Thread
Commits
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Support domains over composite types in PL/Perl.
- 60651e4cddbb 11.0 landed
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Support domains over composite types in PL/Tcl.
- 820c0305f645 11.0 landed
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Support domains over composite types.
- 37a795a60b4f 11.0 landed
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Fix multiple assignments to a column of a domain type.
- b1cb32fb62c9 10.0 landed
- a8358559e788 9.4.13 landed
- 56076b88dae0 9.5.8 landed
- 55204850a9de 9.2.22 landed
- 521fede166d6 9.3.18 landed
- 123368061188 9.6.4 landed
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Domains and arrays and composites, oh my
Tom Lane <tgl@sss.pgh.pa.us> — 2017-07-11T18:38:57Z
I started to look into allowing domains over composite types, which is another never-implemented case that there's no very good reason not to allow. Well, other than the argument that the SQL standard only allows domains over "predefined" (built-in) types ... but we blew past that restriction ages ago. Any thought that there might be some fundamental problem with that was soon dispelled when I noticed that we allow domains over arrays of composite types. Ahem. They even work, mostly. I wrote a few test cases and couldn't find anything that failed except for attempts to insert or update multiple subfields of the same base column; that's because process_matched_tle() fails to look through CoerceToDomain nodes. But that turns out to be a bug even for the simpler case of domains over arrays of scalars, which is certainly supported. That is, given create domain domainint4arr int4[]; create table domarrtest (testint4arr domainint4arr); this ought to work: insert into domarrtest (testint4arr[1], testint4arr[3]) values (11,22); It would work with a plain-array target column, but with the domain it fails with ERROR: multiple assignments to same column "testint4arr" Hence, the attached proposed patch, which fixes that oversight and adds some relevant test cases. (I've not yet looked to see if any documentation changes would be appropriate.) I think this is a bug fix and should be back-patched. Any objections? regards, tom lane
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Re: Domains and arrays and composites, oh my
Tom Lane <tgl@sss.pgh.pa.us> — 2017-07-13T19:19:14Z
I wrote: > I started to look into allowing domains over composite types, which is > another never-implemented case that there's no very good reason not to > allow. Well, other than the argument that the SQL standard only allows > domains over "predefined" (built-in) types ... but we blew past that > restriction ages ago. Attached is a draft patch that allows domains over composite types. I think it's probably complete on its own terms, but there are some questions around behavior of functions returning domain-over-composite that could use discussion, and some of the PLs need some follow-on work. The core principle here was to not modify execution-time behavior by adding domain checks to existing code paths. Rather, I wanted the parser to insert CoerceToDomain nodes wherever checks would be needed. Row-returning node types such as RowExpr and FieldStore only return regular composite types, as before; to generate a value of a composite domain, we construct a value of the base type and then CoerceToDomain. (This is pretty analogous to what happens for domains over arrays.) Whole-row Vars can only have regular composite types as vartype, TupleDescs can only have regular composite types as tdtypeid, composite Datums only have regular composite type OIDs in datum_typeid. (The last would be expected anyway, since the physical representation of a domain value is never different from that of its base type.) Doing it that way led to a nicely small patch, only about 160 net new lines of code. However, not touching the executor meant not touching the behavior of functions that return domains, even if the domain is domain-over-composite. In code terms this means that get_call_result_type() and sibling functions will return TYPEFUNC_SCALAR not TYPEFUNC_COMPOSITE for such a result type. The difficulty with changing that is that if these functions look through the domain, then the calling code (in, usually, a PL) will simply build and return a result of the underlying composite type, failing to apply any domain constraints. Trying to get out-of-core PLs on board with a change in those requirements seems like a risky proposition. Concretely, consider create type complex as (r float8, i