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Commit Graph

319 Commits

Author SHA1 Message Date
Tom Lane
b74c543685 Improve usage of effective_cache_size parameter by assuming that all the
tables in the query compete for cache space, not just the one we are
currently costing an indexscan for.  This seems more realistic, and it
definitely will help in examples recently exhibited by Stefan
Kaltenbrunner.  To get the total size of all the tables involved, we must
tweak the handling of 'append relations' a bit --- formerly we looked up
information about the child tables on-the-fly during set_append_rel_pathlist,
but it needs to be done before we start doing any cost estimation, so
push it into the add_base_rels_to_query scan.
2006-09-19 22:49:53 +00:00
Tom Lane
7a3e30e608 Add INSERT/UPDATE/DELETE RETURNING, with basic docs and regression tests.
plpgsql support to come later.  Along the way, convert execMain's
SELECT INTO support into a DestReceiver, in order to eliminate some ugly
special cases.

Jonah Harris and Tom Lane
2006-08-12 02:52:06 +00:00
Joe Conway
9caafda579 Add support for multi-row VALUES clauses as part of INSERT statements
(e.g. "INSERT ... VALUES (...), (...), ...") and elsewhere as allowed
by the spec. (e.g. similar to a FROM clause subselect). initdb required.
Joe Conway and Tom Lane.
2006-08-02 01:59:48 +00:00
Tom Lane
09d3670df3 Change the relation_open protocol so that we obtain lock on a relation
(table or index) before trying to open its relcache entry.  This fixes
race conditions in which someone else commits a change to the relation's
catalog entries while we are in process of doing relcache load.  Problems
of that ilk have been reported sporadically for years, but it was not
really practical to fix until recently --- for instance, the recent
addition of WAL-log support for in-place updates helped.

Along the way, remove pg_am.amconcurrent: all AMs are now expected to support
concurrent update.
2006-07-31 20:09:10 +00:00
Peter Eisentraut
79bc99a467 Convert effective_cache_size to an integer, for better integration with
upcoming units feature.
2006-07-26 11:35:56 +00:00
Bruce Momjian
085e559654 Change LIMIT/OFFSET to use int8
Dhanaraj M
2006-07-26 00:34:48 +00:00
Tom Lane
98359c3e3f In the recent changes to make the planner account better for cache
effects in a nestloop inner indexscan, I had only dealt with plain index
scans and the index portion of bitmap scans.  But there will be cache
benefits for the heap accesses of bitmap scans too, so fix
cost_bitmap_heap_scan() to account for that.
2006-07-22 15:41:56 +00:00
Tom Lane
9b556322c5 Fix some missing inclusions identified with new pgcheckdefines tool. 2006-07-15 03:35:21 +00:00
Bruce Momjian
a22d76d96a Allow include files to compile own their own.
Strip unused include files out unused include files, and add needed
includes to C files.

The next step is to remove unused include files in C files.
2006-07-13 16:49:20 +00:00
Tom Lane
cffd89ca73 Revise the planner's handling of "pseudoconstant" WHERE clauses, that is
clauses containing no variables and no volatile functions.  Such a clause
can be used as a one-time qual in a gating Result plan node, to suppress
plan execution entirely when it is false.  Even when the clause is true,
putting it in a gating node wins by avoiding repeated evaluation of the
clause.  In previous PG releases, query_planner() would do this for
pseudoconstant clauses appearing at the top level of the jointree, but
there was no ability to generate a gating Result deeper in the plan tree.
To fix it, get rid of the special case in query_planner(), and instead
process pseudoconstant clauses through the normal RestrictInfo qual
distribution mechanism.  When a pseudoconstant clause is found attached to
a path node in create_plan(), pull it out and generate a gating Result at
that point.  This requires special-casing pseudoconstants in selectivity
estimation and cost_qual_eval, but on the whole it's pretty clean.
It probably even makes the planner a bit faster than before for the normal
case of no pseudoconstants, since removing pull_constant_clauses saves one
useless traversal of the qual tree.  Per gripe from Phil Frost.
