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Commits
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Fix partitionwise join with partially-redundant join clauses
- 9b282a9359a1 18.0 landed
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A problem about partitionwise join
Richard Guo <riguo@pivotal.io> — 2019-08-26T09:32:48Z
Hi All, To generate partitionwise join, we need to make sure there exists an equi-join condition for each pair of partition keys, which is performed by have_partkey_equi_join(). This makes sense and works well. But if, let's say, one certain pair of partition keys (foo.k = bar.k) has formed an equivalence class containing consts, no join clause would be generated for it, since we have already generated 'foo.k = const' and 'bar.k = const' and pushed them into the proper restrictions earlier. This will make partitionwise join fail to be planned if there are multiple partition keys and the pushed-down restrictions 'xxx = const' fail to prune away any partitions. Consider the examples below: create table p (k1 int, k2 int, val int) partition by range(k1,k2); create table p_1 partition of p for values from (1,1) to (10,100); create table p_2 partition of p for values from (10,100) to (20,200); If we are joining on each pair of partition keys, we can generate partitionwise join: # explain (costs off) select * from p as foo join p as bar on foo.k1 = bar.k1 and foo.k2 = bar.k2; QUERY PLAN ---------------------------------------------------------------------- Append -> Hash Join Hash Cond: ((foo.k1 = bar.k1) AND (foo.k2 = bar.k2)) -> Seq Scan on p_1 foo -> Hash -> Seq Scan on p_1 bar -> Hash Join Hash Cond: ((foo_1.k1 = bar_1.k1) AND (foo_1.k2 = bar_1.k2)) -> Seq Scan on p_2 foo_1 -> Hash -> Seq Scan on p_2 bar_1 (11 rows) But if we add another qual 'foo.k2 = const', we will be unable to generate partitionwise join any more, because have_partkey_equi_join() thinks not every partition key has an equi-join condition. # explain (costs off) select * from p as foo join p as bar on foo.k1 = bar.k1 and foo.k2 = bar.k2 and foo.k2 = 16; QUERY PLAN ----------------------------------------- Hash Join Hash Cond: (foo.k1 = bar.k1) -> Append -> Seq Scan on p_1 foo Filter: (k2 = 16) -> Seq Scan on p_2 foo_1 Filter: (k2 = 16) -> Hash -> Append -> Seq Scan on p_1 bar Filter: (k2 = 16) -> Seq Scan on p_2 bar_1 Filter: (k2 = 16) (13 rows) Is this a problem? Thanks Richard -
Re: A problem about partitionwise join
Amit Langote <amitlangote09@gmail.com> — 2019-08-27T00:51:36Z
Hi Richard, On Mon, Aug 26, 2019 at 6:33 PM Richard Guo <riguo@pivotal.io> wrote: > > Hi All, > > To generate partitionwise join, we need to make sure there exists an > equi-join condition for each pair of partition keys, which is performed > by have_partkey_equi_join(). This makes sense and works well. > > But if, let's say, one certain pair of partition keys (foo.k = bar.k) > has formed an equivalence class containing consts, no join clause would > be generated for it, since we have already generated 'foo.k = const' and > 'bar.k = const' and pushed them into the proper restrictions earlier. > > This will make partitionwise join fail to be planned if there are > multiple partition keys and the pushed-down restrictions 'xxx = const' > fail to prune away any partitions. > > Consider the examples below: > > create table p (k1 int, k2 int, val int) partition by range(k1,k2); > create table p_1 partition of p for values from (1,1) to (10,100); > create table p_2 partition of p for values from (10,100) to (20,200); > > If we are joining on each pair of partition keys, we can generate > partitionwise join: > > # explain (costs off) > select * from p as foo join p as bar on foo.k1 = bar.k1 and foo.k2 = bar.k2; > QUERY PLAN > ---------------------------------------------------------------------- > Append > -> Hash Join > Hash Cond: ((foo.k1 = bar.k1) AND (foo.k2 = bar.k2)) > -> Seq Scan on p_1 foo > -> Hash > -> Seq Scan on p_1 bar > -> Hash Join > Hash Cond: ((foo_1.k1 = bar_1.k1) AND (foo_1.k2 = bar_1.k2)) > -> Seq Scan on p_2 foo_1 > -> Hash > -> Seq Scan on p_2 bar_1 > (11 rows) > > But if we add another qual 'foo.k2 = const', we will be unable to > generate partitionwise join any more, because have_partkey_equi_join() > thinks not every partition key has an equi-join condition. > > # explain (costs off) > select * from p as foo join p as bar on foo.k1 = bar.k1 and foo.k2 = bar.k2 and foo.k2 = 16; > QUERY PLAN > ----------------------------------------- > Hash Join > Hash Cond: (foo.k1 = bar.k1) > -> Append > -> Seq Scan on p_1 foo > Filter: (k2 = 16) > -> Seq Scan on p_2 foo_1 > Filter: (k2 = 16) > -> Hash > -> Append > -> Seq Scan on p_1 bar > Filter: (k2 = 16) > -> Seq Scan on p_2 bar_1 > Filter: (k2 = 16) > (13 rows) > > Is this a problem? Perhaps. Maybe it has to do with the way have_partkey_equi_join() has been coded. If it was coded such that it figured out on its own that the equivalence (foo.k2, bar.k2, ...) does exist, then that would allow partitionwise join to occur, which I think would be OK to do. But maybe I'm missing something. Thanks, Amit
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Re: A problem about partitionwise join
Richard Guo <riguo@pivotal.io> — 2019-08-27T07:56:59Z
On Tue, Aug 27, 2019 at 8:51 AM Amit Langote <amitlangote09@gmail.com> wrote: > Hi Richard, > > On Mon, Aug 26, 2019 at 6:33 PM Richard Guo <riguo@pivotal.io> wrote: > > > > Hi All, > > > > To generate partitionwise join, we need to make sure there exists an > > equi-join condition for each pair of partition keys, which is performed > > by have_partkey_equi_join(). This makes sense and works well. > > > > But if, let's say, one certain pair of partition keys (foo.k = bar.k) > > has formed an equivalence class containing consts, no join clause would > > be generated for it, since we have already generated 'foo.k = const' and > > 'bar.k = const' and pushed them into the proper restrictions earlier. > > > > This will make partitionwise join fail to be planned if there are > > multiple partition keys and the pushed-down restrictions 'xxx = const' > > fail to prune away any partitions. > > > > Consider the examples below: > > > > create table p (k1 int, k2 int, val int) partition by range(k1,k2); > > create table p_1 partition of p for values from (1,1) to (10,100); > > create table p_2 partition of p for values from (10,100) to (20,200); > > > > If we are joining on each pair of partition keys, we can generate > > partitionwise join: > > > > # explain (costs off) > > select * from p as foo join p as bar on foo.k1 = bar.k1 and foo.k2 = > bar.k2; > > QUERY PLAN > > ---------------------------------------------------------------------- > > Append > > -> Hash Join > > Hash Cond: ((foo.k1 = bar.k1) AND (foo.k2 = bar.k2)) > > -> Seq Scan on p_1 foo > > -> Hash > > -> Seq Scan on p_1 bar > > -> Hash Join > > Hash Cond: ((foo_1.k1 = bar_1.k1) AND (foo_1.k2 = bar_1.k2)) > > -> Seq Scan on p_2 foo_1 > > -> Hash > > -> Seq Scan on p_2 bar_1 > > (11 rows) > > > > But if we add another qual 'foo.k2 = const', we will be unable to > > generate partitionwise join any more, because have_partkey_equi_join() > > thinks not every partition key has an equi-join condition. > > > > # explain (costs off) > > select * from p as foo join p as bar on foo.k1 = bar.k1 and foo.k2 = > bar.k2 and foo.k2 = 16; > > QUERY PLAN > > ----------------------------------------- > > Hash Join > > Hash Cond: (foo.k1 = bar.k1) > > -> Append > > -> Seq Scan on p_1 foo > > Filter: (k2 = 16) > > -> Seq Scan on p_2 foo_1 > > Filter: (k2 = 16) > > -> Hash > > -> Append > > -> Seq Scan on p_1 bar > > Filter: (k2 = 16) > > -> Seq Scan on p_2 bar_1 > > Filter: (k2 = 16) > > (13 rows) > > > > Is this a problem? > > Perhaps. Maybe it has to do with the way have_partkey_equi_join() has > been coded. If it was coded such that it figured out on its own that > the equivalence (foo.k2, bar.k2, ...) does exist, then that would > allow partitionwise join to occur, which I think would be OK to do. > But maybe I'm missing something. > > This should be caused by how we deduce join clauses from equivalence classes. ECs containing consts will not be considered so we cannot generate (foo.k2 = bar.k2) for the query above. In addition, when generating join clauses from equivalence classes, we only select the joinclause with the 'best score', or the first joinclause with a score of 3. This may make us miss some joinclause on partition keys. Check the query below as a more illustrative example: create table p (k int, val int) partition by range(k); create table p_1 partition of p for values from (1) to (10); create table p_2 partition of p for values from (10) to (100); If we use quals 'foo.k = bar.k and foo.k = bar.val', we can generate partitionwise join: # explain (costs off) select * from p as foo join p as bar on foo.k = bar.k and foo.k = bar.val; QUERY PLAN ----------------------------------------- Append -> Hash Join Hash Cond: (foo.k = bar.k) -> Seq Scan on p_1 foo -> Hash -> Seq Scan on p_1 bar Filter: (k = val) -> Hash Join Hash Cond: (foo_1.k = bar_1.k) -> Seq Scan on p_2 foo_1 -> Hash -> Seq Scan on p_2 bar_1 Filter: (k = val) (13 rows) But if we exchange the order of the two quals to 'foo.k = bar.val and foo.k = bar.k', then partitionwise join cannot be generated any more, because we only have joinclause 'foo.k = bar.val' as it first reached score of 3. We have missed the joinclause on the partition key although it does exist. # explain (costs off) select * from p as foo join p as bar on foo.k = bar.val and foo.k = bar.k; QUERY PLAN ----------------------------------------- Hash Join Hash Cond: (foo.k = bar.val) -> Append -> Seq Scan on p_1 foo -> Seq Scan on p_2 foo_1 -> Hash -> Append -> Seq Scan on p_1 bar Filter: (val = k) -> Seq Scan on p_2 bar_1 Filter: (val = k) (11 rows) Thanks Richard -
Re: A problem about partitionwise join
Etsuro Fujita <etsuro.fujita@gmail.com> — 2019-08-28T10:49:17Z
Hi, On Tue, Aug 27, 2019 at 4:57 PM Richard Guo <riguo@pivotal.io> wrote: > Check the query below as a more illustrative example: > > create table p (k int, val int) partition by range(k); > create table p_1 partition of p for values from (1) to (10); > create table p_2 partition of p for values from (10) to (100); > > If we use quals 'foo.k = bar.k and foo.k = bar.val', we can generate > partitionwise join: > > # explain (costs off) > select * from p as foo join p as bar on foo.k = bar.k and foo.k = bar.val; > QUERY PLAN > ----------------------------------------- > Append > -> Hash Join > Hash Cond: (foo.k = bar.k) > -> Seq Scan on p_1 foo > -> Hash > -> Seq Scan on p_1 bar > Filter: (k = val) > -> Hash Join > Hash Cond: (foo_1.k = bar_1.k) > -> Seq Scan on p_2 foo_1 > -> Hash > -> Seq Scan on p_2 bar_1 > Filter: (k = val) > (13 rows) > > But if we exchange the order of the two quals to 'foo.k = bar.val and > foo.k = bar.k', then partitionwise join cannot be generated any more, > because we only have joinclause 'foo.k = bar.val' as it first reached > score of 3. We have missed the joinclause on the partition key although > it does exist. > > # explain (costs off) > select * from p as foo join p as bar on foo.k = bar.val and foo.k = bar.k; > QUERY PLAN > ----------------------------------------- > Hash Join > Hash Cond: (foo.k = bar.val) > -> Append > -> Seq Scan on p_1 foo > -> Seq Scan on p_2 foo_1 > -> Hash > -> Append > -> Seq Scan on p_1 bar > Filter: (val = k) > -> Seq Scan on p_2 bar_1 > Filter: (val = k) > (11 rows) I think it would be nice if we can address this issue. Best regards, Etsuro Fujita
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Re: A problem about partitionwise join
Richard Guo <riguo@pivotal.io> — 2019-08-29T09:44:53Z