float8); create domain dcomplex as complex; You can make a SQL-language function to return complex in either of two ways: create function fc() returns complex language sql as 'select 1.0::float8, 2.0::float8'; create function fc() returns complex language sql as 'select row(1.0::float8, 2.0::float8)::complex'; As the patch stands, though, only the second way works for domains over composite: regression=# create function fdc() returns dcomplex language sql as 'select 1.0::float8, 2.0::float8'; ERROR: return type mismatch in function declared to return dcomplex DETAIL: Final statement must return exactly one column. CONTEXT: SQL function "fdc" regression=# create function fdc() returns dcomplex language sql as 'select row(1.0::float8, 2.0)::dcomplex'; CREATE FUNCTION Now, maybe that's fine. SQL-language functions have never been very willing to insert implicit casts to get to the function result type, and certainly the only way that the first definition could be legal is if there were an implicit up-cast to the domain type. It might be OK to just leave it like this, though some documentation about it would be a good idea. plpgsql functions seem generally okay as far as composite domain return types go, because they don't have anything corresponding to the row return convention of SQL functions. And plpgsql's greater willingness to do implicit coercions reduces the notational burden, too. But there's some work yet to be done to get plpgsql to realize that composite domain local variables have substructure. For example, this works: declare x complex; ... x.r := 1; but it fails if x is dcomplex. But ISTM that that would be better handled as a followon feature patch. I suspect that the other PLs may have similar issues where it'd be nice to allow domain-over-composite to act like a plain composite for specific purposes; but I've not looked. Another issue related to function result types is that the parser considers a function-in-FROM returning a composite domain to be producing a scalar result not a rowtype. Thus you get this for a function returning complex: regression=# select * from fc(); r | i ---+--- 1 | 2 (1 row) but this for a function returning dcomplex: regression=# select * from fdc(); fdc ------- (1,2) (1 row) I think that that could be changed with only local changes in parse analysis, but do we want to change it? Arguably, making fdc() act the same as fc() here would amount to implicitly downcasting the domain to its base type. But doing so here is optional, not necessary in order to make the statement sane at all, and it's arguable that we shouldn't do that if the user didn't tell us to. A user who does want that to happen can downcast explicitly: regression=# select * from cast(fdc() as complex); r | i ---+--- 1 | 2 (1 row) (For arcane syntactic reasons you can't abbreviate CAST with :: here.) Another point is that if you do want the domain value as a domain value, and not smashed to its base type, it would be hard to get at if the parser acts this way --- "foo.*" would end up producing the base rowtype, or if it didn't, we'd have some issues with the previously noted rule about whole-row Vars never having domain types. So there's a case to be made that this behavior is fine as-is, but certainly you could also argue that it's a POLA violation. Digression: one reason I'm hesitant to introduce inessential reductions of domains to base types is that I'm looking ahead to arrays over domains, which will provide a workaround for the people who complain that they wish 2-D arrays would work type-wise like arrays of 1-D array objects. If you "create domain inta as int[]" then inta[] would act like an array of array objects, mostly solving the problem I think. But it solves the problem only because we don't consider that a domain is indistinguishable from its base type. It's hard to be sure without having done the work yet, but I think there will be cases where being over-eager to treat a domain as its base type might break the behavior we want for that case. So I don't want to create a precedent for that here. Thoughts? Obviously this is work for v11; I'll go stick it in the next commitfest. regards, tom lane
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Re: Domains and arrays and composites, oh my
David G. Johnston <david.g.johnston@gmail.com> — 2017-07-13T19:36:30Z
On Thursday, July 13, 2017, Tom Lane <tgl@sss.pgh.pa.us> wrote: > > regression=# select * from fdc(); > fdc > ------- > (1,2) > (1 row) > > Select (fdc).* from fdc(); is considerably more intuitive that the cast. Does that give the expected multi-column result? David J.