2006-07-01 18:38:33 +00:00
Tom Lane
8a30cc2127 Make the planner estimate costs for nestloop inner indexscans on the basis
that the Mackert-Lohmann formula applies across all the repetitions of the
nestloop, not just each scan independently.  We use the M-L formula to
estimate the number of pages fetched from the index as well as from the table;
that isn't what it was designed for, but it seems reasonably applicable
anyway.  This makes large numbers of repetitions look much cheaper than
before, which accords with many reports we've received of overestimation
of the cost of a nestloop.  Also, change the index access cost model to
charge random_page_cost per index leaf page touched, while explicitly
not counting anything for access to metapage or upper tree pages.  This
may all need tweaking after we get some field experience, but in simple
tests it seems to be giving saner results than before.  The main thing
is to get the infrastructure in place to let cost_index() and amcostestimate
functions take repeated scans into account at all.  Per my recent proposal.

Note: this patch changes pg_proc.h, but I did not force initdb because
the changes are basically cosmetic --- the system does not look into
pg_proc to decide how to call an index amcostestimate function, and
there's no way to call such a function from SQL at all.
2006-06-06 17:59:58 +00:00
Tom Lane
e4de635a2b Increase the default value of cpu_index_tuple_cost from 0.001 to 0.005.
This shouldn't affect simple indexscans much, while for bitmap scans that
are touching a lot of index rows, this seems to bring the estimates more
in line with reality.  Per recent discussion.
2006-06-05 03:03:42 +00:00
Tom Lane
eed6c9ed7e Add a GUC parameter seq_page_cost, and use that everywhere we formerly
assumed that a sequential page fetch has cost 1.0.  This patch doesn't
in itself change the system's behavior at all, but it opens the door to
people adopting other units of measurement for EXPLAIN costs.  Also, if
we ever decide it's worth inventing per-tablespace access cost settings,
this change provides a workable intellectual framework for that.
2006-06-05 02:49:58 +00:00
Bruce Momjian
f2f5b05655 Update copyright for 2006. Update scripts. 2006-03-05 15:59:11 +00:00
Tom Lane
336a6491aa Improve my initial, rather hacky implementation of joins to append
relations: fix the executor so that we can have an Append plan on the
inside of a nestloop and still pass down outer index keys to index scans
within the Append, then generate such plans as if they were regular
inner indexscans.  This avoids the need to evaluate the outer relation
multiple times.
2006-02-05 02:59:17 +00:00
Tom Lane
3893127431 Fix constraint exclusion to work in inherited UPDATE/DELETE queries
... in fact, it will be applied now in any query whatsoever.  I'm still
a bit concerned about the cycles that might be expended in failed proof
attempts, but given that CE is turned off by default, it's the user's
choice whether to expend those cycles or not.  (Possibly we should
change the simple bool constraint_exclusion parameter to something
more fine-grained?)
2006-02-04 23:03:20 +00:00
Tom Lane
8b109ebf14 Teach planner to convert simple UNION ALL subqueries into append relations,
thereby sharing code with the inheritance case.  This puts the UNION-ALL-view
approach to partitioned tables on par with inheritance, so far as constraint
exclusion is concerned: it works either way.  (Still need to update the docs
to say so.)  The definition of "simple UNION ALL" is a little simpler than
I would like --- basically the union arms can only be SELECT * FROM foo
--- but it's good enough for partitioned-table cases.
2006-02-03 21:08:49 +00:00
Bruce Momjian
59bb147353 Update random() usage so ranges are inclusive/exclusive as required. 2006-02-03 12:45:47 +00:00
Tom Lane
8a1468af4e Restructure planner's handling of inheritance. Rather than processing
inheritance trees on-the-fly, which pretty well constrained us to considering
only one way of planning inheritance, expand inheritance sets during the
planner prep phase, and build a side data structure that can be consulted
later to find which RTEs are members of which inheritance sets.  As proof of
concept, use the data structure to plan joins against inheritance sets more
efficiently: we can now use indexes on the set members in inner-indexscan
joins.  (The generated plans could be improved further, but it'll take some
executor changes.)  This data structure will also support handling UNION ALL
subqueries in the same way as inheritance sets, but that aspect of it isn't
finished yet.
