelType *) pctnode)->arg;
! if (IsA(pctnode, Const))
{
! samplesize = DatumGetFloat4(((Const *) pctnode)->constvalue);
! samplesize /= 100.0;
}
! else
{
! /* Default samplesize if the estimation didn't return Const. */
! samplesize = 0.1f;
}
! *pages = baserel->pages * samplesize;
! *tuples = path->rows * samplesize;
! path->rows = *tuples;
! PG_RETURN_VOID();
}
--- 1,249 ----
/*-------------------------------------------------------------------------
*
* system.c
! * support routines for SYSTEM tablesample method
*
+ * To ensure repeatability of samples, it is necessary that selection of a
+ * given tuple be history-independent; otherwise syncscanning would break
+ * repeatability, to say nothing of logically-irrelevant maintenance such
+ * as physical extension or shortening of the relation.
*
! * To achieve that, we proceed by hashing each candidate block number together
! * with the active seed, and then selecting it if the hash is less than the
! * cutoff value computed from the selection probability by BeginSampleScan.
! *
! *
! * Portions Copyright (c) 1996-2015, PostgreSQL Global Development Group
! * Portions Copyright (c) 1994, Regents of the University of California
*
* IDENTIFICATION
! * src/backend/access/tablesample/system.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
! #ifdef _MSC_VER
! #include <float.h> /* for _isnan */
! #endif
! #include <math.h>
! #include "access/hash.h"
#include "access/relscan.h"
! #include "access/tsmapi.h"
! #include "catalog/pg_type.h"
#include "optimizer/clauses.h"
! #include "optimizer/cost.h"
! #include "utils/builtins.h"
! /* Private state */
typedef struct
{
! uint64 cutoff; /* select blocks with hash less than this */
uint32 seed; /* random seed */
! BlockNumber nextblock; /* next block to consider sampling */
OffsetNumber lt; /* last tuple returned from current block */
} SystemSamplerData;
! static void system_samplescangetsamplesize(PlannerInfo *root,
! RelOptInfo *baserel,
! List *paramexprs,
! BlockNumber *pages,
! double *tuples);
! static void system_initsamplescan(SampleScanState *node,
! int eflags);
! static void system_beginsamplescan(SampleScanState *node,
! Datum *params,
! int nparams,
! uint32 seed);
! static BlockNumber system_nextsampleblock(SampleScanState *node);
! static OffsetNumber system_nextsampletuple(SampleScanState *node,
! BlockNumber blockno,
! OffsetNumber maxoffset);
/*
! * Create a TsmRoutine descriptor for the SYSTEM method.
*/
Datum
! tsm_system_handler(PG_FUNCTION_ARGS)
{
! TsmRoutine *tsm = makeNode(TsmRoutine);
! tsm->parameterTypes = list_make1_oid(FLOAT4OID);
! tsm->repeatable_across_queries = true;
! tsm->repeatable_across_scans = true;
! tsm->SampleScanGetSampleSize = system_samplescangetsamplesize;
! tsm->InitSampleScan = system_initsamplescan;
! tsm->BeginSampleScan = system_beginsamplescan;
! tsm->NextSampleBlock = system_nextsampleblock;
! tsm->NextSampleTuple = system_nextsampletuple;
! tsm->EndSampleScan = NULL;
! PG_RETURN_POINTER(tsm);
}
/*
! * Sample size estimation.
*/
! static void
! system_samplescangetsamplesize(PlannerInfo *root,
! RelOptInfo *baserel,
! List *paramexprs,
! BlockNumber *pages,
! double *tuples)
{
! Node *pctnode;
! float4 samplefract;
! /* Try to extract an estimate for the sample percentage */
! pctnode = (Node *) linitial(paramexprs);
! pctnode = estimate_expression_value(root, pctnode);
! if (IsA(pctnode, Const) &&
! !((Const *) pctnode)->constisnull)
! {
! samplefract = DatumGetFloat4(((Const *) pctnode)->constvalue);
! if (samplefract >= 0 && samplefract <= 100 && !isnan(samplefract))
! samplefract /= 100.0f;
! else
! {
! /* Default samplefract if the value is bogus */
! samplefract = 0.1f;
! }
! }
! else
! {
! /* Default samplefract if the estimation didn't return Const */
! samplefract = 0.1f;
! }
! /* We'll visit a sample of the pages ... */
! *pages = clamp_row_est(baserel->pages * samplefract);
! /* ... and hopefully get a representative number of tuples from them */
! *tuples = clamp_row_est(baserel->tuples * samplefract);
}
/*
! * Initialize during executor setup.
*/
! static void
! system_initsamplescan(SampleScanState *node, int eflags)
{
! node->tsm_state = palloc0(sizeof(SystemSamplerData));
}
/*
! * Examine parameters and prepare for a sample scan.
*/
! static void
! system_beginsamplescan(SampleScanState *node,
! Datum *params,
! int nparams,
! uint32 seed)
{
! SystemSamplerData *sampler = (SystemSamplerData *) node->tsm_state;
! double percent = DatumGetFloat4(params[0]);
! if (percent < 0 || percent > 100 || isnan(percent))
! ereport(ERROR,
! (errcode(ERRCODE_INVALID_TABLESAMPLE_ARGUMENT),
! errmsg("sample percentage must be between 0 and 100")));
! /*
! * The cutoff is sample probability times (PG_UINT32_MAX + 1); we have to
! * store that as a uint64, of course. Note that this gives strictly
! * correct behavior at the limits of zero or one probability.
! */
! sampler->cutoff = rint(((double) PG_UINT32_MAX + 1) * percent / 100);
! sampler->seed = seed;
! sampler->nextblock = 0;
! sampler->lt = InvalidOffsetNumber;
}
/*
! * Select next block to sample.
*/
! static BlockNumber
! system_nextsampleblock(SampleScanState *node)
{
! SystemSamplerData *sampler = (SystemSamplerData *) node->tsm_state;
! HeapScanDesc scan = node->ss.ss_currentScanDesc;
! BlockNumber nextblock = sampler->nextblock;
! uint32 hashinput[2];
! /*
! * We compute the hash by applying hash_any to an array of 2 uint32's
! * containing the block number and seed. This is efficient to set up, and
! * with the current implementation of hash_any, it gives
! * machine-independent results, which is a nice property for regression
! * testing.
! *
! * These words in the hash input are the same throughout the block:
! */
! hashinput[1] = sampler->seed;
! /*
! * Loop over block numbers until finding suitable block or reaching end of
! * relation.
! */
! for (; nextblock < scan->rs_nblocks; nextblock++)
{
! uint32 hash;
!
! hashinput[0] = nextblock;
!
! hash = DatumGetUInt32(hash_any((const unsigned char *) hashinput,
! (int) sizeof(hashinput)));
! if (hash < sampler->cutoff)
! break;
}
!
! if (nextblock < scan->rs_nblocks)
{
! /* Found a suitable block; remember where we should start next time */
! sampler->nextblock = nextblock + 1;
! return nextblock;
}
! /* Done, but let's reset nextblock to 0 for safety. */
! sampler->nextblock = 0;
! return InvalidBlockNumber;
! }
! /*
! * Select next sampled tuple in current block.
! *
! * In block sampling, we just want to sample all the tuples in each selected
! * block.
! *
! * It is OK here to return an offset without knowing if the tuple is visible
! * (or even exists); nodeSamplescan.c will deal with that.
! *
! * When we reach end of the block, return InvalidOffsetNumber which tells
! * SampleScan to go to next block.
! */
! static OffsetNumber
! system_nextsampletuple(SampleScanState *node,
! BlockNumber blockno,
! OffsetNumber maxoffset)
! {
! SystemSamplerData *sampler = (SystemSamplerData *) node->tsm_state;
! OffsetNumber tupoffset = sampler->lt;
!
! if (tupoffset == InvalidOffsetNumber)
! tupoffset = FirstOffsetNumber;
! else
! tupoffset++;
!
! if (tupoffset > maxoffset)
! tupoffset = InvalidOffsetNumber;
!
! sampler->lt = tupoffset;
!
! return tupoffset;
}
diff --git a/src/backend/access/tablesample/tablesample.c b/src/backend/access/tablesample/tablesample.c
index f21d42c..b8ad7ce 100644
*** a/src/backend/access/tablesample/tablesample.c
--- b/src/backend/access/tablesample/tablesample.c
***************
*** 1,7 ****
/*-------------------------------------------------------------------------
*
* tablesample.c
! * TABLESAMPLE internal API
*
* Portions Copyright (c) 1996-2015, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
--- 1,7 ----
/*-------------------------------------------------------------------------
*
* tablesample.c
! * Support functions for TABLESAMPLE feature
*
* Portions Copyright (c) 1996-2015, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
***************
*** 10,365 ****
* IDENTIFICATION
* src/backend/access/tablesample/tablesample.c
*
- * TABLESAMPLE is the SQL standard clause for sampling the relations.
- *
- * The API is interface between the Executor and the TABLESAMPLE Methods.
- *
- * TABLESAMPLE Methods are implementations of actual sampling algorithms which
- * can be used for returning a sample of the source relation.
- * Methods don't read the table directly but are asked for block number and
- * tuple offset which they want to examine (or return) and the tablesample
- * interface implemented here does the reading for them.
- *
- * We currently only support sampling of the physical relations, but in the
- * future we might extend the API to support subqueries as well.
- *
* -------------------------------------------------------------------------
*/
#include "postgres.h"
! #include "access/tablesample.h"
!
! #include "catalog/pg_tablesample_method.h"
! #include "miscadmin.h"
! #include "pgstat.h"
! #include "storage/bufmgr.h"
! #include "storage/predicate.h"
! #include "utils/rel.h"
! #include "utils/tqual.h"
!
!
! static bool SampleTupleVisible(HeapTuple tuple, OffsetNumber tupoffset, HeapScanDesc scan);
!
!
! /*
! * Initialize the TABLESAMPLE Descriptor and the TABLESAMPLE Method.
! */
! TableSampleDesc *
! tablesample_init(SampleScanState *scanstate, TableSampleClause *tablesample)
! {
! FunctionCallInfoData fcinfo;
! int i;
! List *args = tablesample->args;
! ListCell *arg;
! ExprContext *econtext = scanstate->ss.ps.ps_ExprContext;
! TableSampleDesc *tsdesc = (TableSampleDesc *) palloc0(sizeof(TableSampleDesc));
!
! /* Load functions */
! fmgr_info(tablesample->tsminit, &(tsdesc->tsminit));
! fmgr_info(tablesample->tsmnextblock, &(tsdesc->tsmnextblock));
! fmgr_info(tablesample->tsmnexttuple, &(tsdesc->tsmnexttuple));
! if (OidIsValid(tablesample->tsmexaminetuple))
! fmgr_info(tablesample->tsmexaminetuple, &(tsdesc->tsmexaminetuple));
! else
! tsdesc->tsmexaminetuple.fn_oid = InvalidOid;
! fmgr_info(tablesample->tsmreset, &(tsdesc->tsmreset));
! fmgr_info(tablesample->tsmend, &(tsdesc->tsmend));
!
! InitFunctionCallInfoData(fcinfo, &tsdesc->tsminit,
! list_length(args) + 2,
! InvalidOid, NULL, NULL);
!
! tsdesc->tupDesc = scanstate->ss.ss_ScanTupleSlot->tts_tupleDescriptor;
! tsdesc->heapScan = scanstate->ss.ss_currentScanDesc;
!
! /* First argument for init function is always TableSampleDesc */
! fcinfo.arg[0] = PointerGetDatum(tsdesc);
! fcinfo.argnull[0] = false;
!
! /*
! * Second arg for init function is always REPEATABLE.
! *
! * If tablesample->repeatable is NULL then REPEATABLE clause was not
! * specified, and we insert a random value as default.
! *
! * When specified, the expression cannot evaluate to NULL.
! */
! if (tablesample->repeatable)
! {
! ExprState *argstate = ExecInitExpr((Expr *) tablesample->repeatable,
! (PlanState *) scanstate);
!
! fcinfo.arg[1] = ExecEvalExpr(argstate, econtext,
! &fcinfo.argnull[1], NULL);
! if (fcinfo.argnull[1])
! ereport(ERROR,
! (errcode(ERRCODE_NULL_VALUE_NOT_ALLOWED),
! errmsg("REPEATABLE clause must be NOT NULL numeric value")));
! }
! else
! {
! fcinfo.arg[1] = UInt32GetDatum(random());
! fcinfo.argnull[1] = false;
! }
!
! /* Rest of the arguments come from user. */
! i = 2;
! foreach(arg, args)
! {
! Expr *argexpr = (Expr *) lfirst(arg);
! ExprState *argstate = ExecInitExpr(argexpr, (PlanState *) scanstate);
!
! fcinfo.arg[i] = ExecEvalExpr(argstate, econtext,
! &fcinfo.argnull[i], NULL);
! i++;
! }
! Assert(i == fcinfo.nargs);
!
! (void) FunctionCallInvoke(&fcinfo);
!
! return tsdesc;
! }
!
! /*
! * Get next tuple from TABLESAMPLE Method.
! */
! HeapTuple
! tablesample_getnext(TableSampleDesc *desc)
! {
! HeapScanDesc scan = desc->heapScan;
! HeapTuple tuple = &(scan->rs_ctup);
! bool pagemode = scan->rs_pageatatime;
! BlockNumber blockno;
! Page page;
! bool page_all_visible;
! ItemId itemid;
! OffsetNumber tupoffset,
! maxoffset;
!
! if (!scan->rs_inited)
! {
! /*
! * return null immediately if relation is empty
! */
! if (scan->rs_nblocks == 0)
! {
! Assert(!BufferIsValid(scan->rs_cbuf));
! tuple->t_data = NULL;
! return NULL;
! }
! blockno = DatumGetInt32(FunctionCall1(&desc->tsmnextblock,
! PointerGetDatum(desc)));
! if (!BlockNumberIsValid(blockno))
! {
! tuple->t_data = NULL;
! return NULL;
! }
!
! heapgetpage(scan, blockno);
! scan->rs_inited = true;
! }
! else
! {
! /* continue from previously returned page/tuple */
! blockno = scan->rs_cblock; /* current page */
! }
!
! /*
! * When pagemode is disabled, the scan will do visibility checks for each
! * tuple it finds so the buffer needs to be locked.
! */
! if (!pagemode)
! LockBuffer(scan->rs_cbuf, BUFFER_LOCK_SHARE);
!
! page = (Page) BufferGetPage(scan->rs_cbuf);
! page_all_visible = PageIsAllVisible(page);
! maxoffset = PageGetMaxOffsetNumber(page);
!
! for (;;)
! {
! CHECK_FOR_INTERRUPTS();
!
! tupoffset = DatumGetUInt16(FunctionCall3(&desc->tsmnexttuple,
! PointerGetDatum(desc),
! UInt32GetDatum(blockno),
! UInt16GetDatum(maxoffset)));
!
! if (OffsetNumberIsValid(tupoffset))
! {
! bool visible;
! bool found;
!
! /* Skip invalid tuple pointers. */
! itemid = PageGetItemId(page, tupoffset);
! if (!ItemIdIsNormal(itemid))
! continue;
!
! tuple->t_data = (HeapTupleHeader) PageGetItem((Page) page, itemid);
! tuple->t_len = ItemIdGetLength(itemid);
! ItemPointerSet(&(tuple->t_self), blockno, tupoffset);
!
! if (page_all_visible)
! visible = true;
! else
! visible = SampleTupleVisible(tuple, tupoffset, scan);
!
! /*
! * Let the sampling method examine the actual tuple and decide if
! * we should return it.
! *
! * Note that we let it examine even invisible tuples for
! * statistical purposes, but not return them since user should
! * never see invisible tuples.
! */
! if (OidIsValid(desc->tsmexaminetuple.fn_oid))
! {
! found = DatumGetBool(FunctionCall4(&desc->tsmexaminetuple,
! PointerGetDatum(desc),
! UInt32GetDatum(blockno),
! PointerGetDatum(tuple),
! BoolGetDatum(visible)));
! /* Should not happen if sampling method is well written. */
! if (found && !visible)
! elog(ERROR, "Sampling method wanted to return invisible tuple");
! }
! else
! found = visible;
!
! /* Found visible tuple, return it. */
! if (found)
! {
! if (!pagemode)
! LockBuffer(scan->rs_cbuf, BUFFER_LOCK_UNLOCK);
! break;
! }
! else
! {
! /* Try next tuple from same page. */
! continue;
! }
! }
!
!
! if (!pagemode)
! LockBuffer(scan->rs_cbuf, BUFFER_LOCK_UNLOCK);
!
! blockno = DatumGetInt32(FunctionCall1(&desc->tsmnextblock,
! PointerGetDatum(desc)));
!
! /*
! * Report our new scan position for synchronization purposes. We don't
! * do that when moving backwards, however. That would just mess up any
! * other forward-moving scanners.
! *
! * Note: we do this before checking for end of scan so that the final
! * state of the position hint is back at the start of the rel. That's
! * not strictly necessary, but otherwise when you run the same query
! * multiple times the starting position would shift a little bit
! * backwards on every invocation, which is confusing. We don't
! * guarantee any specific ordering in general, though.
! */
! if (scan->rs_syncscan)
! ss_report_location(scan->rs_rd, BlockNumberIsValid(blockno) ?
! blockno : scan->rs_startblock);
!
! /*
! * Reached end of scan.
! */
! if (!BlockNumberIsValid(blockno))
! {
! if (BufferIsValid(scan->rs_cbuf))
! ReleaseBuffer(scan->rs_cbuf);
! scan->rs_cbuf = InvalidBuffer;
! scan->rs_cblock = InvalidBlockNumber;
! tuple->t_data = NULL;
! scan->rs_inited = false;
! return NULL;
! }
!
! heapgetpage(scan, blockno);
!
! if (!pagemode)
! LockBuffer(scan->rs_cbuf, BUFFER_LOCK_SHARE);
!
! page = (Page) BufferGetPage(scan->rs_cbuf);
! page_all_visible = PageIsAllVisible(page);
! maxoffset = PageGetMaxOffsetNumber(page);
! }
!
! pgstat_count_heap_getnext(scan->rs_rd);
!
! return &(scan->rs_ctup);
! }
!
! /*
! * Reset the sampling to starting state
! */
! void
! tablesample_reset(TableSampleDesc *desc)
! {
! (void) FunctionCall1(&desc->tsmreset, PointerGetDatum(desc));
! }
- /*
- * Signal the sampling method that the scan has finished.
- */
- void
- tablesample_end(TableSampleDesc *desc)
- {
- (void) FunctionCall1(&desc->tsmend, PointerGetDatum(desc));
- }
/*
! * Check visibility of the tuple.
*/
! static bool
! SampleTupleVisible(HeapTuple tuple, OffsetNumber tupoffset, HeapScanDesc scan)
{
! /*
! * If this scan is reading whole pages at a time, there is already
! * visibility info present in rs_vistuples so we can just search it for
! * the tupoffset.
! */
! if (scan->rs_pageatatime)
! {
! int start = 0,
! end = scan->rs_ntuples - 1;
!
! /*
! * Do the binary search over rs_vistuples, it's already sorted by
! * OffsetNumber so we don't need to do any sorting ourselves here.
! *
! * We could use bsearch() here but it's slower for integers because of
! * the function call overhead and because it needs boiler plate code
! * it would not save us anything code-wise anyway.
! */
! while (start <= end)
! {
! int mid = start + (end - start) / 2;
! OffsetNumber curoffset = scan->rs_vistuples[mid];
!
! if (curoffset == tupoffset)
! return true;
! else if (curoffset > tupoffset)
! end = mid - 1;
! else
! start = mid + 1;
! }
!
! return false;
! }
! else
! {
! /* No pagemode, we have to check the tuple itself. */
! Snapshot snapshot = scan->rs_snapshot;
! Buffer buffer = scan->rs_cbuf;
! bool visible = HeapTupleSatisfiesVisibility(tuple, snapshot, buffer);
! CheckForSerializableConflictOut(visible, scan->rs_rd, tuple, buffer,
! snapshot);
! return visible;
! }
}
--- 10,40 ----
* IDENTIFICATION
* src/backend/access/tablesample/tablesample.c
*
* -------------------------------------------------------------------------
*/
#include "postgres.h"
! #include "access/tsmapi.h"
/*
! * GetTsmRoutine --- get a TsmRoutine struct by invoking the handler.
! *
! * This is a convenience routine that's just meant to check for errors.
*/
! TsmRoutine *
! GetTsmRoutine(Oid tsmhandler)
{
! Datum datum;
! TsmRoutine *routine;
! datum = OidFunctionCall1(tsmhandler, PointerGetDatum(NULL));
! routine = (TsmRoutine *) DatumGetPointer(datum);
! if (routine == NULL || !IsA(routine, TsmRoutine))
! elog(ERROR, "tablesample handler function %u did not return a TsmRoutine struct",
! tsmhandler);
! return routine;
}
diff --git a/src/backend/catalog/Makefile b/src/backend/catalog/Makefile
index 3d1139b..25130ec 100644
*** a/src/backend/catalog/Makefile
--- b/src/backend/catalog/Makefile
*************** POSTGRES_BKI_SRCS = $(addprefix $(top_sr
*** 40,47 ****
pg_ts_parser.h pg_ts_template.h pg_extension.h \
pg_foreign_data_wrapper.h pg_foreign_server.h pg_user_mapping.h \
pg_foreign_table.h pg_policy.h pg_replication_origin.h \
! pg_tablesample_method.h pg_default_acl.h pg_seclabel.h pg_shseclabel.h \
! pg_collation.h pg_range.h pg_transform.h toasting.h indexing.h \
)
# location of Catalog.pm
--- 40,48 ----
pg_ts_parser.h pg_ts_template.h pg_extension.h \
pg_foreign_data_wrapper.h pg_foreign_server.h pg_user_mapping.h \
pg_foreign_table.h pg_policy.h pg_replication_origin.h \
! pg_default_acl.h pg_seclabel.h pg_shseclabel.h \
! pg_collation.h pg_range.h pg_transform.h \
! toasting.h indexing.h \
)
# location of Catalog.pm
diff --git a/src/backend/catalog/dependency.c b/src/backend/catalog/dependency.c
index 5d7c441..90b1cd8 100644
*** a/src/backend/catalog/dependency.c
--- b/src/backend/catalog/dependency.c
*************** find_expr_references_walker(Node *node,
*** 1911,1916 ****
--- 1911,1924 ----
context->addrs);
}
}
+ else if (IsA(node, TableSampleClause))
+ {
+ TableSampleClause *tsc = (TableSampleClause *) node;
+
+ add_object_address(OCLASS_PROC, tsc->tsmhandler, 0,
+ context->addrs);
+ /* fall through to examine arguments */
+ }
return expression_tree_walker(node, find_expr_references_walker,
(void *) context);
diff --git a/src/backend/commands/explain.c b/src/backend/commands/explain.c
index 0d1ecc2..5d06fa4 100644
*** a/src/backend/commands/explain.c
--- b/src/backend/commands/explain.c
*************** static void show_sort_group_keys(PlanSta
*** 96,101 ****
--- 96,103 ----
List *ancestors, ExplainState *es);
static void show_sortorder_options(StringInfo buf, Node *sortexpr,
Oid sortOperator, Oid collation, bool nullsFirst);
+ static void show_tablesample(TableSampleClause *tsc, PlanState *planstate,
+ List *ancestors, ExplainState *es);
static void show_sort_info(SortState *sortstate, ExplainState *es);
static void show_hash_info(HashState *hashstate, ExplainState *es);
static void show_tidbitmap_info(BitmapHeapScanState *planstate,
*************** static void ExplainMemberNodes(List *pla
*** 116,122 ****
static void ExplainSubPlans(List *plans, List *ancestors,
const char *relationship, ExplainState *es);
static void ExplainCustomChildren(CustomScanState *css,
! List *ancestors, ExplainState *es);
static void ExplainProperty(const char *qlabel, const char *value,
bool numeric, ExplainState *es);
static void ExplainOpenGroup(const char *objtype, const char *labelname,
--- 118,124 ----
static void ExplainSubPlans(List *plans, List *ancestors,
const char *relationship, ExplainState *es);
static void ExplainCustomChildren(CustomScanState *css,
! List *ancestors, ExplainState *es);
static void ExplainProperty(const char *qlabel, const char *value,
bool numeric, ExplainState *es);
static void ExplainOpenGroup(const char *objtype, const char *labelname,
*************** ExplainPreScanNode(PlanState *planstate,
*** 730,735 ****
--- 732,738 ----
switch (nodeTag(plan))
{
case T_SeqScan:
+ case T_SampleScan:
case T_IndexScan:
case T_IndexOnlyScan:
case T_BitmapHeapScan:
*************** ExplainPreScanNode(PlanState *planstate,
*** 739,745 ****
case T_ValuesScan:
case T_CteScan:
case T_WorkTableScan:
- case T_SampleScan:
*rels_used = bms_add_member(*rels_used,
((Scan *) plan)->scanrelid);
break;
--- 742,747 ----
*************** ExplainNode(PlanState *planstate, List *
*** 935,940 ****
--- 937,945 ----
case T_SeqScan:
pname = sname = "Seq Scan";
break;
+ case T_SampleScan:
+ pname = sname = "Sample Scan";
+ break;
case T_IndexScan:
pname = sname = "Index Scan";
break;
*************** ExplainNode(PlanState *planstate, List *
*** 976,998 ****
else
pname = sname;
break;
- case T_SampleScan:
- {
- /*
- * Fetch the tablesample method name from RTE.
