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From owner-pgsql-hackers@hub.org Mon Mar 22 18:43:41 1999
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Mon, 22 Mar 1999 18:27:15 -0500 (EST)
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Message-ID: <sqxh7H_00gNtAmTJ5Q@andrew.cmu.edu>
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Date: Mon, 22 Mar 1999 18:27:15 -0500 (EST)
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From: Erik Riedel <riedel+@CMU.EDU>
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To: pgsql-hackers@postgreSQL.org
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Subject: [HACKERS] optimizer and type question
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Sender: owner-pgsql-hackers@postgreSQL.org
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Precedence: bulk
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Status: RO
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[last week aggregation, this week, the optimizer]
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I have a somewhat general optimizer question/problem that I would like
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to get some input on - i.e. I'd like to know what is "supposed" to
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work here and what I should be expecting. Sadly, I think the patch
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for this is more involved than my last message.
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Using my favorite table these days:
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Table = lineitem
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+------------------------+----------------------------------+-------+
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| Field | Type | Length|
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+------------------------+----------------------------------+-------+
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| l_orderkey | int4 not null | 4 |
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| l_partkey | int4 not null | 4 |
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| l_suppkey | int4 not null | 4 |
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| l_linenumber | int4 not null | 4 |
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| l_quantity | float4 not null | 4 |
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| l_extendedprice | float4 not null | 4 |
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| l_discount | float4 not null | 4 |
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| l_tax | float4 not null | 4 |
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| l_returnflag | char() not null | 1 |
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| l_linestatus | char() not null | 1 |
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| l_shipdate | date | 4 |
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| l_commitdate | date | 4 |
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| l_receiptdate | date | 4 |
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| l_shipinstruct | char() not null | 25 |
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| l_shipmode | char() not null | 10 |
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| l_comment | char() not null | 44 |
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+------------------------+----------------------------------+-------+
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Index: lineitem_index_
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and the query:
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--
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-- Query 1
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--
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explain select l_returnflag, l_linestatus, sum(l_quantity) as sum_qty,
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sum(l_extendedprice) as sum_base_price,
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sum(l_extendedprice*(1-l_discount)) as sum_disc_price,
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sum(l_extendedprice*(1-l_discount)*(1+l_tax)) as sum_charge,
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avg(l_quantity) as avg_qty, avg(l_extendedprice) as avg_price,
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avg(l_discount) as avg_disc, count(*) as count_order
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from lineitem
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where l_shipdate <= '1998-09-02'::date
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group by l_returnflag, l_linestatus
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order by l_returnflag, l_linestatus;
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note that I have eliminated the date calculation in my query of last
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week and manually replaced it with a constant (since this wasn't
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happening automatically - but let's not worry about that for now).
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And this is only an explain, we care about the optimizer. So we get:
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Sort (cost=34467.88 size=0 width=0)
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-> Aggregate (cost=34467.88 size=0 width=0)
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-> Group (cost=34467.88 size=0 width=0)
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-> Sort (cost=34467.88 size=0 width=0)
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-> Seq Scan on lineitem (cost=34467.88 size=200191 width=44)
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so let's think about the selectivity that is being chosen for the
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seq scan (the where l_shipdate <= '1998-09-02').
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Turns out the optimizer is choosing "33%", even though the real answer
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is somewhere in 90+% (that's how the query is designed). So, why does
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it do that?
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Turns out that selectivity in this case is determined via
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plancat::restriction_selectivity() which calls into functionOID = 103
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(intltsel) for operatorOID = 1096 (date "<=") on relation OID = 18663
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(my lineitem).
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This all follows because of the description of 1096 (date "<=") in
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pg_operator. Looking at local1_template1.bki.source near line 1754
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shows:
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insert OID = 1096 ( "<=" PGUID 0 <...> date_le intltsel intltjoinsel )
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where we see that indeed, it thinks "intltsel" is the right function
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to use for "oprrest" in the case of dates.
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Question 1 - is intltsel the right thing for selectivity on dates?
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Hope someone is still with me.
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So now we're running selfuncs::intltsel() where we make a further call
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to selfuncs::gethilokey(). The job of gethilokey is to determine the
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min and max values of a particular attribute in the table, which will
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then be used with the constant in my where clause to estimate the
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selectivity. It is going to search the pg_statistic relation with
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three key values:
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Anum_pg_statistic_starelid 18663 (lineitem)
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Anum_pg_statistic_staattnum 11 (l_shipdate)
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Anum_pg_statistic_staop 1096 (date "<=")
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this finds no tuples in pg_statistic. Why is that? The only nearby
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tuple in pg_statistic is:
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starelid|staattnum|staop|stalokey |stahikey
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--------+---------+-----+----------------+----------------
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18663| 11| 0|01-02-1992 |12-01-1998
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and the reason the query doesn't match anything? Because 1096 != 0.
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But why is it 0 in pg_statistic? Statistics are determined near line
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1844 in vacuum.c (assuming a 'vacuum analyze' run at some point)
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i = 0;
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values[i++] = (Datum) relid; /* 1 */
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values[i++] = (Datum) attp->attnum; /* 2 */
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====> values[i++] = (Datum) InvalidOid; /* 3 */
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fmgr_info(stats->outfunc, &out_function);
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out_string = <...min...>
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values[i++] = (Datum) fmgr(F_TEXTIN, out_string);
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pfree(out_string);
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out_string = <...max...>
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values[i++] = (Datum) fmgr(F_TEXTIN, out_string);
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pfree(out_string);
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stup = heap_formtuple(sd->rd_att, values, nulls);
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the "offending" line is setting the staop to InvalidOid (i.e. 0).