On Wed, Aug 28, 2019 at 6:49 PM Etsuro Fujita <etsuro.fujita@gmail.com> wrote: > Hi, > > On Tue, Aug 27, 2019 at 4:57 PM Richard Guo <riguo@pivotal.io> wrote: > > Check the query below as a more illustrative example: > > > > create table p (k int, val int) partition by range(k); > > create table p_1 partition of p for values from (1) to (10); > > create table p_2 partition of p for values from (10) to (100); > > > > If we use quals 'foo.k = bar.k and foo.k = bar.val', we can generate > > partitionwise join: > > > > # explain (costs off) > > select * from p as foo join p as bar on foo.k = bar.k and foo.k = > bar.val; > > QUERY PLAN > > ----------------------------------------- > > Append > > -> Hash Join > > Hash Cond: (foo.k = bar.k) > > -> Seq Scan on p_1 foo > > -> Hash > > -> Seq Scan on p_1 bar > > Filter: (k = val) > > -> Hash Join > > Hash Cond: (foo_1.k = bar_1.k) > > -> Seq Scan on p_2 foo_1 > > -> Hash > > -> Seq Scan on p_2 bar_1 > > Filter: (k = val) > > (13 rows) > > > > But if we exchange the order of the two quals to 'foo.k = bar.val and > > foo.k = bar.k', then partitionwise join cannot be generated any more, > > because we only have joinclause 'foo.k = bar.val' as it first reached > > score of 3. We have missed the joinclause on the partition key although > > it does exist. > > > > # explain (costs off) > > select * from p as foo join p as bar on foo.k = bar.val and foo.k = > bar.k; > > QUERY PLAN > > ----------------------------------------- > > Hash Join > > Hash Cond: (foo.k = bar.val) > > -> Append > > -> Seq Scan on p_1 foo > > -> Seq Scan on p_2 foo_1 > > -> Hash > > -> Append > > -> Seq Scan on p_1 bar > > Filter: (val = k) > > -> Seq Scan on p_2 bar_1 > > Filter: (val = k) > > (11 rows) > > I think it would be nice if we can address this issue. > Thank you. Attached is a patch as an attempt to address this issue. The idea is quite straightforward. When building partition info for joinrel, we generate any possible EC-derived joinclauses of form 'outer_em = inner_em', which will be used together with the original restrictlist to check if there exists an equi-join condition for each pair of partition keys. Any comments are welcome! Thanks Richard
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Re: A problem about partitionwise join
Etsuro Fujita <etsuro.fujita@gmail.com> — 2019-08-29T18:08:27Z
On Thu, Aug 29, 2019 at 6:45 PM Richard Guo <riguo@pivotal.io> wrote: > On Wed, Aug 28, 2019 at 6:49 PM Etsuro Fujita <etsuro.fujita@gmail.com> wrote: >> On Tue, Aug 27, 2019 at 4:57 PM Richard Guo <riguo@pivotal.io> wrote: >> > Check the query below as a more illustrative example: >> > >> > create table p (k int, val int) partition by range(k); >> > create table p_1 partition of p for values from (1) to (10); >> > create table p_2 partition of p for values from (10) to (100); >> > >> > If we use quals 'foo.k = bar.k and foo.k = bar.val', we can generate >> > partitionwise join: >> > >> > # explain (costs off) >> > select * from p as foo join p as bar on foo.k = bar.k and foo.k = bar.val; >> > QUERY PLAN >> > ----------------------------------------- >> > Append >> > -> Hash Join >> > Hash Cond: (foo.k = bar.k) >> > -> Seq Scan on p_1 foo >> > -> Hash >> > -> Seq Scan on p_1 bar >> > Filter: (k = val) >> > -> Hash Join >> > Hash Cond: (foo_1.k = bar_1.k) >> > -> Seq Scan on p_2 foo_1 >> > -> Hash >> > -> Seq Scan on p_2 bar_1 >> > Filter: (k = val) >> > (13 rows) >> > >> > But if we exchange the order of the two quals to 'foo.k = bar.val and >> > foo.k = bar.k', then partitionwise join cannot be generated any more, >> > because we only have joinclause 'foo.k = bar.val' as it first reached >> > score of 3. We have missed the joinclause on the partition key although >> > it does exist. >> > >> > # explain (costs off) >> > select * from p as foo join p as bar on foo.k = bar.val and foo.k = bar.k; >> > QUERY PLAN >> > ----------------------------------------- >> > Hash Join >> > Hash Cond: (foo.k = bar.val) >> > -> Append >> > -> Seq Scan on p_1 foo >> > -> Seq Scan on p_2 foo_1 >> > -> Hash >> > -> Append >> > -> Seq Scan on p_1 bar >> > Filter: (val = k) >> > -> Seq Scan on p_2 bar_1 >> > Filter: (val = k) >> > (11 rows) >> >> I think it would be nice if we can address this issue. > Attached is a patch as an attempt to address this issue. The idea is > quite straightforward. When building partition info for joinrel, we > generate any possible EC-derived joinclauses of form 'outer_em = > inner_em', which will be used together with the original restrictlist to > check if there exists an equi-join condition for each pair of partition > keys. Thank you for the patch! Will review. Could you add the patch to the upcoming CF so that it doesn’t get lost? Best regards, Etsuro Fujita
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Re: A problem about partitionwise join
Richard Guo <riguo@pivotal.io> — 2019-08-30T03:15:37Z
On Fri, Aug 30, 2019 at 2:08 AM Etsuro Fujita <etsuro.fujita@gmail.com> wrote: > On Thu, Aug 29, 2019 at 6:45 PM Richard Guo <riguo@pivotal.io> wrote: > > On Wed, Aug 28, 2019 at 6:49 PM Etsuro Fujita <etsuro.fujita@gmail.com> > wrote: > >> On Tue, Aug 27, 2019 at 4:57 PM Richard Guo <riguo@pivotal.io> wrote: > >> > Check the query below as a more illustrative example: > >> > > >> > create table p (k int, val int) partition by range(k); > >> > create table p_1 partition of p for values from (1) to (10); > >> > create table p_2 partition of p for values from (10) to (100); > >> > > >> > If we use quals 'foo.k = bar.k and foo.k = bar.val', we can generate > >> > partitionwise join: > >> > > >> > # explain (costs off) > >> > select * from p as foo join p as bar on foo.k = bar.k and foo.k = > bar.val; > >> > QUERY PLAN > >> > ----------------------------------------- > >> > Append > >> > -> Hash Join > >> > Hash Cond: (foo.k = bar.k) > >> > -> Seq Scan on p_1 foo > >> > -> Hash > >> > -> Seq Scan on p_1 bar > >> > Filter: (k = val) > >> > -> Hash Join > >> > Hash Cond: (foo_1.k = bar_1.k) > >> > -> Seq Scan on p_2 foo_1 > >> > -> Hash > >> > -> Seq Scan on p_2 bar_1 > >> > Filter: (k = val) > >> > (13 rows) > >> > > >> > But if we exchange the order of the two quals to 'foo.k = bar.val and > >> > foo.k = bar.k', then partitionwise join cannot be generated any more, > >> > because we only have joinclause 'foo.k = bar.val' as it first reached > >> > score of 3. We have missed the joinclause on the partition key > although > >> > it does exist. > >> > > >> > # explain (costs off) > >> > select * from p as foo join p as bar on foo.k = bar.val and foo.k = > bar.k; > >> > QUERY PLAN > >> > ----------------------------------------- > >> > Hash Join > >> > Hash Cond: (foo.k = bar.val) > >> > -> Append > >> > -> Seq Scan on p_1 foo > >> > -> Seq Scan on p_2 foo_1 > >> > -> Hash > >> > -> Append > >> > -> Seq Scan on p_1 bar > >> > Filter: (val = k) > >> > -> Seq Scan on p_2 bar_1 > >> > Filter: (val = k) > >> > (11 rows) > >> > >> I think it would be nice if we can address this issue. > > > Attached is a patch as an attempt to address this issue. The idea is > > quite straightforward. When building partition info for joinrel, we > > generate any possible EC-derived joinclauses of form 'outer_em = > > inner_em', which will be used together with the original restrictlist to > > check if there exists an equi-join condition for each pair of partition > > keys. > > Thank you for the patch! Will review. Could you add the patch to the > upcoming CF so that it doesn’t get lost? > Added this patch: https://commitfest.postgresql.org/24/2266/ Thanks Richard
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Re: A problem about partitionwise join
Etsuro Fujita <etsuro.fujita@gmail.com> — 2019-08-30T06:13:37Z
On Fri, Aug 30, 2019 at 12:15 PM Richard Guo <riguo@pivotal.io> wrote: > On Fri, Aug 30, 2019 at 2:08 AM Etsuro Fujita <etsuro.fujita@gmail.com> wrote: >> On Thu, Aug 29, 2019 at 6:45 PM Richard Guo <riguo@pivotal.io> wrote: >> > Attached is a patch as an attempt to address this issue. The idea is >> > quite straightforward. When building partition info for joinrel, we >> > generate any possible EC-derived joinclauses of form 'outer_em = >> > inner_em', which will be used together with the original restrictlist to >> > check if there exists an equi-join condition for each pair of partition >> > keys. >> Could you add the patch to the >> upcoming CF so that it doesn’t get lost? > Added this patch: https://commitfest.postgresql.org/24/2266/ Thanks! Best regards, Etsuro Fujita
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Re: A problem about partitionwise join
Alvaro Herrera <alvherre@alvh.no-ip.org> — 2019-09-10T20:48:22Z
So in this patch, the input restrictlist is modified to include the clauses generated by generate_join_implied_equalities_for_all. That doesn't seem okay -- doesn't it affect downstream usage of the restrictlist in the caller of set_joinrel_size_estimates? I wonder if it's possible to do this by using the ECs directly in have_partkey_equi_join instead of using them to create fake join clauses. -- Álvaro Herrera https://www.2ndQuadrant.com/ PostgreSQL Development, 24x7 Support, Remote DBA, Training & Services
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Re: A problem about partitionwise join
Richard Guo <riguo@pivotal.io> — 2019-09-11T03:56:33Z
Hi Alvaro, Thank you for reviewing this patch. On Wed, Sep 11, 2019 at 4:48 AM Alvaro Herrera from 2ndQuadrant < alvherre@alvh.no-ip.org> wrote: > So in this patch, the input restrictlist is modified to include the > clauses generated by generate_join_implied_equalities_for_all. That > doesn't seem okay -- doesn't it affect downstream usage of the > restrictlist in the caller of set_joinrel_size_estimates? > Actually the joinclauses generated by generate_join_implied_equalities_for_all only affects the restrictlist used in have_partkey_equi_join to check equi-join conditions for partition keys. The input restrictlist would not be altered. > > I wonder if it's possible to do this by using the ECs directly in > have_partkey_equi_join instead of using them to create fake join > clauses. > Hmm.. I thought about this option and at last figured that what we need to do in have_partkey_equi_join with the ECs is actually the same as in generate_join_implied_equalities_for_all. Maybe I didn't think it correctly. Thanks Richard
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Re: A problem about partitionwise join
Dilip Kumar <dilipbalaut@gmail.com> — 2019-09-20T04:48:44Z
On Thu, Aug 29, 2019 at 3:15 PM Richard Guo <riguo@pivotal.io> wrote: > > > Attached is a patch as an attempt to address this issue. The idea is > quite straightforward. When building partition info for joinrel, we > generate any possible EC-derived joinclauses of form 'outer_em = > inner_em', which will be used together with the original restrictlist to > check if there exists an equi-join condition for each pair of partition > keys. > > Any comments are welcome! /* + * generate_join_implied_equalities_for_all + * Create any EC-derived joinclauses of form 'outer_em = inner_em'. + * + * This is used when building partition info for joinrel. + */ +List * +generate_join_implied_equalities_for_all(PlannerInfo *root, + Relids join_relids, + Relids outer_relids, + Relids inner_relids) I think we need to have more detailed comments about why we need this separate function, we can also explain that generate_join_implied_equalities function will avoid the join clause if EC has the constant but for partition-wise join, we need that clause too. + while ((i = bms_next_member(matching_ecs, i)) >= 0) + { + EquivalenceClass *ec = (EquivalenceClass *) list_nth(root->eq_classes, i); + List *outer_members = NIL; + List *inner_members = NIL; + ListCell *lc1; + + /* Do not consider this EC if it's ec_broken */ + if (ec->ec_broken) + continue; + + /* Single-member ECs won't generate any deductions */ + if (list_length(ec->ec_members) <= 1) + continue; + I am wondering isn't it possible to just process the missing join clause? I mean 'generate_join_implied_equalities' has only skipped the ECs which has const so can't we create join clause only for those ECs and append it the "Restrictlist" we already have? I might be missing something? -- Regards, Dilip Kumar EnterpriseDB: http://www.enterprisedb.com -
Re: A problem about partitionwise join
Richard Guo <riguo@pivotal.io> — 2019-09-20T09:02:52Z