2006-01-31 21:39:25 +00:00
Tom Lane
a1b7e70c5f Fix code that checks to see if an index can be considered to match the query's
requested sort order.  It was assuming that build_index_pathkeys always
generates a pathkey per index column, which was not true if implied equality
deduction had determined that two index columns were effectively equated to
each other.  Simplest fix seems to be to install an option that causes
build_index_pathkeys to support this behavior as well as the original one.
Per report from Brian Hirt.
2006-01-29 17:27:42 +00:00
Tom Lane
3a0a16cb7e Allow row comparisons to be used as indexscan qualifications.
This completes the project to upgrade our handling of row comparisons.
2006-01-25 20:29:24 +00:00
Tom Lane
e3b9852728 Teach planner how to rearrange join order for some classes of OUTER JOIN.
Per my recent proposal.  I ended up basing the implementation on the
existing mechanism for enforcing valid join orders of IN joins --- the
rules for valid outer-join orders are somewhat similar.
2005-12-20 02:30:36 +00:00
Tom Lane
da27c0a1ef Teach tid-scan code to make use of "ctid = ANY (array)" clauses, so that
"ctid IN (list)" will still work after we convert IN to ScalarArrayOpExpr.
Make some minor efficiency improvements while at it, such as ensuring that
multiple TIDs are fetched in physical heap order.  And fix EXPLAIN so that
it shows what's really going on for a TID scan.
2005-11-26 22:14:57 +00:00
Tom Lane
290166f934 Teach planner and executor to handle ScalarArrayOpExpr as an indexable
qualification when the underlying operator is indexable and useOr is true.
That is, indexkey op ANY (ARRAY[...]) is effectively translated into an
OR combination of one indexscan for each array element.  This only works
for bitmap index scans, of course, since regular indexscans no longer
support OR'ing of scans.  There are still some loose ends to clean up
before changing 'x IN (list)' to translate as a ScalarArrayOpExpr;
for instance predtest.c ought to be taught about it.  But this gets the
basic functionality in place.
2005-11-25 19:47:50 +00:00
Tom Lane
1bdf124b94 Restore the former RestrictInfo field valid_everywhere (but invert the flag
sense and rename to "outerjoin_delayed" to more clearly reflect what it
means).  I had decided that it was redundant in 8.1, but the folly of this
is exposed by a bug report from Sebastian Böck.  The place where it's
needed is to prevent orindxpath.c from cherry-picking arms of an outer-join
OR clause to form a relation restriction that isn't actually legal to push
down to the relation scan level.  There may be some legal cases that this
forbids optimizing, but we'd need much closer analysis to determine it.
2005-11-14 23:54:23 +00:00
Bruce Momjian
1dc3498251 Standard pgindent run for 8.1. 2005-10-15 02:49:52 +00:00
Tom Lane
2e1254e7fa Repair planning bug introduced in 7.4: outer-join ON clauses that referenced
only the inner-side relation would be considered as potential equijoin clauses,
which is wrong because the condition doesn't necessarily hold above the point
of the outer join.  Per test case from Kevin Grittner (bug#1916).
2005-09-28 21:17:02 +00:00
Tom Lane
4e5fbb34b3 Change the division of labor between grouping_planner and query_planner
so that the latter estimates the number of groups that grouping will
produce.  This is needed because it is primarily query_planner that
makes the decision between fast-start and fast-finish plans, and in the
original coding it was unable to make more than a crude rule-of-thumb
choice when the query involved grouping.  This revision helps us make
saner choices for queries like SELECT ... GROUP BY ... LIMIT, as in a
recent example from Mark Kirkwood.  Also move the responsibility for
canonicalizing sort_pathkeys and group_pathkeys into query_planner;
this information has to be available anyway to support the first change,
and doing it this way lets us get rid of compare_noncanonical_pathkeys
entirely.
2005-08-27 22:13:44 +00:00
Bruce Momjian
a7f49252d2 enable_constraint_exclusion => constraint_exclusion
Also improve wording.
2005-08-22 17:35:03 +00:00
Tom Lane
dfdf07aab1 Fix up LIMIT/OFFSET planning so that we cope with non-constant LIMIT
or OFFSET clauses by using estimate_expression_value().  The main advantage
of this is that if the expression is a Param and we have a value for the
Param, we'll use that value rather than defaulting.  Also, fix some
thinkos in the logic for combining LIMIT/OFFSET with an externally
supplied tuple fraction (this covers cases like EXISTS(...LIMIT...)).