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Question 2 - is this right? Is the intent for 0 to serve as a
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"wildcard", or should it be inserting an entry for each operation
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individually?
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In the case of "wildcard" then gethilokey() should allow a match for
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Anum_pg_statistic_staop 0
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instead of requiring the more restrictive 1096. In the current code,
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what happens next is gethilokey() returns "not found" and intltsel()
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returns the default 1/3 which I see in the resultant query plan (size
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= 200191 is 1/3 of the number of lineitem tuples).
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Question 3 - is there any inherent reason it couldn't get this right?
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The statistic is in the table 1992 to 1998, so the '1998-09-02' date
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should be 90-some% selectivity, a much better guess than 33%.
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Doesn't make a difference for this particular query, of course,
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because the seq scan must proceed anyhow, but it could easily affect
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other queries where selectivities matter (and it affects the
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modifications I am trying to test in the optimizer to be "smarter"
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about selectivities - my overall context is to understand/improve the
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behavior that the underlying storage system sees from queries like this).
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OK, so let's say we treat 0 as a "wildcard" and stop checking for
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1096. Not we let gethilokey() return the two dates from the statistic
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table. The immediate next thing that intltsel() does, near lines 122
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in selfuncs.c is call atol() on the strings from gethilokey(). And
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guess what it comes up with?
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low = 1
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high = 12
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because it calls atol() on '01-02-1992' and '12-01-1998'. This
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clearly isn't right, it should get some large integer that includes
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the year and day in the result. Then it should compare reasonably
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with my constant from the where clause and give a decent selectivity
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value. This leads to a re-visit of Question 1.
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Question 4 - should date "<=" use a dateltsel() function instead of
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intltsel() as oprrest?
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If anyone is still with me, could you tell me if this makes sense, or
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if there is some other location where the appropriate type conversion
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could take place so that intltsel() gets something reasonable when it
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does the atol() calls?
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Could someone also give me a sense for how far out-of-whack the whole
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current selectivity-handling structure is? It seems that most of the
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operators in pg_operator actually use intltsel() and would have
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type-specific problems like that described. Or is the problem in the
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way attribute values are stored in pg_statistic by vacuum analyze? Or
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is there another layer where type conversion belongs?
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Phew. Enough typing, hope someone can follow this and address at
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least some of the questions.
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Thanks.
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Erik Riedel
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Carnegie Mellon University
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www.cs.cmu.edu/~riedel
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From owner-pgsql-hackers@hub.org Mon Mar 22 20:31:11 1999
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Received: from renoir.op.net (root@renoir.op.net [209.152.193.4])
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Mon, 22 Mar 1999 20:12:43 -0500 (EST)
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To: Erik Riedel <riedel+@CMU.EDU>
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cc: pgsql-hackers@postgreSQL.org
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Subject: Re: [HACKERS] optimizer and type question
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In-reply-to: Your message of Mon, 22 Mar 1999 18:27:15 -0500 (EST)
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<sqxh7H_00gNtAmTJ5Q@andrew.cmu.edu>
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Date: Mon, 22 Mar 1999 20:12:43 -0500
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Message-ID: <23292.922151563@sss.pgh.pa.us>
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From: Tom Lane <tgl@sss.pgh.pa.us>
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Sender: owner-pgsql-hackers@postgreSQL.org
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Precedence: bulk
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Status: ROr
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Erik Riedel <riedel+@CMU.EDU> writes:
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> [ optimizer doesn't find relevant pg_statistic entry ]
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It's clearly a bug that the selectivity code is not finding this tuple.
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If your analysis is correct, then selectivity estimation has *never*
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worked properly, or at least not in recent memory :-(. Yipes.
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Bruce and I found a bunch of other problems in the optimizer recently,
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so it doesn't faze me to assume that this is broken too.
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> the "offending" line is setting the staop to InvalidOid (i.e. 0).
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> Question 2 - is this right? Is the intent for 0 to serve as a
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> "wildcard",
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My thought is that what the staop column ought to be is the OID of the
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comparison function that was used to determine the sort order of the
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column. Without a sort op the lowest and highest keys in the column are
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not well defined, so it makes no sense to assert "these are the lowest
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and highest values" without providing the sort op that determined that.
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(For sufficiently complex data types one could reasonably have multiple
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ordering operators. A crude example is sorting on "circumference" and
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"area" for polygons.) But typically the sort op will be the "<"
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operator for the column data type.
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So, the vacuum code is definitely broken --- it's not storing the sort
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op that it used. The code in gethilokey might be broken too, depending
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on how it is producing the operator it's trying to match against the
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tuple. For example, if the actual operator in the query is any of
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< <= > >= on int4, then int4lt ought to be used to probe the pg_statistic
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table. I'm not sure if we have adequate info in pg_operator or pg_type
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to let the optimizer code determine the right thing to probe with :-(
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> The immediate next thing that intltsel() does, near lines 122
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> in selfuncs.c is call atol() on the strings from gethilokey(). And
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> guess what it comes up with?