Hi Dilip, Thank you for reviewing this patch. On Fri, Sep 20, 2019 at 12:48 PM Dilip Kumar <dilipbalaut@gmail.com> wrote: > On Thu, Aug 29, 2019 at 3:15 PM Richard Guo <riguo@pivotal.io> wrote: > > > > > > Attached is a patch as an attempt to address this issue. The idea is > > quite straightforward. When building partition info for joinrel, we > > generate any possible EC-derived joinclauses of form 'outer_em = > > inner_em', which will be used together with the original restrictlist to > > check if there exists an equi-join condition for each pair of partition > > keys. > > > > Any comments are welcome! > /* > + * generate_join_implied_equalities_for_all > + * Create any EC-derived joinclauses of form 'outer_em = inner_em'. > + * > + * This is used when building partition info for joinrel. > + */ > +List * > +generate_join_implied_equalities_for_all(PlannerInfo *root, > + Relids join_relids, > + Relids outer_relids, > + Relids inner_relids) > > I think we need to have more detailed comments about why we need this > separate function, we can also explain that > generate_join_implied_equalities function will avoid > the join clause if EC has the constant but for partition-wise join, we > need that clause too. > Thank you for the suggestion. > > + while ((i = bms_next_member(matching_ecs, i)) >= 0) > + { > + EquivalenceClass *ec = (EquivalenceClass *) list_nth(root->eq_classes, > i); > + List *outer_members = NIL; > + List *inner_members = NIL; > + ListCell *lc1; > + > + /* Do not consider this EC if it's ec_broken */ > + if (ec->ec_broken) > + continue; > + > + /* Single-member ECs won't generate any deductions */ > + if (list_length(ec->ec_members) <= 1) > + continue; > + > > I am wondering isn't it possible to just process the missing join > clause? I mean 'generate_join_implied_equalities' has only skipped > the ECs which has const so > can't we create join clause only for those ECs and append it the > "Restrictlist" we already have? I might be missing something? > For ECs without const, 'generate_join_implied_equalities' also has skipped some join clauses since it only selects the joinclause with 'best_score' between outer members and inner members. And the missing join clauses are needed to generate partitionwise join. That's why the query below cannot be planned as partitionwise join, as we have missed joinclause 'foo.k = bar.k'. select * from p as foo join p as bar on foo.k = bar.val and foo.k = bar.k; And yes 'generate_join_implied_equalities_for_all' will create join clauses that have existed in restrictlist. I think it's OK since the same RestrictInfo deduced from EC will share the same pointer and list_concat_unique_ptr will make sure there are no duplicates in the restrictlist used by have_partkey_equi_join. Thanks Richard -
Re: A problem about partitionwise join
Dilip Kumar <dilipbalaut@gmail.com> — 2019-09-21T06:28:17Z
On Fri, Sep 20, 2019 at 2:33 PM Richard Guo <riguo@pivotal.io> wrote: > > Hi Dilip, > > Thank you for reviewing this patch. > > On Fri, Sep 20, 2019 at 12:48 PM Dilip Kumar <dilipbalaut@gmail.com> wrote: >> >> On Thu, Aug 29, 2019 at 3:15 PM Richard Guo <riguo@pivotal.io> wrote: >> > >> > >> > Attached is a patch as an attempt to address this issue. The idea is >> > quite straightforward. When building partition info for joinrel, we >> > generate any possible EC-derived joinclauses of form 'outer_em = >> > inner_em', which will be used together with the original restrictlist to >> > check if there exists an equi-join condition for each pair of partition >> > keys. >> > >> > Any comments are welcome! >> /* >> + * generate_join_implied_equalities_for_all >> + * Create any EC-derived joinclauses of form 'outer_em = inner_em'. >> + * >> + * This is used when building partition info for joinrel. >> + */ >> +List * >> +generate_join_implied_equalities_for_all(PlannerInfo *root, >> + Relids join_relids, >> + Relids outer_relids, >> + Relids inner_relids) >> >> I think we need to have more detailed comments about why we need this >> separate function, we can also explain that >> generate_join_implied_equalities function will avoid >> the join clause if EC has the constant but for partition-wise join, we >> need that clause too. > > > Thank you for the suggestion. > >> >> >> + while ((i = bms_next_member(matching_ecs, i)) >= 0) >> + { >> + EquivalenceClass *ec = (EquivalenceClass *) list_nth(root->eq_classes, i); >> + List *outer_members = NIL; >> + List *inner_members = NIL; >> + ListCell *lc1; >> + >> + /* Do not consider this EC if it's ec_broken */ >> + if (ec->ec_broken) >> + continue; >> + >> + /* Single-member ECs won't generate any deductions */ >> + if (list_length(ec->ec_members) <= 1) >> + continue; >> + >> >> I am wondering isn't it possible to just process the missing join >> clause? I mean 'generate_join_implied_equalities' has only skipped >> the ECs which has const so >> can't we create join clause only for those ECs and append it the >> "Restrictlist" we already have? I might be missing something? > > > For ECs without const, 'generate_join_implied_equalities' also has > skipped some join clauses since it only selects the joinclause with > 'best_score' between outer members and inner members. And the missing > join clauses are needed to generate partitionwise join. That's why the > query below cannot be planned as partitionwise join, as we have missed > joinclause 'foo.k = bar.k'. oh right. I missed that part. > select * from p as foo join p as bar on foo.k = bar.val and foo.k = bar.k; > > And yes 'generate_join_implied_equalities_for_all' will create join > clauses that have existed in restrictlist. I think it's OK since the > same RestrictInfo deduced from EC will share the same pointer and > list_concat_unique_ptr will make sure there are no duplicates in the > restrictlist used by have_partkey_equi_join. > ok -- Regards, Dilip Kumar EnterpriseDB: http://www.enterprisedb.com -
Re: A problem about partitionwise join
Etsuro Fujita <etsuro.fujita@gmail.com> — 2019-11-26T11:35:33Z
Hi Richard, On Fri, Aug 30, 2019 at 3:08 AM Etsuro Fujita <etsuro.fujita@gmail.com> wrote: > On Thu, Aug 29, 2019 at 6:45 PM Richard Guo <riguo@pivotal.io> wrote: > > Attached is a patch as an attempt to address this issue. The idea is > > quite straightforward. When building partition info for joinrel, we > > generate any possible EC-derived joinclauses of form 'outer_em = > > inner_em', which will be used together with the original restrictlist to > > check if there exists an equi-join condition for each pair of partition > > keys. > > Will review. I've just started reviewing this patch. One comment I have for now is: this is categorized into Bug Fixes, but we have a workaround at least to the regression test case in the patch (ie, just reorder join clauses), so this seems to me more like an improvement than a bug fix. Sorry for the delay. Best regards, Etsuro Fujita
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Re: A problem about partitionwise join
Michael Paquier <michael@paquier.xyz> — 2019-11-29T03:03:05Z
On Tue, Nov 26, 2019 at 08:35:33PM +0900, Etsuro Fujita wrote: > I've just started reviewing this patch. One comment I have for now > is: this is categorized into Bug Fixes, but we have a workaround at > least to the regression test case in the patch (ie, just reorder join > clauses), so this seems to me more like an improvement than a bug fix. Hmm. Agreed. Changed the category and moved to next CF. -- Michael
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Re: A problem about partitionwise join
Richard Guo <riguo@pivotal.io> — 2019-11-29T03:07:53Z
On Fri, Nov 29, 2019 at 11:03 AM Michael Paquier <michael@paquier.xyz> wrote: > On Tue, Nov 26, 2019 at 08:35:33PM +0900, Etsuro Fujita wrote: > > I've just started reviewing this patch. One comment I have for now > > is: this is categorized into Bug Fixes, but we have a workaround at > > least to the regression test case in the patch (ie, just reorder join > > clauses), so this seems to me more like an improvement than a bug fix. > > Hmm. Agreed. Changed the category and moved to next CF. > Thanks Etsuro for the comment and thanks Michael for the change. Thanks Richard
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Re: A problem about partitionwise join
Etsuro Fujita <etsuro.fujita@gmail.com> — 2019-11-29T03:35:33Z
On Fri, Nov 29, 2019 at 12:08 PM Richard Guo <riguo@pivotal.io> wrote: > On Fri, Nov 29, 2019 at 11:03 AM Michael Paquier <michael@paquier.xyz> wrote: >> On Tue, Nov 26, 2019 at 08:35:33PM +0900, Etsuro Fujita wrote: >> > I've just started reviewing this patch. One comment I have for now >> > is: this is categorized into Bug Fixes, but we have a workaround at >> > least to the regression test case in the patch (ie, just reorder join >> > clauses), so this seems to me more like an improvement than a bug fix. >> >> Hmm. Agreed. Changed the category and moved to next CF. > thanks Michael for the change. +1 Best regards, Etsuro Fujita
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Re: A problem about partitionwise join
Richard Guo <riguo@pivotal.io> — 2020-01-19T04:01:16Z
Rebased the patch with latest master and also addressed the test case failure reported by PostgreSQL Patch Tester. Thanks Richard On Fri, Nov 29, 2019 at 11:35 AM Etsuro Fujita <etsuro.fujita@gmail.com> wrote: > On Fri, Nov 29, 2019 at 12:08 PM Richard Guo <riguo@pivotal.io> wrote: > > On Fri, Nov 29, 2019 at 11:03 AM Michael Paquier <michael@paquier.xyz> > wrote: > >> On Tue, Nov 26, 2019 at 08:35:33PM +0900, Etsuro Fujita wrote: > >> > I've just started reviewing this patch. One comment I have for now > >> > is: this is categorized into Bug Fixes, but we have a workaround at > >> > least to the regression test case in the patch (ie, just reorder join > >> > clauses), so this seems to me more like an improvement than a bug fix. > >> > >> Hmm. Agreed. Changed the category and moved to next CF. > > > thanks Michael for the change. > > +1 > > Best regards, > Etsuro Fujita >
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Re: A problem about partitionwise join
Tom Lane <tgl@sss.pgh.pa.us> — 2020-04-04T20:37:58Z
Richard Guo <riguo@pivotal.io> writes: > Rebased the patch with latest master and also addressed the test case > failure reported by PostgreSQL Patch Tester. I looked this patch over, but I don't like it too much: it seems very brute-force (and badly under-commented). Creating all those extra RestrictInfos isn't too cheap in itself, plus they'll jam up the equivalence-class machinery for future tests. There is already something in equivclass.c that would almost do what we want here: exprs_known_equal() would tell us whether the partkeys can be found in the same eclass, without having to generate data structures along the way. The current implementation is not watertight because it doesn't check opclass semantics, but that consideration can be bolted on readily enough. So that leads me to something like the attached. One argument that could be made against this approach is that if there are a lot of partkey expressions, this requires O(N^2) calls to exprs_known_equal, something that's already not too cheap. I think that that's not a big problem because the number of partkey expressions would only be equal to the join degree (ie it doesn't scale with the number of partitions of the baserels) ... but maybe I'm wrong about that? I also wonder if it's really necessary to check every pair of partkey expressions. It seems at least plausible that in the cases we care about, all the partkeys on each side would be in the same eclasses anyway, so that comparing the first members of each list would be sufficient. But I haven't beat on that point. regards, tom lane
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Re: A problem about partitionwise join
Richard Guo <guofenglinux@gmail.com> — 2020-04-08T04:58:49Z
On Sun, Apr 5, 2020 at 4:38 AM Tom Lane <tgl@sss.pgh.pa.us> wrote: > Richard Guo <riguo@pivotal.io> writes: > > Rebased the patch with latest master and also addressed the test case > > failure reported by PostgreSQL Patch Tester. > > I looked this patch over, but I don't like it too much: it seems very > brute-force (and badly under-commented). Creating all those extra > RestrictInfos isn't too cheap in itself, plus they'll jam up the > equivalence-class machinery for future tests. > Thanks for the review. > > There is already something in equivclass.c that would almost do what > we want here: exprs_known_equal() would tell us whether the partkeys > can be found in the same eclass, without having to generate data > structures along the way. The current implementation is not watertight > because it doesn't check opclass semantics, but that consideration > can be bolted on readily enough. So that leads me to something like > the attached. > I looked through this patch and it's much more elegant than the previous one. Thank you for working on it. For partkeys which fail to be identified as equal by looking through restrictlist, it's a good idea to check them in ECs with the help of exprs_known_equal(). I have some concern about we only check non-nullable partexprs. Is it possible that two nullable partexprs come from the same EC? I tried to give an example but failed. > > One argument that could be made against this approach is that if there > are a lot of partkey expressions, this requires O(N^2) calls to > exprs_known_equal, something that's already not too cheap. I think > that that's not a big problem because the number of partkey expressions > would only be equal to the join degree (ie it doesn't scale with the > number of partitions of the baserels) ... but maybe I'm wrong about > that? You are right. According to how partexpr is formed for joinrel in set_joinrel_partition_key_exprs(), each base relation within the join contributes one partexpr, so the number of partexprs would be equal to the join degree. > I also wonder if it's really necessary to check every pair > of partkey expressions. It seems at least plausible that in the > cases we care about, all the partkeys on each side would be in the same > eclasses anyway, so that comparing the first members of each list would > be sufficient. But I haven't beat on that point. > Not sure about it. But cannot come out with a counterexample. Thanks Richard