And make sure the results of all this are shown by EXPLAIN.  Per a
gripe from Merlin Moncure.
2005-08-18 17:51:12 +00:00
Tom Lane
a4ca842319 Fix a bunch of bad interactions between partial indexes and the new
planning logic for bitmap indexscans.  Partial indexes create corner
cases in which a scan might be done with no explicit index qual conditions,
and the code wasn't handling those cases nicely.  Also be a little
tenser about eliminating redundant clauses in the generated plan.
Per report from Dmitry Karasik.
2005-07-28 20:26:22 +00:00
Tom Lane
d007a95055 Simple constraint exclusion. For now, only child tables of inheritance
scans are candidates for exclusion; this should be fixed eventually.
Simon Riggs, with some help from Tom Lane.
2005-07-23 21:05:48 +00:00
Tom Lane
cc5e80b8d1 Teach planner about some cases where a restriction clause can be
propagated inside an outer join.  In particular, given
LEFT JOIN ON (A = B) WHERE A = constant, we cannot conclude that
B = constant at the top level (B might be null instead), but we
can nonetheless put a restriction B = constant into the quals for
B's relation, since no inner-side rows not meeting that condition
can contribute to the final result.  Similarly, given
FULL JOIN USING (J) WHERE J = constant, we can't directly conclude
that either input J variable = constant, but it's OK to push such
quals into each input rel.  Per recent gripe from Kim Bisgaard.
Along the way, remove 'valid_everywhere' flag from RestrictInfo,
as on closer analysis it was not being used for anything, and was
defined backwards anyway.
2005-07-02 23:00:42 +00:00
Tom Lane
2f1210629c Separate predicate-testing code out of indxpath.c, making it a module
in its own right.  As proposed by Simon Riggs, but with some editorializing
of my own.
2005-06-10 22:25:37 +00:00
Tom Lane
3b167a4099 If a LIMIT is applied to a UNION ALL query, plan each UNION arm as
if the limit were directly applied to it.  This does not actually
add a LIMIT plan node to the generated subqueries --- that would be
useless overhead --- but it does cause the planner to prefer fast-
start plans when the limit is small.  After an idea from Phil Endecott.
2005-06-10 02:21:05 +00:00
Tom Lane
a31ad27fc5 Simplify the planner's join clause management by storing join clauses
of a relation in a flat 'joininfo' list.  The former arrangement grouped
the join clauses according to the set of unjoined relids used in each;
however, profiling on test cases involving lots of joins proves that
that data structure is a net loss.  It takes more time to group the
join clauses together than is saved by avoiding duplicate tests later.
It doesn't help any that there are usually not more than one or two
clauses per group ...
2005-06-09 04:19:00 +00:00
Tom Lane
9ab4d98168 Remove planner's private fields from Query struct, and put them into
a new PlannerInfo struct, which is passed around instead of the bare
Query in all the planning code.  This commit is essentially just a
code-beautification exercise, but it does open the door to making
larger changes to the planner data structures without having to muck
with the widely-known Query struct.
2005-06-05 22:32:58 +00:00
Tom Lane
e2159f3842 Teach the planner to remove SubqueryScan nodes from the plan if they
aren't doing anything useful (ie, neither selection nor projection).
Also, extend to SubqueryScan the hacks already in place to avoid
unnecessary ExecProject calls when the result would just be the same
tuple the subquery already delivered.  This saves some overhead in
UNION and other set operations, as well as avoiding overhead for
unflatten-able subqueries.  Per example from Sokolov Yura.
2005-05-22 22:30:20 +00:00
Tom Lane
79a1b00226 Replace slightly klugy create_bitmap_restriction() function with a
more efficient routine in restrictinfo.c (which can make use of
make_restrictinfo_internal).
2005-04-25 02:14:48 +00:00
Tom Lane
5b05185262 Remove support for OR'd indexscans internal to a single IndexScan plan
node, as this behavior is now better done as a bitmap OR indexscan.