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> low = 1
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> high = 12
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> because it calls atol() on '01-02-1992' and '12-01-1998'. This
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> clearly isn't right, it should get some large integer that includes
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> the year and day in the result. Then it should compare reasonably
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> with my constant from the where clause and give a decent selectivity
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> value. This leads to a re-visit of Question 1.
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> Question 4 - should date "<=" use a dateltsel() function instead of
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> intltsel() as oprrest?
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This is clearly busted as well. I'm not sure that creating dateltsel()
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is the right fix, however, because if you go down that path then every
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single datatype needs its own selectivity function; that's more than we
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need.
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What we really want here is to be able to map datatype values into
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some sort of numeric range so that we can compute what fraction of the
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low-key-to-high-key range is on each side of the probe value (the
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constant taken from the query). This general concept will apply to
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many scalar types, so what we want is a type-specific mapping function
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and a less-specific fraction-computing-function. Offhand I'd say that
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we want intltsel() and floatltsel(), plus conversion routines that can
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produce either int4 or float8 from a data type as seems appropriate.
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Anything that couldn't map to one or the other would have to supply its
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own selectivity function.
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> Or is the problem in the
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> way attribute values are stored in pg_statistic by vacuum analyze?
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Looks like it converts the low and high values to text and stores them
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that way. Ugly as can be :-( but I'm not sure there is a good
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alternative. We have no "wild card" column type AFAIK, which is what
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these columns of pg_statistic would have to be to allow storage of
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unconverted min and max values.
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I think you've found a can of worms here. Congratulations ;-)
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regards, tom lane
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From owner-pgsql-hackers@hub.org Mon Mar 22 23:31:00 1999
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Received: from mms.4.60.Jun.27.1996.03.02.53.sun4.51.EzMail.2.0.CUILIB.3.45.SNAP.NOT.LINKED.hazy.adsl.net.cmu.edu.sun4m.54
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via MS.5.6.hazy.adsl.net.cmu.edu.sun4_51;
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Mon, 22 Mar 1999 23:14:55 -0500 (EST)
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Message-ID: <4qxlJ0200anI01hK40@andrew.cmu.edu>
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Date: Mon, 22 Mar 1999 23:14:55 -0500 (EST)
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From: Erik Riedel <riedel+@CMU.EDU>
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To: Tom Lane <tgl@sss.pgh.pa.us>
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Subject: Re: [HACKERS] optimizer and type question
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Cc: pgsql-hackers@postgreSQL.org
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In-Reply-To: <23292.922151563@sss.pgh.pa.us>
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References: <23292.922151563@sss.pgh.pa.us>
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Sender: owner-pgsql-hackers@postgreSQL.org
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Precedence: bulk
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Status: ROr
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OK, building on your high-level explanation, I am attaching a patch that
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attempts to do something "better" than the current code. Note that I
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have only tested this with the date type and my particular query. I
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haven't run it through the regression, so consider it "proof of concept"
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at best. Although hopefully it will serve my purposes.
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> My thought is that what the staop column ought to be is the OID of the
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> comparison function that was used to determine the sort order of the
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> column. Without a sort op the lowest and highest keys in the column are
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> not well defined, so it makes no sense to assert "these are the lowest
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> and highest values" without providing the sort op that determined that.
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>
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> (For sufficiently complex data types one could reasonably have multiple
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> ordering operators. A crude example is sorting on "circumference" and
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> "area" for polygons.) But typically the sort op will be the "<"
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> operator for the column data type.
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>
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I changed vacuum.c to do exactly that. oid of the lt sort op.
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> So, the vacuum code is definitely broken --- it's not storing the sort
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> op that it used. The code in gethilokey might be broken too, depending
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> on how it is producing the operator it's trying to match against the
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> tuple. For example, if the actual operator in the query is any of
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> < <= > >= on int4, then int4lt ought to be used to probe the pg_statistic
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> table. I'm not sure if we have adequate info in pg_operator or pg_type
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> to let the optimizer code determine the right thing to probe with :-(
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>
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This indeed seems like a bigger problem. I thought about somehow using
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type-matching from the sort op and the actual operator in the query - if
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both the left and right type match, then consider them the same for
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purposes of this probe. That seemed complicated, so I punted in my
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example - it just does the search with relid and attnum and assumes that
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only returns one tuple. This works in my case (maybe in all cases,
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because of the way vacuum is currently written - ?).
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> What we really want here is to be able to map datatype values into
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> some sort of numeric range so that we can compute what fraction of the
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> low-key-to-high-key range is on each side of the probe value (the
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> constant taken from the query). This general concept will apply to
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> many scalar types, so what we want is a type-specific mapping function
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> and a less-specific fraction-computing-function. Offhand I'd say that
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> we want intltsel() and floatltsel(), plus conversion routines that can
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> produce either int4 or float8 from a data type as seems appropriate.
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> Anything that couldn't map to one or the other would have to supply its
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> own selectivity function.
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>
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This is what my example then does. Uses the stored sort op to get the
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type and then uses typinput to convert from the string to an int4.
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Then puts the int4 back into string format because that's what everyone
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was expecting.