- *
- * It would be nice to also show parameters, but since we
- * support arbitrary expressions as parameter it might get
- * quite messy.
- */
- RangeTblEntry *rte;
-
- rte = rt_fetch(((SampleScan *) plan)->scanrelid, es->rtable);
- custom_name = get_tablesample_method_name(rte->tablesample->tsmid);
- pname = psprintf("Sample Scan (%s)", custom_name);
- sname = "Sample Scan";
- }
- break;
case T_Material:
pname = sname = "Materialize";
break;
--- 981,986 ----
*************** ExplainNode(PlanState *planstate, List *
*** 1101,1106 ****
--- 1089,1095 ----
switch (nodeTag(plan))
{
case T_SeqScan:
+ case T_SampleScan:
case T_BitmapHeapScan:
case T_TidScan:
case T_SubqueryScan:
*************** ExplainNode(PlanState *planstate, List *
*** 1115,1123 ****
if (((Scan *) plan)->scanrelid > 0)
ExplainScanTarget((Scan *) plan, es);
break;
- case T_SampleScan:
- ExplainScanTarget((Scan *) plan, es);
- break;
case T_IndexScan:
{
IndexScan *indexscan = (IndexScan *) plan;
--- 1104,1109 ----
*************** ExplainNode(PlanState *planstate, List *
*** 1363,1374 ****
if (es->analyze)
show_tidbitmap_info((BitmapHeapScanState *) planstate, es);
break;
case T_SeqScan:
case T_ValuesScan:
case T_CteScan:
case T_WorkTableScan:
case T_SubqueryScan:
- case T_SampleScan:
show_scan_qual(plan->qual, "Filter", planstate, ancestors, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 1,
--- 1349,1363 ----
if (es->analyze)
show_tidbitmap_info((BitmapHeapScanState *) planstate, es);
break;
+ case T_SampleScan:
+ show_tablesample(((SampleScan *) plan)->tablesample,
+ planstate, ancestors, es);
+ /* FALL THRU to print additional fields the same as SeqScan */
case T_SeqScan:
case T_ValuesScan:
case T_CteScan:
case T_WorkTableScan:
case T_SubqueryScan:
show_scan_qual(plan->qual, "Filter", planstate, ancestors, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 1,
*************** show_sortorder_options(StringInfo buf, N
*** 2110,2115 ****
--- 2099,2170 ----
}
/*
+ * Show TABLESAMPLE properties
+ */
+ static void
+ show_tablesample(TableSampleClause *tsc, PlanState *planstate,
+ List *ancestors, ExplainState *es)
+ {
+ List *context;
+ bool useprefix;
+ char *method_name;
+ List *params = NIL;
+ char *repeatable;
+ ListCell *lc;
+
+ /* Set up deparsing context */
+ context = set_deparse_context_planstate(es->deparse_cxt,
+ (Node *) planstate,
+ ancestors);
+ useprefix = list_length(es->rtable) > 1;
+
+ /* Get the tablesample method name */
+ method_name = get_func_name(tsc->tsmhandler);
+
+ /* Deparse parameter expressions */
+ foreach(lc, tsc->args)
+ {
+ Node *arg = (Node *) lfirst(lc);
+
+ params = lappend(params,
+ deparse_expression(arg, context,
+ useprefix, false));
+ }
+ if (tsc->repeatable)
+ repeatable = deparse_expression((Node *) tsc->repeatable, context,
+ useprefix, false);
+ else
+ repeatable = NULL;
+
+ /* Print results */
+ if (es->format == EXPLAIN_FORMAT_TEXT)
+ {
+ bool first = true;
+
+ appendStringInfoSpaces(es->str, es->indent * 2);
+ appendStringInfo(es->str, "Sampling: %s (", method_name);
+ foreach(lc, params)
+ {
+ if (!first)
+ appendStringInfoString(es->str, ", ");
+ appendStringInfoString(es->str, (const char *) lfirst(lc));
+ first = false;
+ }
+ appendStringInfoChar(es->str, ')');
+ if (repeatable)
+ appendStringInfo(es->str, " REPEATABLE (%s)", repeatable);
+ appendStringInfoChar(es->str, '\n');
+ }
+ else
+ {
+ ExplainPropertyText("Sampling Method", method_name, es);
+ ExplainPropertyList("Sampling Parameters", params, es);
+ if (repeatable)
+ ExplainPropertyText("Repeatable Seed", repeatable, es);
+ }
+ }
+
+ /*
* If it's EXPLAIN ANALYZE, show tuplesort stats for a sort node
*/
static void
*************** ExplainTargetRel(Plan *plan, Index rti,
*** 2366,2378 ****
switch (nodeTag(plan))
{
case T_SeqScan:
case T_IndexScan:
case T_IndexOnlyScan:
case T_BitmapHeapScan:
case T_TidScan:
case T_ForeignScan:
case T_CustomScan:
- case T_SampleScan:
case T_ModifyTable:
/* Assert it's on a real relation */
Assert(rte->rtekind == RTE_RELATION);
--- 2421,2433 ----
switch (nodeTag(plan))
{
case T_SeqScan:
+ case T_SampleScan:
case T_IndexScan:
case T_IndexOnlyScan:
case T_BitmapHeapScan:
case T_TidScan:
case T_ForeignScan:
case T_CustomScan:
case T_ModifyTable:
/* Assert it's on a real relation */
Assert(rte->rtekind == RTE_RELATION);
*************** ExplainCustomChildren(CustomScanState *c
*** 2663,2671 ****
{
ListCell *cell;
const char *label =
! (list_length(css->custom_ps) != 1 ? "children" : "child");
! foreach (cell, css->custom_ps)
ExplainNode((PlanState *) lfirst(cell), ancestors, label, NULL, es);
}
--- 2718,2726 ----
{
ListCell *cell;
const char *label =
! (list_length(css->custom_ps) != 1 ? "children" : "child");
! foreach(cell, css->custom_ps)
ExplainNode((PlanState *) lfirst(cell), ancestors, label, NULL, es);
}
diff --git a/src/backend/executor/execAmi.c b/src/backend/executor/execAmi.c
index 04073d3..93e1e9a 100644
*** a/src/backend/executor/execAmi.c
--- b/src/backend/executor/execAmi.c
*************** ExecSupportsBackwardScan(Plan *node)
*** 463,468 ****
--- 463,472 ----
case T_CteScan:
return TargetListSupportsBackwardScan(node->targetlist);
+ case T_SampleScan:
+ /* Simplify life for tablesample methods by disallowing this */
+ return false;
+
case T_IndexScan:
return IndexSupportsBackwardScan(((IndexScan *) node)->indexid) &&
TargetListSupportsBackwardScan(node->targetlist);
*************** ExecSupportsBackwardScan(Plan *node)
*** 485,493 ****
}
return false;
- case T_SampleScan:
- return false;
-
case T_Material:
case T_Sort:
/* these don't evaluate tlist */
--- 489,494 ----
diff --git a/src/backend/executor/nodeSamplescan.c b/src/backend/executor/nodeSamplescan.c
index 4c1c523..76f739e 100644
*** a/src/backend/executor/nodeSamplescan.c
--- b/src/backend/executor/nodeSamplescan.c
***************
*** 3,9 ****
* nodeSamplescan.c
* Support routines for sample scans of relations (table sampling).
*
! * Portions Copyright (c) 1996-2014, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
*
--- 3,9 ----
* nodeSamplescan.c
* Support routines for sample scans of relations (table sampling).
*
! * Portions Copyright (c) 1996-2015, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
*
***************
*** 14,35 ****
*/
#include "postgres.h"
! #include "access/tablesample.h"
#include "executor/executor.h"
#include "executor/nodeSamplescan.h"
#include "miscadmin.h"
- #include "parser/parsetree.h"
#include "pgstat.h"
#include "storage/bufmgr.h"
#include "storage/predicate.h"
#include "utils/rel.h"
- #include "utils/syscache.h"
#include "utils/tqual.h"
! static void InitScanRelation(SampleScanState *node, EState *estate,
! int eflags, TableSampleClause *tablesample);
static TupleTableSlot *SampleNext(SampleScanState *node);
!
/* ----------------------------------------------------------------
* Scan Support
--- 14,37 ----
*/
#include "postgres.h"
! #include "access/hash.h"
! #include "access/relscan.h"
! #include "access/tsmapi.h"
#include "executor/executor.h"
#include "executor/nodeSamplescan.h"
#include "miscadmin.h"
#include "pgstat.h"
#include "storage/bufmgr.h"
#include "storage/predicate.h"
#include "utils/rel.h"
#include "utils/tqual.h"
! static void InitScanRelation(SampleScanState *node, EState *estate, int eflags);
static TupleTableSlot *SampleNext(SampleScanState *node);
! static void tablesample_init(SampleScanState *scanstate);
! static HeapTuple tablesample_getnext(SampleScanState *scanstate);
! static bool SampleTupleVisible(HeapTuple tuple, OffsetNumber tupoffset,
! HeapScanDesc scan);
/* ----------------------------------------------------------------
* Scan Support
*************** static TupleTableSlot *SampleNext(Sample
*** 45,67 ****
static TupleTableSlot *
SampleNext(SampleScanState *node)
{
- TupleTableSlot *slot;
- TableSampleDesc *tsdesc;
HeapTuple tuple;
/*
! * get information from the scan state
*/
! slot = node->ss.ss_ScanTupleSlot;
! tsdesc = node->tsdesc;
! tuple = tablesample_getnext(tsdesc);
if (tuple)
ExecStoreTuple(tuple, /* tuple to store */
slot, /* slot to store in */
! tsdesc->heapScan->rs_cbuf, /* buffer associated
! * with this tuple */
false); /* don't pfree this pointer */
else
ExecClearTuple(slot);
--- 47,72 ----
static TupleTableSlot *
SampleNext(SampleScanState *node)
{
HeapTuple tuple;
+ TupleTableSlot *slot;
/*
! * if this is first call within a scan, initialize
*/
! if (!node->begun)
! tablesample_init(node);
! /*
! * get the next tuple, and store it in our result slot
! */
! tuple = tablesample_getnext(node);
!
! slot = node->ss.ss_ScanTupleSlot;
if (tuple)
ExecStoreTuple(tuple, /* tuple to store */
slot, /* slot to store in */
! node->ss.ss_currentScanDesc->rs_cbuf, /* tuple's buffer */
false); /* don't pfree this pointer */
else
ExecClearTuple(slot);
*************** SampleNext(SampleScanState *node)
*** 75,81 ****
static bool
SampleRecheck(SampleScanState *node, TupleTableSlot *slot)
{
! /* No need to recheck for SampleScan */
return true;
}
--- 80,89 ----
static bool
SampleRecheck(SampleScanState *node, TupleTableSlot *slot)
{
! /*
! * No need to recheck for SampleScan, since like SeqScan we don't pass any
! * checkable keys to heap_beginscan.
! */
return true;
}
*************** ExecSampleScan(SampleScanState *node)
*** 103,110 ****
* ----------------------------------------------------------------
*/
static void
! InitScanRelation(SampleScanState *node, EState *estate, int eflags,
! TableSampleClause *tablesample)
{
Relation currentRelation;
--- 111,117 ----
* ----------------------------------------------------------------
*/
static void
! InitScanRelation(SampleScanState *node, EState *estate, int eflags)
{
Relation currentRelation;
*************** InitScanRelation(SampleScanState *node,
*** 113,131 ****
* open that relation and acquire appropriate lock on it.
*/
currentRelation = ExecOpenScanRelation(estate,
! ((SampleScan *) node->ss.ps.plan)->scanrelid,
eflags);
node->ss.ss_currentRelation = currentRelation;
! /*
! * Even though we aren't going to do a conventional seqscan, it is useful
! * to create a HeapScanDesc --- many of the fields in it are usable.
! */
! node->ss.ss_currentScanDesc =
! heap_beginscan_sampling(currentRelation, estate->es_snapshot, 0, NULL,
! tablesample->tsmseqscan,
! tablesample->tsmpagemode);
/* and report the scan tuple slot's rowtype */
ExecAssignScanType(&node->ss, RelationGetDescr(currentRelation));
--- 120,132 ----
* open that relation and acquire appropriate lock on it.
*/
currentRelation = ExecOpenScanRelation(estate,
! ((SampleScan *) node->ss.ps.plan)->scan.scanrelid,
eflags);
node->ss.ss_currentRelation = currentRelation;
! /* we won't set up the HeapScanDesc till later */
! node->ss.ss_currentScanDesc = NULL;
/* and report the scan tuple slot's rowtype */
ExecAssignScanType(&node->ss, RelationGetDescr(currentRelation));
*************** SampleScanState *
*** 140,151 ****
ExecInitSampleScan(SampleScan *node, EState *estate, int eflags)
{
SampleScanState *scanstate;
! RangeTblEntry *rte = rt_fetch(node->scanrelid,
! estate->es_range_table);
Assert(outerPlan(node) == NULL);
Assert(innerPlan(node) == NULL);
- Assert(rte->tablesample != NULL);
/*
* create state structure
--- 141,151 ----
ExecInitSampleScan(SampleScan *node, EState *estate, int eflags)
{
SampleScanState *scanstate;
! TableSampleClause *tsc = node->tablesample;
! TsmRoutine *tsm;
Assert(outerPlan(node) == NULL);
Assert(innerPlan(node) == NULL);
/*
* create state structure
*************** ExecInitSampleScan(SampleScan *node, ESt
*** 165,174 ****
* initialize child expressions
*/
scanstate->ss.ps.targetlist = (List *)
! ExecInitExpr((Expr *) node->plan.targetlist,
(PlanState *) scanstate);
scanstate->ss.ps.qual = (List *)
! ExecInitExpr((Expr *) node->plan.qual,
(PlanState *) scanstate);
/*
--- 165,181 ----
* initialize child expressions
*/
scanstate->ss.ps.targetlist = (List *)
! ExecInitExpr((Expr *) node->scan.plan.targetlist,
(PlanState *) scanstate);
scanstate->ss.ps.qual = (List *)
! ExecInitExpr((Expr *) node->scan.plan.qual,
! (PlanState *) scanstate);
!
! scanstate->args = (List *)
! ExecInitExpr((Expr *) tsc->args,
! (PlanState *) scanstate);
! scanstate->repeatable =
! ExecInitExpr(tsc->repeatable,
(PlanState *) scanstate);
/*
*************** ExecInitSampleScan(SampleScan *node, ESt
*** 180,186 ****
/*
* initialize scan relation
*/
! InitScanRelation(scanstate, estate, eflags, rte->tablesample);
scanstate->ss.ps.ps_TupFromTlist = false;
--- 187,193 ----
/*
* initialize scan relation
*/
! InitScanRelation(scanstate, estate, eflags);
scanstate->ss.ps.ps_TupFromTlist = false;
*************** ExecInitSampleScan(SampleScan *node, ESt
*** 190,196 ****
ExecAssignResultTypeFromTL(&scanstate->ss.ps);
ExecAssignScanProjectionInfo(&scanstate->ss);
! scanstate->tsdesc = tablesample_init(scanstate, rte->tablesample);
return scanstate;
}
--- 197,221 ----
ExecAssignResultTypeFromTL(&scanstate->ss.ps);
ExecAssignScanProjectionInfo(&scanstate->ss);
! /*
! * If we don't have a REPEATABLE clause, select a random seed. We want to
! * do this just once, since the seed shouldn't change over rescans.
! */
! if (tsc->repeatable == NULL)
! scanstate->seed = random();
!
! /*
! * Finally, initialize the TABLESAMPLE method handler.
! */
! tsm = GetTsmRoutine(tsc->tsmhandler);
! scanstate->tsmroutine = tsm;
! scanstate->tsm_state = NULL;
!
! if (tsm->InitSampleScan)
! tsm->InitSampleScan(scanstate, eflags);
!
! /* We'll do BeginSampleScan later; we can't evaluate params yet */
! scanstate->begun = false;
return scanstate;
}
*************** ExecEndSampleScan(SampleScanState *node)
*** 207,213 ****
/*
* Tell sampling function that we finished the scan.
*/
! tablesample_end(node->tsdesc);
/*
* Free the exprcontext
--- 232,239 ----
/*
* Tell sampling function that we finished the scan.
*/
! if (node->tsmroutine->EndSampleScan)
! node->tsmroutine->EndSampleScan(node);
/*
* Free the exprcontext
*************** ExecEndSampleScan(SampleScanState *node)
*** 223,229 ****
/*
* close heap scan
*/
! heap_endscan(node->ss.ss_currentScanDesc);
/*
* close the heap relation.
--- 249,256 ----
/*
* close heap scan
*/
! if (node->ss.ss_currentScanDesc)
! heap_endscan(node->ss.ss_currentScanDesc);
/*
* close the heap relation.
*************** ExecEndSampleScan(SampleScanState *node)
*** 232,242 ****
}
/* ----------------------------------------------------------------
- * Join Support
- * ----------------------------------------------------------------
- */
-
- /* ----------------------------------------------------------------
* ExecReScanSampleScan
*
* Rescans the relation.
--- 259,264 ----
*************** ExecEndSampleScan(SampleScanState *node)
*** 246,257 ****
void
ExecReScanSampleScan(SampleScanState *node)
{
! heap_rescan(node->ss.ss_currentScanDesc, NULL);
/*
! * Tell sampling function to reset its state for rescan.
*/
! tablesample_reset(node->tsdesc);
! ExecScanReScan(&node->ss);
}
--- 268,602 ----
void
ExecReScanSampleScan(SampleScanState *node)
{
! /* Remember we need to do BeginSampleScan again (if we did it at all) */
! node->begun = false;
!
! ExecScanReScan(&node->ss);
! }
!
!
! /*
! * Initialize the TABLESAMPLE method: evaluate params and call BeginSampleScan.
! */
! static void
! tablesample_init(SampleScanState *scanstate)
! {
! TsmRoutine *tsm = scanstate->tsmroutine;
! ExprContext *econtext = scanstate->ss.ps.ps_ExprContext;
! Datum *params;
! Datum datum;
! bool isnull;
! uint32 seed;
! bool allow_sync;
! int i;
! ListCell *arg;
!
! params = (Datum *) palloc(list_length(scanstate->args) * sizeof(Datum));
!
! i = 0;
! foreach(arg, scanstate->args)
! {
! ExprState *argstate = (ExprState *) lfirst(arg);
!
! params[i] = ExecEvalExprSwitchContext(argstate,
! econtext,
! &isnull,
! NULL);
! if (isnull)
! ereport(ERROR,
! (errcode(ERRCODE_INVALID_TABLESAMPLE_ARGUMENT),
! errmsg("TABLESAMPLE parameter cannot be null")));
! i++;
! }
!
! if (scanstate->repeatable)
! {
! datum = ExecEvalExprSwitchContext(scanstate->repeatable,
! econtext,
! &isnull,
! NULL);
! if (isnull)
! ereport(ERROR,
! (errcode(ERRCODE_INVALID_TABLESAMPLE_REPEAT),
! errmsg("TABLESAMPLE REPEATABLE parameter cannot be null")));
!
! /*
! * The REPEATABLE parameter has been coerced to float8 by the parser.
! * The reason for using float8 at the SQL level is that it will
! * produce unsurprising results both for users used to databases that
! * accept only integers in the REPEATABLE clause and for those who
! * might expect that REPEATABLE works like setseed() (a float in the
! * range from -1 to 1).
! *
! * We use hashfloat8() to convert the supplied value into a suitable
! * seed. For regression-testing purposes, that has the convenient
! * property that REPEATABLE(0) gives a machine-independent result.
! */
! seed = DatumGetUInt32(DirectFunctionCall1(hashfloat8, datum));
! }
! else
! {
! /* Use the seed selected by ExecInitSampleScan */
! seed = scanstate->seed;
! }
!
! /* Set default values for params that BeginSampleScan can adjust */
! scanstate->use_bulkread = true;
! scanstate->use_pagemode = true;
!
! /* Let tablesample method do its thing */
! tsm->BeginSampleScan(scanstate,
! params,
! list_length(scanstate->args),
! seed);
!
! /* We'll use syncscan if there's no NextSampleBlock function */
! allow_sync = (tsm->NextSampleBlock == NULL);
!
! /* Now we can create or reset the HeapScanDesc */
! if (scanstate->ss.ss_currentScanDesc == NULL)
! {
! scanstate->ss.ss_currentScanDesc =
! heap_beginscan_sampling(scanstate->ss.ss_currentRelation,
! scanstate->ss.ps.state->es_snapshot,
! 0, NULL,
! scanstate->use_bulkread,
! allow_sync,
! scanstate->use_pagemode);
! }
! else
! {
! heap_rescan_set_params(scanstate->ss.ss_currentScanDesc, NULL,
! scanstate->use_bulkread,
! allow_sync,
! scanstate->use_pagemode);
! }
!
! pfree(params);
!
! /* And we're initialized. */
! scanstate->begun = true;
! }
!
! /*
! * Get next tuple from TABLESAMPLE method.
! *
! * Note: an awful lot of this is copied-and-pasted from heapam.c. It would
! * perhaps be better to refactor to share more code.
! */
! static HeapTuple
! tablesample_getnext(SampleScanState *scanstate)
! {
! TsmRoutine *tsm = scanstate->tsmroutine;
! HeapScanDesc scan = scanstate->ss.ss_currentScanDesc;
! HeapTuple tuple = &(scan->rs_ctup);
! Snapshot snapshot = scan->rs_snapshot;
! bool pagemode = scan->rs_pageatatime;
! BlockNumber blockno;
! Page page;
! bool all_visible;
! OffsetNumber maxoffset;
!
! if (!scan->rs_inited)
! {
! /*
! * return null immediately if relation is empty
! */
! if (scan->rs_nblocks == 0)
! {
! Assert(!BufferIsValid(scan->rs_cbuf));
! tuple->t_data = NULL;
! return NULL;
! }
! if (tsm->NextSampleBlock)
! {
! blockno = tsm->NextSampleBlock(scanstate);
! if (!BlockNumberIsValid(blockno))
! {
! tuple->t_data = NULL;
! return NULL;
! }
! }
! else
! blockno = scan->rs_startblock;
! Assert(blockno < scan->rs_nblocks);
! heapgetpage(scan, blockno);
! scan->rs_inited = true;
! }
! else
! {
! /* continue from previously returned page/tuple */
! blockno = scan->rs_cblock; /* current page */
! }
/*
! * When not using pagemode, we must lock the buffer during tuple
! * visibility checks.
*/
! if (!pagemode)
! LockBuffer(scan->rs_cbuf, BUFFER_LOCK_SHARE);
! page = (Page) BufferGetPage(scan->rs_cbuf);
! all_visible = PageIsAllVisible(page) && !snapshot->takenDuringRecovery;
! maxoffset = PageGetMaxOffsetNumber(page);
!
! for (;;)
! {
! OffsetNumber tupoffset;
! bool finished;
!
! CHECK_FOR_INTERRUPTS();
!
! /* Ask the tablesample method which tuples to check on this page. */
! tupoffset = tsm->NextSampleTuple(scanstate,
! blockno,
! maxoffset);
!
! if (OffsetNumberIsValid(tupoffset))
! {
! ItemId itemid;
! bool visible;
!
! /* Skip invalid tuple pointers. */
! itemid = PageGetItemId(page, tupoffset);
! if (!ItemIdIsNormal(itemid))
! continue;
!
! tuple->t_data = (HeapTupleHeader) PageGetItem(page, itemid);
! tuple->t_len = ItemIdGetLength(itemid);
! ItemPointerSet(&(tuple->t_self), blockno, tupoffset);
!
! if (all_visible)
! visible = true;
! else
! visible = SampleTupleVisible(tuple, tupoffset, scan);
!
! /* in pagemode, heapgetpage did this for us */
! if (!pagemode)
! CheckForSerializableConflictOut(visible, scan->rs_rd, tuple,
! scan->rs_cbuf, snapshot);
!
! if (visible)
! {
! /* Found visible tuple, return it. */
! if (!pagemode)
! LockBuffer(scan->rs_cbuf, BUFFER_LOCK_UNLOCK);
! break;
! }
! else
! {
! /* Try next tuple from same page. */
! continue;
! }
! }
!
! /*
! * if we get here, it means we've exhausted the items on this page and
! * it's time to move to the next.
! */
! if (!pagemode)
! LockBuffer(scan->rs_cbuf, BUFFER_LOCK_UNLOCK);
!
! if (tsm->NextSampleBlock)
! {
! blockno = tsm->NextSampleBlock(scanstate);
! Assert(!scan->rs_syncscan);
! finished = !BlockNumberIsValid(blockno);
! }
! else
! {
! /* Without NextSampleBlock, just do a plain forward seqscan. */
! blockno++;
! if (blockno >= scan->rs_nblocks)
! blockno = 0;
!
! /*
! * Report our new scan position for synchronization purposes.
! *
! * Note: we do this before checking for end of scan so that the
! * final state of the position hint is back at the start of the
! * rel. That's not strictly necessary, but otherwise when you run
! * the same query multiple times the starting position would shift
! * a little bit backwards on every invocation, which is confusing.