This allows considerable simplification in nodeIndexscan.c itself as
well as several planner modules concerned with indexscan plan generation.
Also we can improve the sharing of code between regular and bitmap
indexscans, since they are now working with nigh-identical Plan nodes.
2005-04-25 01:30:14 +00:00
Tom Lane
bc843d3960 First cut at planner support for bitmap index scans. Lots to do yet,
but the code is basically working.  Along the way, rewrite the entire
approach to processing OR index conditions, and make it work in join
cases for the first time ever.  orindxpath.c is now basically obsolete,
but I left it in for the time being to allow easy comparison testing
against the old implementation.
2005-04-22 21:58:32 +00:00
Tom Lane
14c7fba3f7 Rethink original decision to use AND/OR Expr nodes to represent bitmap
logic operations during planning.  Seems cleaner to create two new Path
node types, instead --- this avoids duplication of cost-estimation code.
Also, create an enable_bitmapscan GUC parameter to control use of bitmap
plans.
2005-04-21 19:18:13 +00:00
Tom Lane
e6f7edb9d5 Install some slightly realistic cost estimation for bitmap index scans. 2005-04-21 02:28:02 +00:00
Tom Lane
4a8c5d0375 Create executor and planner-backend support for decoupled heap and index
scans, using in-memory tuple ID bitmaps as the intermediary.  The planner
frontend (path creation and cost estimation) is not there yet, so none
of this code can be executed.  I have tested it using some hacked planner
code that is far too ugly to see the light of day, however.  Committing
now so that the bulk of the infrastructure changes go in before the tree
drifts under me.
2005-04-19 22:35:18 +00:00
Tom Lane
7ace43e0c2 Fix oversight in MIN/MAX optimization: must not return NULL entries
from index, since the aggregates ignore NULLs.
2005-04-12 05:11:28 +00:00
Tom Lane
addc42c339 Create the planner mechanism for optimizing simple MIN and MAX queries
into indexscans on matching indexes.  For the moment, it only handles
int4 and text datatypes; next step is to add a column to pg_aggregate
so that all MIN/MAX aggregates can be handled.  Per my recent proposal.
2005-04-11 23:06:57 +00:00
Tom Lane
ad161bcc8a Merge Resdom nodes into TargetEntry nodes to simplify code and save a
few palloc's.  I also chose to eliminate the restype and restypmod fields
entirely, since they are redundant with information stored in the node's
contained expression; re-examining the expression at need seems simpler
and more reliable than trying to keep restype/restypmod up to date.

initdb forced due to change in contents of stored rules.
2005-04-06 16:34:07 +00:00
Tom Lane
5db2e83852 Rethink the order of expression preprocessing: eval_const_expressions
really ought to run before canonicalize_qual, because it can now produce
forms that canonicalize_qual knows how to improve (eg, NOT clauses).
Also, because eval_const_expressions already knows about flattening
nested ANDs and ORs into N-argument form, the initial flatten_andors
pass in canonicalize_qual is now completely redundant and can be
removed.  This doesn't save a whole lot of code, but the time and
palloc traffic eliminated is a useful gain on large expression trees.
2005-03-28 00:58:26 +00:00
Tom Lane
926e8a00d3 Add a back-link from IndexOptInfo structs to their parent RelOptInfo
structs.  There are many places in the planner where we were passing
both a rel and an index to subroutines, and now need only pass the
index struct.  Notationally simpler, and perhaps a tad faster.
2005-03-27 06:29:49 +00:00
Tom Lane
febc9a613c Expand the 'special index operator' machinery to handle special cases
for boolean indexes.  Previously we would only use such an index with
WHERE clauses like 'indexkey = true' or 'indexkey = false'.  The new
code transforms the cases 'indexkey', 'NOT indexkey', 'indexkey IS TRUE',
and 'indexkey IS FALSE' into one of these.  While this is only marginally
useful in itself, I intend soon to change constant-expression simplification
so that 'foo = true' and 'foo = false' are reduced to just 'foo' and
'NOT foo' ... which would lose the ability to use boolean indexes for
such queries at all, if the indexscan machinery couldn't make the
reverse transformation.
2005-03-26 23:29:20 +00:00