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It seems to work for my particular query. I now get:
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(selfuncs) gethilokey() obj 18663 attr 11 opid 1096 (ignored)
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(selfuncs) gethilokey() found op 1087 in pg_proc
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(selfuncs) gethilokey() found type 1082 in pg_type
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(selfuncs) gethilokey() going to use 1084 to convert type 1082
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(selfuncs) gethilokey() have low -2921 high -396
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(selfuncs) intltsel() high -396 low -2921 val -486
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(plancat) restriction_selectivity() for func 103 op 1096 rel 18663 attr
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11 const -486 flag 3 returns 0.964356
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NOTICE: QUERY PLAN:
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Sort (cost=34467.88 size=0 width=0)
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-> Aggregate (cost=34467.88 size=0 width=0)
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-> Group (cost=34467.88 size=0 width=0)
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-> Sort (cost=34467.88 size=0 width=0)
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-> Seq Scan on lineitem (cost=34467.88 size=579166 width=44)
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including my printfs, which exist in the patch as well.
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Selectivity is now the expected 96% and the size estimate for the seq
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scan is much closer to correct.
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Again, not tested with anything besides date, so caveat not-tested.
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Hope this helps.
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Erik
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----------------------[optimizer_fix.sh]------------------------
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#! /bin/sh
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# This is a shell archive, meaning:
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# 1. Remove everything above the #! /bin/sh line.
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# 2. Save the resulting text in a file.
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# 3. Execute the file with /bin/sh (not csh) to create:
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# selfuncs.c.diff
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# vacuum.c.diff
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# This archive created: Mon Mar 22 22:58:14 1999
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export PATH; PATH=/bin:/usr/bin:$PATH
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if test -f 'selfuncs.c.diff'
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then
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echo shar: "will not over-write existing file 'selfuncs.c.diff'"
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else
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cat << \SHAR_EOF > 'selfuncs.c.diff'
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***
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/afs/ece.cmu.edu/project/lcs/lcs-004/er1p/postgres/611/src/backend/utils/adt
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/selfuncs.c Thu Mar 11 23:59:35 1999
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---
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/afs/ece.cmu.edu/project/lcs/lcs-004/er1p/postgres/615/src/backend/utils/adt
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/selfuncs.c Mon Mar 22 22:57:25 1999
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***************
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*** 32,37 ****
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--- 32,40 ----
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#include "utils/lsyscache.h" /* for get_oprrest() */
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#include "catalog/pg_statistic.h"
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+ #include "catalog/pg_proc.h" /* for Form_pg_proc */
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+ #include "catalog/pg_type.h" /* for Form_pg_type */
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+
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/* N is not a valid var/constant or relation id */
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#define NONVALUE(N) ((N) == -1)
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***************
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*** 103,110 ****
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bottom;
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result = (float64) palloc(sizeof(float64data));
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! if (NONVALUE(attno) || NONVALUE(relid))
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*result = 1.0 / 3;
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else
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{
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/* XXX val = atol(value); */
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--- 106,114 ----
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bottom;
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result = (float64) palloc(sizeof(float64data));
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! if (NONVALUE(attno) || NONVALUE(relid)) {
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*result = 1.0 / 3;
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+ }
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else
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{
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/* XXX val = atol(value); */
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***************
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*** 117,130 ****
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}
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high = atol(highchar);
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low = atol(lowchar);
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if ((flag & SEL_RIGHT && val < low) ||
