Thread
Commits
-
Refactor the representation of indexable clauses in IndexPaths.
- 1a8d5afb0dfc 12.0 landed
-
Refactoring IndexPath representation of index conditions
Tom Lane <tgl@sss.pgh.pa.us> — 2019-02-02T16:29:10Z
I've been poking at the problem discussed in a couple of recent threads of letting extensions in on the ability to create "lossy index conditions" for complex operators/functions. The current design for that in indxpath.c is frankly just a pile of kluges of varying ages. In the initial pass, the code merely decides that a given clause is or is not capable of being used with an index (match_clause_to_indexcol), and then later it generates an actual indexqual for some lossy cases (expand_indexqual_conditions), and then still later it generates an actual indexqual for some other cases (in particular, commutation of reversed clauses doesn't happen until fix_indexqual_references in createplan.c). Both the second and third passes have to expensively rediscover some things the first pass knew already, like which side of the operator the index column is on. In between, still other places like costsize.c and selfuncs.c also expensively rediscover that. And, because the IndexPath's representation of original and derived index clauses doesn't keep a clear association between an original clause and what was derived from it, we also fail to handle some cases where we don't really need to re-test an original clause, see for instance https://www.postgresql.org/message-id/27810.1547651110@sss.pgh.pa.us I think that the original idea here was that we should do as little work as possible "up front", since most index paths will get discarded before we reach createplan.c. But to the extent that that was valid at all, it's gotten overtaken by circumstances. In particular, postponing work to expand_indexqual_conditions (which is called by create_index_path) is just stupid, because these days we typically call that several times with the same index conditions. It's really dubious that postponing commutation to createplan.c is a net win either, considering that it complicates intermediate costing steps. What finally drove me to the breaking point on this was seeing that if we keep this design, we'd have to look up and call an extension operator's planner support function twice, once during match_clause_to_indexcol (to ask whether a lossy conversion is possible) and again in expand_indexqual_conditions (to actually do it). That's just silly. But thinking about how to fix that led me to the conclusion that we need a more wide-ranging refactoring that will also eliminate the inefficiencies cited above. Hence, I propose the attached, which replaces the separate "indexclauses", "indexquals" and "indexqualcols" lists of IndexPaths with a single list of IndexClause nodes. That allows us to keep a clear association between original and derived clauses, and provides us a place to put additional data as needed. In this version I added a "lossy" flag to tell whether the derived clauses are an exact implementation of the original or not, which is enough to fix the boolean-index problem mentioned above. I also added a field to allow storing the index column list for an indexable RowCompareExpr, avoiding the need to re-do creation of that list at createplan time. In this patch I also legislate that commutation of a clause is a form of making a derived clause, and it has to be done up-front and stored explicitly. That's a debatable choice, but I think it's a win because it allows code such as the index cost estimators to not have to deal with un-commuted index clauses, and (after some more refactoring) we'll be able to avoid looking up the commutator operator twice. As best I can tell from microbenchmarking the planner, this patch is about a wash as it stands for simple index clauses. I expect it will come out ahead after I've refactored match_clause_to_indexcol and expand_indexqual_conditions to avoid duplication of effort in the latter. It is already a measurable and very significant win for RowCompareExpr cases, eg planning time for "select * from tenk1 where (thousand, tenthous) < (10,100)" drops by 30%. An interesting side effect, visible in the regression tests, is that EXPLAIN now always shows index clauses with the index column on the left, since commutation happens before we create the "indexqualorig" component of the Plan. This seems all to the good IMO; the old output always struck me as confusing. The next step is to actually do that refactoring inside indxpath.c, but I felt this patch was large enough already, so I'm putting it up for comment as-is. (There's more cleanup and elimination of duplicate work that could happen in the index cost estimators too, I think.) Thoughts? If there's not objections I'd like to push this soon. regards, tom lane
-
Re: Refactoring IndexPath representation of index conditions
Andres Freund <andres@anarazel.de> — 2019-02-02T20:02:32Z
Hi, On 2019-02-02 11:29:10 -0500, Tom Lane wrote: > I think that the original idea here was that we should do as little > work as possible "up front", since most index paths will get discarded > before we reach createplan.c. But to the extent that that was valid > at all, it's gotten overtaken by circumstances. In particular, > postponing work to expand_indexqual_conditions (which is called by > create_index_path) is just stupid, because these days we typically > call that several times with the same index conditions. It's really > dubious that postponing commutation to createplan.c is a net win either, It seems your approach isn't particularly in contradiction to the stated historical goal. We could create the new struct, but just not populate it eagerly, right? > Thoughts? If there's not objections I'd like to push this soon. Seems reasonable from a very very quick skim. Andres
-
Re: Refactoring IndexPath representation of index conditions
Tom Lane <tgl@sss.pgh.pa.us> — 2019-02-02T20:48:41Z