! * We don't guarantee any specific ordering in general, though.
! */
! if (scan->rs_syncscan)
! ss_report_location(scan->rs_rd, blockno);
!
! finished = (blockno == scan->rs_startblock);
! }
!
! /*
! * Reached end of scan?
! */
! if (finished)
! {
! if (BufferIsValid(scan->rs_cbuf))
! ReleaseBuffer(scan->rs_cbuf);
! scan->rs_cbuf = InvalidBuffer;
! scan->rs_cblock = InvalidBlockNumber;
! tuple->t_data = NULL;
! scan->rs_inited = false;
! return NULL;
! }
!
! heapgetpage(scan, blockno);
!
! /* Re-establish state for new page */
! if (!pagemode)
! LockBuffer(scan->rs_cbuf, BUFFER_LOCK_SHARE);
!
! page = (Page) BufferGetPage(scan->rs_cbuf);
! all_visible = PageIsAllVisible(page) && !snapshot->takenDuringRecovery;
! maxoffset = PageGetMaxOffsetNumber(page);
! }
!
! /* Count successfully-fetched tuples as heap fetches */
! pgstat_count_heap_getnext(scan->rs_rd);
!
! return &(scan->rs_ctup);
! }
!
! /*
! * Check visibility of the tuple.
! */
! static bool
! SampleTupleVisible(HeapTuple tuple, OffsetNumber tupoffset, HeapScanDesc scan)
! {
! if (scan->rs_pageatatime)
! {
! /*
! * In pageatatime mode, heapgetpage() already did visibility checks,
! * so just look at the info it left in rs_vistuples[].
! *
! * We use a binary search over the known-sorted array. Note: we could
! * save some effort if we insisted that NextSampleTuple select tuples
! * in increasing order, but it's not clear that there would be enough
! * gain to justify the restriction.
! */
! int start = 0,
! end = scan->rs_ntuples - 1;
!
! while (start <= end)
! {
! int mid = (start + end) / 2;
! OffsetNumber curoffset = scan->rs_vistuples[mid];
!
! if (tupoffset == curoffset)
! return true;
! else if (tupoffset < curoffset)
! end = mid - 1;
! else
! start = mid + 1;
! }
!
! return false;
! }
! else
! {
! /* Otherwise, we have to check the tuple individually. */
! return HeapTupleSatisfiesVisibility(tuple,
! scan->rs_snapshot,
! scan->rs_cbuf);
! }
}
diff --git a/src/backend/nodes/copyfuncs.c b/src/backend/nodes/copyfuncs.c
index 6a08c2d..7248440 100644
*** a/src/backend/nodes/copyfuncs.c
--- b/src/backend/nodes/copyfuncs.c
*************** _copySeqScan(const SeqScan *from)
*** 360,365 ****
--- 360,386 ----
}
/*
+ * _copySampleScan
+ */
+ static SampleScan *
+ _copySampleScan(const SampleScan *from)
+ {
+ SampleScan *newnode = makeNode(SampleScan);
+
+ /*
+ * copy node superclass fields
+ */
+ CopyScanFields((const Scan *) from, (Scan *) newnode);
+
+ /*
+ * copy remainder of node
+ */
+ COPY_NODE_FIELD(tablesample);
+
+ return newnode;
+ }
+
+ /*
* _copyIndexScan
*/
static IndexScan *
*************** _copyCustomScan(const CustomScan *from)
*** 642,663 ****
}
/*
- * _copySampleScan
- */
- static SampleScan *
- _copySampleScan(const SampleScan *from)
- {
- SampleScan *newnode = makeNode(SampleScan);
-
- /*
- * copy node superclass fields
- */
- CopyScanFields((const Scan *) from, (Scan *) newnode);
-
- return newnode;
- }
-
- /*
* CopyJoinFields
*
* This function copies the fields of the Join node. It is used by
--- 663,668 ----
*************** _copyRangeTblFunction(const RangeTblFunc
*** 2143,2148 ****
--- 2148,2165 ----
return newnode;
}
+ static TableSampleClause *
+ _copyTableSampleClause(const TableSampleClause *from)
+ {
+ TableSampleClause *newnode = makeNode(TableSampleClause);
+
+ COPY_SCALAR_FIELD(tsmhandler);
+ COPY_NODE_FIELD(args);
+ COPY_NODE_FIELD(repeatable);
+
+ return newnode;
+ }
+
static WithCheckOption *
_copyWithCheckOption(const WithCheckOption *from)
{
*************** _copyCommonTableExpr(const CommonTableEx
*** 2271,2310 ****
return newnode;
}
- static RangeTableSample *
- _copyRangeTableSample(const RangeTableSample *from)
- {
- RangeTableSample *newnode = makeNode(RangeTableSample);
-
- COPY_NODE_FIELD(relation);
- COPY_STRING_FIELD(method);
- COPY_NODE_FIELD(repeatable);
- COPY_NODE_FIELD(args);
-
- return newnode;
- }
-
- static TableSampleClause *
- _copyTableSampleClause(const TableSampleClause *from)
- {
- TableSampleClause *newnode = makeNode(TableSampleClause);
-
- COPY_SCALAR_FIELD(tsmid);
- COPY_SCALAR_FIELD(tsmseqscan);
- COPY_SCALAR_FIELD(tsmpagemode);
- COPY_SCALAR_FIELD(tsminit);
- COPY_SCALAR_FIELD(tsmnextblock);
- COPY_SCALAR_FIELD(tsmnexttuple);
- COPY_SCALAR_FIELD(tsmexaminetuple);
- COPY_SCALAR_FIELD(tsmend);
- COPY_SCALAR_FIELD(tsmreset);
- COPY_SCALAR_FIELD(tsmcost);
- COPY_NODE_FIELD(repeatable);
- COPY_NODE_FIELD(args);
-
- return newnode;
- }
-
static A_Expr *
_copyAExpr(const A_Expr *from)
{
--- 2288,2293 ----
*************** _copyRangeFunction(const RangeFunction *
*** 2532,2537 ****
--- 2515,2534 ----
return newnode;
}
+ static RangeTableSample *
+ _copyRangeTableSample(const RangeTableSample *from)
+ {
+ RangeTableSample *newnode = makeNode(RangeTableSample);
+
+ COPY_NODE_FIELD(relation);
+ COPY_NODE_FIELD(method);
+ COPY_NODE_FIELD(args);
+ COPY_NODE_FIELD(repeatable);
+ COPY_LOCATION_FIELD(location);
+
+ return newnode;
+ }
+
static TypeCast *
_copyTypeCast(const TypeCast *from)
{
*************** copyObject(const void *from)
*** 4237,4242 ****
--- 4234,4242 ----
case T_SeqScan:
retval = _copySeqScan(from);
break;
+ case T_SampleScan:
+ retval = _copySampleScan(from);
+ break;
case T_IndexScan:
retval = _copyIndexScan(from);
break;
*************** copyObject(const void *from)
*** 4273,4281 ****
case T_CustomScan:
retval = _copyCustomScan(from);
break;
- case T_SampleScan:
- retval = _copySampleScan(from);
- break;
case T_Join:
retval = _copyJoin(from);
break;
--- 4273,4278 ----
*************** copyObject(const void *from)
*** 4897,4902 ****
--- 4894,4902 ----
case T_RangeFunction:
retval = _copyRangeFunction(from);
break;
+ case T_RangeTableSample:
+ retval = _copyRangeTableSample(from);
+ break;
case T_TypeName:
retval = _copyTypeName(from);
break;
*************** copyObject(const void *from)
*** 4921,4926 ****
--- 4921,4929 ----
case T_RangeTblFunction:
retval = _copyRangeTblFunction(from);
break;
+ case T_TableSampleClause:
+ retval = _copyTableSampleClause(from);
+ break;
case T_WithCheckOption:
retval = _copyWithCheckOption(from);
break;
*************** copyObject(const void *from)
*** 4948,4959 ****
case T_CommonTableExpr:
retval = _copyCommonTableExpr(from);
break;
- case T_RangeTableSample:
- retval = _copyRangeTableSample(from);
- break;
- case T_TableSampleClause:
- retval = _copyTableSampleClause(from);
- break;
case T_FuncWithArgs:
retval = _copyFuncWithArgs(from);
break;
--- 4951,4956 ----
diff --git a/src/backend/nodes/equalfuncs.c b/src/backend/nodes/equalfuncs.c
index faf5eed..6597dbc 100644
*** a/src/backend/nodes/equalfuncs.c
--- b/src/backend/nodes/equalfuncs.c
*************** _equalRangeFunction(const RangeFunction
*** 2291,2296 ****
--- 2291,2308 ----
}
static bool
+ _equalRangeTableSample(const RangeTableSample *a, const RangeTableSample *b)
+ {
+ COMPARE_NODE_FIELD(relation);
+ COMPARE_NODE_FIELD(method);
+ COMPARE_NODE_FIELD(args);
+ COMPARE_NODE_FIELD(repeatable);
+ COMPARE_LOCATION_FIELD(location);
+
+ return true;
+ }
+
+ static bool
_equalIndexElem(const IndexElem *a, const IndexElem *b)
{
COMPARE_STRING_FIELD(name);
*************** _equalRangeTblFunction(const RangeTblFun
*** 2429,2434 ****
--- 2441,2456 ----
}
static bool
+ _equalTableSampleClause(const TableSampleClause *a, const TableSampleClause *b)
+ {
+ COMPARE_SCALAR_FIELD(tsmhandler);
+ COMPARE_NODE_FIELD(args);
+ COMPARE_NODE_FIELD(repeatable);
+
+ return true;
+ }
+
+ static bool
_equalWithCheckOption(const WithCheckOption *a, const WithCheckOption *b)
{
COMPARE_SCALAR_FIELD(kind);
*************** _equalCommonTableExpr(const CommonTableE
*** 2539,2574 ****
}
static bool
- _equalRangeTableSample(const RangeTableSample *a, const RangeTableSample *b)
- {
- COMPARE_NODE_FIELD(relation);
- COMPARE_STRING_FIELD(method);
- COMPARE_NODE_FIELD(repeatable);
- COMPARE_NODE_FIELD(args);
-
- return true;
- }
-
- static bool
- _equalTableSampleClause(const TableSampleClause *a, const TableSampleClause *b)
- {
- COMPARE_SCALAR_FIELD(tsmid);
- COMPARE_SCALAR_FIELD(tsmseqscan);
- COMPARE_SCALAR_FIELD(tsmpagemode);
- COMPARE_SCALAR_FIELD(tsminit);
- COMPARE_SCALAR_FIELD(tsmnextblock);
- COMPARE_SCALAR_FIELD(tsmnexttuple);
- COMPARE_SCALAR_FIELD(tsmexaminetuple);
- COMPARE_SCALAR_FIELD(tsmend);
- COMPARE_SCALAR_FIELD(tsmreset);
- COMPARE_SCALAR_FIELD(tsmcost);
- COMPARE_NODE_FIELD(repeatable);
- COMPARE_NODE_FIELD(args);
-
- return true;
- }
-
- static bool
_equalXmlSerialize(const XmlSerialize *a, const XmlSerialize *b)
{
COMPARE_SCALAR_FIELD(xmloption);
--- 2561,2566 ----
*************** equal(const void *a, const void *b)
*** 3260,3265 ****
--- 3252,3260 ----
case T_RangeFunction:
retval = _equalRangeFunction(a, b);
break;
+ case T_RangeTableSample:
+ retval = _equalRangeTableSample(a, b);
+ break;
case T_TypeName:
retval = _equalTypeName(a, b);
break;
*************** equal(const void *a, const void *b)
*** 3284,3289 ****
--- 3279,3287 ----
case T_RangeTblFunction:
retval = _equalRangeTblFunction(a, b);
break;
+ case T_TableSampleClause:
+ retval = _equalTableSampleClause(a, b);
+ break;
case T_WithCheckOption:
retval = _equalWithCheckOption(a, b);
break;
*************** equal(const void *a, const void *b)
*** 3311,3322 ****
case T_CommonTableExpr:
retval = _equalCommonTableExpr(a, b);
break;
- case T_RangeTableSample:
- retval = _equalRangeTableSample(a, b);
- break;
- case T_TableSampleClause:
- retval = _equalTableSampleClause(a, b);
- break;
case T_FuncWithArgs:
retval = _equalFuncWithArgs(a, b);
break;
--- 3309,3314 ----
diff --git a/src/backend/nodes/nodeFuncs.c b/src/backend/nodes/nodeFuncs.c
index b1e3e6e..c517dfd 100644
*** a/src/backend/nodes/nodeFuncs.c
--- b/src/backend/nodes/nodeFuncs.c
*************** exprLocation(const Node *expr)
*** 1486,1491 ****
--- 1486,1494 ----
case T_WindowDef:
loc = ((const WindowDef *) expr)->location;
break;
+ case T_RangeTableSample:
+ loc = ((const RangeTableSample *) expr)->location;
+ break;
case T_TypeName:
loc = ((const TypeName *) expr)->location;
break;
*************** expression_tree_walker(Node *node,
*** 1995,2000 ****
--- 1998,2014 ----
return walker(((PlaceHolderInfo *) node)->ph_var, context);
case T_RangeTblFunction:
return walker(((RangeTblFunction *) node)->funcexpr, context);
+ case T_TableSampleClause:
+ {
+ TableSampleClause *tsc = (TableSampleClause *) node;
+
+ if (expression_tree_walker((Node *) tsc->args,
+ walker, context))
+ return true;
+ if (walker((Node *) tsc->repeatable, context))
+ return true;
+ }
+ break;
default:
elog(ERROR, "unrecognized node type: %d",
(int) nodeTag(node));
*************** range_table_walker(List *rtable,
*** 2082,2094 ****
switch (rte->rtekind)
{
case RTE_RELATION:
! if (rte->tablesample)
! {
! if (walker(rte->tablesample->args, context))
! return true;
! if (walker(rte->tablesample->repeatable, context))
! return true;
! }
break;
case RTE_CTE:
/* nothing to do */
--- 2096,2103 ----
switch (rte->rtekind)
{
case RTE_RELATION:
! if (walker(rte->tablesample, context))
! return true;
break;
case RTE_CTE:
/* nothing to do */
*************** expression_tree_mutator(Node *node,
*** 2782,2787 ****
--- 2791,2807 ----
return (Node *) newnode;
}
break;
+ case T_TableSampleClause:
+ {
+ TableSampleClause *tsc = (TableSampleClause *) node;
+ TableSampleClause *newnode;
+
+ FLATCOPY(newnode, tsc, TableSampleClause);
+ MUTATE(newnode->args, tsc->args, List *);
+ MUTATE(newnode->repeatable, tsc->repeatable, Expr *);
+ return (Node *) newnode;
+ }
+ break;
default:
elog(ERROR, "unrecognized node type: %d",
(int) nodeTag(node));
*************** range_table_mutator(List *rtable,
*** 2868,2887 ****
switch (rte->rtekind)
{
case RTE_RELATION:
! if (rte->tablesample)
! {
! CHECKFLATCOPY(newrte->tablesample, rte->tablesample,
! TableSampleClause);
! MUTATE(newrte->tablesample->args,
! newrte->tablesample->args,
! List *);
! MUTATE(newrte->tablesample->repeatable,
! newrte->tablesample->repeatable,
! Node *);
! }
break;
case RTE_CTE:
! /* we don't bother to copy eref, aliases, etc; OK? */
break;
case RTE_SUBQUERY:
if (!(flags & QTW_IGNORE_RT_SUBQUERIES))
--- 2888,2899 ----
switch (rte->rtekind)
{
case RTE_RELATION:
! MUTATE(newrte->tablesample, rte->tablesample,
! TableSampleClause *);
! /* we don't bother to copy eref, aliases, etc; OK? */
break;
case RTE_CTE:
! /* nothing to do */
break;
case RTE_SUBQUERY:
if (!(flags & QTW_IGNORE_RT_SUBQUERIES))
*************** raw_expression_tree_walker(Node *node,
*** 3316,3321 ****
--- 3328,3346 ----
return true;
}
break;
+ case T_RangeTableSample:
+ {
+ RangeTableSample *rts = (RangeTableSample *) node;
+
+ if (walker(rts->relation, context))
+ return true;
+ /* method name is deemed uninteresting */
+ if (walker(rts->args, context))
+ return true;
+ if (walker(rts->repeatable, context))
+ return true;
+ }
+ break;
case T_TypeName:
{
TypeName *tn = (TypeName *) node;
*************** raw_expression_tree_walker(Node *node,
*** 3380,3397 ****
break;
case T_CommonTableExpr:
return walker(((CommonTableExpr *) node)->ctequery, context);
- case T_RangeTableSample:
- {
- RangeTableSample *rts = (RangeTableSample *) node;
-
- if (walker(rts->relation, context))
- return true;
- if (walker(rts->repeatable, context))
- return true;
- if (walker(rts->args, context))
- return true;
- }
- break;
default:
elog(ERROR, "unrecognized node type: %d",
(int) nodeTag(node));
--- 3405,3410 ----
diff --git a/src/backend/nodes/outfuncs.c b/src/backend/nodes/outfuncs.c
index 87304ba..81725d6 100644
*** a/src/backend/nodes/outfuncs.c
--- b/src/backend/nodes/outfuncs.c
*************** _outSeqScan(StringInfo str, const SeqSca
*** 445,450 ****
--- 445,460 ----
}
static void
+ _outSampleScan(StringInfo str, const SampleScan *node)
+ {
+ WRITE_NODE_TYPE("SAMPLESCAN");
+
+ _outScanInfo(str, (const Scan *) node);
+
+ WRITE_NODE_FIELD(tablesample);
+ }
+
+ static void
_outIndexScan(StringInfo str, const IndexScan *node)
{
WRITE_NODE_TYPE("INDEXSCAN");
*************** _outCustomScan(StringInfo str, const Cus
*** 592,605 ****
}
static void
- _outSampleScan(StringInfo str, const SampleScan *node)
- {
- WRITE_NODE_TYPE("SAMPLESCAN");
-
- _outScanInfo(str, (const Scan *) node);
- }
-
- static void
_outJoin(StringInfo str, const Join *node)
{
WRITE_NODE_TYPE("JOIN");
--- 602,607 ----
*************** _outCommonTableExpr(StringInfo str, cons
*** 2479,2514 ****
}
static void
- _outRangeTableSample(StringInfo str, const RangeTableSample *node)
- {
- WRITE_NODE_TYPE("RANGETABLESAMPLE");
-
- WRITE_NODE_FIELD(relation);
- WRITE_STRING_FIELD(method);
- WRITE_NODE_FIELD(repeatable);
- WRITE_NODE_FIELD(args);
- }
-
- static void
- _outTableSampleClause(StringInfo str, const TableSampleClause *node)
- {
- WRITE_NODE_TYPE("TABLESAMPLECLAUSE");
-
- WRITE_OID_FIELD(tsmid);
- WRITE_BOOL_FIELD(tsmseqscan);
- WRITE_BOOL_FIELD(tsmpagemode);
- WRITE_OID_FIELD(tsminit);
- WRITE_OID_FIELD(tsmnextblock);
- WRITE_OID_FIELD(tsmnexttuple);
- WRITE_OID_FIELD(tsmexaminetuple);
- WRITE_OID_FIELD(tsmend);
- WRITE_OID_FIELD(tsmreset);
- WRITE_OID_FIELD(tsmcost);
- WRITE_NODE_FIELD(repeatable);
- WRITE_NODE_FIELD(args);
- }
-
- static void
_outSetOperationStmt(StringInfo str, const SetOperationStmt *node)
{
WRITE_NODE_TYPE("SETOPERATIONSTMT");
--- 2481,2486 ----
*************** _outRangeTblFunction(StringInfo str, con
*** 2595,2600 ****
--- 2567,2582 ----
}
static void
+ _outTableSampleClause(StringInfo str, const TableSampleClause *node)
+ {
+ WRITE_NODE_TYPE("TABLESAMPLECLAUSE");
+
+ WRITE_OID_FIELD(tsmhandler);
+ WRITE_NODE_FIELD(args);
+ WRITE_NODE_FIELD(repeatable);
+ }
+
+ static void
_outAExpr(StringInfo str, const A_Expr *node)
{
WRITE_NODE_TYPE("AEXPR");
*************** _outRangeFunction(StringInfo str, const
*** 2846,2851 ****
--- 2828,2845 ----
}
static void
+ _outRangeTableSample(StringInfo str, const RangeTableSample *node)
+ {
+ WRITE_NODE_TYPE("RANGETABLESAMPLE");
+
+ WRITE_NODE_FIELD(relation);
+ WRITE_NODE_FIELD(method);
+ WRITE_NODE_FIELD(args);
+ WRITE_NODE_FIELD(repeatable);
+ WRITE_LOCATION_FIELD(location);
+ }
+
+ static void
_outConstraint(StringInfo str, const Constraint *node)
{
WRITE_NODE_TYPE("CONSTRAINT");
*************** _outNode(StringInfo str, const void *obj
*** 3002,3007 ****
--- 2996,3004 ----
case T_SeqScan:
_outSeqScan(str, obj);
break;
+ case T_SampleScan:
+ _outSampleScan(str, obj);
+ break;
case T_IndexScan:
_outIndexScan(str, obj);
break;
*************** _outNode(StringInfo str, const void *obj
*** 3038,3046 ****
case T_CustomScan:
_outCustomScan(str, obj);
break;
- case T_SampleScan:
- _outSampleScan(str, obj);
- break;
case T_Join:
_outJoin(str, obj);
break;
--- 3035,3040 ----
*************** _outNode(StringInfo str, const void *obj
*** 3393,3404 ****
case T_CommonTableExpr:
_outCommonTableExpr(str, obj);
break;
- case T_RangeTableSample:
- _outRangeTableSample(str, obj);
- break;
- case T_TableSampleClause:
- _outTableSampleClause(str, obj);
- break;
case T_SetOperationStmt:
_outSetOperationStmt(str, obj);
break;
--- 3387,3392 ----
*************** _outNode(StringInfo str, const void *obj
*** 3408,3413 ****
--- 3396,3404 ----
case T_RangeTblFunction:
_outRangeTblFunction(str, obj);
break;
+ case T_TableSampleClause:
+ _outTableSampleClause(str, obj);
+ break;
case T_A_Expr:
_outAExpr(str, obj);
break;
*************** _outNode(StringInfo str, const void *obj
*** 3450,3455 ****
--- 3441,3449 ----
case T_RangeFunction:
_outRangeFunction(str, obj);
break;
+ case T_RangeTableSample:
+ _outRangeTableSample(str, obj);
+ break;
case T_Constraint:
_outConstraint(str, obj);
break;
diff --git a/src/backend/nodes/readfuncs.c b/src/backend/nodes/readfuncs.c
index f5a40fb..71be840 100644
*** a/src/backend/nodes/readfuncs.c
--- b/src/backend/nodes/readfuncs.c
*************** _readCommonTableExpr(void)
*** 368,413 ****
}
/*
- * _readRangeTableSample
- */
- static RangeTableSample *
- _readRangeTableSample(void)
- {
- READ_LOCALS(RangeTableSample);
-
- READ_NODE_FIELD(relation);
- READ_STRING_FIELD(method);
- READ_NODE_FIELD(repeatable);
- READ_NODE_FIELD(args);
-
- READ_DONE();
- }
-
- /*
- * _readTableSampleClause
- */
- static TableSampleClause *
- _readTableSampleClause(void)
- {
- READ_LOCALS(TableSampleClause);
-
- READ_OID_FIELD(tsmid);
- READ_BOOL_FIELD(tsmseqscan);
- READ_BOOL_FIELD(tsmpagemode);
- READ_OID_FIELD(tsminit);
- READ_OID_FIELD(tsmnextblock);
- READ_OID_FIELD(tsmnexttuple);
- READ_OID_FIELD(tsmexaminetuple);
- READ_OID_FIELD(tsmend);
- READ_OID_FIELD(tsmreset);
- READ_OID_FIELD(tsmcost);
- READ_NODE_FIELD(repeatable);
- READ_NODE_FIELD(args);
-
- READ_DONE();
- }
-
- /*
* _readSetOperationStmt
*/
static SetOperationStmt *
--- 368,373 ----
*************** _readRangeTblFunction(void)
*** 1391,1396 ****
--- 1351,1371 ----
READ_DONE();
}
+ /*
+ * _readTableSampleClause
+ */
+ static TableSampleClause *
+ _readTableSampleClause(void)
+ {
+ READ_LOCALS(TableSampleClause);
+
+ READ_OID_FIELD(tsmhandler);
+ READ_NODE_FIELD(args);
+ READ_NODE_FIELD(repeatable);
+
+ READ_DONE();
+ }
+
/*
* parseNodeString
*************** parseNodeString(void)
*** 1426,1435 ****
return_value = _readRowMarkClause();
else if (MATCH("COMMONTABLEEXPR", 15))
return_value = _readCommonTableExpr();
- else if (MATCH("RANGETABLESAMPLE", 16))
- return_value = _readRangeTableSample();
- else if (MATCH("TABLESAMPLECLAUSE", 17))
- return_value = _readTableSampleClause();
else if (MATCH("SETOPERATIONSTMT", 16))
return_value = _readSetOperationStmt();
else if (MATCH("ALIAS", 5))
--- 1401,1406 ----
*************** parseNodeString(void)
*** 1528,1533 ****
--- 1499,1506 ----
return_value = _readRangeTblEntry();
else if (MATCH("RANGETBLFUNCTION", 16))
return_value = _readRangeTblFunction();
+ else if (MATCH("TABLESAMPLECLAUSE", 17))
+ return_value = _readTableSampleClause();
else if (MATCH("NOTIFY", 6))
return_value = _readNotifyStmt();
else if (MATCH("DECLARECURSOR", 13))
diff --git a/src/backend/optimizer/path/allpaths.c b/src/backend/optimizer/path/allpaths.c
index 0b83189..50b14d8 100644
*** a/src/backend/optimizer/path/allpaths.c
--- b/src/backend/optimizer/path/allpaths.c
***************
*** 18,23 ****
--- 18,24 ----
#include <math.h>
#include "access/sysattr.h"
+ #include "access/tsmapi.h"
#include "catalog/pg_class.h"
#include "catalog/pg_operator.h"
#include "foreign/fdwapi.h"
*************** set_rel_pathlist(PlannerInfo *root, RelO
*** 390,396 ****
}
else if (rte->tablesample != NULL)
{
! /* Build sample scan on relation */
set_tablesample_rel_pathlist(root, rel, rte);
}
else
--- 391,397 ----
}
else if (rte->tablesample != NULL)
{
! /* Sampled relation */
set_tablesample_rel_pathlist(root, rel, rte);
}
else
*************** set_plain_rel_pathlist(PlannerInfo *root
*** 480,490 ****
/*
* set_tablesample_rel_size
! * Set size estimates for a sampled relation.