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(!(flag & SEL_RIGHT) && val > high))
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{
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float32data nvals;
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nvals = getattdisbursion(relid, (int) attno);
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! if (nvals == 0)
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*result = 1.0 / 3.0;
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else
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{
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*result = 3.0 * (float64data) nvals;
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--- 121,136 ----
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}
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high = atol(highchar);
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low = atol(lowchar);
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+ printf("(selfuncs) intltsel() high %d low %d val %d\n",high,low,val);
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if ((flag & SEL_RIGHT && val < low) ||
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(!(flag & SEL_RIGHT) && val > high))
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{
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float32data nvals;
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nvals = getattdisbursion(relid, (int) attno);
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! if (nvals == 0) {
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*result = 1.0 / 3.0;
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+ }
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else
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{
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*result = 3.0 * (float64data) nvals;
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***************
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*** 336,341 ****
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--- 342,353 ----
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{
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Relation rel;
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HeapScanDesc scan;
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+ /* this assumes there is only one row in the statistics table for any
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particular */
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+ /* relid, attnum pair - could be more complicated if staop is also
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used. */
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+ /* at the moment, if there are multiple rows, this code ends up
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picking the */
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+ /* "first" one
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- er1p */
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+ /* the actual "ignoring" is done in the call to heap_beginscan()
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below, where */
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+ /* we only mention 2 of the 3 keys in this array
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- er1p */
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static ScanKeyData key[3] = {
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{0, Anum_pg_statistic_starelid, F_OIDEQ, {0, 0, F_OIDEQ}},
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{0, Anum_pg_statistic_staattnum, F_INT2EQ, {0, 0, F_INT2EQ}},
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***************
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*** 344,355 ****
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bool isnull;
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HeapTuple tuple;
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|
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rel = heap_openr(StatisticRelationName);
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key[0].sk_argument = ObjectIdGetDatum(relid);
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key[1].sk_argument = Int16GetDatum((int16) attnum);
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key[2].sk_argument = ObjectIdGetDatum(opid);
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! scan = heap_beginscan(rel, 0, SnapshotNow, 3, key);
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tuple = heap_getnext(scan, 0);
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if (!HeapTupleIsValid(tuple))
|
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{
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--- 356,377 ----
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|
bool isnull;
|
|
HeapTuple tuple;
|
|
|
|
+ HeapTuple tup;
|
|
+ Form_pg_proc proc;
|
|
+ Form_pg_type typ;
|
|
+ Oid which_op;
|
|
+ Oid which_type;
|
|
+ int32 low_value;
|
|
+ int32 high_value;
|
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+
|
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rel = heap_openr(StatisticRelationName);
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|
|
|
key[0].sk_argument = ObjectIdGetDatum(relid);
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key[1].sk_argument = Int16GetDatum((int16) attnum);
|
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key[2].sk_argument = ObjectIdGetDatum(opid);
|
|
! printf("(selfuncs) gethilokey() obj %d attr %d opid %d (ignored)\n",
|
|
! key[0].sk_argument,key[1].sk_argument,key[2].sk_argument);
|
|
! scan = heap_beginscan(rel, 0, SnapshotNow, 2, key);
|
|
tuple = heap_getnext(scan, 0);
|
|
if (!HeapTupleIsValid(tuple))
|
|
{
|
|
***************
|
|
*** 376,383 ****
|
|
--- 398,461 ----
|
|
&isnull));
|
|
if (isnull)
|
|
elog(DEBUG, "gethilokey: low key is null");
|
|
+
|
|
heap_endscan(scan);
|
|
heap_close(rel);
|
|
+
|
|
+ /* now we deal with type conversion issues
|
|
*/
|
|
+ /* when intltsel() calls this routine (who knows what other callers
|
|
might do) */
|
|
+ /* it assumes that it can call atol() on the strings and then use
|
|
integer */
|
|
+ /* comparison from there. what we are going to do here, then, is try
|
|
to use */
|
|
+ /* the type information from Anum_pg_statistic_staop to convert the
|
|
high */
|
|
+ /* and low values
|
|
- er1p */
|
|
+
|
|
+ /* WARNING: this code has only been tested with the date type and has
|
|
NOT */
|
|
+ /* been regression tested. consider it "sample" code of what might
|
|
be the */
|
|
+ /* right kind of thing to do
|
|
- er1p */