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Re: Domains and arrays and composites, oh my
Tom Lane <tgl@sss.pgh.pa.us> — 2017-07-13T19:42:48Z
"David G. Johnston" <david.g.johnston@gmail.com> writes: > On Thursday, July 13, 2017, Tom Lane <tgl@sss.pgh.pa.us> wrote: >> regression=# select * from fdc(); >> fdc >> ------- >> (1,2) >> (1 row) > Select (fdc).* from fdc(); is considerably more intuitive that the cast. > Does that give the expected multi-column result? Yeah, it does, although I'm not sure how intuitive it is that the parentheses are significant ... regression=# select * from fdc(); fdc ------- (1,2) (1 row) regression=# select fdc from fdc(); fdc ------- (1,2) (1 row) regression=# select fdc.* from fdc(); fdc ------- (1,2) (1 row) regression=# select (fdc).* from fdc(); r | i ---+--- 1 | 2 (1 row) regards, tom lane
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Re: Domains and arrays and composites, oh my
Robert Haas <robertmhaas@gmail.com> — 2017-08-02T14:17:32Z
On Thu, Jul 13, 2017 at 3:42 PM, Tom Lane <tgl@sss.pgh.pa.us> wrote: > Yeah, it does, although I'm not sure how intuitive it is that the > parentheses are significant ... > > regression=# select fdc.* from fdc(); > fdc > ------- > (1,2) > (1 row) > > regression=# select (fdc).* from fdc(); > r | i > ---+--- > 1 | 2 > (1 row) Not intuitive at all. -- Robert Haas EnterpriseDB: http://www.enterprisedb.com The Enterprise PostgreSQL Company
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Re: Domains and arrays and composites, oh my
Andrew Dunstan <andrew.dunstan@2ndquadrant.com> — 2017-09-28T15:33:36Z
On 07/13/2017 03:19 PM, Tom Lane wrote: > I wrote: >> I started to look into allowing domains over composite types, which is >> another never-implemented case that there's no very good reason not to >> allow. Well, other than the argument that the SQL standard only allows >> domains over "predefined" (built-in) types ... but we blew past that >> restriction ages ago. > Attached is a draft patch that allows domains over composite types. > I think it's probably complete on its own terms, but there are some > questions around behavior of functions returning domain-over-composite > that could use discussion, and some of the PLs need some follow-on work. > > The core principle here was to not modify execution-time behavior by > adding domain checks to existing code paths. Rather, I wanted the > parser to insert CoerceToDomain nodes wherever checks would be needed. > Row-returning node types such as RowExpr and FieldStore only return > regular composite types, as before; to generate a value of a composite > domain, we construct a value of the base type and then CoerceToDomain. > (This is pretty analogous to what happens for domains over arrays.) > Whole-row Vars can only have regular composite types as vartype, > TupleDescs can only have regular composite types as tdtypeid, composite > Datums only have regular composite type OIDs in datum_typeid. (The last > would be expected anyway, since the physical representation of a domain > value is never different from that of its base type.) > > Doing it that way led to a nicely small patch, only about 160 net new > lines of code. However, not touching the executor meant not touching > the behavior of functions that return domains, even if the domain is > domain-over-composite. In code terms this means that > get_call_result_type() and sibling functions will return TYPEFUNC_SCALAR > not TYPEFUNC_COMPOSITE for such a result type. The difficulty with > changing that is that if these functions look through the domain, then > the calling code (in, usually, a PL) will simply build and return a result > of the underlying composite type, failing to apply any domain constraints. > Trying to get out-of-core PLs on board with a change in those requirements > seems like a risky proposition. > > Concretely, consider > > create type complex as (r float8, i float8); > create domain dcomplex as complex; > > You can make a SQL-language function to return complex in either of two > ways: > > create function fc() returns complex language sql > as 'select 1.0::float8, 2.0::float8'; > > create function fc() returns complex language sql > as 'select row(1.0::float8, 2.0::float8)::complex'; > > As the patch stands, though, only the second way works for domains over > composite: > > regression=# create function fdc() returns dcomplex language sql > as 'select 1.0::float8, 2.0::float8'; > ERROR: return type mismatch in function declared to return dcomplex > DETAIL: Final statement must return exactly one column. > CONTEXT: SQL function "fdc" > regression=# create function fdc() returns dcomplex language sql > as 'select row(1.0::float8, 2.0)::dcomplex'; > CREATE FUNCTION > > Now, maybe that's fine. SQL-language functions have never been very > willing to insert implicit casts to get to the function result type, > and certainly the only way that the first definition could be legal > is if there were an implicit up-cast to the domain type. It might be > OK to just leave it like this, though some documentation about it > would be a good idea. > > plpgsql functions seem generally okay as far as composite domain return > types go, because they don't have anything corresponding to the row > return convention of SQL functions. And plpgsql's greater willingness > to do implicit coercions reduces the notational burden, too. But > there's some work yet to be done to get plpgsql to realize that > composite domain local variables have substructure. For example, > this works: > > declare x complex; > ... > x.r := 1; > > but it fails if x is dcomplex. But ISTM that that would be better > handled as a followon feature patch. I suspect that the other PLs may > have similar issues where it'd be nice to allow domain-over-composite > to act like a plain composite for specific purposes; but I've not looked. > > Another issue related to function result types is that the parser > considers a function-in-FROM returning a composite domain to be > producing a scalar result not a rowtype. Thus you get this for a > function returning complex: > > regression=# select * from fc(); > r | i > ---+--- > 1 | 2 > (1 row) > > but this for a function returning dcomplex: > > regression=# select * from fdc(); > fdc > ------- > (1,2) > (1 row) > > I think that that could be changed with only local changes in parse > analysis, but do we want to change it? Arguably, making fdc() act the > same as fc() here would amount to implicitly downcasting the domain to > its base type. But doing so here is optional, not necessary in order to > make the statement sane at all, and it's arguable that we shouldn't do > that if the user didn't tell us to. A user who does want that to happen > can downcast explicitly: > > regression=# select * from cast(fdc() as complex); > r | i > ---+--- > 1 | 2 > (1 row) > > (For arcane syntactic reasons you can't abbreviate CAST with :: here.) > Another point is that if you do want the domain value as a domain > value, and not smashed to its base type, it would be hard to get at > if the parser acts this way --- "foo.*" would end up producing the base > rowtype, or if it didn't, we'd have some issues with the previously > noted rule about whole-row Vars never having domain types. > > So there's a case to be made that this behavior is fine as-is, but > certainly you could also argue that it's a POLA violation. > > Digression: one reason I'm hesitant to introduce inessential reductions > of domains to base types is that I'm looking ahead to arrays over > domains, which will provide a workaround for the people who complain > that they wish 2-D arrays would work type-wise like arrays of 1-D array > objects. If you "create domain inta as int[]" then inta[] would act > like an array of array objects, mostly solving the problem I think. > But it solves the problem only because we don't consider that a domain > is indistinguishable from its base type. It's hard to be sure without > having done the work yet, but I think there will be cases where being > over-eager to treat a domain as its base type might break the behavior > we want for that case. So I don't want to create a precedent for that > here. > > Thoughts? > This is a pretty nice patch, and very small indeed all things considered. From a code point of view I have no criticism, although maybe we need to be a bit more emphatic in the header file comments about the unwisdom of using get_expr_result_tupdesc(). I do think that treating a function returning a domain-over-composite differently from one returning a base composite is a POLA. We'd be very hard put to explain the reasons for it to an end user. I also think we shouldn't commit this until we have accompanying patches for the core PLs, at least for plpgsql but I bet there are things that should be fixed for the others too. cheers andrew -- Andrew Dunstan https://www.2ndQuadrant.com PostgreSQL Development, 24x7 Support, Remote DBA, Training & Services
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Re: Domains and arrays and composites, oh my