*/
static void
set_tablesample_rel_size(PlannerInfo *root, RelOptInfo *rel, RangeTblEntry *rte)
{
/* Mark rel with estimated output rows, width, etc */
set_baserel_size_estimates(root, rel);
}
--- 481,520 ----
/*
* set_tablesample_rel_size
! * Set size estimates for a sampled relation
*/
static void
set_tablesample_rel_size(PlannerInfo *root, RelOptInfo *rel, RangeTblEntry *rte)
{
+ TableSampleClause *tsc = rte->tablesample;
+ TsmRoutine *tsm;
+ BlockNumber pages;
+ double tuples;
+
+ /*
+ * Test any partial indexes of rel for applicability. We must do this
+ * first since partial unique indexes can affect size estimates.
+ */
+ check_partial_indexes(root, rel);
+
+ /*
+ * Call the sampling method's estimation function to estimate the number
+ * of pages it will read and the number of tuples it will return. (Note:
+ * we assume the function returns sane values.)
+ */
+ tsm = GetTsmRoutine(tsc->tsmhandler);
+ tsm->SampleScanGetSampleSize(root, rel, tsc->args,
+ &pages, &tuples);
+
+ /*
+ * For the moment, because we will only consider a SampleScan path for the
+ * rel, it's okay to just overwrite the pages and tuples estimates for the
+ * whole relation. If we ever consider multiple path types for sampled
+ * rels, we'll need more complication.
+ */
+ rel->pages = pages;
+ rel->tuples = tuples;
+
/* Mark rel with estimated output rows, width, etc */
set_baserel_size_estimates(root, rel);
}
*************** set_tablesample_rel_size(PlannerInfo *ro
*** 492,499 ****
/*
* set_tablesample_rel_pathlist
* Build access paths for a sampled relation
- *
- * There is only one possible path - sampling scan
*/
static void
set_tablesample_rel_pathlist(PlannerInfo *root, RelOptInfo *rel, RangeTblEntry *rte)
--- 522,527 ----
*************** set_tablesample_rel_pathlist(PlannerInfo
*** 502,516 ****
Path *path;
/*
! * We don't support pushing join clauses into the quals of a seqscan, but
! * it could still have required parameterization due to LATERAL refs in
! * its tlist.
*/
required_outer = rel->lateral_relids;
! /* We only do sample scan if it was requested */
path = create_samplescan_path(root, rel, required_outer);
! rel->pathlist = list_make1(path);
}
/*
--- 530,570 ----
Path *path;
/*
! * We don't support pushing join clauses into the quals of a samplescan,
! * but it could still have required parameterization due to LATERAL refs
! * in its tlist.
*/
required_outer = rel->lateral_relids;
! /* Consider sampled scan */
path = create_samplescan_path(root, rel, required_outer);
!
! /*
! * If the sampling method does not support repeatable scans, we must avoid
! * plans that would scan the rel multiple times. Ideally, we'd simply
! * avoid putting the rel on the inside of a nestloop join; but adding such
! * a consideration to the planner seems like a great deal of complication
! * to support an uncommon usage of second-rate sampling methods. Instead,
! * if there is a risk that the query might perform an unsafe join, just
! * wrap the SampleScan in a Materialize node. We can check for joins by
! * counting the membership of all_baserels (note that this correctly
! * counts inheritance trees as single rels). If we're inside a subquery,
! * we can't easily check whether a join might occur in the outer query, so
! * just assume one is possible.
! *
! * GetTsmRoutine is relatively expensive compared to the other tests here,
! * so check repeatable_across_scans last, even though that's a bit odd.
! */
! if ((root->query_level > 1 ||
! bms_membership(root->all_baserels) != BMS_SINGLETON) &&
! !(GetTsmRoutine(rte->tablesample->tsmhandler)->repeatable_across_scans))
! {
! path = (Path *) create_material_path(rel, path);
! }
!
! add_path(rel, path);
!
! /* For the moment, at least, there are no other paths to consider */
}
/*
*************** print_path(PlannerInfo *root, Path *path
*** 2410,2416 ****
switch (nodeTag(path))
{
case T_Path:
! ptype = "SeqScan";
break;
case T_IndexPath:
ptype = "IdxScan";
--- 2464,2496 ----
switch (nodeTag(path))
{
case T_Path:
! switch (path->pathtype)
! {
! case T_SeqScan:
! ptype = "SeqScan";
! break;
! case T_SampleScan:
! ptype = "SampleScan";
! break;
! case T_SubqueryScan:
! ptype = "SubqueryScan";
! break;
! case T_FunctionScan:
! ptype = "FunctionScan";
! break;
! case T_ValuesScan:
! ptype = "ValuesScan";
! break;
! case T_CteScan:
! ptype = "CteScan";
! break;
! case T_WorkTableScan:
! ptype = "WorkTableScan";
! break;
! default:
! ptype = "???Path";
! break;
! }
break;
case T_IndexPath:
ptype = "IdxScan";
diff --git a/src/backend/optimizer/path/costsize.c b/src/backend/optimizer/path/costsize.c
index 0d302f6..0de9485 100644
*** a/src/backend/optimizer/path/costsize.c
--- b/src/backend/optimizer/path/costsize.c
***************
*** 74,79 ****
--- 74,80 ----
#include <math.h>
#include "access/htup_details.h"
+ #include "access/tsmapi.h"
#include "executor/executor.h"
#include "executor/nodeHash.h"
#include "miscadmin.h"
*************** cost_seqscan(Path *path, PlannerInfo *ro
*** 223,286 ****
* cost_samplescan
* Determines and returns the cost of scanning a relation using sampling.
*
- * From planner/optimizer perspective, we don't care all that much about cost
- * itself since there is always only one scan path to consider when sampling
- * scan is present, but number of rows estimation is still important.
- *
* 'baserel' is the relation to be scanned
* 'param_info' is the ParamPathInfo if this is a parameterized path, else NULL
*/
void
! cost_samplescan(Path *path, PlannerInfo *root, RelOptInfo *baserel)
{
Cost startup_cost = 0;
Cost run_cost = 0;
double spc_seq_page_cost,
spc_random_page_cost,
spc_page_cost;
QualCost qpqual_cost;
Cost cpu_per_tuple;
- BlockNumber pages;
- double tuples;
- RangeTblEntry *rte = planner_rt_fetch(baserel->relid, root);
- TableSampleClause *tablesample = rte->tablesample;
! /* Should only be applied to base relations */
Assert(baserel->relid > 0);
! Assert(baserel->rtekind == RTE_RELATION);
/* Mark the path with the correct row estimate */
! if (path->param_info)
! path->rows = path->param_info->ppi_rows;
else
path->rows = baserel->rows;
- /* Call the sampling method's costing function. */
- OidFunctionCall6(tablesample->tsmcost, PointerGetDatum(root),
- PointerGetDatum(path), PointerGetDatum(baserel),
- PointerGetDatum(tablesample->args),
- PointerGetDatum(&pages), PointerGetDatum(&tuples));
-
/* fetch estimated page cost for tablespace containing table */
get_tablespace_page_costs(baserel->reltablespace,
&spc_random_page_cost,
&spc_seq_page_cost);
!
! spc_page_cost = tablesample->tsmseqscan ? spc_seq_page_cost :
! spc_random_page_cost;
/*
! * disk costs
*/
! run_cost += spc_page_cost * pages;
! /* CPU costs */
! get_restriction_qual_cost(root, baserel, path->param_info, &qpqual_cost);
startup_cost += qpqual_cost.startup;
cpu_per_tuple = cpu_tuple_cost + qpqual_cost.per_tuple;
! run_cost += cpu_per_tuple * tuples;
path->startup_cost = startup_cost;
path->total_cost = startup_cost + run_cost;
--- 224,288 ----
* cost_samplescan
* Determines and returns the cost of scanning a relation using sampling.
*
* 'baserel' is the relation to be scanned
* 'param_info' is the ParamPathInfo if this is a parameterized path, else NULL
*/
void
! cost_samplescan(Path *path, PlannerInfo *root,
! RelOptInfo *baserel, ParamPathInfo *param_info)
{
Cost startup_cost = 0;
Cost run_cost = 0;
+ RangeTblEntry *rte;
+ TableSampleClause *tsc;
+ TsmRoutine *tsm;
double spc_seq_page_cost,
spc_random_page_cost,
spc_page_cost;
QualCost qpqual_cost;
Cost cpu_per_tuple;
! /* Should only be applied to base relations with tablesample clauses */
Assert(baserel->relid > 0);
! rte = planner_rt_fetch(baserel->relid, root);
! Assert(rte->rtekind == RTE_RELATION);
! tsc = rte->tablesample;
! Assert(tsc != NULL);
! tsm = GetTsmRoutine(tsc->tsmhandler);
/* Mark the path with the correct row estimate */
! if (param_info)
! path->rows = param_info->ppi_rows;
else
path->rows = baserel->rows;
/* fetch estimated page cost for tablespace containing table */
get_tablespace_page_costs(baserel->reltablespace,
&spc_random_page_cost,
&spc_seq_page_cost);
! /* if NextSampleBlock is used, assume random access, else sequential */
! spc_page_cost = (tsm->NextSampleBlock != NULL) ?
! spc_random_page_cost : spc_seq_page_cost;
/*
! * disk costs (recall that baserel->pages has already been set to the
! * number of pages the sampling method will visit)
*/
! run_cost += spc_page_cost * baserel->pages;
! /*
! * CPU costs (recall that baserel->tuples has already been set to the
! * number of tuples the sampling method will select). Note that we ignore
! * execution cost of the TABLESAMPLE parameter expressions; they will be
! * evaluated only once per scan, and in most usages they'll likely be
! * simple constants anyway.
! */
! get_restriction_qual_cost(root, baserel, param_info, &qpqual_cost);
startup_cost += qpqual_cost.startup;
cpu_per_tuple = cpu_tuple_cost + qpqual_cost.per_tuple;
! run_cost += cpu_per_tuple * baserel->tuples;
path->startup_cost = startup_cost;
path->total_cost = startup_cost + run_cost;
diff --git a/src/backend/optimizer/plan/createplan.c b/src/backend/optimizer/plan/createplan.c
index 8d15c8e..f461586 100644
*** a/src/backend/optimizer/plan/createplan.c
--- b/src/backend/optimizer/plan/createplan.c
*************** static List *order_qual_clauses(PlannerI
*** 102,108 ****
static void copy_path_costsize(Plan *dest, Path *src);
static void copy_plan_costsize(Plan *dest, Plan *src);
static SeqScan *make_seqscan(List *qptlist, List *qpqual, Index scanrelid);
! static SampleScan *make_samplescan(List *qptlist, List *qpqual, Index scanrelid);
static IndexScan *make_indexscan(List *qptlist, List *qpqual, Index scanrelid,
Oid indexid, List *indexqual, List *indexqualorig,
List *indexorderby, List *indexorderbyorig,
--- 102,109 ----
static void copy_path_costsize(Plan *dest, Path *src);
static void copy_plan_costsize(Plan *dest, Plan *src);
static SeqScan *make_seqscan(List *qptlist, List *qpqual, Index scanrelid);
! static SampleScan *make_samplescan(List *qptlist, List *qpqual, Index scanrelid,
! TableSampleClause *tsc);
static IndexScan *make_indexscan(List *qptlist, List *qpqual, Index scanrelid,
Oid indexid, List *indexqual, List *indexqualorig,
List *indexorderby, List *indexorderbyorig,
*************** create_seqscan_plan(PlannerInfo *root, P
*** 1148,1154 ****
/*
* create_samplescan_plan
! * Returns a samplecan plan for the base relation scanned by 'best_path'
* with restriction clauses 'scan_clauses' and targetlist 'tlist'.
*/
static SampleScan *
--- 1149,1155 ----
/*
* create_samplescan_plan
! * Returns a samplescan plan for the base relation scanned by 'best_path'
* with restriction clauses 'scan_clauses' and targetlist 'tlist'.
*/
static SampleScan *
*************** create_samplescan_plan(PlannerInfo *root
*** 1157,1167 ****
{
SampleScan *scan_plan;
Index scan_relid = best_path->parent->relid;
! /* it should be a base rel with tablesample clause... */
Assert(scan_relid > 0);
! Assert(best_path->parent->rtekind == RTE_RELATION);
! Assert(best_path->pathtype == T_SampleScan);
/* Sort clauses into best execution order */
scan_clauses = order_qual_clauses(root, scan_clauses);
--- 1158,1172 ----
{
SampleScan *scan_plan;
Index scan_relid = best_path->parent->relid;
+ RangeTblEntry *rte;
+ TableSampleClause *tsc;
! /* it should be a base rel with a tablesample clause... */
Assert(scan_relid > 0);
! rte = planner_rt_fetch(scan_relid, root);
! Assert(rte->rtekind == RTE_RELATION);
! tsc = rte->tablesample;
! Assert(tsc != NULL);
/* Sort clauses into best execution order */
scan_clauses = order_qual_clauses(root, scan_clauses);
*************** create_samplescan_plan(PlannerInfo *root
*** 1174,1186 ****
{
scan_clauses = (List *)
replace_nestloop_params(root, (Node *) scan_clauses);
}
scan_plan = make_samplescan(tlist,
scan_clauses,
! scan_relid);
! copy_path_costsize(&scan_plan->plan, best_path);
return scan_plan;
}
--- 1179,1194 ----
{
scan_clauses = (List *)
replace_nestloop_params(root, (Node *) scan_clauses);
+ tsc = (TableSampleClause *)
+ replace_nestloop_params(root, (Node *) tsc);
}
scan_plan = make_samplescan(tlist,
scan_clauses,
! scan_relid,
! tsc);
! copy_path_costsize(&scan_plan->scan.plan, best_path);
return scan_plan;
}
*************** create_customscan_plan(PlannerInfo *root
*** 2161,2169 ****
ListCell *lc;
/* Recursively transform child paths. */
! foreach (lc, best_path->custom_paths)
{
! Plan *plan = create_plan_recurse(root, (Path *) lfirst(lc));
custom_plans = lappend(custom_plans, plan);
}
--- 2169,2177 ----
ListCell *lc;
/* Recursively transform child paths. */
! foreach(lc, best_path->custom_paths)
{
! Plan *plan = create_plan_recurse(root, (Path *) lfirst(lc));
custom_plans = lappend(custom_plans, plan);
}
*************** make_seqscan(List *qptlist,
*** 3437,3453 ****
static SampleScan *
make_samplescan(List *qptlist,
List *qpqual,
! Index scanrelid)
{
SampleScan *node = makeNode(SampleScan);
! Plan *plan = &node->plan;
/* cost should be inserted by caller */
plan->targetlist = qptlist;
plan->qual = qpqual;
plan->lefttree = NULL;
plan->righttree = NULL;
! node->scanrelid = scanrelid;
return node;
}
--- 3445,3463 ----
static SampleScan *
make_samplescan(List *qptlist,
List *qpqual,
! Index scanrelid,
! TableSampleClause *tsc)
{
SampleScan *node = makeNode(SampleScan);
! Plan *plan = &node->scan.plan;
/* cost should be inserted by caller */
plan->targetlist = qptlist;
plan->qual = qpqual;
plan->lefttree = NULL;
plan->righttree = NULL;
! node->scan.scanrelid = scanrelid;
! node->tablesample = tsc;
return node;
}
diff --git a/src/backend/optimizer/plan/initsplan.c b/src/backend/optimizer/plan/initsplan.c
index 00b2625..701b992 100644
*** a/src/backend/optimizer/plan/initsplan.c
--- b/src/backend/optimizer/plan/initsplan.c
*************** extract_lateral_references(PlannerInfo *
*** 306,312 ****
return;
/* Fetch the appropriate variables */
! if (rte->rtekind == RTE_SUBQUERY)
vars = pull_vars_of_level((Node *) rte->subquery, 1);
else if (rte->rtekind == RTE_FUNCTION)
vars = pull_vars_of_level((Node *) rte->functions, 0);
--- 306,314 ----
return;
/* Fetch the appropriate variables */
! if (rte->rtekind == RTE_RELATION)
! vars = pull_vars_of_level((Node *) rte->tablesample, 0);
! else if (rte->rtekind == RTE_SUBQUERY)
vars = pull_vars_of_level((Node *) rte->subquery, 1);
else if (rte->rtekind == RTE_FUNCTION)
vars = pull_vars_of_level((Node *) rte->functions, 0);
diff --git a/src/backend/optimizer/plan/planner.c b/src/backend/optimizer/plan/planner.c
index a6ce96e..b95cc95 100644
*** a/src/backend/optimizer/plan/planner.c
--- b/src/backend/optimizer/plan/planner.c
*************** subquery_planner(PlannerGlobal *glob, Qu
*** 505,518 ****
if (rte->rtekind == RTE_RELATION)
{
if (rte->tablesample)
! {
! rte->tablesample->args = (List *)
! preprocess_expression(root, (Node *) rte->tablesample->args,
! EXPRKIND_TABLESAMPLE);
! rte->tablesample->repeatable = (Node *)
! preprocess_expression(root, rte->tablesample->repeatable,
EXPRKIND_TABLESAMPLE);
- }
}
else if (rte->rtekind == RTE_SUBQUERY)
{
--- 505,514 ----
if (rte->rtekind == RTE_RELATION)
{
if (rte->tablesample)
! rte->tablesample = (TableSampleClause *)
! preprocess_expression(root,
! (Node *) rte->tablesample,
EXPRKIND_TABLESAMPLE);
}
else if (rte->rtekind == RTE_SUBQUERY)
{
*************** preprocess_expression(PlannerInfo *root,
*** 697,707 ****
* If the query has any join RTEs, replace join alias variables with
* base-relation variables. We must do this before sublink processing,
* else sublinks expanded out from join aliases would not get processed.
! * We can skip it in non-lateral RTE functions and VALUES lists, however,
! * since they can't contain any Vars of the current query level.
*/
if (root->hasJoinRTEs &&
! !(kind == EXPRKIND_RTFUNC || kind == EXPRKIND_VALUES))
expr = flatten_join_alias_vars(root, expr);
/*
--- 693,706 ----
* If the query has any join RTEs, replace join alias variables with
* base-relation variables. We must do this before sublink processing,
* else sublinks expanded out from join aliases would not get processed.
! * We can skip it in non-lateral RTE functions, VALUES lists, and
! * TABLESAMPLE clauses, however, since they can't contain any Vars of the
! * current query level.
*/
if (root->hasJoinRTEs &&
! !(kind == EXPRKIND_RTFUNC ||
! kind == EXPRKIND_VALUES ||
! kind == EXPRKIND_TABLESAMPLE))
expr = flatten_join_alias_vars(root, expr);
/*
diff --git a/src/backend/optimizer/plan/setrefs.c b/src/backend/optimizer/plan/setrefs.c
index 258e541..ea185d4 100644
*** a/src/backend/optimizer/plan/setrefs.c
--- b/src/backend/optimizer/plan/setrefs.c
*************** flatten_rtes_walker(Node *node, PlannerG
*** 372,380 ****
*
* In the flat rangetable, we zero out substructure pointers that are not
* needed by the executor; this reduces the storage space and copying cost
! * for cached plans. We keep only the tablesample field (which we'd otherwise
! * have to put in the plan tree, anyway); the ctename, alias and eref Alias
! * fields, which are needed by EXPLAIN; and the selectedCols, insertedCols and
* updatedCols bitmaps, which are needed for executor-startup permissions
* checking and for trigger event checking.
*/
--- 372,379 ----
*
* In the flat rangetable, we zero out substructure pointers that are not
* needed by the executor; this reduces the storage space and copying cost
! * for cached plans. We keep only the ctename, alias and eref Alias fields,
! * which are needed by EXPLAIN, and the selectedCols, insertedCols and
* updatedCols bitmaps, which are needed for executor-startup permissions
* checking and for trigger event checking.
*/
*************** add_rte_to_flat_rtable(PlannerGlobal *gl
*** 388,393 ****
--- 387,393 ----
memcpy(newrte, rte, sizeof(RangeTblEntry));
/* zap unneeded sub-structure */
+ newrte->tablesample = NULL;
newrte->subquery = NULL;
newrte->joinaliasvars = NIL;
newrte->functions = NIL;
*************** set_plan_refs(PlannerInfo *root, Plan *p
*** 456,466 ****
{
SampleScan *splan = (SampleScan *) plan;
! splan->scanrelid += rtoffset;
! splan->plan.targetlist =
! fix_scan_list(root, splan->plan.targetlist, rtoffset);
! splan->plan.qual =
! fix_scan_list(root, splan->plan.qual, rtoffset);
}
break;
case T_IndexScan:
--- 456,468 ----
{
SampleScan *splan = (SampleScan *) plan;
! splan->scan.scanrelid += rtoffset;
! splan->scan.plan.targetlist =
! fix_scan_list(root, splan->scan.plan.targetlist, rtoffset);
! splan->scan.plan.qual =
! fix_scan_list(root, splan->scan.plan.qual, rtoffset);
! splan->tablesample = (TableSampleClause *)
! fix_scan_expr(root, (Node *) splan->tablesample, rtoffset);
}
break;
case T_IndexScan:
diff --git a/src/backend/optimizer/plan/subselect.c b/src/backend/optimizer/plan/subselect.c
index 4708b87..f3038cd 100644
*** a/src/backend/optimizer/plan/subselect.c
--- b/src/backend/optimizer/plan/subselect.c
*************** finalize_plan(PlannerInfo *root, Plan *p
*** 2216,2222 ****
--- 2216,2227 ----
break;
case T_SeqScan:
+ context.paramids = bms_add_members(context.paramids, scan_params);
+ break;
+
case T_SampleScan:
+ finalize_primnode((Node *) ((SampleScan *) plan)->tablesample,
+ &context);
context.paramids = bms_add_members(context.paramids, scan_params);
break;
*************** finalize_plan(PlannerInfo *root, Plan *p
*** 2384,2390 ****
bms_add_members(context.paramids, scan_params);
/* child nodes if any */
! foreach (lc, cscan->custom_plans)
{
context.paramids =
bms_add_members(context.paramids,
--- 2389,2395 ----
bms_add_members(context.paramids, scan_params);
/* child nodes if any */
! foreach(lc, cscan->custom_plans)
{
context.paramids =
bms_add_members(context.paramids,
diff --git a/src/backend/optimizer/prep/prepjointree.c b/src/backend/optimizer/prep/prepjointree.c
index 92b0562..34144cc 100644
*** a/src/backend/optimizer/prep/prepjointree.c
--- b/src/backend/optimizer/prep/prepjointree.c
*************** pull_up_simple_subquery(PlannerInfo *roo
*** 1091,1102 ****
switch (child_rte->rtekind)
{
case RTE_SUBQUERY:
case RTE_FUNCTION:
case RTE_VALUES:
child_rte->lateral = true;
break;
- case RTE_RELATION:
case RTE_JOIN:
case RTE_CTE:
/* these can't contain any lateral references */
--- 1091,1105 ----
switch (child_rte->rtekind)
{
+ case RTE_RELATION:
+ if (child_rte->tablesample)
+ child_rte->lateral = true;
+ break;
case RTE_SUBQUERY:
case RTE_FUNCTION:
case RTE_VALUES:
child_rte->lateral = true;
break;
case RTE_JOIN:
case RTE_CTE:
/* these can't contain any lateral references */
*************** replace_vars_in_jointree(Node *jtnode,
*** 1909,1914 ****
--- 1912,1924 ----
{
switch (rte->rtekind)
{
+ case RTE_RELATION:
+ /* shouldn't be marked LATERAL unless tablesample */
+ Assert(rte->tablesample);
+ rte->tablesample = (TableSampleClause *)
+ pullup_replace_vars((Node *) rte->tablesample,
+ context);
+ break;
case RTE_SUBQUERY:
rte->subquery =
pullup_replace_vars_subquery(rte->subquery,
*************** replace_vars_in_jointree(Node *jtnode,
*** 1924,1930 ****
pullup_replace_vars((Node *) rte->values_lists,
context);
break;
- case RTE_RELATION:
case RTE_JOIN:
case RTE_CTE:
/* these shouldn't be marked LATERAL */
--- 1934,1939 ----
diff --git a/src/backend/optimizer/util/pathnode.c b/src/backend/optimizer/util/pathnode.c
index f7f33bb..935bc2b 100644
*** a/src/backend/optimizer/util/pathnode.c
--- b/src/backend/optimizer/util/pathnode.c
*************** create_seqscan_path(PlannerInfo *root, R
*** 713,719 ****
/*
* create_samplescan_path
! * Like seqscan but uses sampling function while scanning.