|
|
+
|
|
+ /* get the 'op' from pg_statistic and look it up in pg_proc */
|
|
+ which_op = heap_getattr(tuple,
|
|
+ Anum_pg_statistic_staop,
|
|
+ RelationGetDescr(rel),
|
|
+ &isnull);
|
|
+ if (InvalidOid == which_op) {
|
|
+ /* ignore all this stuff, try conversion only if we have a valid staop */
|
|
+ /* note that there is an accompanying change to 'vacuum analyze' that */
|
|
+ /* gets this set to something useful. */
|
|
+ } else {
|
|
+ /* staop looks valid, so let's see what we can do about conversion */
|
|
+ tup = SearchSysCacheTuple(PROOID, ObjectIdGetDatum(which_op), 0, 0, 0);
|
|
+ if (!HeapTupleIsValid(tup)) {
|
|
+ elog(ERROR, "selfuncs: unable to find op in pg_proc %d", which_op);
|
|
+ }
|
|
+ printf("(selfuncs) gethilokey() found op %d in pg_proc\n",which_op);
|
|
+
|
|
+ /* use that to determine the type of stahikey and stalokey via pg_type */
|
|
+ proc = (Form_pg_proc) GETSTRUCT(tup);
|
|
+ which_type = proc->proargtypes[0]; /* XXX - use left and right
|
|
separately? */
|
|
+ tup = SearchSysCacheTuple(TYPOID, ObjectIdGetDatum(which_type), 0, 0, 0);
|
|
+ if (!HeapTupleIsValid(tup)) {
|
|
+ elog(ERROR, "selfuncs: unable to find type in pg_type %d", which_type);
|
|
+ }
|
|
+ printf("(selfuncs) gethilokey() found type %d in pg_type\n",which_type);
|
|
+
|
|
+ /* and use that type to get the conversion function to int4 */
|
|
+ typ = (Form_pg_type) GETSTRUCT(tup);
|
|
+ printf("(selfuncs) gethilokey() going to use %d to convert type
|
|
%d\n",typ->typinput,which_type);
|
|
+
|
|
+ /* and convert the low and high strings */
|
|
+ low_value = (int32) fmgr(typ->typinput, *low, -1);
|
|
+ high_value = (int32) fmgr(typ->typinput, *high, -1);
|
|
+ printf("(selfuncs) gethilokey() have low %d high
|
|
%d\n",low_value,high_value);
|
|
+
|
|
+ /* now we have int4's, which we put back into strings because
|
|
that's what out */
|
|
+ /* callers (intltsel() at least) expect
|
|
- er1p */
|
|
+ pfree(*low); pfree(*high); /* let's not leak the old strings */
|
|
+ *low = int4out(low_value);
|
|
+ *high = int4out(high_value);
|
|
+
|
|
+ /* XXX - this probably leaks the two tups we got from
|
|
SearchSysCacheTuple() - er1p */
|
|
+ }
|
|
}
|
|
|
|
float64
|
|
SHAR_EOF
|
|
fi
|
|
if test -f 'vacuum.c.diff'
|
|
then
|
|
echo shar: "will not over-write existing file 'vacuum.c.diff'"
|
|
else
|
|
cat << \SHAR_EOF > 'vacuum.c.diff'
|
|
***
|
|
/afs/ece.cmu.edu/project/lcs/lcs-004/er1p/postgres/611/src/backend/commands/
|
|
vacuum.c Thu Mar 11 23:59:09 1999
|
|
---
|
|
/afs/ece.cmu.edu/project/lcs/lcs-004/er1p/postgres/615/src/backend/commands/
|
|
vacuum.c Mon Mar 22 21:23:15 1999
|
|
***************
|
|
*** 1842,1848 ****
|
|
i = 0;
|
|
values[i++] = (Datum) relid; /* 1 */
|
|
values[i++] = (Datum) attp->attnum; /* 2 */
|
|
! values[i++] = (Datum) InvalidOid; /* 3 */
|
|
fmgr_info(stats->outfunc, &out_function);
|
|
out_string = (*fmgr_faddr(&out_function)) (stats->min,
|
|
stats->attr->atttypid);
|
|
values[i++] = (Datum) fmgr(F_TEXTIN, out_string);
|
|
--- 1842,1848 ----
|
|
i = 0;
|
|
values[i++] = (Datum) relid; /* 1 */
|
|
values[i++] = (Datum) attp->attnum; /* 2 */
|
|
! values[i++] = (Datum) stats->f_cmplt.fn_oid; /* 3 */ /* get the
|
|
'<' oid, instead of 'invalid' - er1p */
|
|
fmgr_info(stats->outfunc, &out_function);
|
|
out_string = (*fmgr_faddr(&out_function)) (stats->min,
|
|
stats->attr->atttypid);
|
|
values[i++] = (Datum) fmgr(F_TEXTIN, out_string);
|
|
SHAR_EOF
|
|
fi
|
|
exit 0
|
|
# End of shell archive
|
|
|
|
|
|
|
|
From owner-pgsql-hackers@hub.org Tue Mar 23 12:31:05 1999
|
|
Received: from renoir.op.net (root@renoir.op.net [209.152.193.4])
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by candle.pha.pa.us (8.9.0/8.9.0) with ESMTP id MAA17491
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for <maillist@candle.pha.pa.us>; Tue, 23 Mar 1999 12:31:04 -0500 (EST)
|
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Received: from hub.org (majordom@hub.org [209.47.145.100]) by renoir.op.net (o1/$Revision: 1.4 $) with ESMTP id MAA08839 for <maillist@candle.pha.pa.us>; Tue, 23 Mar 1999 12:08:14 -0500 (EST)
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Received: from localhost (majordom@localhost)
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by hub.org (8.9.2/8.9.1) with SMTP id MAA93649;
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Tue, 23 Mar 1999 12:04:57 -0500 (EST)
|
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(envelope-from owner-pgsql-hackers@hub.org)
|
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Received: (from majordom@localhost)
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by hub.org (8.9.2/8.9.1) id MAA93355
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for pgsql-hackers-outgoing; Tue, 23 Mar 1999 12:02:55 -0500 (EST)
|
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(envelope-from owner-pgsql-hackers@postgreSQL.org)
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for <pgsql-hackers@postgreSQL.org>; Tue, 23 Mar 1999 12:02:43 -0500 (EST)
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Tue, 23 Mar 1999 12:01:57 -0500 (EST)
|
|
To: Erik Riedel <riedel+@CMU.EDU>
|
|
cc: pgsql-hackers@postgreSQL.org
|
|
Subject: Re: [HACKERS] optimizer and type question
|
|
In-reply-to: Your message of Mon, 22 Mar 1999 23:14:55 -0500 (EST)
|
|
<4qxlJ0200anI01hK40@andrew.cmu.edu>
|
|
Date: Tue, 23 Mar 1999 12:01:57 -0500
|
|
Message-ID: <24453.922208517@sss.pgh.pa.us>
|
|
From: Tom Lane <tgl@sss.pgh.pa.us>
|
|
Sender: owner-pgsql-hackers@postgreSQL.org
|
|
Precedence: bulk
|
|
Status: RO
|
|
|
|
Erik Riedel <riedel+@CMU.EDU> writes:
|
|
> OK, building on your high-level explanation, I am attaching a patch that
|
|
> attempts to do something "better" than the current code. Note that I
|
|
> have only tested this with the date type and my particular query.
|
|
|
|
Glad to see you working on this. I don't like the details of your
|
|
patch too much though ;-). Here are some suggestions for making it
|
|
better.
|
|
|
|
1. I think just removing staop from the lookup in gethilokey is OK for
|
|
now, though I'm dubious about Bruce's thought that we could delete that
|
|
field entirely. As you observe, vacuum will not currently put more
|
|
than one tuple for a column into pg_statistic, so we can just do the
|
|
lookup with relid and attno and leave it at that. But I think we ought
|
|
to leave the field there, with the idea that vacuum might someday
|
|
compute more than one statistic for a data column. Fixing vacuum to
|
|
put its sort op into the field is a good idea in the meantime.