Andres Freund <andres@anarazel.de> writes: > On 2019-02-02 11:29:10 -0500, Tom Lane wrote: >> I think that the original idea here was that we should do as little >> work as possible "up front", since most index paths will get discarded >> before we reach createplan.c. But to the extent that that was valid >> at all, it's gotten overtaken by circumstances. In particular, >> postponing work to expand_indexqual_conditions (which is called by >> create_index_path) is just stupid, because these days we typically >> call that several times with the same index conditions. It's really >> dubious that postponing commutation to createplan.c is a net win either, > It seems your approach isn't particularly in contradiction to the > stated historical goal. We could create the new struct, but just not > populate it eagerly, right? Not really. A large part of the point here is to record what match_clause_to_indexcol has found out rather than have to rediscover it later (perhaps repeatedly). Concretely, the main extra cost that I've added in this patch (that wouldn't have been paid anyway by the time we've finished create_index_path) is creation of a commuted OpExpr and a RestrictInfo for it, in cases where we have an operator that matches the index but the index column is on the right. I was able to reduce that cost quite a bit by adding a bespoke "commute_restrictinfo" function, but it's still a few palloc's more than we did before. However, I think the benefits are substantial: subsequent code can uniformly assume that indexquals have indexcol-on-left, rather than having to figure that out repeatedly, and we can avoid repeated syscache lookups to find out the OID of the commutator operator. The patch as posted is still doing one more commutator lookup than it needs to, but that'll be fixed by folding expand_indexqual_conditions and match_clause_to_indexcol into one step. Also I'm not sure if I've found all the places that are expending now-useless effort for indexcol-on-right or not; I've not looked exhaustively. So at the worst this choice seems to be a wash in terms of cycles, but I have hopes that it'll be a win before all the dust settles. In any case I think it makes things simpler and clearer, which is worth a good deal. Another idea that I looked into is to not create RestrictInfos for derived indexqual clauses, with the hope that that would further reduce the added overhead for the commuted-clause case. However that crashed and burned when I found out that the extended-stats machinery punts when given a bare clause rather than a RestrictInfo. It could possibly be fixed to not do that, but it looks like the consequences would be extra lookups that'd probably cost more than we saved by omitting the RestrictInfo. Also, having RestrictInfos means that we can cache selectivity estimates across multiple calls. I'm not entirely sure how much that matters in this context, but it's probably not negligible. regards, tom lane
-
Re: Refactoring IndexPath representation of index conditions
Alvaro Herrera <alvherre@2ndquadrant.com> — 2019-02-06T01:35:12Z
On 2019-Feb-02, Tom Lane wrote: > In any case I think it makes things simpler and clearer, which is > worth a good deal. Looking at the patch, I agree -- this is clearer than what was there before. > Another idea that I looked into is to not create RestrictInfos for > derived indexqual clauses, with the hope that that would further > reduce the added overhead for the commuted-clause case. However > that crashed and burned when I found out that the extended-stats > machinery punts when given a bare clause rather than a RestrictInfo. > It could possibly be fixed to not do that, but it looks like the > consequences would be extra lookups that'd probably cost more than > we saved by omitting the RestrictInfo. Also, having RestrictInfos > means that we can cache selectivity estimates across multiple > calls. I'm not entirely sure how much that matters in this > context, but it's probably not negligible. Is it reasonable to give ext-stats the option to receive either a "plain" clause or a RestrictInfo, and if the former have it construct the RestrictInfo and return it? It seems a pity to waste effort to cater for ext-stats, only to be used in the rare case where any ext-stats actually exist ... most of the time, it'd be wasted effort. -- Álvaro Herrera https://www.2ndQuadrant.com/ PostgreSQL Development, 24x7 Support, Remote DBA, Training & Services
-
Re: Refactoring IndexPath representation of index conditions
Tom Lane <tgl@sss.pgh.pa.us> — 2019-02-06T16:04:26Z
Alvaro Herrera <alvherre@2ndquadrant.com> writes: > On 2019-Feb-02, Tom Lane wrote: >> Another idea that I looked into is to not create RestrictInfos for >> derived indexqual clauses, with the hope that that would further >> reduce the added overhead for the commuted-clause case. However >> that crashed and burned when I found out that the extended-stats >> machinery punts when given a bare clause rather than a RestrictInfo. >> It could possibly be fixed to not do that, but it looks like the >> consequences would be extra lookups that'd probably cost more than >> we saved by omitting the RestrictInfo. Also, having RestrictInfos >> means that we can cache selectivity estimates across multiple >> calls. I'm not entirely sure how much that matters in this >> context, but it's probably not negligible. > Is it reasonable to give ext-stats the option to receive either a > "plain" clause or a RestrictInfo, and if the former have it construct > the RestrictInfo and return it? No, I don't think it'd be sane to have ext-stats modify that data structure after-the-fact. Too much risk of trouble (he says while eyeing the GEQO machinery warily); plus, if we did it like that, we'd *definitely* be giving up the ability to cache and share cost/selectivity numbers between ext-stats and other places. > It seems a pity to waste effort to > cater for ext-stats, only to be used in the rare case where any > ext-stats actually exist ... most of the time, it'd be wasted effort. I'm not sure it's a good idea to design on the assumption that ext-stats are rare. I think they'll get more common over time. Right now that machinery is hardly built out at all, but it's coming. regards, tom lane