Re: [HACKERS] WIP: Faster Expression Processing v4 - Mailing list pgsql-hackers
| From | Andres Freund |
|---|---|
| Subject | Re: [HACKERS] WIP: Faster Expression Processing v4 |
| Date | |
| Msg-id | 20170314221648.jrcgh5n7ld4ej2o7@alap3.anarazel.de Whole thread Raw |
| In response to | Re: [HACKERS] WIP: Faster Expression Processing v4 (Douglas Doole <dougdoole@gmail.com>) |
| Responses |
Re: [HACKERS] WIP: Faster Expression Processing v4
(Douglas Doole <dougdoole@gmail.com>)
|
| List | pgsql-hackers |
Hi, On 2017-03-14 22:03:45 +0000, Douglas Doole wrote: > I do have one observation based on my experiments with your first version > of the code. In my tests, I found that expression init becomes a lot more > expensive in this new model. (That's neither a surprise, nor a > concern.) I suspect that's to a good degree because back then it'd often end up trying the "new" stuff, but then fall back to the old machinery due to unsupported operations. Which isn't a concern anymore, because now there's full coverage. Otherwise the cost aren't, according to my measurements, higher than before, excepting that some stuff that happened at execution time is now happening during initialization. > In particular, the function ExprEvalPushStep() is quite hot. In my > code I made the following changes: > > * Declare ExprEvalPushStep() "inline". > * Remove the "if (es->steps_alloc == 0)" condition > from ExprEvalPushStep(). > * In ExecInitExpr(), add: > state->steps_alloc = 16; > state->steps = palloc(sizeof(ExprEvalStep) * es->steps_alloc); > > I found that this cut the cost of initializing the expression by about 20%. > (Of course, that was on version 1 of your code, so the benefit may well be > different now.) Hm. Right now ExprState's are allocated in several places - but we could easily move that to a central place. Have a bit of a hard time seing that that branch during *initialization* time is that expensive, especially given that previously we allocated a lot of memory separately too. > On Tue, Mar 14, 2017 at 11:51 AM Andres Freund <andres@anarazel.de> wrote: > > > > Hmm. Could we make the instructions variable size? It would allow packing > > > the small instructions even more tight, and we wouldn't need to obsess > > over > > > a particular maximum size for more complicated instructions. > > > > That makes jumps a lot more complicated. I'd experimented with it and > > given it up as "not worth it". > Back when I was at IBM, I spent a lot of time doing stuff like this. If you > want to commit with the fixed size arrays, I'm happy to volunteer to look > at packing it tighter as a follow-on piece of work. (It was already on my > list of things to try anyhow.) Yea, I think experimenting with that is a good idea. I just think this is complicated enough, and I don't want to add a whole lot more complexity for very debatable benefit. > > If we were to try to do so, we'd also > > not like storing the pointer and enum variants both, since it'd again > > would reduce the density. > From my experience, it's worth the small loss in density to carry around > both the pointer and the enum - it makes debugging so much easier. I found it annoying enough to print the instruction itself, due to the union - so printing the opcode using a function isn't too bad... Greetings, Andres Freund
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