*/
Path *
create_samplescan_path(PlannerInfo *root, RelOptInfo *rel, Relids required_outer)
--- 713,719 ----
/*
* create_samplescan_path
! * Creates a path node for a sampled table scan.
*/
Path *
create_samplescan_path(PlannerInfo *root, RelOptInfo *rel, Relids required_outer)
*************** create_samplescan_path(PlannerInfo *root
*** 726,732 ****
required_outer);
pathnode->pathkeys = NIL; /* samplescan has unordered result */
! cost_samplescan(pathnode, root, rel);
return pathnode;
}
--- 726,732 ----
required_outer);
pathnode->pathkeys = NIL; /* samplescan has unordered result */
! cost_samplescan(pathnode, root, rel, pathnode->param_info);
return pathnode;
}
*************** reparameterize_path(PlannerInfo *root, P
*** 1773,1778 ****
--- 1773,1780 ----
{
case T_SeqScan:
return create_seqscan_path(root, rel, required_outer);
+ case T_SampleScan:
+ return (Path *) create_samplescan_path(root, rel, required_outer);
case T_IndexScan:
case T_IndexOnlyScan:
{
*************** reparameterize_path(PlannerInfo *root, P
*** 1805,1812 ****
case T_SubqueryScan:
return create_subqueryscan_path(root, rel, path->pathkeys,
required_outer);
- case T_SampleScan:
- return (Path *) create_samplescan_path(root, rel, required_outer);
default:
break;
}
--- 1807,1812 ----
diff --git a/src/backend/parser/gram.y b/src/backend/parser/gram.y
index 2b02a2e..8f053e4 100644
*** a/src/backend/parser/gram.y
--- b/src/backend/parser/gram.y
*************** static Node *makeRecursiveViewSelect(cha
*** 457,464 ****
%type <jexpr> joined_table
%type <range> relation_expr
%type <range> relation_expr_opt_alias
%type <target> target_el single_set_clause set_target insert_column_item
- %type <node> relation_expr_tablesample tablesample_clause opt_repeatable_clause
%type <str> generic_option_name
%type <node> generic_option_arg
--- 457,464 ----
%type <jexpr> joined_table
%type <range> relation_expr
%type <range> relation_expr_opt_alias
+ %type <node> tablesample_clause opt_repeatable_clause
%type <target> target_el single_set_clause set_target insert_column_item
%type <str> generic_option_name
%type <node> generic_option_arg
*************** table_ref: relation_expr opt_alias_claus
*** 10491,10499 ****
$1->alias = $2;
$$ = (Node *) $1;
}
! | relation_expr_tablesample
{
! $$ = (Node *) $1;
}
| func_table func_alias_clause
{
--- 10491,10503 ----
$1->alias = $2;
$$ = (Node *) $1;
}
! | relation_expr opt_alias_clause tablesample_clause
{
! RangeTableSample *n = (RangeTableSample *) $3;
! $1->alias = $2;
! /* relation_expr goes inside the RangeTableSample node */
! n->relation = (Node *) $1;
! $$ = (Node *) n;
}
| func_table func_alias_clause
{
*************** relation_expr_opt_alias: relation_expr
*** 10820,10842 ****
}
;
!
! relation_expr_tablesample: relation_expr opt_alias_clause tablesample_clause
! {
! RangeTableSample *n = (RangeTableSample *) $3;
! n->relation = $1;
! n->relation->alias = $2;
! $$ = (Node *) n;
! }
! ;
!
tablesample_clause:
! TABLESAMPLE ColId '(' expr_list ')' opt_repeatable_clause
{
RangeTableSample *n = makeNode(RangeTableSample);
n->method = $2;
n->args = $4;
n->repeatable = $6;
$$ = (Node *) n;
}
;
--- 10824,10841 ----
}
;
! /*
! * TABLESAMPLE decoration in a FROM item
! */
tablesample_clause:
! TABLESAMPLE func_name '(' expr_list ')' opt_repeatable_clause
{
RangeTableSample *n = makeNode(RangeTableSample);
+ /* n->relation will be filled in later */
n->method = $2;
n->args = $4;
n->repeatable = $6;
+ n->location = @2;
$$ = (Node *) n;
}
;
diff --git a/src/backend/parser/parse_clause.c b/src/backend/parser/parse_clause.c
index e90e1d6..4e490b2 100644
*** a/src/backend/parser/parse_clause.c
--- b/src/backend/parser/parse_clause.c
***************
*** 18,25 ****
#include "miscadmin.h"
#include "access/heapam.h"
#include "catalog/catalog.h"
- #include "access/htup_details.h"
#include "catalog/heap.h"
#include "catalog/pg_constraint.h"
#include "catalog/pg_type.h"
--- 18,25 ----
#include "miscadmin.h"
#include "access/heapam.h"
+ #include "access/tsmapi.h"
#include "catalog/catalog.h"
#include "catalog/heap.h"
#include "catalog/pg_constraint.h"
#include "catalog/pg_type.h"
***************
*** 43,49 ****
#include "utils/guc.h"
#include "utils/lsyscache.h"
#include "utils/rel.h"
! #include "utils/syscache.h"
/* Convenience macro for the most common makeNamespaceItem() case */
#define makeDefaultNSItem(rte) makeNamespaceItem(rte, true, true, false, true)
--- 43,49 ----
#include "utils/guc.h"
#include "utils/lsyscache.h"
#include "utils/rel.h"
!
/* Convenience macro for the most common makeNamespaceItem() case */
#define makeDefaultNSItem(rte) makeNamespaceItem(rte, true, true, false, true)
*************** static RangeTblEntry *transformRangeSubs
*** 63,68 ****
--- 63,70 ----
RangeSubselect *r);
static RangeTblEntry *transformRangeFunction(ParseState *pstate,
RangeFunction *r);
+ static TableSampleClause *transformRangeTableSample(ParseState *pstate,
+ RangeTableSample *rts);
static Node *transformFromClauseItem(ParseState *pstate, Node *n,
RangeTblEntry **top_rte, int *top_rti,
List **namespace);
*************** transformJoinOnClause(ParseState *pstate
*** 423,462 ****
return result;
}
- static RangeTblEntry *
- transformTableSampleEntry(ParseState *pstate, RangeTableSample *rv)
- {
- RangeTblEntry *rte = NULL;
- CommonTableExpr *cte = NULL;
- TableSampleClause *tablesample = NULL;
-
- /* if relation has an unqualified name, it might be a CTE reference */
- if (!rv->relation->schemaname)
- {
- Index levelsup;
-
- cte = scanNameSpaceForCTE(pstate, rv->relation->relname, &levelsup);
- }
-
- /* We first need to build a range table entry */
- if (!cte)
- rte = transformTableEntry(pstate, rv->relation);
-
- if (!rte ||
- (rte->relkind != RELKIND_RELATION &&
- rte->relkind != RELKIND_MATVIEW))
- ereport(ERROR,
- (errcode(ERRCODE_SYNTAX_ERROR),
- errmsg("TABLESAMPLE clause can only be used on tables and materialized views"),
- parser_errposition(pstate, rv->relation->location)));
-
- tablesample = ParseTableSample(pstate, rv->method, rv->repeatable,
- rv->args, rv->relation->location);
- rte->tablesample = tablesample;
-
- return rte;
- }
-
/*
* transformTableEntry --- transform a RangeVar (simple relation reference)
*/
--- 425,430 ----
*************** transformRangeFunction(ParseState *pstat
*** 748,753 ****
--- 716,824 ----
return rte;
}
+ /*
+ * transformRangeTableSample --- transform a TABLESAMPLE clause
+ *
+ * Caller has already transformed rts->relation, we just have to validate
+ * the remaining fields and create a TableSampleClause node.
+ */
+ static TableSampleClause *
+ transformRangeTableSample(ParseState *pstate, RangeTableSample *rts)
+ {
+ TableSampleClause *tablesample;
+ Oid handlerOid;
+ Oid funcargtypes[1];
+ TsmRoutine *tsm;
+ List *fargs;
+ ListCell *larg,
+ *ltyp;
+
+ /*
+ * To validate the sample method name, look up the handler function, which
+ * has the same name, one dummy INTERNAL argument, and a result type of
+ * tsm_handler. (Note: tablesample method names are not schema-qualified
+ * in the SQL standard; but since they are just functions to us, we allow
+ * schema qualification to resolve any potential ambiguity.)
+ */
+ funcargtypes[0] = INTERNALOID;
+
+ handlerOid = LookupFuncName(rts->method, 1, funcargtypes, true);
+
+ /* we want error to complain about no-such-method, not no-such-function */
+ if (!OidIsValid(handlerOid))
+ ereport(ERROR,
+ (errcode(ERRCODE_UNDEFINED_OBJECT),
+ errmsg("tablesample method %s does not exist",
+ NameListToString(rts->method)),
+ parser_errposition(pstate, rts->location)));
+
+ /* check that handler has correct return type */
+ if (get_func_rettype(handlerOid) != TSM_HANDLEROID)
+ ereport(ERROR,
+ (errcode(ERRCODE_WRONG_OBJECT_TYPE),
+ errmsg("function %s must return type \"tsm_handler\"",
+ NameListToString(rts->method)),
+ parser_errposition(pstate, rts->location)));
+
+ /* OK, run the handler to get TsmRoutine, for argument type info */
+ tsm = GetTsmRoutine(handlerOid);
+
+ tablesample = makeNode(TableSampleClause);
+ tablesample->tsmhandler = handlerOid;
+
+ /* check user provided the expected number of arguments */
+ if (list_length(rts->args) != list_length(tsm->parameterTypes))
+ ereport(ERROR,
+ (errcode(ERRCODE_INVALID_TABLESAMPLE_ARGUMENT),
+ errmsg_plural("tablesample method %s requires %d argument, not %d",
+ "tablesample method %s requires %d arguments, not %d",
+ list_length(tsm->parameterTypes),
+ NameListToString(rts->method),
+ list_length(tsm->parameterTypes),
+ list_length(rts->args)),
+ parser_errposition(pstate, rts->location)));
+
+ /*
+ * Transform the arguments, typecasting them as needed. Note we must also
+ * assign collations now, because assign_query_collations() doesn't
+ * examine any substructure of RTEs.
+ */
+ fargs = NIL;
+ forboth(larg, rts->args, ltyp, tsm->parameterTypes)
+ {
+ Node *arg = (Node *) lfirst(larg);
+ Oid argtype = lfirst_oid(ltyp);
+
+ arg = transformExpr(pstate, arg, EXPR_KIND_FROM_FUNCTION);
+ arg = coerce_to_specific_type(pstate, arg, argtype, "TABLESAMPLE");
+ assign_expr_collations(pstate, arg);
+ fargs = lappend(fargs, arg);
+ }
+ tablesample->args = fargs;
+
+ /* Process REPEATABLE (seed) */
+ if (rts->repeatable != NULL)
+ {
+ Node *arg;
+
+ if (!tsm->repeatable_across_queries)
+ ereport(ERROR,
+ (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
+ errmsg("tablesample method %s does not support REPEATABLE",
+ NameListToString(rts->method)),
+ parser_errposition(pstate, rts->location)));
+
+ arg = transformExpr(pstate, rts->repeatable, EXPR_KIND_FROM_FUNCTION);
+ arg = coerce_to_specific_type(pstate, arg, FLOAT8OID, "REPEATABLE");
+ assign_expr_collations(pstate, arg);
+ tablesample->repeatable = (Expr *) arg;
+ }
+ else
+ tablesample->repeatable = NULL;
+
+ return tablesample;
+ }
+
/*
* transformFromClauseItem -
*************** transformFromClauseItem(ParseState *psta
*** 844,849 ****
--- 915,947 ----
rtr->rtindex = rtindex;
return (Node *) rtr;
}
+ else if (IsA(n, RangeTableSample))
+ {
+ /* TABLESAMPLE clause (wrapping some other valid FROM node) */
+ RangeTableSample *rts = (RangeTableSample *) n;
+ Node *rel;
+ RangeTblRef *rtr;
+ RangeTblEntry *rte;
+
+ /* Recursively transform the contained relation */
+ rel = transformFromClauseItem(pstate, rts->relation,
+ top_rte, top_rti, namespace);
+ /* Currently, grammar could only return a RangeVar as contained rel */
+ Assert(IsA(rel, RangeTblRef));
+ rtr = (RangeTblRef *) rel;
+ rte = rt_fetch(rtr->rtindex, pstate->p_rtable);
+ /* We only support this on plain relations and matviews */
+ if (rte->relkind != RELKIND_RELATION &&
+ rte->relkind != RELKIND_MATVIEW)
+ ereport(ERROR,
+ (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
+ errmsg("TABLESAMPLE clause can only be applied to tables and materialized views"),
+ parser_errposition(pstate, exprLocation(rts->relation))));
+
+ /* Transform TABLESAMPLE details and attach to the RTE */
+ rte->tablesample = transformRangeTableSample(pstate, rts);
+ return (Node *) rtr;
+ }
else if (IsA(n, JoinExpr))
{
/* A newfangled join expression */
*************** transformFromClauseItem(ParseState *psta
*** 1165,1190 ****
return (Node *) j;
}
- else if (IsA(n, RangeTableSample))
- {
- /* Tablesample reference */
- RangeTableSample *rv = (RangeTableSample *) n;
- RangeTblRef *rtr;
- RangeTblEntry *rte = NULL;
- int rtindex;
-
- rte = transformTableSampleEntry(pstate, rv);
-
- /* assume new rte is at end */
- rtindex = list_length(pstate->p_rtable);
- Assert(rte == rt_fetch(rtindex, pstate->p_rtable));
- *top_rte = rte;
- *top_rti = rtindex;
- *namespace = list_make1(makeDefaultNSItem(rte));
- rtr = makeNode(RangeTblRef);
- rtr->rtindex = rtindex;
- return (Node *) rtr;
- }
else
elog(ERROR, "unrecognized node type: %d", (int) nodeTag(n));
return NULL; /* can't get here, keep compiler quiet */
--- 1263,1268 ----
diff --git a/src/backend/parser/parse_func.c b/src/backend/parser/parse_func.c
index 430baff..554ca9d 100644
*** a/src/backend/parser/parse_func.c
--- b/src/backend/parser/parse_func.c
***************
*** 18,24 ****
#include "catalog/pg_aggregate.h"
#include "catalog/pg_proc.h"
#include "catalog/pg_type.h"
- #include "catalog/pg_tablesample_method.h"
#include "funcapi.h"
#include "lib/stringinfo.h"
#include "nodes/makefuncs.h"
--- 18,23 ----
***************
*** 27,33 ****
#include "parser/parse_clause.h"
#include "parser/parse_coerce.h"
#include "parser/parse_func.h"
- #include "parser/parse_expr.h"
#include "parser/parse_relation.h"
#include "parser/parse_target.h"
#include "parser/parse_type.h"
--- 26,31 ----
*************** ParseFuncOrColumn(ParseState *pstate, Li
*** 769,916 ****
}
- /*
- * ParseTableSample
- *
- * Parse TABLESAMPLE clause and process the arguments
- */
- TableSampleClause *
- ParseTableSample(ParseState *pstate, char *samplemethod, Node *repeatable,
- List *sampleargs, int location)
- {
- HeapTuple tuple;
- Form_pg_tablesample_method tsm;
- Form_pg_proc procform;
- TableSampleClause *tablesample;
- List *fargs;
- ListCell *larg;
- int nargs,
- initnargs;
- Oid init_arg_types[FUNC_MAX_ARGS];
-
- /* Load the tablesample method */
- tuple = SearchSysCache1(TABLESAMPLEMETHODNAME, PointerGetDatum(samplemethod));
- if (!HeapTupleIsValid(tuple))
- ereport(ERROR,
- (errcode(ERRCODE_UNDEFINED_OBJECT),
- errmsg("tablesample method \"%s\" does not exist",
- samplemethod),
- parser_errposition(pstate, location)));
-
- tablesample = makeNode(TableSampleClause);
- tablesample->tsmid = HeapTupleGetOid(tuple);
-
- tsm = (Form_pg_tablesample_method) GETSTRUCT(tuple);
-
- tablesample->tsmseqscan = tsm->tsmseqscan;
- tablesample->tsmpagemode = tsm->tsmpagemode;
- tablesample->tsminit = tsm->tsminit;
- tablesample->tsmnextblock = tsm->tsmnextblock;
- tablesample->tsmnexttuple = tsm->tsmnexttuple;
- tablesample->tsmexaminetuple = tsm->tsmexaminetuple;
- tablesample->tsmend = tsm->tsmend;
- tablesample->tsmreset = tsm->tsmreset;
- tablesample->tsmcost = tsm->tsmcost;
-
- ReleaseSysCache(tuple);
-
- /* Validate the parameters against init function definition. */
- tuple = SearchSysCache1(PROCOID,
- ObjectIdGetDatum(tablesample->tsminit));
-
- if (!HeapTupleIsValid(tuple)) /* should not happen */
- elog(ERROR, "cache lookup failed for function %u",
- tablesample->tsminit);
-
- procform = (Form_pg_proc) GETSTRUCT(tuple);
- initnargs = procform->pronargs;
- Assert(initnargs >= 3);
-
- /*
- * First parameter is used to pass the SampleScanState, second is seed
- * (REPEATABLE), skip the processing for them here, just assert that the
- * types are correct.
- */
- Assert(procform->proargtypes.values[0] == INTERNALOID);
- Assert(procform->proargtypes.values[1] == INT4OID);
- initnargs -= 2;
- memcpy(init_arg_types, procform->proargtypes.values + 2,
- initnargs * sizeof(Oid));
-
- /* Now we are done with the catalog */
- ReleaseSysCache(tuple);
-
- /* Process repeatable (seed) */
- if (repeatable != NULL)
- {
- Node *arg = repeatable;
-
- if (arg && IsA(arg, A_Const))
- {
- A_Const *con = (A_Const *) arg;
-
- if (con->val.type == T_Null)
- ereport(ERROR,
- (errcode(ERRCODE_INVALID_PARAMETER_VALUE),
- errmsg("REPEATABLE clause must be NOT NULL numeric value"),
- parser_errposition(pstate, con->location)));
-
- }
-
- arg = transformExpr(pstate, arg, EXPR_KIND_FROM_FUNCTION);
- arg = coerce_to_specific_type(pstate, arg, INT4OID, "REPEATABLE");
- tablesample->repeatable = arg;
- }
- else
- tablesample->repeatable = NULL;
-
- /* Check user provided expected number of arguments. */
- if (list_length(sampleargs) != initnargs)
- ereport(ERROR,
- (errcode(ERRCODE_TOO_MANY_ARGUMENTS),
- errmsg_plural("tablesample method \"%s\" expects %d argument got %d",
- "tablesample method \"%s\" expects %d arguments got %d",
- initnargs,
- samplemethod,
- initnargs, list_length(sampleargs)),
- parser_errposition(pstate, location)));
-
- /* Transform the arguments, typecasting them as needed. */
- fargs = NIL;
- nargs = 0;
- foreach(larg, sampleargs)
- {
- Node *inarg = (Node *) lfirst(larg);
- Node *arg = transformExpr(pstate, inarg, EXPR_KIND_FROM_FUNCTION);
- Oid argtype = exprType(arg);
-
- if (argtype != init_arg_types[nargs])
- {
- if (!can_coerce_type(1, &argtype, &init_arg_types[nargs],
- COERCION_IMPLICIT))
- ereport(ERROR,
- (errcode(ERRCODE_INVALID_PARAMETER_VALUE),
- errmsg("wrong parameter %d for tablesample method \"%s\"",
- nargs + 1, samplemethod),
- errdetail("Expected type %s got %s.",
- format_type_be(init_arg_types[nargs]),
- format_type_be(argtype)),
- parser_errposition(pstate, exprLocation(inarg))));
-
- arg = coerce_type(pstate, arg, argtype, init_arg_types[nargs], -1,
- COERCION_IMPLICIT, COERCE_IMPLICIT_CAST, -1);
- }
-
- fargs = lappend(fargs, arg);
- nargs++;
- }
-
- /* Pass the arguments down */
- tablesample->args = fargs;
-
- return tablesample;
- }
-
/* func_match_argtypes()
*
* Given a list of candidate functions (having the right name and number
--- 767,772 ----
diff --git a/src/backend/rewrite/rewriteHandler.c b/src/backend/rewrite/rewriteHandler.c
index bbd6b77..1734e48 100644
*** a/src/backend/rewrite/rewriteHandler.c
--- b/src/backend/rewrite/rewriteHandler.c
*************** rewriteRuleAction(Query *parsetree,
*** 418,423 ****
--- 418,427 ----
switch (rte->rtekind)
{
+ case RTE_RELATION:
+ sub_action->hasSubLinks =
+ checkExprHasSubLink((Node *) rte->tablesample);
+ break;
case RTE_FUNCTION:
sub_action->hasSubLinks =
checkExprHasSubLink((Node *) rte->functions);
diff --git a/src/backend/utils/adt/pseudotypes.c b/src/backend/utils/adt/pseudotypes.c
index 9ad460a..5b809aa 100644
*** a/src/backend/utils/adt/pseudotypes.c
--- b/src/backend/utils/adt/pseudotypes.c
*************** fdw_handler_out(PG_FUNCTION_ARGS)
*** 374,379 ****
--- 374,406 ----
/*
+ * tsm_handler_in - input routine for pseudo-type TSM_HANDLER.
+ */
+ Datum
+ tsm_handler_in(PG_FUNCTION_ARGS)
+ {
+ ereport(ERROR,
+ (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
+ errmsg("cannot accept a value of type tsm_handler")));
+
+ PG_RETURN_VOID(); /* keep compiler quiet */
+ }
+
+ /*
+ * tsm_handler_out - output routine for pseudo-type TSM_HANDLER.
+ */
+ Datum
+ tsm_handler_out(PG_FUNCTION_ARGS)
+ {
+ ereport(ERROR,
+ (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
+ errmsg("cannot display a value of type tsm_handler")));
+
+ PG_RETURN_VOID(); /* keep compiler quiet */
+ }
+
+
+ /*
* internal_in - input routine for pseudo-type INTERNAL.
*/
Datum
diff --git a/src/backend/utils/adt/ruleutils.c b/src/backend/utils/adt/ruleutils.c
index 5112cac..51391f6 100644
*** a/src/backend/utils/adt/ruleutils.c
--- b/src/backend/utils/adt/ruleutils.c
***************
*** 32,38 ****
#include "catalog/pg_opclass.h"
#include "catalog/pg_operator.h"
#include "catalog/pg_proc.h"
- #include "catalog/pg_tablesample_method.h"
#include "catalog/pg_trigger.h"
#include "catalog/pg_type.h"
#include "commands/defrem.h"
--- 32,37 ----
*************** static void make_ruledef(StringInfo buf,
*** 349,356 ****
int prettyFlags);
static void make_viewdef(StringInfo buf, HeapTuple ruletup, TupleDesc rulettc,
int prettyFlags, int wrapColumn);
- static void get_tablesample_def(TableSampleClause *tablesample,
- deparse_context *context);
static void get_query_def(Query *query, StringInfo buf, List *parentnamespace,
TupleDesc resultDesc,
int prettyFlags, int wrapColumn, int startIndent);
--- 348,353 ----
*************** static void get_column_alias_list(depars
*** 416,421 ****
--- 413,420 ----
static void get_from_clause_coldeflist(RangeTblFunction *rtfunc,
deparse_columns *colinfo,
deparse_context *context);
+ static void get_tablesample_def(TableSampleClause *tablesample,
+ deparse_context *context);
static void get_opclass_name(Oid opclass, Oid actual_datatype,
StringInfo buf);
static Node *processIndirection(Node *node, deparse_context *context,
*************** make_viewdef(StringInfo buf, HeapTuple r
*** 4235,4284 ****
heap_close(ev_relation, AccessShareLock);
}
- /* ----------
- * get_tablesample_def - Convert TableSampleClause back to SQL
- * ----------
- */
- static void
- get_tablesample_def(TableSampleClause *tablesample, deparse_context *context)
- {
- StringInfo buf = context->buf;
- HeapTuple tuple;
- Form_pg_tablesample_method tsm;
- char *tsmname;
- int nargs;
- ListCell *l;
-
- /* Load the tablesample method */
- tuple = SearchSysCache1(TABLESAMPLEMETHODOID, ObjectIdGetDatum(tablesample->tsmid));
- if (!HeapTupleIsValid(tuple))
- ereport(ERROR,
- (errcode(ERRCODE_UNDEFINED_OBJECT),
- errmsg("cache lookup failed for tablesample method %u",
- tablesample->tsmid)));
-
- tsm = (Form_pg_tablesample_method) GETSTRUCT(tuple);
- tsmname = NameStr(tsm->tsmname);
- appendStringInfo(buf, " TABLESAMPLE %s (", quote_identifier(tsmname));
-
- ReleaseSysCache(tuple);
-
- nargs = 0;
- foreach(l, tablesample->args)
- {
- if (nargs++ > 0)
- appendStringInfoString(buf, ", ");
- get_rule_expr((Node *) lfirst(l), context, true);
- }
- appendStringInfoChar(buf, ')');
-
- if (tablesample->repeatable != NULL)
- {
- appendStringInfoString(buf, " REPEATABLE (");
- get_rule_expr(tablesample->repeatable, context, true);
- appendStringInfoChar(buf, ')');
- }
- }
/* ----------
* get_query_def - Parse back one query parsetree
--- 4234,4239 ----
*************** get_from_clause_item(Node *jtnode, Query
*** 8781,8789 ****
only_marker(rte),
generate_relation_name(rte->relid,
context->namespaces));
-
- if (rte->tablesample)
- get_tablesample_def(rte->tablesample, context);
break;
case RTE_SUBQUERY:
/* Subquery RTE */
--- 8736,8741 ----
*************** get_from_clause_item(Node *jtnode, Query
*** 8963,8968 ****
--- 8915,8924 ----
/* Else print column aliases as needed */
get_column_alias_list(colinfo, context);
}
+
+ /* Tablesample clause must go after any alias */
+ if (rte->rtekind == RTE_RELATION && rte->tablesample)
+ get_tablesample_def(rte->tablesample, context);
}
else if (IsA(jtnode, JoinExpr))
{
*************** get_from_clause_coldeflist(RangeTblFunct
*** 9163,9168 ****
--- 9119,9162 ----
}
/*
+ * get_tablesample_def - print a TableSampleClause
+ */
+ static void
+ get_tablesample_def(TableSampleClause *tablesample, deparse_context *context)
+ {
+ StringInfo buf = context->buf;
+ Oid argtypes[1];
+ int nargs;
+ ListCell *l;
+
+ /*
+ * We should qualify the handler's function name if it wouldn't be
+ * resolved by lookup in the current search path.