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Re: A problem about partitionwise join
Tom Lane <tgl@sss.pgh.pa.us> — 2020-04-08T17:07:54Z
Richard Guo <guofenglinux@gmail.com> writes: > On Sun, Apr 5, 2020 at 4:38 AM Tom Lane <tgl@sss.pgh.pa.us> wrote: >> There is already something in equivclass.c that would almost do what >> we want here: exprs_known_equal() would tell us whether the partkeys >> can be found in the same eclass, without having to generate data >> structures along the way. The current implementation is not watertight >> because it doesn't check opclass semantics, but that consideration >> can be bolted on readily enough. So that leads me to something like >> the attached. > I have some concern about we only check non-nullable partexprs. Is it > possible that two nullable partexprs come from the same EC? I tried to > give an example but failed. Currently the EC infrastructure doesn't really cope with outer join equijoins. They are not treated as producing true equivalences, so I think that the case you're worried about can't occur (which is why I didn't code for it). I have hopes of being able to incorporate outer joins into the EC logic in a less squishy way in the future, by making the representation of Vars distinguish explicitly between value-before-outer-join and value-after-outer-join, after which we could make bulletproof assertions about what is equal to what, even with outer joins in the mix. If that works out it might produce a cleaner answer in this area too. TBH, now that I have had some exposure to the partitionwise join matching logic I don't much like any of it. I feel like it's doing about the same job as ECs, but in an unprincipled and not very efficient manner. Right now is no time to redesign it, of course, but maybe at some point we could do that. (I did experiment with removing all the rest of have_partkey_equi_join() and having it *only* ask exprs_known_equal() about equivalences, which is more or less what I'm envisioning here. That caused some of the existing regression tests to fail, so there's something that the idea isn't covering. I didn't dig any further at the time, and in particular failed to check whether the problems were specifically about outer joins, which'd be unsurprising given the above.) Anyway, this work has missed the window for v13, so we've got plenty of time to think about it. regards, tom lane
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Re: A problem about partitionwise join
Richard Guo <guofenglinux@gmail.com> — 2020-04-09T04:14:24Z
On Thu, Apr 9, 2020 at 1:07 AM Tom Lane <tgl@sss.pgh.pa.us> wrote: > Richard Guo <guofenglinux@gmail.com> writes: > > On Sun, Apr 5, 2020 at 4:38 AM Tom Lane <tgl@sss.pgh.pa.us> wrote: > >> There is already something in equivclass.c that would almost do what > >> we want here: exprs_known_equal() would tell us whether the partkeys > >> can be found in the same eclass, without having to generate data > >> structures along the way. The current implementation is not watertight > >> because it doesn't check opclass semantics, but that consideration > >> can be bolted on readily enough. So that leads me to something like > >> the attached. > > > I have some concern about we only check non-nullable partexprs. Is it > > possible that two nullable partexprs come from the same EC? I tried to > > give an example but failed. > > Currently the EC infrastructure doesn't really cope with outer join > equijoins. They are not treated as producing true equivalences, > so I think that the case you're worried about can't occur (which is why > I didn't code for it). I have hopes of being able to incorporate outer > joins into the EC logic in a less squishy way in the future, by making > the representation of Vars distinguish explicitly between > value-before-outer-join and value-after-outer-join, after which we could > make bulletproof assertions about what is equal to what, even with outer > joins in the mix. If that works out it might produce a cleaner answer > in this area too. > This is very appealing. Do we have ongoing discussions/threads about this idea? > (I did experiment with > removing all the rest of have_partkey_equi_join() and having it > *only* ask exprs_known_equal() about equivalences, which is more or > less what I'm envisioning here. That caused some of the existing > regression tests to fail, so there's something that the idea isn't > covering. I didn't dig any further at the time, and in particular > failed to check whether the problems were specifically about outer > joins, which'd be unsurprising given the above.) > I think it would not work for outer joins if we only check exprs_known_equal() for equivalences. If the equi-join conditions involving pairs of matching partition keys are outer join quals mentioning nonnullable side rels, they would not exist in any EC according to the current EC infrastructure. So we still have to look through restrictlist. Thanks Richard
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Re: A problem about partitionwise join
Tom Lane <tgl@sss.pgh.pa.us> — 2020-04-09T05:24:23Z
Richard Guo <guofenglinux@gmail.com> writes: > On Thu, Apr 9, 2020 at 1:07 AM Tom Lane <tgl@sss.pgh.pa.us> wrote: >> I have hopes of being able to incorporate outer >> joins into the EC logic in a less squishy way in the future, by making >> the representation of Vars distinguish explicitly between >> value-before-outer-join and value-after-outer-join, after which we could >> make bulletproof assertions about what is equal to what, even with outer >> joins in the mix. If that works out it might produce a cleaner answer >> in this area too. > This is very appealing. Do we have ongoing discussions/threads about > this idea? There's some preliminary noodling in this thread: https://www.postgresql.org/message-id/flat/15848.1576515643%40sss.pgh.pa.us I've pushed the earlier work discussed there, but stalled out due to the call of other responsibilities after posting the currently-last message in the thread. Hoping to get back into that over the summer. regards, tom lane
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Re: A problem about partitionwise join
Ashutosh Bapat <ashutosh.bapat.oss@gmail.com> — 2020-04-09T14:06:28Z
> > I think it would not work for outer joins if we only check > exprs_known_equal() for equivalences. If the equi-join conditions > involving pairs of matching partition keys are outer join quals > mentioning nonnullable side rels, they would not exist in any EC > according to the current EC infrastructure. So we still have to look > through restrictlist. > When I wrote that function and even today, EC didn't accommodate outer join equality conditions. If we can somehow do that, have_partkey_equi_join() can be completely eliminated. -- Best Wishes, Ashutosh Bapat
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Re: A problem about partitionwise join
Anastasia Lubennikova <a.lubennikova@postgrespro.ru> — 2020-11-06T15:25:24Z
Status update for a commitfest entry. According to CFbot this patch fails to apply. Richard, can you send an update, please? Also, I see that the thread was inactive for a while. Are you going to continue this work? I think it would be helpful, if you could write a short recap about current state of the patch and list open questions for reviewers. The new status of this patch is: Waiting on Author
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Re: A problem about partitionwise join
Richard Guo <guofenglinux@gmail.com> — 2020-11-10T09:12:58Z
On Fri, Nov 6, 2020 at 11:26 PM Anastasia Lubennikova < a.lubennikova@postgrespro.ru> wrote: > Status update for a commitfest entry. > > According to CFbot this patch fails to apply. Richard, can you send an > update, please? > > Also, I see that the thread was inactive for a while. > Are you going to continue this work? I think it would be helpful, if you > could write a short recap about current state of the patch and list open > questions for reviewers. > > The new status of this patch is: Waiting on Author > Thanks Anastasia. I've rebased the patch with latest master. To recap, the problem we are fixing here is when generating join clauses from equivalence classes, we only select the joinclause with the 'best score', or the first joinclause with a score of 3. This may cause us to miss some joinclause on partition keys and thus fail to generate partitionwise join. The initial idea for the fix is to create all the RestrictInfos from ECs in order to check whether there exist equi-join conditions involving pairs of matching partition keys of the relations being joined for all partition keys. And then Tom proposed a much better idea which leverages function exprs_known_equal() to tell whether the partkeys can be found in the same eclass, which is the current implementation in the latest patch. Thanks Richard
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Re: A problem about partitionwise join
Ashutosh Bapat <ashutosh.bapat.oss@gmail.com> — 2020-11-27T12:05:00Z
On Tue, Nov 10, 2020 at 2:43 PM Richard Guo <guofenglinux@gmail.com> wrote: > > > On Fri, Nov 6, 2020 at 11:26 PM Anastasia Lubennikova <a.lubennikova@postgrespro.ru> wrote: >> >> Status update for a commitfest entry. >> >> According to CFbot this patch fails to apply. Richard, can you send an update, please? >> >> Also, I see that the thread was inactive for a while. >> Are you going to continue this work? I think it would be helpful, if you could write a short recap about current state of the patch and list open questions for reviewers. >> >> The new status of this patch is: Waiting on Author > > > Thanks Anastasia. I've rebased the patch with latest master. > > To recap, the problem we are fixing here is when generating join clauses > from equivalence classes, we only select the joinclause with the 'best > score', or the first joinclause with a score of 3. This may cause us to > miss some joinclause on partition keys and thus fail to generate > partitionwise join. > > The initial idea for the fix is to create all the RestrictInfos from ECs > in order to check whether there exist equi-join conditions involving > pairs of matching partition keys of the relations being joined for all > partition keys. And then Tom proposed a much better idea which leverages > function exprs_known_equal() to tell whether the partkeys can be found > in the same eclass, which is the current implementation in the latest > patch. > In the example you gave earlier, the equi join on partition key was there but it was replaced by individual constant assignment clauses. So if we keep the original restrictclause in there with a new flag indicating that it's redundant, have_partkey_equi_join will still be able to use it without much change. Depending upon where all we need to use avoid restrictclauses with the redundant flag, this might be an easier approach. However, with Tom's idea partition-wise join may be used even when there is no equi-join between partition keys but there are clauses like pk = const for all tables involved and const is the same for all such tables. In the spirit of small improvement made to the performance of have_partkey_equi_join(), pk_has_clause should be renamed as pk_known_equal and pks_known_equal as num_equal_pks. The loop traversing the partition keys at a given position, may be optimized further if we pass lists to exprs_known_equal() which in turns checks whether one expression from each list is member of a given EC. This will avoid traversing all equivalence classes for each partition key expression, which can be a huge improvement when there are many ECs. But I think if one of the partition key expression at a given position is member of an equivalence class all the other partition key expressions at that position should be part of that equivalence class since there should be an equi-join between those. So the loop in loop may not be required to start with. -- Best Wishes, Ashutosh Bapat