Tom Lane <tgl@sss.pgh.pa.us> — 2017-09-28T17:02:47Z
Andrew Dunstan <andrew.dunstan@2ndquadrant.com> writes: > On 07/13/2017 03:19 PM, Tom Lane wrote: >> Attached is a draft patch that allows domains over composite types. >> I think it's probably complete on its own terms, but there are some >> questions around behavior of functions returning domain-over-composite >> that could use discussion, and some of the PLs need some follow-on work. > This is a pretty nice patch, and very small indeed all things > considered. From a code point of view I have no criticism, although > maybe we need to be a bit more emphatic in the header file comments > about the unwisdom of using get_expr_result_tupdesc(). Thanks for reviewing! > I do think that treating a function returning a domain-over-composite > differently from one returning a base composite is a POLA. We'd be very > hard put to explain the reasons for it to an end user. Do you have any thoughts about how we ought to resolve that? > I also think we shouldn't commit this until we have accompanying patches > for the core PLs, at least for plpgsql but I bet there are things that > should be fixed for the others too. For my own part, I think it would be reasonable to commit the core patch once we've resolved the question of what to do with the case of function-in-FROM returning domain over composite. That's core parser behavior so it should be part of the same patch. I think addressing each PL separately in followon patches would be fine and would help to avoid the giant-unreviewable-patch syndrome. It is important to get all the related work done in one release cycle, but since we're just starting v11 I'm not too worried about that. regards, tom lane
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Re: Domains and arrays and composites, oh my
Andrew Dunstan <andrew.dunstan@2ndquadrant.com> — 2017-09-28T18:58:00Z
On 09/28/2017 01:02 PM, Tom Lane wrote: > >> I do think that treating a function returning a domain-over-composite >> differently from one returning a base composite is a POLA. We'd be very >> hard put to explain the reasons for it to an end user. > Do you have any thoughts about how we ought to resolve that? > > Not offhand. Maybe we need to revisit the decision not to modify the executor at all. Obviously that would make the patch a good deal more invasive ;-( One thought I had was that we could invent a new return type of TYPEFUNC_DOMAIN_COMPOSITE so there would be less danger of a PL just treating it as an unconstrained base type as it might do if it saw TYPEFUNC_COMPOSITE. Maybe I'm wrong, but I have a strong suspicion that of we leave it like this now we'll regret it in the future. cheers andrew -- Andrew Dunstan https://www.2ndQuadrant.com PostgreSQL Development, 24x7 Support, Remote DBA, Training & Services
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Re: Domains and arrays and composites, oh my
Tom Lane <tgl@sss.pgh.pa.us> — 2017-09-28T19:03:38Z
Andrew Dunstan <andrew.dunstan@2ndquadrant.com> writes: > On 09/28/2017 01:02 PM, Tom Lane wrote: >>> I do think that treating a function returning a domain-over-composite >>> differently from one returning a base composite is a POLA. We'd be very >>> hard put to explain the reasons for it to an end user. >> Do you have any thoughts about how we ought to resolve that? > Not offhand. Maybe we need to revisit the decision not to modify the > executor at all. I think it's more of a parse analysis change: the issue is whether to smash a function's result type to base when determining whether it emits columns. Maybe we could just do that in that context, and otherwise leave domains alone. > One thought I had was that we could invent a new return > type of TYPEFUNC_DOMAIN_COMPOSITE so there would be less danger of a PL > just treating it as an unconstrained base type as it might do if it saw > TYPEFUNC_COMPOSITE. Hmm. That would be a way of forcing the issue, no doubt ... regards, tom lane
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Re: Domains and arrays and composites, oh my
Tom Lane <tgl@sss.pgh.pa.us> — 2017-10-19T20:46:53Z
