Re: anti-join chosen even when slower than old plan - Mailing list pgsql-performance

From Tom Lane
Subject Re: anti-join chosen even when slower than old plan
Date
Msg-id 20215.1289344662@sss.pgh.pa.us
Whole thread Raw
In response to Re: anti-join chosen even when slower than old plan  ("Kevin Grittner" <Kevin.Grittner@wicourts.gov>)
Responses Re: anti-join chosen even when slower than old plan  ("Kevin Grittner" <Kevin.Grittner@wicourts.gov>)
List pgsql-performance
"Kevin Grittner" <Kevin.Grittner@wicourts.gov> writes:
> "Kevin Grittner" <Kevin.Grittner@wicourts.gov> wrote:
>> samples  %        symbol name
>> 2320174  33.7617  index_getnext

> I couldn't resist seeing where the time went within this function.
> Over 13.7% of the opannotate run time was on this bit of code:

>   /*
>    * The xmin should match the previous xmax value, else chain is
>    * broken.  (Note: this test is not optional because it protects
>    * us against the case where the prior chain member's xmax aborted
>    * since we looked at it.)
>    */
>   if (TransactionIdIsValid(scan->xs_prev_xmax) &&
>       !TransactionIdEquals(scan->xs_prev_xmax,
>                         HeapTupleHeaderGetXmin(heapTuple->t_data)))
>       break;

> I can't see why it would be such a hotspot, but it is.

Main-memory access waits, maybe?  If at_chain_start is false, that xmin
fetch would be the first actual touch of a given heap tuple, and could
be expected to have to wait for a cache line to be pulled in from RAM.
However, you'd have to be spending a lot of time chasing through long
HOT chains before that would happen enough to make this a hotspot...

            regards, tom lane

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