+ */
+ argtypes[0] = INTERNALOID;
+ appendStringInfo(buf, " TABLESAMPLE %s (",
+ generate_function_name(tablesample->tsmhandler, 1,
+ NIL, argtypes,
+ false, NULL, EXPR_KIND_NONE));
+
+ nargs = 0;
+ foreach(l, tablesample->args)
+ {
+ if (nargs++ > 0)
+ appendStringInfoString(buf, ", ");
+ get_rule_expr((Node *) lfirst(l), context, false);
+ }
+ appendStringInfoChar(buf, ')');
+
+ if (tablesample->repeatable != NULL)
+ {
+ appendStringInfoString(buf, " REPEATABLE (");
+ get_rule_expr((Node *) tablesample->repeatable, context, false);
+ appendStringInfoChar(buf, ')');
+ }
+ }
+
+ /*
* get_opclass_name - fetch name of an index operator class
*
* The opclass name is appended (after a space) to buf.
diff --git a/src/backend/utils/cache/lsyscache.c b/src/backend/utils/cache/lsyscache.c
index 7b32247..1dc2932 100644
*** a/src/backend/utils/cache/lsyscache.c
--- b/src/backend/utils/cache/lsyscache.c
***************
*** 32,38 ****
#include "catalog/pg_range.h"
#include "catalog/pg_statistic.h"
#include "catalog/pg_transform.h"
- #include "catalog/pg_tablesample_method.h"
#include "catalog/pg_type.h"
#include "miscadmin.h"
#include "nodes/makefuncs.h"
--- 32,37 ----
*************** get_range_subtype(Oid rangeOid)
*** 2997,3025 ****
else
return InvalidOid;
}
-
- /* ---------- PG_TABLESAMPLE_METHOD CACHE ---------- */
-
- /*
- * get_tablesample_method_name - given a tablesample method OID,
- * look up the name or NULL if not found
- */
- char *
- get_tablesample_method_name(Oid tsmid)
- {
- HeapTuple tuple;
-
- tuple = SearchSysCache1(TABLESAMPLEMETHODOID, ObjectIdGetDatum(tsmid));
- if (HeapTupleIsValid(tuple))
- {
- Form_pg_tablesample_method tup =
- (Form_pg_tablesample_method) GETSTRUCT(tuple);
- char *result;
-
- result = pstrdup(NameStr(tup->tsmname));
- ReleaseSysCache(tuple);
- return result;
- }
- else
- return NULL;
- }
--- 2996,2998 ----
diff --git a/src/backend/utils/cache/syscache.c b/src/backend/utils/cache/syscache.c
index b6333e3..efce7b9 100644
*** a/src/backend/utils/cache/syscache.c
--- b/src/backend/utils/cache/syscache.c
***************
*** 56,62 ****
#include "catalog/pg_shseclabel.h"
#include "catalog/pg_replication_origin.h"
#include "catalog/pg_statistic.h"
- #include "catalog/pg_tablesample_method.h"
#include "catalog/pg_tablespace.h"
#include "catalog/pg_transform.h"
#include "catalog/pg_ts_config.h"
--- 56,61 ----
*************** static const struct cachedesc cacheinfo[
*** 667,694 ****
},
128
},
- {TableSampleMethodRelationId, /* TABLESAMPLEMETHODNAME */
- TableSampleMethodNameIndexId,
- 1,
- {
- Anum_pg_tablesample_method_tsmname,
- 0,
- 0,
- 0,
- },
- 2
- },
- {TableSampleMethodRelationId, /* TABLESAMPLEMETHODOID */
- TableSampleMethodOidIndexId,
- 1,
- {
- ObjectIdAttributeNumber,
- 0,
- 0,
- 0,
- },
- 2
- },
{TableSpaceRelationId, /* TABLESPACEOID */
TablespaceOidIndexId,
1,
--- 666,671 ----
diff --git a/src/backend/utils/errcodes.txt b/src/backend/utils/errcodes.txt
index 6cc3ed9..6f2fb4d 100644
*** a/src/backend/utils/errcodes.txt
--- b/src/backend/utils/errcodes.txt
*************** Section: Class 22 - Data Exception
*** 178,183 ****
--- 178,185 ----
2201W E ERRCODE_INVALID_ROW_COUNT_IN_LIMIT_CLAUSE invalid_row_count_in_limit_clause
2201X E ERRCODE_INVALID_ROW_COUNT_IN_RESULT_OFFSET_CLAUSE
invalid_row_count_in_result_offset_clause
22009 E ERRCODE_INVALID_TIME_ZONE_DISPLACEMENT_VALUE invalid_time_zone_displacement_value
+ 2202H E ERRCODE_INVALID_TABLESAMPLE_ARGUMENT invalid_tablesample_argument
+ 2202G E ERRCODE_INVALID_TABLESAMPLE_REPEAT invalid_tablesample_repeat
2200C E ERRCODE_INVALID_USE_OF_ESCAPE_CHARACTER invalid_use_of_escape_character
2200G E ERRCODE_MOST_SPECIFIC_TYPE_MISMATCH most_specific_type_mismatch
22004 E ERRCODE_NULL_VALUE_NOT_ALLOWED null_value_not_allowed
diff --git a/src/backend/utils/misc/sampling.c b/src/backend/utils/misc/sampling.c
index 6191f79..4142e01 100644
*** a/src/backend/utils/misc/sampling.c
--- b/src/backend/utils/misc/sampling.c
*************** reservoir_get_next_S(ReservoirState rs,
*** 228,234 ****
void
sampler_random_init_state(long seed, SamplerRandomState randstate)
{
! randstate[0] = RAND48_SEED_0;
randstate[1] = (unsigned short) seed;
randstate[2] = (unsigned short) (seed >> 16);
}
--- 228,234 ----
void
sampler_random_init_state(long seed, SamplerRandomState randstate)
{
! randstate[0] = 0x330e; /* same as pg_erand48, but could be anything */
randstate[1] = (unsigned short) seed;
randstate[2] = (unsigned short) (seed >> 16);
}
diff --git a/src/bin/psql/tab-complete.c b/src/bin/psql/tab-complete.c
index 9596af6..ece0515 100644
*** a/src/bin/psql/tab-complete.c
--- b/src/bin/psql/tab-complete.c
*************** static const SchemaQuery Query_for_list_
*** 738,750 ****
" WHERE substring(pg_catalog.quote_ident(evtname),1,%d)='%s'"
#define Query_for_list_of_tablesample_methods \
! " SELECT pg_catalog.quote_ident(tsmname) "\
! " FROM pg_catalog.pg_tablesample_method "\
! " WHERE substring(pg_catalog.quote_ident(tsmname),1,%d)='%s'"
#define Query_for_list_of_policies \
" SELECT pg_catalog.quote_ident(polname) "\
! " FROM pg_catalog.pg_policy " \
" WHERE substring(pg_catalog.quote_ident(polname),1,%d)='%s'"
#define Query_for_list_of_tables_for_policy \
--- 738,752 ----
" WHERE substring(pg_catalog.quote_ident(evtname),1,%d)='%s'"
#define Query_for_list_of_tablesample_methods \
! " SELECT pg_catalog.quote_ident(proname) "\
! " FROM pg_catalog.pg_proc "\
! " WHERE prorettype = 'pg_catalog.tsm_handler'::pg_catalog.regtype AND "\
! " proargtypes[0] = 'pg_catalog.internal'::pg_catalog.regtype AND "\
! " substring(pg_catalog.quote_ident(proname),1,%d)='%s'"
#define Query_for_list_of_policies \
" SELECT pg_catalog.quote_ident(polname) "\
! " FROM pg_catalog.pg_policy "\
" WHERE substring(pg_catalog.quote_ident(polname),1,%d)='%s'"
#define Query_for_list_of_tables_for_policy \
diff --git a/src/include/access/heapam.h b/src/include/access/heapam.h
index 31139cb..75e6b72 100644
*** a/src/include/access/heapam.h
--- b/src/include/access/heapam.h
*************** extern HeapScanDesc heap_beginscan_bm(Re
*** 116,126 ****
int nkeys, ScanKey key);
extern HeapScanDesc heap_beginscan_sampling(Relation relation,
Snapshot snapshot, int nkeys, ScanKey key,
! bool allow_strat, bool allow_pagemode);
extern void heap_setscanlimits(HeapScanDesc scan, BlockNumber startBlk,
BlockNumber endBlk);
extern void heapgetpage(HeapScanDesc scan, BlockNumber page);
extern void heap_rescan(HeapScanDesc scan, ScanKey key);
extern void heap_endscan(HeapScanDesc scan);
extern HeapTuple heap_getnext(HeapScanDesc scan, ScanDirection direction);
--- 116,128 ----
int nkeys, ScanKey key);
extern HeapScanDesc heap_beginscan_sampling(Relation relation,
Snapshot snapshot, int nkeys, ScanKey key,
! bool allow_strat, bool allow_sync, bool allow_pagemode);
extern void heap_setscanlimits(HeapScanDesc scan, BlockNumber startBlk,
BlockNumber endBlk);
extern void heapgetpage(HeapScanDesc scan, BlockNumber page);
extern void heap_rescan(HeapScanDesc scan, ScanKey key);
+ extern void heap_rescan_set_params(HeapScanDesc scan, ScanKey key,
+ bool allow_strat, bool allow_sync, bool allow_pagemode);
extern void heap_endscan(HeapScanDesc scan);
extern HeapTuple heap_getnext(HeapScanDesc scan, ScanDirection direction);
diff --git a/src/include/access/tablesample.h b/src/include/access/tablesample.h
index a02e93d..e69de29 100644
*** a/src/include/access/tablesample.h
--- b/src/include/access/tablesample.h
***************
*** 1,61 ****
- /*-------------------------------------------------------------------------
- *
- * tablesample.h
- * Public header file for TABLESAMPLE clause interface
- *
- *
- * Portions Copyright (c) 1996-2015, PostgreSQL Global Development Group
- * Portions Copyright (c) 1994, Regents of the University of California
- *
- * src/include/access/tablesample.h
- *
- *-------------------------------------------------------------------------
- */
- #ifndef TABLESAMPLE_H
- #define TABLESAMPLE_H
-
- #include "access/relscan.h"
- #include "executor/executor.h"
-
- typedef struct TableSampleDesc
- {
- HeapScanDesc heapScan;
- TupleDesc tupDesc; /* Mostly useful for tsmexaminetuple */
-
- void *tsmdata; /* private method data */
-
- /* These point to he function of the TABLESAMPLE Method. */
- FmgrInfo tsminit;
- FmgrInfo tsmnextblock;
- FmgrInfo tsmnexttuple;
- FmgrInfo tsmexaminetuple;
- FmgrInfo tsmreset;
- FmgrInfo tsmend;
- } TableSampleDesc;
-
-
- extern TableSampleDesc *tablesample_init(SampleScanState *scanstate,
- TableSampleClause *tablesample);
- extern HeapTuple tablesample_getnext(TableSampleDesc *desc);
- extern void tablesample_reset(TableSampleDesc *desc);
- extern void tablesample_end(TableSampleDesc *desc);
- extern HeapTuple tablesample_source_getnext(TableSampleDesc *desc);
- extern HeapTuple tablesample_source_gettup(TableSampleDesc *desc, ItemPointer tid,
- bool *visible);
-
- extern Datum tsm_system_init(PG_FUNCTION_ARGS);
- extern Datum tsm_system_nextblock(PG_FUNCTION_ARGS);
- extern Datum tsm_system_nexttuple(PG_FUNCTION_ARGS);
- extern Datum tsm_system_end(PG_FUNCTION_ARGS);
- extern Datum tsm_system_reset(PG_FUNCTION_ARGS);
- extern Datum tsm_system_cost(PG_FUNCTION_ARGS);
-
- extern Datum tsm_bernoulli_init(PG_FUNCTION_ARGS);
- extern Datum tsm_bernoulli_nextblock(PG_FUNCTION_ARGS);
- extern Datum tsm_bernoulli_nexttuple(PG_FUNCTION_ARGS);
- extern Datum tsm_bernoulli_end(PG_FUNCTION_ARGS);
- extern Datum tsm_bernoulli_reset(PG_FUNCTION_ARGS);
- extern Datum tsm_bernoulli_cost(PG_FUNCTION_ARGS);
-
-
- #endif
--- 0 ----
diff --git a/src/include/access/tsmapi.h b/src/include/access/tsmapi.h
index ...4b59ffa .
*** a/src/include/access/tsmapi.h
--- b/src/include/access/tsmapi.h
***************
*** 0 ****
--- 1,81 ----
+ /*-------------------------------------------------------------------------
+ *
+ * tsmapi.h
+ * API for tablesample methods
+ *
+ * Copyright (c) 2015, PostgreSQL Global Development Group
+ *
+ * src/include/access/tsmapi.h
+ *
+ *-------------------------------------------------------------------------
+ */
+ #ifndef TSMAPI_H
+ #define TSMAPI_H
+
+ #include "nodes/execnodes.h"
+ #include "nodes/relation.h"
+
+
+ /*
+ * Callback function signatures --- see tablesample-method.sgml for more info.
+ */
+
+ typedef void (*SampleScanGetSampleSize_function) (PlannerInfo *root,
+ RelOptInfo *baserel,
+ List *paramexprs,
+ BlockNumber *pages,
+ double *tuples);
+
+ typedef void (*InitSampleScan_function) (SampleScanState *node,
+ int eflags);
+
+ typedef void (*BeginSampleScan_function) (SampleScanState *node,
+ Datum *params,
+ int nparams,
+ uint32 seed);
+
+ typedef BlockNumber (*NextSampleBlock_function) (SampleScanState *node);
+
+ typedef OffsetNumber (*NextSampleTuple_function) (SampleScanState *node,
+ BlockNumber blockno,
+ OffsetNumber maxoffset);
+
+ typedef void (*EndSampleScan_function) (SampleScanState *node);
+
+ /*
+ * TsmRoutine is the struct returned by a tablesample method's handler
+ * function. It provides pointers to the callback functions needed by the
+ * planner and executor, as well as additional information about the method.
+ *
+ * More function pointers are likely to be added in the future.
+ * Therefore it's recommended that the handler initialize the struct with
+ * makeNode(TsmRoutine) so that all fields are set to NULL. This will
+ * ensure that no fields are accidentally left undefined.
+ */
+ typedef struct TsmRoutine
+ {
+ NodeTag type;
+
+ /* List of datatype OIDs for the arguments of the TABLESAMPLE clause */
+ List *parameterTypes;
+
+ /* Can method produce repeatable samples across, or even within, queries? */
+ bool repeatable_across_queries;
+ bool repeatable_across_scans;
+
+ /* Functions for planning a SampleScan on a physical table */
+ SampleScanGetSampleSize_function SampleScanGetSampleSize;
+
+ /* Functions for executing a SampleScan on a physical table */
+ InitSampleScan_function InitSampleScan; /* can be NULL */
+ BeginSampleScan_function BeginSampleScan;
+ NextSampleBlock_function NextSampleBlock; /* can be NULL */
+ NextSampleTuple_function NextSampleTuple;
+ EndSampleScan_function EndSampleScan; /* can be NULL */
+ } TsmRoutine;
+
+
+ /* Functions in access/tablesample/tablesample.c */
+ extern TsmRoutine *GetTsmRoutine(Oid tsmhandler);
+
+ #endif /* TSMAPI_H */
diff --git a/src/include/catalog/indexing.h b/src/include/catalog/indexing.h
index 748aadd..c38958d 100644
*** a/src/include/catalog/indexing.h
--- b/src/include/catalog/indexing.h
*************** DECLARE_UNIQUE_INDEX(pg_replication_orig
*** 316,326 ****
DECLARE_UNIQUE_INDEX(pg_replication_origin_roname_index, 6002, on pg_replication_origin using btree(roname
text_pattern_ops));
#define ReplicationOriginNameIndex 6002
- DECLARE_UNIQUE_INDEX(pg_tablesample_method_name_index, 3331, on pg_tablesample_method using btree(tsmname name_ops));
- #define TableSampleMethodNameIndexId 3331
- DECLARE_UNIQUE_INDEX(pg_tablesample_method_oid_index, 3332, on pg_tablesample_method using btree(oid oid_ops));
- #define TableSampleMethodOidIndexId 3332
-
/* last step of initialization script: build the indexes declared above */
BUILD_INDICES
--- 316,321 ----
diff --git a/src/include/catalog/pg_proc.h b/src/include/catalog/pg_proc.h
index 1d68ad7..09bf143 100644
*** a/src/include/catalog/pg_proc.h
--- b/src/include/catalog/pg_proc.h
*************** DATA(insert OID = 3116 ( fdw_handler_in
*** 3734,3739 ****
--- 3734,3749 ----
DESCR("I/O");
DATA(insert OID = 3117 ( fdw_handler_out PGNSP PGUID 12 1 0 0 0 f f f f t f i 1 0 2275 "3115" _null_ _null_
_null__null_ _null_ fdw_handler_out _null_ _null_ _null_ ));
DESCR("I/O");
+ DATA(insert OID = 3311 ( tsm_handler_in PGNSP PGUID 12 1 0 0 0 f f f f f f i 1 0 3310 "2275" _null_ _null_ _null_
_null__null_ tsm_handler_in _null_ _null_ _null_ ));
+ DESCR("I/O");
+ DATA(insert OID = 3312 ( tsm_handler_out PGNSP PGUID 12 1 0 0 0 f f f f t f i 1 0 2275 "3310" _null_ _null_
_null__null_ _null_ tsm_handler_out _null_ _null_ _null_ ));
+ DESCR("I/O");
+
+ /* tablesample method handlers */
+ DATA(insert OID = 3313 ( bernoulli PGNSP PGUID 12 1 0 0 0 f f f f t f v 1 0 3310 "2281" _null_ _null_
_null__null_ _null_ tsm_bernoulli_handler _null_ _null_ _null_ ));
+ DESCR("BERNOULLI tablesample method handler");
+ DATA(insert OID = 3314 ( system PGNSP PGUID 12 1 0 0 0 f f f f t f v 1 0 3310 "2281" _null_ _null_ _null_
_null__null_ tsm_system_handler _null_ _null_ _null_ ));
+ DESCR("SYSTEM tablesample method handler");
/* cryptographic */
DATA(insert OID = 2311 ( md5 PGNSP PGUID 12 1 0 0 0 f f f f t f i 1 0 25 "25" _null_ _null_ _null_ _null_
_null_md5_text _null_ _null_ _null_ ));
*************** DESCR("get an individual replication ori
*** 5321,5353 ****
DATA(insert OID = 6014 ( pg_show_replication_origin_status PGNSP PGUID 12 1 100 0 0 f f f f f t v 0 0 2249 ""
"{26,25,3220,3220}""{o,o,o,o}" "{local_id, external_id, remote_lsn, local_lsn}" _null_ _null_
pg_show_replication_origin_status_null_ _null_ _null_ ));
DESCR("get progress for all replication origins");
- /* tablesample */
- DATA(insert OID = 3335 ( tsm_system_init PGNSP PGUID 12 1 0 0 0 f f f f t f v 3 0 2278 "2281 23 700" _null_
_null__null_ _null_ _null_ tsm_system_init _null_ _null_ _null_ ));
- DESCR("tsm_system_init(internal)");
- DATA(insert OID = 3336 ( tsm_system_nextblock PGNSP PGUID 12 1 0 0 0 f f f f t f v 2 0 23 "2281 16" _null_ _null_
_null__null_ _null_ tsm_system_nextblock _null_ _null_ _null_ ));
- DESCR("tsm_system_nextblock(internal)");
- DATA(insert OID = 3337 ( tsm_system_nexttuple PGNSP PGUID 12 1 0 0 0 f f f f t f v 4 0 21 "2281 23 21 16" _null_
_null__null_ _null_ _null_ tsm_system_nexttuple _null_ _null_ _null_ ));
- DESCR("tsm_system_nexttuple(internal)");
- DATA(insert OID = 3338 ( tsm_system_end PGNSP PGUID 12 1 0 0 0 f f f f t f v 1 0 2278 "2281" _null_ _null_
_null__null_ _null_ tsm_system_end _null_ _null_ _null_ ));
- DESCR("tsm_system_end(internal)");
- DATA(insert OID = 3339 ( tsm_system_reset PGNSP PGUID 12 1 0 0 0 f f f f t f v 1 0 2278 "2281" _null_ _null_
_null__null_ _null_ tsm_system_reset _null_ _null_ _null_ ));
- DESCR("tsm_system_reset(internal)");
- DATA(insert OID = 3340 ( tsm_system_cost PGNSP PGUID 12 1 0 0 0 f f f f t f v 7 0 2278 "2281 2281 2281 2281
22812281 2281" _null_ _null_ _null_ _null_ _null_ tsm_system_cost _null_ _null_ _null_ ));
- DESCR("tsm_system_cost(internal)");
-
- DATA(insert OID = 3341 ( tsm_bernoulli_init PGNSP PGUID 12 1 0 0 0 f f f f t f v 3 0 2278 "2281 23 700"
_null__null_ _null_ _null_ _null_ tsm_bernoulli_init _null_ _null_ _null_ ));
- DESCR("tsm_bernoulli_init(internal)");
- DATA(insert OID = 3342 ( tsm_bernoulli_nextblock PGNSP PGUID 12 1 0 0 0 f f f f t f v 2 0 23 "2281 16" _null_
_null__null_ _null_ _null_ tsm_bernoulli_nextblock _null_ _null_ _null_ ));
- DESCR("tsm_bernoulli_nextblock(internal)");
- DATA(insert OID = 3343 ( tsm_bernoulli_nexttuple PGNSP PGUID 12 1 0 0 0 f f f f t f v 4 0 21 "2281 23 21 16"
_null__null_ _null_ _null_ _null_ tsm_bernoulli_nexttuple _null_ _null_ _null_ ));
- DESCR("tsm_bernoulli_nexttuple(internal)");
- DATA(insert OID = 3344 ( tsm_bernoulli_end PGNSP PGUID 12 1 0 0 0 f f f f t f v 1 0 2278 "2281" _null_
_null__null_ _null_ _null_ tsm_bernoulli_end _null_ _null_ _null_ ));
- DESCR("tsm_bernoulli_end(internal)");
- DATA(insert OID = 3345 ( tsm_bernoulli_reset PGNSP PGUID 12 1 0 0 0 f f f f t f v 1 0 2278 "2281" _null_
_null__null_ _null_ _null_ tsm_bernoulli_reset _null_ _null_ _null_ ));
- DESCR("tsm_bernoulli_reset(internal)");
- DATA(insert OID = 3346 ( tsm_bernoulli_cost PGNSP PGUID 12 1 0 0 0 f f f f t f v 7 0 2278 "2281 2281 2281
22812281 2281 2281" _null_ _null_ _null_ _null_ _null_ tsm_bernoulli_cost _null_ _null_ _null_ ));
- DESCR("tsm_bernoulli_cost(internal)");
-
/*
* Symbolic values for provolatile column: these indicate whether the result
* of a function is dependent *only* on the values of its explicit arguments,
--- 5331,5336 ----
diff --git a/src/include/catalog/pg_tablesample_method.h b/src/include/catalog/pg_tablesample_method.h
index b422414..e69de29 100644
*** a/src/include/catalog/pg_tablesample_method.h
--- b/src/include/catalog/pg_tablesample_method.h
***************
*** 1,81 ****
- /*-------------------------------------------------------------------------
- *
- * pg_tablesample_method.h
- * definition of the table scan methods.