I wrote: > Andrew Dunstan <andrew.dunstan@2ndquadrant.com> writes: >> On 09/28/2017 01:02 PM, Tom Lane wrote: >>>> I do think that treating a function returning a domain-over-composite >>>> differently from one returning a base composite is a POLA. We'd be very >>>> hard put to explain the reasons for it to an end user. >>> Do you have any thoughts about how we ought to resolve that? >> Not offhand. Maybe we need to revisit the decision not to modify the >> executor at all. > I think it's more of a parse analysis change: the issue is whether to > smash a function's result type to base when determining whether it emits > columns. Maybe we could just do that in that context, and otherwise leave > domains alone. After fooling with that for awhile, I concluded that the only reasonable path forward is to go ahead and modify the behavior of get_expr_result_type and sibling routines. While this fixes the parser behavior to be pretty much what I think we want, it means that we've got holes to fill in a lot of other places. Most of them will manifest as unexpected "domaintypename is not a composite type" errors, but there are definitely places where the net effect is to silently fail to enforce domain constraints against a constructed row value :-(. In the attached still-WIP patch, I think that I've got most of the core code fixed, but there are at least these holes remaining to fill: * json_populate_record and sibling routines won't enforce domain constraints; depending on how they're called, you might or might not get a "not a composite type" error. This is because they use two different methods for getting the target type OID depending on whether the input prototype record is NULL. Maybe that was a bad idea. (I'm disinclined to try to fix this code right now since there are pending bug fixes nearby; better to wait till that dust settles.) * Ditto for hstore's populate_record, which is pretty much same logic. * plpgsql mostly seems to work, but not quite 100%: RETURN QUERY will fail to enforce domain constraints if the return type is domain over composite. It also still needs feature extension to handle d-over-c variables more fully (e.g. allow field assignment). * I haven't looked at the other PLs much; I believe they will mostly fail safe with "not a composite type" errors, but I wouldn't swear that all code paths will. It seems like this is probably the way forward, but I'm slightly discouraged by the fact that the patch footprint is getting bigger and there are paths where we can get domain-enforcement omissions rather than something more benign. Still, we had lots of domain-enforcement omissions in the early days of the existing domain feature, if memory serves. Maybe we should just accept that working through that will be a process. >> One thought I had was that we could invent a new return >> type of TYPEFUNC_DOMAIN_COMPOSITE so there would be less danger of a PL >> just treating it as an unconstrained base type as it might do if it saw >> TYPEFUNC_COMPOSITE. > Hmm. That would be a way of forcing the issue, no doubt ... I did that, but it turns out not to help much; turns out a lot of the broken code is doing stuff on the basis of type_is_rowtype(), which this patch allows to return true for domains over composite. Maybe we should undo that and invent a separate type_is_rowtype_or_domain() function to be used only by repaired code, but that seems pretty ugly :-( Anyway, PFA an updated patch that also fixes some conflicts with the already-committed arrays-of-domains patch. regards, tom lane
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Re: Domains and arrays and composites, oh my
Tom Lane <tgl@sss.pgh.pa.us> — 2017-10-24T20:19:17Z
I wrote: > Anyway, PFA an updated patch that also fixes some conflicts with the > already-committed arrays-of-domains patch. I realized that the pending patch for jsonb_build_object doesn't actually have any conflict with what I needed to touch here, so I went ahead and fixed the JSON functions that needed fixing, along with hstore's populate_record. I ended up rewriting the argument-metadata-collection portions of populate_record_worker and populate_recordset_worker rather heavily, because I didn't like them at all: aside from not working for domains over composite, they were pretty inefficient (redoing a lot of work on each call for no good reason) and they were randomly different from each other, resulting in json{b}_populate_recordset rejecting some cases that worked in json{b}_populate_record. I've also updated the documentation. I think that this patch version is done so far as the core code and contrib are concerned. The PLs need varying amounts of work, but as I said earlier, I think it would be better to tackle those in separate patches instead of continuing to enlarge the footprint of the core patch. So, barring objection, I'd like to go ahead and commit this. regards, tom lane