|
|
|
|
2. The type conversion you're doing in gethilokey is a mess; I think
|
|
what you ought to make it do is simply the inbound conversion of the
|
|
string from pg_statistic into the internal representation for the
|
|
column's datatype, and return that value as a Datum. It also needs
|
|
a cleaner success/failure return convention --- this business with
|
|
"n" return is ridiculously type-specific. Also, the best and easiest
|
|
way to find the type to convert to is to look up the column type in
|
|
the info for the given relid, not search pg_proc with the staop value.
|
|
(I'm not sure that will even work, since there are pg_proc entries
|
|
with wildcard argument types.)
|
|
|
|
3. The atol() calls currently found in intltsel are a type-specific
|
|
cheat on what is conceptually a two-step process:
|
|
* Convert the string stored in pg_statistic back to the internal
|
|
form for the column data type.
|
|
* Generate a numeric representation of the data value that can be
|
|
used as an estimate of the range of values in the table.
|
|
The second step is trivial for integers, which may obscure the fact
|
|
that there are two steps involved, but nonetheless there are. If
|
|
you think about applying selectivity logic to strings, say, it
|
|
becomes clear that the second step is a necessary component of the
|
|
process. Furthermore, the second step must also be applied to the
|
|
probe value that's being passed into the selectivity operator.
|
|
(The probe value is already in internal form, of course; but it is
|
|
not necessarily in a useful numeric form.)
|
|
|
|
We can do the first of these steps by applying the appropriate "XXXin"
|
|
conversion function for the column data type, as you have done. The
|
|
interesting question is how to do the second one. A really clean
|
|
solution would require adding a column to pg_type that points to a
|
|
function that will do the appropriate conversion. I'd be inclined to
|
|
make all of these functions return "double" (float8) and just have one
|
|
top-level selectivity routine for all data types that can use
|
|
range-based selectivity logic.
|
|
|
|
We could probably hack something together that would not use an explicit
|
|
conversion function for each data type, but instead would rely on
|
|
type-specific assumptions inside the selectivity routines. We'd need many
|
|
more selectivity routines though (at least one for each of int, float4,
|
|
float8, and text data types) so I'm not sure we'd really save any work
|
|
compared to doing it right.
|
|
|
|
BTW, now that I look at this issue it's real clear that the selectivity
|
|
entries in pg_operator are horribly broken. The intltsel/intgtsel
|
|
selectivity routines are currently applied to 32 distinct data types:
|
|
|
|
regression=> select distinct typname,oprleft from pg_operator, pg_type
|
|
regression-> where pg_type.oid = oprleft
|
|
regression-> and oprrest in (103,104);
|
|
typname |oprleft
|
|
---------+-------
|
|
_aclitem | 1034
|
|
abstime | 702
|
|
bool | 16
|
|
box | 603
|
|
bpchar | 1042
|
|
char | 18
|
|
cidr | 650
|
|
circle | 718
|
|
date | 1082
|
|
datetime | 1184
|
|
float4 | 700
|
|
float8 | 701
|
|
inet | 869
|
|
int2 | 21
|
|
int4 | 23
|
|
int8 | 20
|
|
line | 628
|
|
lseg | 601
|
|
macaddr | 829
|
|
money | 790
|
|
name | 19
|
|
numeric | 1700
|
|
oid | 26
|
|
oid8 | 30
|
|
path | 602
|
|
point | 600
|
|
polygon | 604
|
|
text | 25
|
|
time | 1083
|
|
timespan | 1186
|
|
timestamp| 1296
|
|
varchar | 1043
|
|
(32 rows)
|
|
|
|
many of which are very obviously not compatible with integer for *any*
|
|
purpose. It looks to me like a lot of data types were added to
|
|
pg_operator just by copy-and-paste, without paying attention to whether
|
|
the selectivity routines were actually correct for the data type.
|
|
|
|
As the code stands today, the bogus entries don't matter because
|
|
gethilokey always fails, so we always get 1/3 as the selectivity
|
|
estimate for any comparison operator (except = and != of course).
|
|
I had actually noticed that fact and assumed that it was supposed
|
|
to work that way :-(. But, clearly, there is code in here that
|
|
is *trying* to be smarter.
|
|
|
|
As soon as we fix gethilokey so that it can succeed, we will start
|
|
getting essentially-random selectivity estimates for those data types
|
|
that aren't actually binary-compatible with integer. That will not do;
|
|
we have to do something about the issue.