- *
- *
- * Portions Copyright (c) 1996-2014, PostgreSQL Global Development Group
- * Portions Copyright (c) 1994, Regents of the University of California
- *
- * src/include/catalog/pg_tablesample_method.h
- *
- *
- *-------------------------------------------------------------------------
- */
- #ifndef PG_TABLESAMPLE_METHOD_H
- #define PG_TABLESAMPLE_METHOD_H
-
- #include "catalog/genbki.h"
- #include "catalog/objectaddress.h"
-
- /* ----------------
- * pg_tablesample_method definition. cpp turns this into
- * typedef struct FormData_pg_tablesample_method
- * ----------------
- */
- #define TableSampleMethodRelationId 3330
-
- CATALOG(pg_tablesample_method,3330)
- {
- NameData tsmname; /* tablesample method name */
- bool tsmseqscan; /* does this method scan whole table
- * sequentially? */
- bool tsmpagemode; /* does this method scan page at a time? */
- regproc tsminit; /* init scan function */
- regproc tsmnextblock; /* function returning next block to sample or
- * InvalidBlockOffset if finished */
- regproc tsmnexttuple; /* function returning next tuple offset from
- * current block or InvalidOffsetNumber if end
- * of the block was reacher */
- regproc tsmexaminetuple;/* optional function which can examine tuple
- * contents and decide if tuple should be
- * returned or not */
- regproc tsmend; /* end scan function */
- regproc tsmreset; /* reset state - used by rescan */
- regproc tsmcost; /* costing function */
- } FormData_pg_tablesample_method;
-
- /* ----------------
- * Form_pg_tablesample_method corresponds to a pointer to a tuple with
- * the format of pg_tablesample_method relation.
- * ----------------
- */
- typedef FormData_pg_tablesample_method *Form_pg_tablesample_method;
-
- /* ----------------
- * compiler constants for pg_tablesample_method
- * ----------------
- */
- #define Natts_pg_tablesample_method 10
- #define Anum_pg_tablesample_method_tsmname 1
- #define Anum_pg_tablesample_method_tsmseqscan 2
- #define Anum_pg_tablesample_method_tsmpagemode 3
- #define Anum_pg_tablesample_method_tsminit 4
- #define Anum_pg_tablesample_method_tsmnextblock 5
- #define Anum_pg_tablesample_method_tsmnexttuple 6
- #define Anum_pg_tablesample_method_tsmexaminetuple 7
- #define Anum_pg_tablesample_method_tsmend 8
- #define Anum_pg_tablesample_method_tsmreset 9
- #define Anum_pg_tablesample_method_tsmcost 10
-
- /* ----------------
- * initial contents of pg_tablesample_method
- * ----------------
- */
-
- DATA(insert OID = 3333 ( system false true tsm_system_init tsm_system_nextblock tsm_system_nexttuple - tsm_system_end
tsm_system_resettsm_system_cost ));
- DESCR("SYSTEM table sampling method");
- DATA(insert OID = 3334 ( bernoulli true false tsm_bernoulli_init tsm_bernoulli_nextblock tsm_bernoulli_nexttuple -
tsm_bernoulli_endtsm_bernoulli_reset tsm_bernoulli_cost ));
- DESCR("BERNOULLI table sampling method");
-
- #endif /* PG_TABLESAMPLE_METHOD_H */
--- 0 ----
diff --git a/src/include/catalog/pg_type.h b/src/include/catalog/pg_type.h
index da123f6..7dc95c8 100644
*** a/src/include/catalog/pg_type.h
--- b/src/include/catalog/pg_type.h
*************** DATA(insert OID = 3500 ( anyenum PGNSP
*** 694,699 ****
--- 694,701 ----
#define ANYENUMOID 3500
DATA(insert OID = 3115 ( fdw_handler PGNSP PGUID 4 t p P f t \054 0 0 0 fdw_handler_in fdw_handler_out - - - - -
ip f 0 -1 0 0 _null_ _null_ _null_ ));
#define FDW_HANDLEROID 3115
+ DATA(insert OID = 3310 ( tsm_handler PGNSP PGUID 4 t p P f t \054 0 0 0 tsm_handler_in tsm_handler_out - - - - -
ip f 0 -1 0 0 _null_ _null_ _null_ ));
+ #define TSM_HANDLEROID 3310
DATA(insert OID = 3831 ( anyrange PGNSP PGUID -1 f p P f t \054 0 0 0 anyrange_in anyrange_out - - - - - d x
f0 -1 0 0 _null_ _null_ _null_ ));
#define ANYRANGEOID 3831
diff --git a/src/include/executor/nodeSamplescan.h b/src/include/executor/nodeSamplescan.h
index 4b769da..a0cc6ce 100644
*** a/src/include/executor/nodeSamplescan.h
--- b/src/include/executor/nodeSamplescan.h
***************
*** 4,10 ****
*
*
*
! * Portions Copyright (c) 1996-2014, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* src/include/executor/nodeSamplescan.h
--- 4,10 ----
*
*
*
! * Portions Copyright (c) 1996-2015, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* src/include/executor/nodeSamplescan.h
diff --git a/src/include/nodes/execnodes.h b/src/include/nodes/execnodes.h
index 541ee18..303fc3c 100644
*** a/src/include/nodes/execnodes.h
--- b/src/include/nodes/execnodes.h
*************** typedef struct ScanState
*** 1257,1269 ****
*/
typedef ScanState SeqScanState;
! /*
! * SampleScan
*/
typedef struct SampleScanState
{
ScanState ss;
! struct TableSampleDesc *tsdesc;
} SampleScanState;
/*
--- 1257,1278 ----
*/
typedef ScanState SeqScanState;
! /* ----------------
! * SampleScanState information
! * ----------------
*/
typedef struct SampleScanState
{
ScanState ss;
! List *args; /* expr states for TABLESAMPLE params */
! ExprState *repeatable; /* expr state for REPEATABLE expr */
! /* use struct pointer to avoid including tsmapi.h here */
! struct TsmRoutine *tsmroutine; /* descriptor for tablesample method */
! void *tsm_state; /* tablesample method can keep state here */
! bool use_bulkread; /* use bulkread buffer access strategy? */
! bool use_pagemode; /* use page-at-a-time visibility checking? */
! bool begun; /* false means need to call BeginSampleScan */
! uint32 seed; /* random seed */
} SampleScanState;
/*
diff --git a/src/include/nodes/nodes.h b/src/include/nodes/nodes.h
index f8acda4..748e434 100644
*** a/src/include/nodes/nodes.h
--- b/src/include/nodes/nodes.h
*************** typedef enum NodeTag
*** 51,56 ****
--- 51,57 ----
T_BitmapOr,
T_Scan,
T_SeqScan,
+ T_SampleScan,
T_IndexScan,
T_IndexOnlyScan,
T_BitmapIndexScan,
*************** typedef enum NodeTag
*** 61,67 ****
T_ValuesScan,
T_CteScan,
T_WorkTableScan,
- T_SampleScan,
T_ForeignScan,
T_CustomScan,
T_Join,
--- 62,67 ----
*************** typedef enum NodeTag
*** 400,405 ****
--- 400,406 ----
T_WindowDef,
T_RangeSubselect,
T_RangeFunction,
+ T_RangeTableSample,
T_TypeName,
T_ColumnDef,
T_IndexElem,
*************** typedef enum NodeTag
*** 407,412 ****
--- 408,414 ----
T_DefElem,
T_RangeTblEntry,
T_RangeTblFunction,
+ T_TableSampleClause,
T_WithCheckOption,
T_SortGroupClause,
T_GroupingSet,
*************** typedef enum NodeTag
*** 425,432 ****
T_OnConflictClause,
T_CommonTableExpr,
T_RoleSpec,
- T_RangeTableSample,
- T_TableSampleClause,
/*
* TAGS FOR REPLICATION GRAMMAR PARSE NODES (replnodes.h)
--- 427,432 ----
*************** typedef enum NodeTag
*** 452,458 ****
T_WindowObjectData, /* private in nodeWindowAgg.c */
T_TIDBitmap, /* in nodes/tidbitmap.h */
T_InlineCodeBlock, /* in nodes/parsenodes.h */
! T_FdwRoutine /* in foreign/fdwapi.h */
} NodeTag;
/*
--- 452,459 ----
T_WindowObjectData, /* private in nodeWindowAgg.c */
T_TIDBitmap, /* in nodes/tidbitmap.h */
T_InlineCodeBlock, /* in nodes/parsenodes.h */
! T_FdwRoutine, /* in foreign/fdwapi.h */
! T_TsmRoutine /* in access/tsmapi.h */
} NodeTag;
/*
diff --git a/src/include/nodes/parsenodes.h b/src/include/nodes/parsenodes.h
index b336ff9..151c93a 100644
*** a/src/include/nodes/parsenodes.h
--- b/src/include/nodes/parsenodes.h
*************** typedef struct FuncCall
*** 338,363 ****
} FuncCall;
/*
- * TableSampleClause - a sampling method information
- */
- typedef struct TableSampleClause
- {
- NodeTag type;
- Oid tsmid;
- bool tsmseqscan;
- bool tsmpagemode;
- Oid tsminit;
- Oid tsmnextblock;
- Oid tsmnexttuple;
- Oid tsmexaminetuple;
- Oid tsmend;
- Oid tsmreset;
- Oid tsmcost;
- Node *repeatable;
- List *args;
- } TableSampleClause;
-
- /*
* A_Star - '*' representing all columns of a table or compound field
*
* This can appear within ColumnRef.fields, A_Indirection.indirection, and
--- 338,343 ----
*************** typedef struct RangeFunction
*** 558,576 ****
} RangeFunction;
/*
! * RangeTableSample - represents <table> TABLESAMPLE <method> (<params>) REPEATABLE (<num>)
*
! * SQL Standard specifies only one parameter which is percentage. But we allow
! * custom tablesample methods which may need different input arguments so we
! * accept list of arguments.
*/
typedef struct RangeTableSample
{
NodeTag type;
! RangeVar *relation;
! char *method; /* sampling method */
! Node *repeatable;
! List *args; /* arguments for sampling method */
} RangeTableSample;
/*
--- 538,560 ----
} RangeFunction;
/*
! * RangeTableSample - TABLESAMPLE appearing in a raw FROM clause
*
! * This node, appearing only in raw parse trees, represents
! * <relation> TABLESAMPLE <method> (<params>) REPEATABLE (<num>)
! * Currently, the <relation> can only be a RangeVar, but we might in future
! * allow RangeSubselect and other options. Note that the RangeTableSample
! * is wrapped around the node representing the <relation>, rather than being
! * a subfield of it.
*/
typedef struct RangeTableSample
{
NodeTag type;
! Node *relation; /* relation to be sampled */
! List *method; /* sampling method name (possibly qualified) */
! List *args; /* argument(s) for sampling method */
! Node *repeatable; /* REPEATABLE expression, or NULL if none */
! int location; /* method name location, or -1 if unknown */
} RangeTableSample;
/*
*************** typedef struct RangeTblEntry
*** 810,816 ****
*/
Oid relid; /* OID of the relation */
char relkind; /* relation kind (see pg_class.relkind) */
! TableSampleClause *tablesample; /* sampling method and parameters */
/*
* Fields valid for a subquery RTE (else NULL):
--- 794,800 ----
*/
Oid relid; /* OID of the relation */
char relkind; /* relation kind (see pg_class.relkind) */
! struct TableSampleClause *tablesample; /* sampling info, or NULL */
/*
* Fields valid for a subquery RTE (else NULL):
*************** typedef struct RangeTblFunction
*** 913,918 ****
--- 897,915 ----
} RangeTblFunction;
/*
+ * TableSampleClause - TABLESAMPLE appearing in a transformed FROM clause
+ *
+ * Unlike RangeTableSample, this is a subnode of the relevant RangeTblEntry.
+ */
+ typedef struct TableSampleClause
+ {
+ NodeTag type;
+ Oid tsmhandler; /* OID of the tablesample handler function */
+ List *args; /* tablesample argument expression(s) */
+ Expr *repeatable; /* REPEATABLE expression, or NULL if none */
+ } TableSampleClause;
+
+ /*
* WithCheckOption -
* representation of WITH CHECK OPTION checks to be applied to new tuples
* when inserting/updating an auto-updatable view, or RLS WITH CHECK
*************** typedef struct RenameStmt
*** 2520,2526 ****
typedef struct AlterObjectSchemaStmt
{
NodeTag type;
! ObjectType objectType; /* OBJECT_TABLE, OBJECT_TYPE, etc */
RangeVar *relation; /* in case it's a table */
List *object; /* in case it's some other object */
List *objarg; /* argument types, if applicable */
--- 2517,2523 ----
typedef struct AlterObjectSchemaStmt
{
NodeTag type;
! ObjectType objectType; /* OBJECT_TABLE, OBJECT_TYPE, etc */
RangeVar *relation; /* in case it's a table */
List *object; /* in case it's some other object */
List *objarg; /* argument types, if applicable */
*************** typedef struct AlterObjectSchemaStmt
*** 2535,2541 ****
typedef struct AlterOwnerStmt
{
NodeTag type;
! ObjectType objectType; /* OBJECT_TABLE, OBJECT_TYPE, etc */
RangeVar *relation; /* in case it's a table */
List *object; /* in case it's some other object */
List *objarg; /* argument types, if applicable */
--- 2532,2538 ----
typedef struct AlterOwnerStmt
{
NodeTag type;
! ObjectType objectType; /* OBJECT_TABLE, OBJECT_TYPE, etc */
RangeVar *relation; /* in case it's a table */
List *object; /* in case it's some other object */
List *objarg; /* argument types, if applicable */
diff --git a/src/include/nodes/plannodes.h b/src/include/nodes/plannodes.h
index 5f538f3..0654d02 100644
*** a/src/include/nodes/plannodes.h
--- b/src/include/nodes/plannodes.h
*************** typedef Scan SeqScan;
*** 287,293 ****
* table sample scan node
* ----------------
*/
! typedef Scan SampleScan;
/* ----------------
* index scan node
--- 287,298 ----
* table sample scan node
* ----------------
*/
! typedef struct SampleScan
! {
! Scan scan;
! /* use struct pointer to avoid including parsenodes.h here */
! struct TableSampleClause *tablesample;
! } SampleScan;
/* ----------------
* index scan node
diff --git a/src/include/optimizer/cost.h b/src/include/optimizer/cost.h
index 24003ae..dd43e45 100644
*** a/src/include/optimizer/cost.h
--- b/src/include/optimizer/cost.h
*************** extern double index_pages_fetched(double
*** 68,74 ****
double index_pages, PlannerInfo *root);
extern void cost_seqscan(Path *path, PlannerInfo *root, RelOptInfo *baserel,
ParamPathInfo *param_info);
! extern void cost_samplescan(Path *path, PlannerInfo *root, RelOptInfo *baserel);
extern void cost_index(IndexPath *path, PlannerInfo *root,
double loop_count);
extern void cost_bitmap_heap_scan(Path *path, PlannerInfo *root, RelOptInfo *baserel,
--- 68,75 ----
double index_pages, PlannerInfo *root);
extern void cost_seqscan(Path *path, PlannerInfo *root, RelOptInfo *baserel,
ParamPathInfo *param_info);
! extern void cost_samplescan(Path *path, PlannerInfo *root, RelOptInfo *baserel,
! ParamPathInfo *param_info);
extern void cost_index(IndexPath *path, PlannerInfo *root,
double loop_count);
extern void cost_bitmap_heap_scan(Path *path, PlannerInfo *root, RelOptInfo *baserel,
diff --git a/src/include/parser/parse_func.h b/src/include/parser/parse_func.h
index 3194da4..3264691 100644
*** a/src/include/parser/parse_func.h
--- b/src/include/parser/parse_func.h
*************** typedef enum
*** 33,43 ****
extern Node *ParseFuncOrColumn(ParseState *pstate, List *funcname, List *fargs,
FuncCall *fn, int location);
- extern TableSampleClause *ParseTableSample(ParseState *pstate,
- char *samplemethod,
- Node *repeatable, List *args,
- int location);
-
extern FuncDetailCode func_get_detail(List *funcname,
List *fargs, List *fargnames,
int nargs, Oid *argtypes,
--- 33,38 ----
diff --git a/src/include/port.h b/src/include/port.h
index 71113c0..3787cbf 100644
*** a/src/include/port.h
--- b/src/include/port.h
*************** extern off_t ftello(FILE *stream);
*** 357,366 ****
#endif
#endif
- #define RAND48_SEED_0 (0x330e)
- #define RAND48_SEED_1 (0xabcd)
- #define RAND48_SEED_2 (0x1234)
-
extern double pg_erand48(unsigned short xseed[3]);
extern long pg_lrand48(void);
extern void pg_srand48(long seed);
--- 357,362 ----
diff --git a/src/include/utils/builtins.h b/src/include/utils/builtins.h
index fcb0bf0..49caa56 100644
*** a/src/include/utils/builtins.h
--- b/src/include/utils/builtins.h
*************** extern Datum language_handler_in(PG_FUNC
*** 566,571 ****
--- 566,573 ----
extern Datum language_handler_out(PG_FUNCTION_ARGS);
extern Datum fdw_handler_in(PG_FUNCTION_ARGS);
extern Datum fdw_handler_out(PG_FUNCTION_ARGS);
+ extern Datum tsm_handler_in(PG_FUNCTION_ARGS);
+ extern Datum tsm_handler_out(PG_FUNCTION_ARGS);
extern Datum internal_in(PG_FUNCTION_ARGS);
extern Datum internal_out(PG_FUNCTION_ARGS);
extern Datum opaque_in(PG_FUNCTION_ARGS);
*************** extern Datum ginqueryarrayextract(PG_FUN
*** 1213,1218 ****
--- 1215,1226 ----
extern Datum ginarrayconsistent(PG_FUNCTION_ARGS);
extern Datum ginarraytriconsistent(PG_FUNCTION_ARGS);
+ /* access/tablesample/bernoulli.c */
+ extern Datum tsm_bernoulli_handler(PG_FUNCTION_ARGS);
+
+ /* access/tablesample/system.c */
+ extern Datum tsm_system_handler(PG_FUNCTION_ARGS);
+
/* access/transam/twophase.c */
extern Datum pg_prepared_xact(PG_FUNCTION_ARGS);
diff --git a/src/include/utils/lsyscache.h b/src/include/utils/lsyscache.h
index a40c9b1..9711538 100644
*** a/src/include/utils/lsyscache.h
--- b/src/include/utils/lsyscache.h
*************** extern void free_attstatsslot(Oid atttyp
*** 156,162 ****
extern char *get_namespace_name(Oid nspid);
extern char *get_namespace_name_or_temp(Oid nspid);
extern Oid get_range_subtype(Oid rangeOid);
- extern char *get_tablesample_method_name(Oid tsmid);
#define type_is_array(typid) (get_element_type(typid) != InvalidOid)
/* type_is_array_domain accepts both plain arrays and domains over arrays */
--- 156,161 ----
diff --git a/src/include/utils/syscache.h b/src/include/utils/syscache.h
index f06f03a..18404e2 100644
*** a/src/include/utils/syscache.h
--- b/src/include/utils/syscache.h
*************** enum SysCacheIdentifier
*** 81,88 ****
REPLORIGNAME,
RULERELNAME,
STATRELATTINH,
- TABLESAMPLEMETHODNAME,
- TABLESAMPLEMETHODOID,
TABLESPACEOID,
TRFOID,
TRFTYPELANG,
--- 81,86 ----
diff --git a/src/port/erand48.c b/src/port/erand48.c
index 12efd81..9d47119 100644
*** a/src/port/erand48.c
--- b/src/port/erand48.c
***************
*** 33,38 ****
--- 33,41 ----
#include <math.h>
+ #define RAND48_SEED_0 (0x330e)
+ #define RAND48_SEED_1 (0xabcd)
+ #define RAND48_SEED_2 (0x1234)
#define RAND48_MULT_0 (0xe66d)
#define RAND48_MULT_1 (0xdeec)
#define RAND48_MULT_2 (0x0005)
diff --git a/src/test/regress/expected/rowsecurity.out b/src/test/regress/expected/rowsecurity.out
index eabfd93..343c4fb 100644
*** a/src/test/regress/expected/rowsecurity.out
--- b/src/test/regress/expected/rowsecurity.out
*************** NOTICE: f_leak => great manga
*** 101,115 ****
44 | 8 | 1 | rls_regress_user2 | great manga | manga
(4 rows)
! SELECT * FROM document TABLESAMPLE BERNOULLI (50) REPEATABLE(1) WHERE f_leak(dtitle) ORDER BY did;
! NOTICE: f_leak => my first novel
NOTICE: f_leak => my first manga
NOTICE: f_leak => great science fiction
did | cid | dlevel | dauthor | dtitle
-----+-----+--------+-------------------+-----------------------
- 1 | 11 | 1 | rls_regress_user1 | my first novel
4 | 44 | 1 | rls_regress_user1 | my first manga
6 | 22 | 1 | rls_regress_user2 | great science fiction
(3 rows)
-- viewpoint from rls_regress_user2
--- 101,117 ----
44 | 8 | 1 | rls_regress_user2 | great manga | manga
(4 rows)
! -- try a sampled version
! SELECT * FROM document TABLESAMPLE BERNOULLI(50) REPEATABLE(0)
! WHERE f_leak(dtitle) ORDER BY did;
NOTICE: f_leak => my first manga
NOTICE: f_leak => great science fiction
+ NOTICE: f_leak => great manga
did | cid | dlevel | dauthor | dtitle
-----+-----+--------+-------------------+-----------------------
4 | 44 | 1 | rls_regress_user1 | my first manga
6 | 22 | 1 | rls_regress_user2 | great science fiction
+ 8 | 44 | 1 | rls_regress_user2 | great manga
(3 rows)
-- viewpoint from rls_regress_user2
*************** NOTICE: f_leak => great manga
*** 156,175 ****
44 | 8 | 1 | rls_regress_user2 | great manga | manga
(8 rows)
! SELECT * FROM document TABLESAMPLE BERNOULLI (50) REPEATABLE(1) WHERE f_leak(dtitle) ORDER BY did;
! NOTICE: f_leak => my first novel
! NOTICE: f_leak => my second novel
NOTICE: f_leak => my first manga
NOTICE: f_leak => great science fiction
! NOTICE: f_leak => great technology book
did | cid | dlevel | dauthor | dtitle
-----+-----+--------+-------------------+-----------------------
- 1 | 11 | 1 | rls_regress_user1 | my first novel
- 2 | 11 | 2 | rls_regress_user1 | my second novel
4 | 44 | 1 | rls_regress_user1 | my first manga
6 | 22 | 1 | rls_regress_user2 | great science fiction
! 7 | 33 | 2 | rls_regress_user2 | great technology book
! (5 rows)
EXPLAIN (COSTS OFF) SELECT * FROM document WHERE f_leak(dtitle);
QUERY PLAN
--- 158,177 ----
44 | 8 | 1 | rls_regress_user2 | great manga | manga
(8 rows)
! -- try a sampled version
! SELECT * FROM document TABLESAMPLE BERNOULLI(50) REPEATABLE(0)
! WHERE f_leak(dtitle) ORDER BY did;
NOTICE: f_leak => my first manga
+ NOTICE: f_leak => my second manga
NOTICE: f_leak => great science fiction
! NOTICE: f_leak => great manga
did | cid | dlevel | dauthor | dtitle
-----+-----+--------+-------------------+-----------------------
4 | 44 | 1 | rls_regress_user1 | my first manga
+ 5 | 44 | 2 | rls_regress_user1 | my second manga
6 | 22 | 1 | rls_regress_user2 | great science fiction
! 8 | 44 | 1 | rls_regress_user2 | great manga
! (4 rows)
EXPLAIN (COSTS OFF) SELECT * FROM document WHERE f_leak(dtitle);
QUERY PLAN
diff --git a/src/test/regress/expected/rules.out b/src/test/regress/expected/rules.out
index cd53375..1e5b0b9 100644
*** a/src/test/regress/expected/rules.out
--- b/src/test/regress/expected/rules.out
*************** street| SELECT r.name,
*** 2202,2207 ****
--- 2202,2211 ----
FROM ONLY road r,
real_city c
WHERE (c.outline ## r.thepath);
+ test_tablesample_v1| SELECT test_tablesample.id
+ FROM test_tablesample TABLESAMPLE system ((10 * 2)) REPEATABLE (2);
+ test_tablesample_v2| SELECT test_tablesample.id
+ FROM test_tablesample TABLESAMPLE system (99);
toyemp| SELECT emp.name,
emp.age,
emp.location,
diff --git a/src/test/regress/expected/sanity_check.out b/src/test/regress/expected/sanity_check.out
index 14acd16..eb0bc88 100644
*** a/src/test/regress/expected/sanity_check.out
--- b/src/test/regress/expected/sanity_check.out
*************** pg_shdepend|t
*** 128,134 ****
pg_shdescription|t
pg_shseclabel|t
pg_statistic|t
- pg_tablesample_method|t
pg_tablespace|t
pg_transform|t
pg_trigger|t
--- 128,133 ----
diff --git a/src/test/regress/expected/tablesample.out b/src/test/regress/expected/tablesample.out
index 04e5eb8..727a835 100644
*** a/src/test/regress/expected/tablesample.out
--- b/src/test/regress/expected/tablesample.out
***************
*** 1,107 ****
! CREATE TABLE test_tablesample (id int, name text) WITH (fillfactor=10); -- force smaller pages so we don't have to
loadtoo much data to get multiple pages
! INSERT INTO test_tablesample SELECT i, repeat(i::text, 200) FROM generate_series(0, 9) s(i) ORDER BY i;
! SELECT t.id FROM test_tablesample AS t TABLESAMPLE SYSTEM (50) REPEATABLE (10);
id
----
- 0
- 1
- 2
3
4
5
- 9
- (7 rows)
-
- SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (100.0/11) REPEATABLE (9999);
- id
- ----
6
7
8
! (3 rows)
! SELECT count(*) FROM test_tablesample TABLESAMPLE SYSTEM (100);
! count
! -------
! 10
! (1 row)
! SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (100);
id
----
! 0
! 1
! 2
6
7
8
! 9
! (7 rows)
! SELECT id FROM test_tablesample TABLESAMPLE BERNOULLI (50) REPEATABLE (100);
id
----
- 0
- 1
- 3
4
5
(5 rows)
! SELECT id FROM test_tablesample TABLESAMPLE BERNOULLI (5.5) REPEATABLE (1);
id
----
! 0
! 5
! (2 rows)
! CREATE VIEW test_tablesample_v1 AS SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (10*2) REPEATABLE (2);
! CREATE VIEW test_tablesample_v2 AS SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (99);
! SELECT pg_get_viewdef('test_tablesample_v1'::regclass);
! pg_get_viewdef
! --------------------------------------------------------------------------------
! SELECT test_tablesample.id +
! FROM test_tablesample TABLESAMPLE system (((10 * 2))::real) REPEATABLE (2);
(1 row)
! SELECT pg_get_viewdef('test_tablesample_v2'::regclass);
! pg_get_viewdef
! -----------------------------------------------------------
! SELECT test_tablesample.id +
! FROM test_tablesample TABLESAMPLE system ((99)::real);
(1 row)
BEGIN;
! DECLARE tablesample_cur CURSOR FOR SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (100);
FETCH FIRST FROM tablesample_cur;
id
----
! 0
(1 row)
FETCH NEXT FROM tablesample_cur;
id
----
! 1
(1 row)
FETCH NEXT FROM tablesample_cur;
id
----
! 2
(1 row)
! SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (10);
id
----
- 0
- 1
- 2
3
4
5
! 9
! (7 rows)
FETCH NEXT FROM tablesample_cur;
id
--- 1,123 ----
! CREATE TABLE test_tablesample (id int, name text) WITH (fillfactor=10);
! -- use fillfactor so we don't have to load too much data to get multiple pages
! INSERT INTO test_tablesample
! SELECT i, repeat(i::text, 200) FROM generate_series(0, 9) s(i);
! SELECT t.id FROM test_tablesample AS t TABLESAMPLE SYSTEM (50) REPEATABLE (0);
id
----
3
4
5
6
7
8
! (6 rows)
! SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (100.0/11) REPEATABLE (0);
! id
! ----
! (0 rows)
! SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (0);
id
----
! 3
! 4
! 5
6
7
8
! (6 rows)
! SELECT id FROM test_tablesample TABLESAMPLE BERNOULLI (50) REPEATABLE (0);
id
----
4
5
+ 6
+ 7
+ 8
(5 rows)
! SELECT id FROM test_tablesample TABLESAMPLE BERNOULLI (5.5) REPEATABLE (0);
id
----
! 7
! (1 row)
! -- 100% should give repeatable count results (ie, all rows) in any case
! SELECT count(*) FROM test_tablesample TABLESAMPLE SYSTEM (100);
! count
! -------
! 10
(1 row)
! SELECT count(*) FROM test_tablesample TABLESAMPLE SYSTEM (100) REPEATABLE (1+2);
! count
! -------
! 10
! (1 row)
!