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Re: A problem about partitionwise join
David Steele <david@pgmasters.net> — 2021-03-09T16:22:32Z
On 11/27/20 7:05 AM, Ashutosh Bapat wrote: > On Tue, Nov 10, 2020 at 2:43 PM Richard Guo <guofenglinux@gmail.com> wrote: >> >> To recap, the problem we are fixing here is when generating join clauses >> from equivalence classes, we only select the joinclause with the 'best >> score', or the first joinclause with a score of 3. This may cause us to >> miss some joinclause on partition keys and thus fail to generate >> partitionwise join. >> >> The initial idea for the fix is to create all the RestrictInfos from ECs >> in order to check whether there exist equi-join conditions involving >> pairs of matching partition keys of the relations being joined for all >> partition keys. And then Tom proposed a much better idea which leverages >> function exprs_known_equal() to tell whether the partkeys can be found >> in the same eclass, which is the current implementation in the latest >> patch. > > In the example you gave earlier, the equi join on partition key was > there but it was replaced by individual constant assignment clauses. > So if we keep the original restrictclause in there with a new flag > indicating that it's redundant, have_partkey_equi_join will still be > able to use it without much change. Depending upon where all we need > to use avoid restrictclauses with the redundant flag, this might be an > easier approach. However, with Tom's idea partition-wise join may be > used even when there is no equi-join between partition keys but there > are clauses like pk = const for all tables involved and const is the > same for all such tables. > > In the spirit of small improvement made to the performance of > have_partkey_equi_join(), pk_has_clause should be renamed as > pk_known_equal and pks_known_equal as num_equal_pks. > > The loop traversing the partition keys at a given position, may be > optimized further if we pass lists to exprs_known_equal() which in > turns checks whether one expression from each list is member of a > given EC. This will avoid traversing all equivalence classes for each > partition key expression, which can be a huge improvement when there > are many ECs. But I think if one of the partition key expression at a > given position is member of an equivalence class all the other > partition key expressions at that position should be part of that > equivalence class since there should be an equi-join between those. So > the loop in loop may not be required to start with. Richard, any thoughts on Ashutosh's comments? Regards, -- -David david@pgmasters.net
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Re: A problem about partitionwise join
Richard Guo <guofenglinux@gmail.com> — 2021-07-21T08:44:53Z
On Fri, Nov 27, 2020 at 8:05 PM Ashutosh Bapat <ashutosh.bapat.oss@gmail.com> wrote: > On Tue, Nov 10, 2020 at 2:43 PM Richard Guo <guofenglinux@gmail.com> > wrote: > > Thanks Anastasia. I've rebased the patch with latest master. > > > > To recap, the problem we are fixing here is when generating join clauses > > from equivalence classes, we only select the joinclause with the 'best > > score', or the first joinclause with a score of 3. This may cause us to > > miss some joinclause on partition keys and thus fail to generate > > partitionwise join. > > > > The initial idea for the fix is to create all the RestrictInfos from ECs > > in order to check whether there exist equi-join conditions involving > > pairs of matching partition keys of the relations being joined for all > > partition keys. And then Tom proposed a much better idea which leverages > > function exprs_known_equal() to tell whether the partkeys can be found > > in the same eclass, which is the current implementation in the latest > > patch. > > > > In the example you gave earlier, the equi join on partition key was > there but it was replaced by individual constant assignment clauses. > So if we keep the original restrictclause in there with a new flag > indicating that it's redundant, have_partkey_equi_join will still be > able to use it without much change. Depending upon where all we need > to use avoid restrictclauses with the redundant flag, this might be an > easier approach. However, with Tom's idea partition-wise join may be > used even when there is no equi-join between partition keys but there > are clauses like pk = const for all tables involved and const is the > same for all such tables. > Correct. So with Tom's idea partition-wise join can cope with clauses such as 'foo.k1 = bar.k1 and foo.k2 = 16 and bar.k2 = 16'. > > In the spirit of small improvement made to the performance of > have_partkey_equi_join(), pk_has_clause should be renamed as > pk_known_equal and pks_known_equal as num_equal_pks. > Thanks for the suggestion. Will do that in the new version of patch. > > The loop traversing the partition keys at a given position, may be > optimized further if we pass lists to exprs_known_equal() which in > turns checks whether one expression from each list is member of a > given EC. This will avoid traversing all equivalence classes for each > partition key expression, which can be a huge improvement when there > are many ECs. But I think if one of the partition key expression at a > given position is member of an equivalence class all the other > partition key expressions at that position should be part of that > equivalence class since there should be an equi-join between those. So > the loop in loop may not be required to start with. > Good point. Quote from one of Tom's earlier emails, "It seems at least plausible that in the cases we care about, all the partkeys on each side would be in the same eclasses anyway, so that comparing the first members of each list would be sufficient." But I'm not sure if this holds true in all cases. However, since each base relation within the join contributes only one partexpr, the number of partexprs would only be equal to the join degree. Thus the loop in loop may not be a big problem? PS. Sorry for delaying so long time! Thanks Richard
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Re: A problem about partitionwise join
Jaime Casanova <jcasanov@systemguards.com.ec> — 2021-10-05T17:19:22Z
On Wed, Jul 21, 2021 at 04:44:53PM +0800, Richard Guo wrote: > On Fri, Nov 27, 2020 at 8:05 PM Ashutosh Bapat <ashutosh.bapat.oss@gmail.com> > wrote: > > > > > In the example you gave earlier, the equi join on partition key was > > there but it was replaced by individual constant assignment clauses. > > So if we keep the original restrictclause in there with a new flag > > indicating that it's redundant, have_partkey_equi_join will still be > > able to use it without much change. Depending upon where all we need > > to use avoid restrictclauses with the redundant flag, this might be an > > easier approach. However, with Tom's idea partition-wise join may be > > used even when there is no equi-join between partition keys but there > > are clauses like pk = const for all tables involved and const is the > > same for all such tables. > > > > Correct. So with Tom's idea partition-wise join can cope with clauses > such as 'foo.k1 = bar.k1 and foo.k2 = 16 and bar.k2 = 16'. > > > > > > In the spirit of small improvement made to the performance of > > have_partkey_equi_join(), pk_has_clause should be renamed as > > pk_known_equal and pks_known_equal as num_equal_pks. > > > > Thanks for the suggestion. Will do that in the new version of patch. > Hi Richard, We are marking this CF entry as "Returned with Feedback", which means you are encouraged to send a new patch (and create a new entry for a future CF for it) with the suggested changes. -- Jaime Casanova Director de Servicios Profesionales SystemGuards - Consultores de PostgreSQL
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Re: A problem about partitionwise join
Richard Guo <guofenglinux@gmail.com> — 2021-11-22T07:04:58Z
On Wed, Oct 6, 2021 at 1:19 AM Jaime Casanova <jcasanov@systemguards.com.ec> wrote: > On Wed, Jul 21, 2021 at 04:44:53PM +0800, Richard Guo wrote: > > On Fri, Nov 27, 2020 at 8:05 PM Ashutosh Bapat < > ashutosh.bapat.oss@gmail.com> > > wrote: > > > > > > > > In the example you gave earlier, the equi join on partition key was > > > there but it was replaced by individual constant assignment clauses. > > > So if we keep the original restrictclause in there with a new flag > > > indicating that it's redundant, have_partkey_equi_join will still be > > > able to use it without much change. Depending upon where all we need > > > to use avoid restrictclauses with the redundant flag, this might be an > > > easier approach. However, with Tom's idea partition-wise join may be > > > used even when there is no equi-join between partition keys but there > > > are clauses like pk = const for all tables involved and const is the > > > same for all such tables. > > > > > > > Correct. So with Tom's idea partition-wise join can cope with clauses > > such as 'foo.k1 = bar.k1 and foo.k2 = 16 and bar.k2 = 16'. > > > > > > > > > > In the spirit of small improvement made to the performance of > > > have_partkey_equi_join(), pk_has_clause should be renamed as > > > pk_known_equal and pks_known_equal as num_equal_pks. > > > > > > > Thanks for the suggestion. Will do that in the new version of patch. > > > > Hi Richard, > > We are marking this CF entry as "Returned with Feedback", which means > you are encouraged to send a new patch (and create a new entry for a > future CF for it) with the suggested changes. > Hi, The suggested changes have already been included in v5 patch. Sorry for the confusion. Verified that the patch still applies and works on latest master. So I'm moving it to the next CF (which is Commitfest 2022-01). Please correct me if this is not the right thing to do. Thanks Richard
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Re: A problem about partitionwise join
Richard Guo <guofenglinux@gmail.com> — 2022-04-25T07:21:06Z
On Mon, Nov 22, 2021 at 3:04 PM Richard Guo <guofenglinux@gmail.com> wrote: > > The suggested changes have already been included in v5 patch. Sorry for > the confusion. > > Verified that the patch still applies and works on latest master. So I'm > moving it to the next CF (which is Commitfest 2022-01). Please correct > me if this is not the right thing to do. > Rebased the patch with latest master. Appreciate any comments. Thanks Richard
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Re: A problem about partitionwise join
Jacob Champion <jchampion@timescale.com> — 2022-08-01T20:24:08Z
As discussed in [1], we're taking this opportunity to return some patchsets that don't appear to be getting enough reviewer interest. This is not a rejection, since we don't necessarily think there's anything unacceptable about the entry, but it differs from a standard "Returned with Feedback" in that there's probably not much actionable feedback at all. Rather than code changes, what this patch needs is more community interest. You might - ask people for help with your approach, - see if there are similar patches that your code could supplement, - get interested parties to agree to review your patch in a CF, or - possibly present the functionality in a way that's easier to review overall. (Doing these things is no guarantee that there will be interest, but it's hopefully better than endlessly rebasing a patchset that is not receiving any feedback from the community.) Once you think you've built up some community support and the patchset is ready for review, you (or any interested party) can resurrect the patch entry by visiting https://commitfest.postgresql.org/38/2266/ and changing the status to "Needs Review", and then changing the status again to "Move to next CF". (Don't forget the second step; hopefully we will have streamlined this in the near future!) Thanks, --Jacob [1] https://postgr.es/m/flat/0ab66589-2f71-69b3-2002-49e821740b0d%40timescale.com -
Re: A problem about partitionwise join
Richard Guo <guofenglinux@gmail.com> — 2024-02-21T11:24:54Z