|
|
|
|
regards, tom lane
|
|
|
|
|
|
From tgl@sss.pgh.pa.us Tue Mar 23 12:31:02 1999
|
|
Received: from renoir.op.net (root@renoir.op.net [209.152.193.4])
|
|
by candle.pha.pa.us (8.9.0/8.9.0) with ESMTP id MAA17484
|
|
for <maillist@candle.pha.pa.us>; Tue, 23 Mar 1999 12:31:01 -0500 (EST)
|
|
Received: from sss.sss.pgh.pa.us (sss.pgh.pa.us [206.210.65.6]) by renoir.op.net (o1/$Revision: 1.4 $) with ESMTP id MAA09042 for <maillist@candle.pha.pa.us>; Tue, 23 Mar 1999 12:10:55 -0500 (EST)
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|
|
by sss.sss.pgh.pa.us (8.9.1/8.9.1) with ESMTP id MAA24474;
|
|
Tue, 23 Mar 1999 12:09:52 -0500 (EST)
|
|
To: Bruce Momjian <maillist@candle.pha.pa.us>
|
|
cc: riedel+@CMU.EDU, pgsql-hackers@postgreSQL.org
|
|
Subject: Re: [HACKERS] optimizer and type question
|
|
In-reply-to: Your message of Mon, 22 Mar 1999 21:25:45 -0500 (EST)
|
|
<199903230225.VAA01641@candle.pha.pa.us>
|
|
Date: Tue, 23 Mar 1999 12:09:52 -0500
|
|
Message-ID: <24471.922208992@sss.pgh.pa.us>
|
|
From: Tom Lane <tgl@sss.pgh.pa.us>
|
|
Status: RO
|
|
|
|
Bruce Momjian <maillist@candle.pha.pa.us> writes:
|
|
> What we really need is some way to determine how far the requested value
|
|
> is from the min/max values. With int, we just do (val-min)/(max-min).
|
|
> That works, but how do we do that for types that don't support division.
|
|
> Strings come to mind in this case.
|
|
|
|
What I'm envisioning is that we still apply the (val-min)/(max-min)
|
|
logic, but apply it to numeric values that are produced in a
|
|
type-dependent way.
|
|
|
|
For ints and floats the conversion is trivial, of course.
|
|
|
|
For strings, the first thing that comes to mind is to return 0 for a
|
|
null string and the value of the first byte for a non-null string.
|
|
This would give you one-part-in-256 selectivity which is plenty good
|
|
enough for what the selectivity code needs to do. (Actually, it's
|
|
only that good if the strings' first bytes are pretty well spread out.
|
|
If you have a table containing English words, for example, you might
|
|
only get about one part in 26 this way, since the first bytes will
|
|
probably only run from A to Z. Might be better to use the first two
|
|
characters of the string to compute the selectivity representation.)
|
|
|
|
In general, you can apply this logic as long as you can come up with
|
|
some numerical approximation to the data type's sorting order. It
|
|
doesn't have to be exact.
|
|
|
|
regards, tom lane
|
|
|
|
From owner-pgsql-hackers@hub.org Tue Mar 23 12:31:03 1999
|
|
Received: from renoir.op.net (root@renoir.op.net [209.152.193.4])
|
|
by candle.pha.pa.us (8.9.0/8.9.0) with ESMTP id MAA17488
|
|
for <maillist@candle.pha.pa.us>; Tue, 23 Mar 1999 12:31:02 -0500 (EST)
|
|
Received: from hub.org (majordom@hub.org [209.47.145.100]) by renoir.op.net (o1/$Revision: 1.4 $) with ESMTP id MAA09987 for <maillist@candle.pha.pa.us>; Tue, 23 Mar 1999 12:21:34 -0500 (EST)
|
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|
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|
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|
|
(envelope-from owner-pgsql-hackers@hub.org)
|
|
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|
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|
|
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|
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|
|
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|
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|
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|
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|
|
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|
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|
|
Tue, 23 Mar 1999 12:09:52 -0500 (EST)
|
|
To: Bruce Momjian <maillist@candle.pha.pa.us>
|
|
cc: riedel+@CMU.EDU, pgsql-hackers@postgreSQL.org
|
|
Subject: Re: [HACKERS] optimizer and type question
|
|
In-reply-to: Your message of Mon, 22 Mar 1999 21:25:45 -0500 (EST)
|
|
<199903230225.VAA01641@candle.pha.pa.us>
|
|
Date: Tue, 23 Mar 1999 12:09:52 -0500
|
|
Message-ID: <24471.922208992@sss.pgh.pa.us>
|
|
From: Tom Lane <tgl@sss.pgh.pa.us>
|
|
Sender: owner-pgsql-hackers@postgreSQL.org
|
|
Precedence: bulk
|
|
Status: RO
|
|
|
|
Bruce Momjian <maillist@candle.pha.pa.us> writes:
|
|
> What we really need is some way to determine how far the requested value
|
|
> is from the min/max values. With int, we just do (val-min)/(max-min).
|
|
> That works, but how do we do that for types that don't support division.
|
|
> Strings come to mind in this case.
|
|
|
|
What I'm envisioning is that we still apply the (val-min)/(max-min)
|
|
logic, but apply it to numeric values that are produced in a
|
|
type-dependent way.
|
|
|
|
For ints and floats the conversion is trivial, of course.
|
|
|
|
For strings, the first thing that comes to mind is to return 0 for a
|
|
null string and the value of the first byte for a non-null string.
|
|
This would give you one-part-in-256 selectivity which is plenty good
|
|
enough for what the selectivity code needs to do. (Actually, it's
|
|
only that good if the strings' first bytes are pretty well spread out.
|
|
If you have a table containing English words, for example, you might
|
|
only get about one part in 26 this way, since the first bytes will
|
|
probably only run from A to Z. Might be better to use the first two
|
|
characters of the string to compute the selectivity representation.)
|
|
|
|
In general, you can apply this logic as long as you can come up with
|
|
some numerical approximation to the data type's sorting order. It
|
|
doesn't have to be exact.
|
|
|
|
regards, tom lane
|
|
|
|
|