! SELECT count(*) FROM test_tablesample TABLESAMPLE SYSTEM (100) REPEATABLE (0.4);
! count
! -------
! 10
(1 row)
+ CREATE VIEW test_tablesample_v1 AS
+ SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (10*2) REPEATABLE (2);
+ CREATE VIEW test_tablesample_v2 AS
+ SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (99);
+ \d+ test_tablesample_v1
+ View "public.test_tablesample_v1"
+ Column | Type | Modifiers | Storage | Description
+ --------+---------+-----------+---------+-------------
+ id | integer | | plain |
+ View definition:
+ SELECT test_tablesample.id
+ FROM test_tablesample TABLESAMPLE system ((10 * 2)) REPEATABLE (2);
+
+ \d+ test_tablesample_v2
+ View "public.test_tablesample_v2"
+ Column | Type | Modifiers | Storage | Description
+ --------+---------+-----------+---------+-------------
+ id | integer | | plain |
+ View definition:
+ SELECT test_tablesample.id
+ FROM test_tablesample TABLESAMPLE system (99);
+
+ -- check a sampled query doesn't affect cursor in progress
BEGIN;
! DECLARE tablesample_cur CURSOR FOR
! SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (0);
FETCH FIRST FROM tablesample_cur;
id
----
! 3
(1 row)
FETCH NEXT FROM tablesample_cur;
id
----
! 4
(1 row)
FETCH NEXT FROM tablesample_cur;
id
----
! 5
(1 row)
! SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (0);
id
----
3
4
5
! 6
! 7
! 8
! (6 rows)
FETCH NEXT FROM tablesample_cur;
id
*************** FETCH NEXT FROM tablesample_cur;
*** 124,142 ****
FETCH FIRST FROM tablesample_cur;
id
----
! 0
(1 row)
FETCH NEXT FROM tablesample_cur;
id
----
! 1
(1 row)
FETCH NEXT FROM tablesample_cur;
id
----
! 2
(1 row)
FETCH NEXT FROM tablesample_cur;
--- 140,158 ----
FETCH FIRST FROM tablesample_cur;
id
----
! 3
(1 row)
FETCH NEXT FROM tablesample_cur;
id
----
! 4
(1 row)
FETCH NEXT FROM tablesample_cur;
id
----
! 5
(1 row)
FETCH NEXT FROM tablesample_cur;
*************** FETCH NEXT FROM tablesample_cur;
*** 159,199 ****
CLOSE tablesample_cur;
END;
! EXPLAIN SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (10);
! QUERY PLAN
! -------------------------------------------------------------------------------
! Sample Scan (system) on test_tablesample (cost=0.00..26.35 rows=635 width=4)
(1 row)
! EXPLAIN SELECT * FROM test_tablesample_v1;
! QUERY PLAN
! -------------------------------------------------------------------------------
! Sample Scan (system) on test_tablesample (cost=0.00..10.54 rows=254 width=4)
(1 row)
-- errors
SELECT id FROM test_tablesample TABLESAMPLE FOOBAR (1);
! ERROR: tablesample method "foobar" does not exist
LINE 1: SELECT id FROM test_tablesample TABLESAMPLE FOOBAR (1);
! ^
SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (NULL);
! ERROR: REPEATABLE clause must be NOT NULL numeric value
! LINE 1: ... test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (NULL);
! ^
SELECT id FROM test_tablesample TABLESAMPLE BERNOULLI (-1);
! ERROR: invalid sample size
! HINT: Sample size must be numeric value between 0 and 100 (inclusive).
SELECT id FROM test_tablesample TABLESAMPLE BERNOULLI (200);
! ERROR: invalid sample size
! HINT: Sample size must be numeric value between 0 and 100 (inclusive).
SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (-1);
! ERROR: invalid sample size
! HINT: Sample size must be numeric value between 0 and 100 (inclusive).
SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (200);
! ERROR: invalid sample size
! HINT: Sample size must be numeric value between 0 and 100 (inclusive).
SELECT id FROM test_tablesample_v1 TABLESAMPLE BERNOULLI (1);
! ERROR: TABLESAMPLE clause can only be used on tables and materialized views
LINE 1: SELECT id FROM test_tablesample_v1 TABLESAMPLE BERNOULLI (1)...
^
INSERT INTO test_tablesample_v1 VALUES(1);
--- 175,303 ----
CLOSE tablesample_cur;
END;
! EXPLAIN (COSTS OFF)
! SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (2);
! QUERY PLAN
! --------------------------------------------------------------------
! Sample Scan on test_tablesample
! Sampling: system ('50'::real) REPEATABLE ('2'::double precision)
! (2 rows)
!
! EXPLAIN (COSTS OFF)
! SELECT * FROM test_tablesample_v1;
! QUERY PLAN
! --------------------------------------------------------------------
! Sample Scan on test_tablesample
! Sampling: system ('20'::real) REPEATABLE ('2'::double precision)
! (2 rows)
!
! -- check inheritance behavior
! explain (costs off)
! select count(*) from person tablesample bernoulli (100);
! QUERY PLAN
! -------------------------------------------------
! Aggregate
! -> Append
! -> Sample Scan on person
! Sampling: bernoulli ('100'::real)
! -> Sample Scan on emp
! Sampling: bernoulli ('100'::real)
! -> Sample Scan on student
! Sampling: bernoulli ('100'::real)
! -> Sample Scan on stud_emp
! Sampling: bernoulli ('100'::real)
! (10 rows)
!
! select count(*) from person tablesample bernoulli (100);
! count
! -------
! 58
(1 row)
! select count(*) from person;
! count
! -------
! 58
! (1 row)
!
! -- check that collations get assigned within the tablesample arguments
! SELECT count(*) FROM test_tablesample TABLESAMPLE bernoulli (('1'::text < '0'::text)::int);
! count
! -------
! 0
! (1 row)
!
! -- check behavior during rescans, as well as correct handling of min/max pct
! select * from
! (values (0),(100)) v(pct),
! lateral (select count(*) from tenk1 tablesample bernoulli (pct)) ss;
! pct | count
! -----+-------
! 0 | 0
! 100 | 10000
! (2 rows)
!
! select * from
! (values (0),(100)) v(pct),
! lateral (select count(*) from tenk1 tablesample system (pct)) ss;
! pct | count
! -----+-------
! 0 | 0
! 100 | 10000
! (2 rows)
!
! explain (costs off)
! select pct, count(unique1) from
! (values (0),(100)) v(pct),
! lateral (select * from tenk1 tablesample bernoulli (pct)) ss
! group by pct;
! QUERY PLAN
! --------------------------------------------------------
! HashAggregate
! Group Key: "*VALUES*".column1
! -> Nested Loop
! -> Values Scan on "*VALUES*"
! -> Sample Scan on tenk1
! Sampling: bernoulli ("*VALUES*".column1)
! (6 rows)
!
! select pct, count(unique1) from
! (values (0),(100)) v(pct),
! lateral (select * from tenk1 tablesample bernoulli (pct)) ss
! group by pct;
! pct | count
! -----+-------
! 100 | 10000
! (1 row)
!
! select pct, count(unique1) from
! (values (0),(100)) v(pct),
! lateral (select * from tenk1 tablesample system (pct)) ss
! group by pct;
! pct | count
! -----+-------
! 100 | 10000
(1 row)
-- errors
SELECT id FROM test_tablesample TABLESAMPLE FOOBAR (1);
! ERROR: tablesample method foobar does not exist
LINE 1: SELECT id FROM test_tablesample TABLESAMPLE FOOBAR (1);
! ^
! SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (NULL);
! ERROR: TABLESAMPLE parameter cannot be null
SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (NULL);
! ERROR: TABLESAMPLE REPEATABLE parameter cannot be null
SELECT id FROM test_tablesample TABLESAMPLE BERNOULLI (-1);
! ERROR: sample percentage must be between 0 and 100
SELECT id FROM test_tablesample TABLESAMPLE BERNOULLI (200);
! ERROR: sample percentage must be between 0 and 100
SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (-1);
! ERROR: sample percentage must be between 0 and 100
SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (200);
! ERROR: sample percentage must be between 0 and 100
SELECT id FROM test_tablesample_v1 TABLESAMPLE BERNOULLI (1);
! ERROR: TABLESAMPLE clause can only be applied to tables and materialized views
LINE 1: SELECT id FROM test_tablesample_v1 TABLESAMPLE BERNOULLI (1)...
^
INSERT INTO test_tablesample_v1 VALUES(1);
*************** DETAIL: Views containing TABLESAMPLE ar
*** 202,231 ****
HINT: To enable inserting into the view, provide an INSTEAD OF INSERT trigger or an unconditional ON INSERT DO
INSTEADrule.
WITH query_select AS (SELECT * FROM test_tablesample)
SELECT * FROM query_select TABLESAMPLE BERNOULLI (5.5) REPEATABLE (1);
! ERROR: TABLESAMPLE clause can only be used on tables and materialized views
LINE 2: SELECT * FROM query_select TABLESAMPLE BERNOULLI (5.5) REPEA...
^
SELECT q.* FROM (SELECT * FROM test_tablesample) as q TABLESAMPLE BERNOULLI (5);
ERROR: syntax error at or near "TABLESAMPLE"
LINE 1: ...CT q.* FROM (SELECT * FROM test_tablesample) as q TABLESAMPL...
^
- -- catalog sanity
- SELECT *
- FROM pg_tablesample_method
- WHERE tsminit IS NULL
- OR tsmseqscan IS NULL
- OR tsmpagemode IS NULL
- OR tsmnextblock IS NULL
- OR tsmnexttuple IS NULL
- OR tsmend IS NULL
- OR tsmreset IS NULL
- OR tsmcost IS NULL;
- tsmname | tsmseqscan | tsmpagemode | tsminit | tsmnextblock | tsmnexttuple | tsmexaminetuple | tsmend | tsmreset |
tsmcost
-
---------+------------+-------------+---------+--------------+--------------+-----------------+--------+----------+---------
- (0 rows)
-
- -- done
- DROP TABLE test_tablesample CASCADE;
- NOTICE: drop cascades to 2 other objects
- DETAIL: drop cascades to view test_tablesample_v1
- drop cascades to view test_tablesample_v2
--- 306,315 ----
HINT: To enable inserting into the view, provide an INSTEAD OF INSERT trigger or an unconditional ON INSERT DO
INSTEADrule.
WITH query_select AS (SELECT * FROM test_tablesample)
SELECT * FROM query_select TABLESAMPLE BERNOULLI (5.5) REPEATABLE (1);
! ERROR: TABLESAMPLE clause can only be applied to tables and materialized views
LINE 2: SELECT * FROM query_select TABLESAMPLE BERNOULLI (5.5) REPEA...
^
SELECT q.* FROM (SELECT * FROM test_tablesample) as q TABLESAMPLE BERNOULLI (5);
ERROR: syntax error at or near "TABLESAMPLE"
LINE 1: ...CT q.* FROM (SELECT * FROM test_tablesample) as q TABLESAMPL...
^
diff --git a/src/test/regress/output/misc.source b/src/test/regress/output/misc.source
index 70c9cc3..9eedb36 100644
*** a/src/test/regress/output/misc.source
--- b/src/test/regress/output/misc.source
*************** SELECT user_relns() AS user_relns
*** 686,691 ****
--- 686,694 ----
test_range_excl
test_range_gist
test_range_spgist
+ test_tablesample
+ test_tablesample_v1
+ test_tablesample_v2
test_tsvector
testjsonb
text_tbl
*************** SELECT user_relns() AS user_relns
*** 705,711 ****
tvvmv
varchar_tbl
xacttest
! (127 rows)
SELECT name(equipment(hobby_construct(text 'skywalking', text 'mer')));
name
--- 708,714 ----
tvvmv
varchar_tbl
xacttest
! (130 rows)
SELECT name(equipment(hobby_construct(text 'skywalking', text 'mer')));
name
diff --git a/src/test/regress/serial_schedule b/src/test/regress/serial_schedule
index 3a607cf..15d74d4 100644
*** a/src/test/regress/serial_schedule
--- b/src/test/regress/serial_schedule
*************** test: lock
*** 110,115 ****
--- 110,116 ----
test: replica_identity
test: rowsecurity
test: object_address
+ test: tablesample
test: alter_generic
test: alter_operator
test: misc
*************** test: with
*** 156,159 ****
test: xml
test: event_trigger
test: stats
- test: tablesample
--- 157,159 ----
diff --git a/src/test/regress/sql/rowsecurity.sql b/src/test/regress/sql/rowsecurity.sql
index 782824a..2495f32 100644
*** a/src/test/regress/sql/rowsecurity.sql
--- b/src/test/regress/sql/rowsecurity.sql
*************** SET row_security TO ON;
*** 94,107 ****
SELECT * FROM document WHERE f_leak(dtitle) ORDER BY did;
SELECT * FROM document NATURAL JOIN category WHERE f_leak(dtitle) ORDER BY did;
! SELECT * FROM document TABLESAMPLE BERNOULLI (50) REPEATABLE(1) WHERE f_leak(dtitle) ORDER BY did;
-- viewpoint from rls_regress_user2
SET SESSION AUTHORIZATION rls_regress_user2;
SELECT * FROM document WHERE f_leak(dtitle) ORDER BY did;
SELECT * FROM document NATURAL JOIN category WHERE f_leak(dtitle) ORDER BY did;
! SELECT * FROM document TABLESAMPLE BERNOULLI (50) REPEATABLE(1) WHERE f_leak(dtitle) ORDER BY did;
EXPLAIN (COSTS OFF) SELECT * FROM document WHERE f_leak(dtitle);
EXPLAIN (COSTS OFF) SELECT * FROM document NATURAL JOIN category WHERE f_leak(dtitle);
--- 94,111 ----
SELECT * FROM document WHERE f_leak(dtitle) ORDER BY did;
SELECT * FROM document NATURAL JOIN category WHERE f_leak(dtitle) ORDER BY did;
! -- try a sampled version
! SELECT * FROM document TABLESAMPLE BERNOULLI(50) REPEATABLE(0)
! WHERE f_leak(dtitle) ORDER BY did;
-- viewpoint from rls_regress_user2
SET SESSION AUTHORIZATION rls_regress_user2;
SELECT * FROM document WHERE f_leak(dtitle) ORDER BY did;
SELECT * FROM document NATURAL JOIN category WHERE f_leak(dtitle) ORDER BY did;
! -- try a sampled version
! SELECT * FROM document TABLESAMPLE BERNOULLI(50) REPEATABLE(0)
! WHERE f_leak(dtitle) ORDER BY did;
EXPLAIN (COSTS OFF) SELECT * FROM document WHERE f_leak(dtitle);
EXPLAIN (COSTS OFF) SELECT * FROM document NATURAL JOIN category WHERE f_leak(dtitle);
diff --git a/src/test/regress/sql/tablesample.sql b/src/test/regress/sql/tablesample.sql
index 7b3eb9b..eec9793 100644
*** a/src/test/regress/sql/tablesample.sql
--- b/src/test/regress/sql/tablesample.sql
***************
*** 1,26 ****
! CREATE TABLE test_tablesample (id int, name text) WITH (fillfactor=10); -- force smaller pages so we don't have to
loadtoo much data to get multiple pages
! INSERT INTO test_tablesample SELECT i, repeat(i::text, 200) FROM generate_series(0, 9) s(i) ORDER BY i;
! SELECT t.id FROM test_tablesample AS t TABLESAMPLE SYSTEM (50) REPEATABLE (10);
! SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (100.0/11) REPEATABLE (9999);
SELECT count(*) FROM test_tablesample TABLESAMPLE SYSTEM (100);
! SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (100);
! SELECT id FROM test_tablesample TABLESAMPLE BERNOULLI (50) REPEATABLE (100);
! SELECT id FROM test_tablesample TABLESAMPLE BERNOULLI (5.5) REPEATABLE (1);
! CREATE VIEW test_tablesample_v1 AS SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (10*2) REPEATABLE (2);
! CREATE VIEW test_tablesample_v2 AS SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (99);
! SELECT pg_get_viewdef('test_tablesample_v1'::regclass);
! SELECT pg_get_viewdef('test_tablesample_v2'::regclass);
BEGIN;
! DECLARE tablesample_cur CURSOR FOR SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (100);
FETCH FIRST FROM tablesample_cur;
FETCH NEXT FROM tablesample_cur;
FETCH NEXT FROM tablesample_cur;
! SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (10);
FETCH NEXT FROM tablesample_cur;
FETCH NEXT FROM tablesample_cur;
--- 1,37 ----
! CREATE TABLE test_tablesample (id int, name text) WITH (fillfactor=10);
! -- use fillfactor so we don't have to load too much data to get multiple pages
! INSERT INTO test_tablesample
! SELECT i, repeat(i::text, 200) FROM generate_series(0, 9) s(i);
! SELECT t.id FROM test_tablesample AS t TABLESAMPLE SYSTEM (50) REPEATABLE (0);
! SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (100.0/11) REPEATABLE (0);
! SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (0);
! SELECT id FROM test_tablesample TABLESAMPLE BERNOULLI (50) REPEATABLE (0);
! SELECT id FROM test_tablesample TABLESAMPLE BERNOULLI (5.5) REPEATABLE (0);
!
! -- 100% should give repeatable count results (ie, all rows) in any case
SELECT count(*) FROM test_tablesample TABLESAMPLE SYSTEM (100);
! SELECT count(*) FROM test_tablesample TABLESAMPLE SYSTEM (100) REPEATABLE (1+2);
! SELECT count(*) FROM test_tablesample TABLESAMPLE SYSTEM (100) REPEATABLE (0.4);
! CREATE VIEW test_tablesample_v1 AS
! SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (10*2) REPEATABLE (2);
! CREATE VIEW test_tablesample_v2 AS
! SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (99);
! \d+ test_tablesample_v1
! \d+ test_tablesample_v2
+ -- check a sampled query doesn't affect cursor in progress
BEGIN;
! DECLARE tablesample_cur CURSOR FOR
! SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (0);
!
FETCH FIRST FROM tablesample_cur;
FETCH NEXT FROM tablesample_cur;
FETCH NEXT FROM tablesample_cur;
! SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (0);
FETCH NEXT FROM tablesample_cur;
FETCH NEXT FROM tablesample_cur;
*************** FETCH NEXT FROM tablesample_cur;
*** 36,47 ****
CLOSE tablesample_cur;
END;
! EXPLAIN SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (10);
! EXPLAIN SELECT * FROM test_tablesample_v1;
-- errors
SELECT id FROM test_tablesample TABLESAMPLE FOOBAR (1);
SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (NULL);
SELECT id FROM test_tablesample TABLESAMPLE BERNOULLI (-1);
--- 47,91 ----
CLOSE tablesample_cur;
END;
! EXPLAIN (COSTS OFF)
! SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (2);
! EXPLAIN (COSTS OFF)
! SELECT * FROM test_tablesample_v1;
!
! -- check inheritance behavior
! explain (costs off)
! select count(*) from person tablesample bernoulli (100);
! select count(*) from person tablesample bernoulli (100);
! select count(*) from person;
!
! -- check that collations get assigned within the tablesample arguments
! SELECT count(*) FROM test_tablesample TABLESAMPLE bernoulli (('1'::text < '0'::text)::int);
!
! -- check behavior during rescans, as well as correct handling of min/max pct
! select * from
! (values (0),(100)) v(pct),
! lateral (select count(*) from tenk1 tablesample bernoulli (pct)) ss;
! select * from
! (values (0),(100)) v(pct),
! lateral (select count(*) from tenk1 tablesample system (pct)) ss;
! explain (costs off)
! select pct, count(unique1) from
! (values (0),(100)) v(pct),
! lateral (select * from tenk1 tablesample bernoulli (pct)) ss
! group by pct;
! select pct, count(unique1) from
! (values (0),(100)) v(pct),
! lateral (select * from tenk1 tablesample bernoulli (pct)) ss
! group by pct;
! select pct, count(unique1) from
! (values (0),(100)) v(pct),
! lateral (select * from tenk1 tablesample system (pct)) ss
! group by pct;
-- errors
SELECT id FROM test_tablesample TABLESAMPLE FOOBAR (1);
+ SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (NULL);
SELECT id FROM test_tablesample TABLESAMPLE SYSTEM (50) REPEATABLE (NULL);
SELECT id FROM test_tablesample TABLESAMPLE BERNOULLI (-1);
*************** WITH query_select AS (SELECT * FROM test
*** 56,74 ****
SELECT * FROM query_select TABLESAMPLE BERNOULLI (5.5) REPEATABLE (1);
SELECT q.* FROM (SELECT * FROM test_tablesample) as q TABLESAMPLE BERNOULLI (5);
-
- -- catalog sanity
-
- SELECT *
- FROM pg_tablesample_method
- WHERE tsminit IS NULL
- OR tsmseqscan IS NULL
- OR tsmpagemode IS NULL
- OR tsmnextblock IS NULL
- OR tsmnexttuple IS NULL
- OR tsmend IS NULL
- OR tsmreset IS NULL
- OR tsmcost IS NULL;
-
- -- done
- DROP TABLE test_tablesample CASCADE;
--- 100,102 ----
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