On Tue, Aug 2, 2022 at 4:24 AM Jacob Champion <jchampion@timescale.com> wrote: > Once you think you've built up some community support and the patchset > is ready for review, you (or any interested party) can resurrect the > patch entry by visiting > > https://commitfest.postgresql.org/38/2266/ > > and changing the status to "Needs Review", and then changing the > status again to "Move to next CF". (Don't forget the second step; > hopefully we will have streamlined this in the near future!) This patch was returned due to 'lack of interest'. However, upon verification, it appears that the reported issue still exists, and the proposed fix in the thread remains valid. Hence, resurrect this patch after rebasing it on master. I've also written a detailed commit message which hopefully can help people review the changes more effectively. Thanks Richard
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Re: A problem about partitionwise join
Ashutosh Bapat <ashutosh.bapat.oss@gmail.com> — 2024-02-22T09:26:49Z
On Wed, Feb 21, 2024 at 4:55 PM Richard Guo <guofenglinux@gmail.com> wrote: > > > On Tue, Aug 2, 2022 at 4:24 AM Jacob Champion <jchampion@timescale.com> wrote: >> >> Once you think you've built up some community support and the patchset >> is ready for review, you (or any interested party) can resurrect the >> patch entry by visiting >> >> https://commitfest.postgresql.org/38/2266/ >> >> and changing the status to "Needs Review", and then changing the >> status again to "Move to next CF". (Don't forget the second step; >> hopefully we will have streamlined this in the near future!) > > > This patch was returned due to 'lack of interest'. However, upon > verification, it appears that the reported issue still exists, and the > proposed fix in the thread remains valid. Hence, resurrect this patch > after rebasing it on master. I've also written a detailed commit > message which hopefully can help people review the changes more > effectively. The concept looks useful. The SQL statement added in the test looks cooked though (it outputs data that has same value for two columns which is equal to primary key of other table - when would somebody do that?). Is there some real life example of this? The patch uses restrictclauses as well as EC's. Tom has proposed to make EC work with outer joins sensibly. Has that happened? Can this patch leverage it rather than having two loops? -- Best Wishes, Ashutosh Bapat
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Re: A problem about partitionwise join
Ashutosh Bapat <ashutosh.bapat.oss@gmail.com> — 2024-03-07T11:13:05Z
On Thu, Feb 22, 2024 at 2:56 PM Ashutosh Bapat <ashutosh.bapat.oss@gmail.com> wrote: > On Wed, Feb 21, 2024 at 4:55 PM Richard Guo <guofenglinux@gmail.com> > wrote: > > > > > > On Tue, Aug 2, 2022 at 4:24 AM Jacob Champion <jchampion@timescale.com> > wrote: > >> > >> Once you think you've built up some community support and the patchset > >> is ready for review, you (or any interested party) can resurrect the > >> patch entry by visiting > >> > >> https://commitfest.postgresql.org/38/2266/ > >> > >> and changing the status to "Needs Review", and then changing the > >> status again to "Move to next CF". (Don't forget the second step; > >> hopefully we will have streamlined this in the near future!) > > > > > > This patch was returned due to 'lack of interest'. However, upon > > verification, it appears that the reported issue still exists, and the > > proposed fix in the thread remains valid. Hence, resurrect this patch > > after rebasing it on master. I've also written a detailed commit > > message which hopefully can help people review the changes more > > effectively. > > I did a deeper review of the patch. Here are some comments Approach -------- The equijoin condition between partition keys doesn't appear in the join's restrictilist because of 'best_score' strategy as you explained well in [2]. What if we add an extra score for clauses between partition keys and give preference to equijoin between partition keys? Have you given it a thought? I feel that having an equijoin clause involving partition keys has more usages compared to a clause with any random column. E.g. nextloop may be able to prune partitions from inner relation if the clause contains a partition key. Partition pruning requires equality clauses on partition keys as well. create_append_plan() fetches those from best_path->param_info. If we created and saved the clauses involving partition keys somewhere separately, similar to the clauses involving index keys, it might help this case as well as the partition pruning code. Have you considered this idea? There was a proposal to use ECs for outer joins as well and then use only ECs to decide whether equijoins between partition keys exist. I don't think the proposal has materialized. So we have to continue looking at restrictlist as well. I don't see a point waiting for it, but others might feel differently. I am just trying to find ways to avoid two loops in have_partkey_equi_join(). If the alternatives are worse, I think the current approach is fine. Documentation ------------- The patch does not modify any documentation. The only documentation I could find about partitionwise join is the one for GUC 'enable_partitionwise_join'. It says --- quote "Partitionwise join currently applies only when the join conditions include all the partition keys, which must be of the same data type and have one-to-one matching sets of child partitions.". --- unquote This sentence is general and IMO covers the case this patch considers. But in general I feel that partitionwise join and aggregation deserve separate sections next to "partition pruning" in [1]; It should mention advanced partition matching algorithm as well. Would you be willing to write one and then expand it for the case in the patch? Tests ----- The patch adds a testcase for single column partitioning. I think we need to do better like 1. Test for partitioning on expression, multilevel partitioning, advanced partition matching. Those all might just work. Having tests helps us to notice any future breakage. 2. Some negative test case e.g. equijoin clauses with disjunction, with inequality operator, equality operators with operators from different families etc. 3. The testcase added looks artificial. it outputs data that has same value for two columns which is equal to the primary key of the other table - when would somebody do that?. Is there some real life example where this change will be useful? Code ---- Minor comment for now. It will be better to increment num_equal_pks immediately after setting pk_known_equal[ipk] = true. Otherwise the code gets confusing around line 2269. I will spend more time reviewing the code next week. [1] https://www.postgresql.org/docs/current/ddl-partitioning.html [2] https://www.postgresql.org/message-id/CAN_9JTxucGdVY9tV6Uxq0CdhrW98bZtxPKFbF_75qdPi5wBaow@mail.gmail.com -- Best Wishes, Ashutosh Bapat
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Re: A problem about partitionwise join
Richard Guo <guofenglinux@gmail.com> — 2024-03-19T02:47:49Z
(Sorry it takes me some time to get back to this thread.) On Thu, Mar 7, 2024 at 7:13 PM Ashutosh Bapat <ashutosh.bapat.oss@gmail.com> wrote: > I did a deeper review of the patch. Here are some comments > Thank you for the review! > Approach > -------- > The equijoin condition between partition keys doesn't appear in the join's > restrictilist because of 'best_score' strategy as you explained well in > [2]. What if we add an extra score for clauses between partition keys and > give preference to equijoin between partition keys? Have you given it a > thought? I feel that having an equijoin clause involving partition keys has > more usages compared to a clause with any random column. E.g. nextloop may > be able to prune partitions from inner relation if the clause contains a > partition key. > Hmm, I think this approach won't work in cases where one certain pair of partition keys has formed an EC that contains pseudoconstants. In such cases, the EC machinery will generate restriction clauses like 'pk = const' rather than any join clauses. Besides, it seems to me that it's not a cheap operation to check whether a join clause is between partition keys when we generate join clauses from ECs in generate_join_implied_equalities(). > Documentation > ------------- > The patch does not modify any documentation. The only documentation I > could find about partitionwise join is the one for GUC > 'enable_partitionwise_join'. It says > --- quote > "Partitionwise join currently applies only when the join conditions > include all the partition keys, which must be of the same data type and > have one-to-one matching sets of child partitions.". > --- unquote > This sentence is general and IMO covers the case this patch considers. But > in general I feel that partitionwise join and aggregation deserve separate > sections next to "partition pruning" in [1]; It should mention advanced > partition matching algorithm as well. Would you be willing to write one and > then expand it for the case in the patch? > I don't think it should be part of this patch to add a new section in the docs to explain partitionwise join and aggregation. Maybe that deserves a separate patch? > Tests > ----- > The patch adds a testcase for single column partitioning. I think we need > to do better like > 1. Test for partitioning on expression, multilevel partitioning, advanced > partition matching. Those all might just work. Having tests helps us to > notice any future breakage. > 2. Some negative test case e.g. equijoin clauses with disjunction, with > inequality operator, equality operators with operators from different > families etc. > Thanks for the suggestions. We can do that. > 3. The testcase added looks artificial. it outputs data that has same > value for two columns which is equal to the primary key of the other table > - when would somebody do that?. Is there some real life example where this > change will be useful? > Hmm, I think the test case is good as long as it reveals the issue that this patch fixes. It follows the same format as the existing test case just above it. I'm not sure if there are real life examples, but I think it may not always be necessary to derive test cases from them. > Code > ---- > Minor comment for now. It will be better to increment num_equal_pks > immediately after setting pk_known_equal[ipk] = true. Otherwise the code > gets confusing around line 2269. I will spend more time reviewing the code > next week. > Hmm, the increment of num_equal_pks on line 2272 is parallel to the one in the first loop (around line 2200). Maybe it's better to keep them consistent as the current patch does? Thanks Richard
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Re: A problem about partitionwise join
Ashutosh Bapat <ashutosh.bapat.oss@gmail.com> — 2024-03-19T07:39:53Z
On Tue, Mar 19, 2024 at 8:18 AM Richard Guo <guofenglinux@gmail.com> wrote: > (Sorry it takes me some time to get back to this thread.) > > On Thu, Mar 7, 2024 at 7:13 PM Ashutosh Bapat < > ashutosh.bapat.oss@gmail.com> wrote: > >> I did a deeper review of the patch. Here are some comments >> > > Thank you for the review! > > >> Approach >> -------- >> The equijoin condition between partition keys doesn't appear in the >> join's restrictilist because of 'best_score' strategy as you explained well >> in [2]. What if we add an extra score for clauses between partition keys >> and give preference to equijoin between partition keys? Have you given it a >> thought? I feel that having an equijoin clause involving partition keys has >> more usages compared to a clause with any random column. E.g. nextloop may >> be able to prune partitions from inner relation if the clause contains a >> partition key. >> > > Hmm, I think this approach won't work in cases where one certain pair of > partition keys has formed an EC that contains pseudoconstants. In such > cases, the EC machinery will generate restriction clauses like 'pk = > const' rather than any join clauses. > That should be ok and more desirable. Clauses like pk = const will leave only one partition around in each of the joining relations thus PWJ won't be required OR it will be automatic - whichever way you see it. > > Besides, it seems to me that it's not a cheap operation to check whether > a join clause is between partition keys when we generate join clauses > from ECs in generate_join_implied_equalities(). > Why? The code would be the same as what we have in have_partkey_equi_join(). > > > Documentation >> ------------- >> The patch does not modify any documentation. The only documentation I >> could find about partitionwise join is the one for GUC >> 'enable_partitionwise_join'. It says >> --- quote >> "Partitionwise join currently applies only when the join conditions >> include all the partition keys, which must be of the same data type and >> have one-to-one matching sets of child partitions.". >> --- unquote >> This sentence is general and IMO covers the case this patch considers. >> But in general I feel that partitionwise join and aggregation deserve >> separate sections next to "partition pruning" in [1]; It should mention >> advanced partition matching algorithm as well. Would you be willing to >> write one and then expand it for the case in the patch? >> > > I don't think it should be part of this patch to add a new section in > the docs to explain partitionwise join and aggregation. Maybe that > deserves a separate patch? > Yes. 3. The testcase added looks artificial. it outputs data that has same value >> for two columns which is equal to the primary key of the other table - when >> would somebody do that?. Is there some real life example where this change >> will be useful? >> > > Hmm, I think the test case is good as long as it reveals the issue that > this patch fixes. It follows the same format as the existing test case > just above it. I'm not sure if there are real life examples, but I > think it may not always be necessary to derive test cases from them. > Let's defer this to the committer. > > >> Code >> ---- >> Minor comment for now. It will be better to increment num_equal_pks >> immediately after setting pk_known_equal[ipk] = true. Otherwise the code >> gets confusing around line 2269. I will spend more time reviewing the code >> next week. >> > > Hmm, the increment of num_equal_pks on line 2272 is parallel to the one > in the first loop (around line 2200). Maybe it's better to keep them > consistent as the current patch does? > > In the first loop, setting pk_known_equal[ipk1] = true and ++num_equal_pks happens on consecutive lines. That's not true in the second loop, where there are at least some code line where num_equal_pks is inconsistent with the number of "true" entries in pk_known_equal. We should avoid that. -- Best Wishes, Ashutosh Bapat
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Re: A problem about partitionwise join
Richard Guo <guofenglinux@gmail.com> — 2024-03-25T03:30:55Z
On Tue, Mar 19, 2024 at 3:40 PM Ashutosh Bapat <ashutosh.bapat.oss@gmail.com> wrote: > On Tue, Mar 19, 2024 at 8:18 AM Richard Guo <guofenglinux@gmail.com> > wrote: > >> On Thu, Mar 7, 2024 at 7:13 PM Ashutosh Bapat < >> ashutosh.bapat.oss@gmail.com> wrote: >> >>> Approach >>> -------- >>> The equijoin condition between partition keys doesn't appear in the >>> join's restrictilist because of 'best_score' strategy as you explained well >>> in [2]. What if we add an extra score for clauses between partition keys >>> and give preference to equijoin between partition keys? Have you given it a >>> thought? I feel that having an equijoin clause involving partition keys has >>> more usages compared to a clause with any random column. E.g. nextloop may >>> be able to prune partitions from inner relation if the clause contains a >>> partition key. >>> >> >> Hmm, I think this approach won't work in cases where one certain pair of >> partition keys has formed an EC that contains pseudoconstants. In such >> cases, the EC machinery will generate restriction clauses like 'pk = >> const' rather than any join clauses. >> > > That should be ok and more desirable. Clauses like pk = const will leave > only one partition around in each of the joining relations thus PWJ won't > be required OR it will be automatic - whichever way you see it. > No, that's not true. There could be multiple partition keys, and the particular key involved in the pushed-down restriction 'pk = const' may not be able to prune away any partitions. To be concrete, consider the query: create table p (k1 int, k2 int, val int) partition by range(k1, k2); create table p_1 partition of p for values from (1,1) to (10,100); create table p_2 partition of p for values from (10,100) to (20,200); set enable_partitionwise_join to on; explain (costs off) select * from p as foo join p as bar on foo.k1 = bar.k1 and foo.k2 = bar.k2 and foo.k2 = 5; QUERY PLAN ----------------------------------------- Hash Join Hash Cond: (foo.k1 = bar.k1) -> Append -> Seq Scan on p_1 foo_1 Filter: (k2 = 5) -> Seq Scan on p_2 foo_2 Filter: (k2 = 5) -> Hash -> Append -> Seq Scan on p_1 bar_1 Filter: (k2 = 5) -> Seq Scan on p_2 bar_2 Filter: (k2 = 5) (13 rows) Thanks Richard -
Re: A problem about partitionwise join
Ashutosh Bapat <ashutosh.bapat.oss@gmail.com> — 2024-03-25T11:09:27Z
On Mon, Mar 25, 2024 at 9:01 AM Richard Guo <guofenglinux@gmail.com> wrote: > > create table p (k1 int, k2 int, val int) partition by range(k1, k2); > create table p_1 partition of p for values from (1,1) to (10,100); > create table p_2 partition of p for values from (10,100) to (20,200); > > set enable_partitionwise_join to on; > > explain (costs off) > select * from p as foo join p as bar on foo.k1 = bar.k1 and foo.k2 = > bar.k2 and foo.k2 = 5; > QUERY PLAN > ----------------------------------------- > Hash Join > Hash Cond: (foo.k1 = bar.k1) > -> Append > -> Seq Scan on p_1 foo_1 > Filter: (k2 = 5) > -> Seq Scan on p_2 foo_2 > Filter: (k2 = 5) > -> Hash > -> Append > -> Seq Scan on p_1 bar_1 > Filter: (k2 = 5) > -> Seq Scan on p_2 bar_2 > Filter: (k2 = 5) > (13 rows) > Thanks for the example. You are right. I think we need some way to avoid two different ways of looking up partition keys - if we can't teach the EC machinery to produce clauses with partition keys (always), we need to teach EC to contain partition keys in case of outer joins. Tom alluded to this but I haven't seen any proposal. The potential danger with the current patch is that it will continue to have two loops even if we fix one of the above cases in future. -- Best Wishes, Ashutosh Bapat
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Re: A problem about partitionwise join
Robert Haas <robertmhaas@gmail.com> — 2024-04-30T17:31:09Z
On Wed, Feb 21, 2024 at 6:25 AM Richard Guo <guofenglinux@gmail.com> wrote: > This patch was returned due to 'lack of interest'. However, upon > verification, it appears that the reported issue still exists, and the > proposed fix in the thread remains valid. Hence, resurrect this patch > after rebasing it on master. I've also written a detailed commit > message which hopefully can help people review the changes more > effectively. I think it's slightly questionable whether this patch is worthwhile. The case memorialized in the regression tests, t1.a = t2.a AND t1.a = t2.b, is a very weird thing to do. The case mentioned in the original email, foo.k1 = bar.k1 and foo.k2 = bar.k2 and foo.k2 = 16, seems like something that could realistically happen, especially when there are views in use (e.g. the view joins foo and bar, and then someone queries the view for one of the join columns). In such a case, it's possible that foo.k2 = 16 is selective enough that we really don't care about partition-wise join any more, but it's also possible that it's not too selective and we do care about partition-wise join. So I don't think that the case that the patch fixes is something that can ever happen, but I do think it's probably fairly rare that brings any benefit, which is why I thought that EC-based matching was an OK approach to this problem initially. Perhaps that was the wrong idea, though. Does the additional logic added by this patch have a noticeable performance cost? -- Robert Haas EDB: http://www.enterprisedb.com
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Re: A problem about partitionwise join
Richard Guo <guofenglinux@gmail.com> — 2024-05-03T11:47:45Z
On Wed, May 1, 2024 at 1:31 AM Robert Haas <robertmhaas@gmail.com> wrote: > I think it's slightly questionable whether this patch is worthwhile. > The case memorialized in the regression tests, t1.a = t2.a AND t1.a = > t2.b, is a very weird thing to do. The case mentioned in the original > email, foo.k1 = bar.k1 and foo.k2 = bar.k2 and foo.k2 = 16, seems like > something that could realistically happen, especially when there are > views in use (e.g. the view joins foo and bar, and then someone > queries the view for one of the join columns). In such a case, it's > possible that foo.k2 = 16 is selective enough that we really don't > care about partition-wise join any more, but it's also possible that > it's not too selective and we do care about partition-wise join. So I > don't think that the case that the patch fixes is something that can > ever happen, but I do think it's probably fairly rare that brings any > benefit, which is why I thought that EC-based matching was an OK > approach to this problem initially. Perhaps that was the wrong idea, > though. Thank you for taking the time to review this patch! I think Ashutosh also mentioned that the new added test case looks artificial. I must admit that I'm not too sure how common we encounter queries with partially-redundant join clauses in real-life scenarios. It is possible that such cases are quite rare, and this patch will then not be of much use. I initially brought up this issue because I noticed an inconsistency regarding the generation of a partition-wise join: with 't1.k = t2.k and t1.k = t2.val' we are able to generate a partition-wise join, while its equivalent form 't1.k = t2.val and t1.k = t2.k' does not result in a partition-wise join. I think this inconsistency could be confusing. The reason behind this is that with 't1.k = t2.val and t1.k = t2.k' it happens to constrain other members (t1.k and t2.val) of the EC than the ones we are looking for (t1.k and t2.k). Our current code looks through the join's restriction clauses for matched keys. In addition to that, this patch checks to see if any unmatched keys are known equal by ECs, leveraging function exprs_known_equal(). > Does the additional logic added by this patch have a noticeable > performance cost? I think one concern regarding performance cost is that the function exprs_known_equal() would be called O(N^2) times, where N is the number of partition key expressions. But I think this might not be a problem. The number of a joinrel's partition key expressions would only be equal to the join degree, since each base relation within the join contributes only one partition key expression, according to set_joinrel_partition_key_exprs(). This number would not scale with the number of partitions. But I have not measured the performance in practice by running benchmarks. Maybe I'm just wrong. Thanks Richard
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Re: A problem about partitionwise join
Robert Haas <robertmhaas@gmail.com> — 2024-05-03T13:31:24Z
On Fri, May 3, 2024 at 7:47 AM Richard Guo <guofenglinux@gmail.com> wrote: >> Does the additional logic added by this patch have a noticeable >> performance cost? > > I think one concern regarding performance cost is that the function > exprs_known_equal() would be called O(N^2) times, where N is the number > of partition key expressions. But I think this might not be a problem. > The number of a joinrel's partition key expressions would only be equal > to the join degree, since each base relation within the join contributes > only one partition key expression, according to > set_joinrel_partition_key_exprs(). This number would not scale with the > number of partitions. But I have not measured the performance in > practice by running benchmarks. Maybe I'm just wrong. I don't know, but I do think you should do some benchmarking and see if you can find cases where this regresses performance. In my opinion, this feature is worth having only if it's basically free. There's lots of things we could do in the planner that would give better (perhaps much better) plans in certain cases, but which we don't do because in all other cases we'd pay a certain number of CPU cycles to have them and it just doesn't make sense given how often we'd actually get a benefit. This might be another such case. I agree with you that the number of partition key expressions is likely to be small, but that doesn't mean there's no problem. A big part of the value of equivalence classes is that they let us make deductions cheaply. Replacing that with some more complex matching mechanism probably has a cost, and maybe that cost is material. If it's not quite material with one partition key expression, going up to 2 or 3 of them might make it matter. -- Robert Haas EDB: http://www.enterprisedb.com
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Re: A problem about partitionwise join
Richard Guo <guofenglinux@gmail.com> — 2024-05-08T09:01:51Z
On Fri, May 3, 2024 at 9:31 PM Robert Haas <robertmhaas@gmail.com> wrote: > On Fri, May 3, 2024 at 7:47 AM Richard Guo <guofenglinux@gmail.com> wrote: > > I think one concern regarding performance cost is that the function > > exprs_known_equal() would be called O(N^2) times, where N is the number > > of partition key expressions. But I think this might not be a problem. > > The number of a joinrel's partition key expressions would only be equal > > to the join degree, since each base relation within the join contributes > > only one partition key expression, according to > > set_joinrel_partition_key_exprs(). This number would not scale with the > > number of partitions. But I have not measured the performance in > > practice by running benchmarks. Maybe I'm just wrong. > > I don't know, but I do think you should do some benchmarking and see > if you can find cases where this regresses performance. In my opinion, > this feature is worth having only if it's basically free. There's lots > of things we could do in the planner that would give better (perhaps > much better) plans in certain cases, but which we don't do because in > all other cases we'd pay a certain number of CPU cycles to have them > and it just doesn't make sense given how often we'd actually get a > benefit. This might be another such case. Thank you for the suggestion. In order to obtain a rough estimation of how this patch affects planning time, I did the following benchmarking: * create a partitioned table with 3 keys and 1000 partitions, which looks like Partitioned table "public.t1_parted" Column | Type | Collation | Nullable | Default --------+---------+-----------+----------+--------- a | integer | | | b | integer | | | c | integer | | | d | integer | | | Partition key: RANGE (a, b, c) Number of partitions: 1000 (Use \d+ to list them.) * compose a query involving 5-way joins of this partitioned table, which looks like: select * from t1_parted t1 natural join t1_parted t2 natural join t1_parted t3 natural join t1_parted t4 natural join t1_parted t5 where t1.b = 1 and t1.c = 2; This query is composed in such a way that it could actually generate partitionwise join, because there exist equi-join condition for each pair of matching partition keys; but currently on master it is not able to generate partitionwise join, because of the filters 't1.b = 1 and t1.c = 2', which is the issue fixed by this patch. * run this query 5 times with enable_partitionwise_join set to on, and collect the average planning time on master and on patched. To ensure fairness, on master, a little hack is required to enable the generation of partitionwise join for this query. This allows us to eliminate any potential impact on planning partitionwise joins and evaluate the effects of this patch accurately. Below is what I got on my local machine. -- on master measurement | average | maximum | minimum | std_dev | std_dev_as_perc_of_avg ---------------+----------+----------+----------+---------+------------------------ planning time | 30355.07 | 33148.47 | 29020.82 | 1681.23 | 5.54% -- on patched measurement | average | maximum | minimum | std_dev | std_dev_as_perc_of_avg ---------------+----------+----------+----------+---------+------------------------ planning time | 30600.00 | 33523.23 | 28680.75 | 1861.90 | 6.08% -- without partitionwise join measurement | average | maximum | minimum | std_dev | std_dev_as_perc_of_avg ---------------+---------+---------+---------+---------+------------------------ planning time | 4840.18 | 5184.05 | 4528.87 | 299.98 | 6.20% So it seems that the planning time is not significantly affected by this patch, particularly when compared to the impact caused by partitionwise join. BTW, I was using Ashutosh's script [1] for setting up the benchmarking. I find the script very handy. [1] https://www.postgresql.org/message-id/flat/CAExHW5s%3DbCLMMq8n_bN6iU%2BPjau0DS3z_6Dn6iLE69ESmsPMJQ%40mail.gmail.com Thanks Richard -
Re: A problem about partitionwise join
Richard Guo <guofenglinux@gmail.com> — 2024-07-30T07:36:00Z
On Wed, May 8, 2024 at 5:01 PM Richard Guo <guofenglinux@gmail.com> wrote: > Below is what I got on my local machine. > > -- on master > > measurement | average | maximum | minimum | std_dev | std_dev_as_perc_of_avg > ---------------+----------+----------+----------+---------+------------------------ > planning time | 30355.07 | 33148.47 | 29020.82 | 1681.23 | 5.54% > > > -- on patched > > measurement | average | maximum | minimum | std_dev | std_dev_as_perc_of_avg > ---------------+----------+----------+----------+---------+------------------------ > planning time | 30600.00 | 33523.23 | 28680.75 | 1861.90 | 6.08% > > > -- without partitionwise join > > measurement | average | maximum | minimum | std_dev | std_dev_as_perc_of_avg > ---------------+---------+---------+---------+---------+------------------------ > planning time | 4840.18 | 5184.05 | 4528.87 | 299.98 | 6.20% > > > So it seems that the planning time is not significantly affected by this > patch, particularly when compared to the impact caused by partitionwise > join. This benchmark shows that the impact of this patch on planning time is within the margin of error, particularly compared to the impact of partitionwise joins. So I've pushed this patch after working a bit more on the commit message. Thanks Richard
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Re: A problem about partitionwise join
Richard Guo <guofenglinux@gmail.com> — 2024-08-12T03:19:55Z
On Sat, Aug 10, 2024 at 6:22 AM Alexey Dvoichenkov <alexey@hyperplane.net> wrote: > I haven't read the entire thread so I might be missing something, but > one interesting consequence of this patch is that it kind of breaks > the initial pruning of generic plans. Given a query such as SELECT > ... WHERE A.PK = B.PK AND A.PK = $1 the planner will do the right > thing for custom plans, but not for GPs since the existing logic is > not capable of pruning anything more complex than a scan. See the > attached example. Thanks for the report! I see what the problem is. Previously, for a join with filter 'WHERE A.PK = B.PK AND A.PK = $1', the planner was unable to generate partitionwise join, because it failed to realize that there exists an equi-join condition between A.PK and B.PK. As a result, the prepared statement 'ps' was planned as a join of two Appends in generic mode: Nested Loop -> Append -> Seq Scan on a0 a_1 Filter: (x = $1) -> Seq Scan on a1 a_2 Filter: (x = $1) -> Materialize -> Append -> Seq Scan on b0 b_1 Filter: (x = $1) -> Seq Scan on b1 b_2 Filter: (x = $1) ... and then one of the subpaths for each Append node would be pruned during initial pruning phase, so you'd get: Nested Loop -> Append Subplans Removed: 1 -> Seq Scan on a0 a_1 Filter: (x = $1) -> Materialize -> Append Subplans Removed: 1 -> Seq Scan on b0 b_1 Filter: (x = $1) With this patch, the planner is able to generate partitionwise join, as it can recognize the equi-join condition between A.PK and B.PK from ECs. So the prepared statement 'ps' is planned as an Append of two joins in generic mode: Append -> Nested Loop -> Seq Scan on a0 a_1 Filter: (x = $1) -> Seq Scan on b0 b_1 Filter: (x = $1) -> Nested Loop -> Seq Scan on a1 a_2 Filter: (x = $1) -> Seq Scan on b1 b_2 Filter: (x = $1) ... and neither subpath of this Append can be pruned during the initial pruning phase. It seems to me that this is not the fault of this patch: it fixes the partitionwise join as expected. The ideal fix to this issue is, IMO, to take initial pruning into account when calculating costs, so we can pick the non-partitionwise-join path and then apply the initial pruning if that is cheaper. Of course we also need to fix apply_scanjoin_target_to_paths to not drop old paths of partitioned joinrels so that we can retain non-partitionwise-join paths if the cheapest path happens to be among them. This work is being discussed in [1]. For now, I think you can work around this issue by setting enable_partitionwise_join to off for this query, if that works for you. [1] https://postgr.es/m/CAExHW5toze58+jL-454J3ty11sqJyU13Sz5rJPQZDmASwZgWiA@mail.gmail.com Thanks Richard -
Re: A problem about partitionwise join
Richard Guo <guofenglinux@gmail.com> — 2024-08-12T03:54:32Z
On Mon, Mar 25, 2024 at 7:09 PM Ashutosh Bapat <ashutosh.bapat.oss@gmail.com> wrote: > I think we need some way to avoid two different ways of looking up partition keys - if we can't teach the EC machinery to produce clauses with partition keys (always), we need to teach EC to contain partition keys in case of outer joins. Tom alluded to this but I haven't seen any proposal. The potential danger with the current patch is that it will continue to have two loops even if we fix one of the above cases in future. Sorry for not replying to this comment before pushing the patch. I understand your concern and agree that it would be ideal if the partitionwise join matching logic relied solely on ECs. However, implementing that would require a lot of changes to the EC mechanism, and I'm not sure if that will happen in the near future. And if we do achieve this in the future, I believe many parts of the code, not just the loops here, will need to be modified to leverage the new EC mechanism. Thanks Richard
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Re: A problem about partitionwise join
Ashutosh Bapat <ashutosh.bapat.oss@gmail.com> — 2024-08-12T09:10:58Z
On Mon, Aug 12, 2024 at 8:50 AM Richard Guo <guofenglinux@gmail.com> wrote: > > On Sat, Aug 10, 2024 at 6:22 AM Alexey Dvoichenkov > <alexey@hyperplane.net> wrote: > > I haven't read the entire thread so I might be missing something, but > > one interesting consequence of this patch is that it kind of breaks > > the initial pruning of generic plans. Given a query such as SELECT > > ... WHERE A.PK = B.PK AND A.PK = $1 the planner will do the right > > thing for custom plans, but not for GPs since the existing logic is > > not capable of pruning anything more complex than a scan. See the > > attached example. > > Thanks for the report! I see what the problem is. Previously, for a > join with filter 'WHERE A.PK = B.PK AND A.PK = $1', the planner was > unable to generate partitionwise join, because it failed to realize > that there exists an equi-join condition between A.PK and B.PK. As a > result, the prepared statement 'ps' was planned as a join of two > Appends in generic mode: > > Nested Loop > -> Append > -> Seq Scan on a0 a_1 > Filter: (x = $1) > -> Seq Scan on a1 a_2 > Filter: (x = $1) > -> Materialize > -> Append > -> Seq Scan on b0 b_1 > Filter: (x = $1) > -> Seq Scan on b1 b_2 > Filter: (x = $1) > > ... and then one of the subpaths for each Append node would be pruned > during initial pruning phase, so you'd get: > > Nested Loop > -> Append > Subplans Removed: 1 > -> Seq Scan on a0 a_1 > Filter: (x = $1) > -> Materialize > -> Append > Subplans Removed: 1 > -> Seq Scan on b0 b_1 > Filter: (x = $1) > > With this patch, the planner is able to generate partitionwise join, > as it can recognize the equi-join condition between A.PK and B.PK from > ECs. So the prepared statement 'ps' is planned as an Append of two > joins in generic mode: > > Append > -> Nested Loop > -> Seq Scan on a0 a_1 > Filter: (x = $1) > -> Seq Scan on b0 b_1 > Filter: (x = $1) > -> Nested Loop > -> Seq Scan on a1 a_2 > Filter: (x = $1) > -> Seq Scan on b1 b_2 > Filter: (x = $1) > > ... and neither subpath of this Append can be pruned during the > initial pruning phase. > > It seems to me that this is not the fault of this patch: it fixes the > partitionwise join as expected. The ideal fix to this issue is, IMO, > to take initial pruning into account when calculating costs, so we can > pick the non-partitionwise-join path and then apply the initial > pruning if that is cheaper. This will be fine if the number of surviving partitions is only 1 (or at most a couple), but in case the number of surviving partitions after pruning are more than a handful, partitionwise join + runtime partition pruning will be required. > Of course we also need to fix > apply_scanjoin_target_to_paths to not drop old paths of partitioned > joinrels so that we can retain non-partitionwise-join paths if > the cheapest path happens to be among them. This work is being > discussed in [1]. Right. -- Best Wishes, Ashutosh Bapat