Peter Geoghegan <[email protected]> writes:
> I took another look at this.
Since Greg S. seems to have lost interest in committing this, I am
picking it up.
> My strategy for preventing overflow is to use a uint64, and to use
> Min()/Max() as appropriate. As Robert mentioned, even a 64-bit integer
> could overflow here, and I account for that.
It seems to me that there's a much more robust way to do this, namely
use float8 arithmetic. Anybody have a problem with this version of
the last-increment branch?
/*
* This will be the last increment of memtupsize. Abandon doubling
* strategy and instead increase as much as we safely can.
*
* To stay within allowedMem, we can't increase memtupsize by more
* than availMem / sizeof(SortTuple) elements. In practice, we want
* to increase it by considerably less, because we need to leave some
* space for the tuples to which the new array slots will refer. We
* assume the new tuples will be about the same size as the tuples
* we've already seen, and thus we can extrapolate from the space
* consumption so far to estimate an appropriate new size for the
* memtuples array. The optimal value might be higher or lower than
* this estimate, but it's hard to know that in advance.
*
* This calculation is definitely safe against enlarging the array so
* much that LACKMEM becomes true, because the memory currently used
* includes the present array; thus, there would be enough allowedMem
* for the new array elements even if no other memory were currently
* used.
*
* We do the arithmetic in float8, because otherwise the product of
* memtupsize and allowedMem would be quite likely to overflow. Any
* inaccuracy in the result should be insignificant, but just for
* paranoia's sake, we bound the result to be 1 to 2 times the
* existing value. (A little algebra shows that grow_ratio must be
* less than 2 here, so except for roundoff error the Min/Max bounds
* should never do anything.)
*
* Note: it might seem that we need to worry about memtupsize * 2
* overflowing an int, but the MaxAllocSize bound applied below will
* ensure that can't happen.
*/
double grow_ratio;
grow_ratio = (double) state->allowedMem / (double) memNowUsed;
newmemtupsize = (int) (memtupsize * grow_ratio);
newmemtupsize = Max(newmemtupsize, memtupsize);
newmemtupsize = Min(newmemtupsize, memtupsize * 2);
/* We won't make any further enlargement attempts */
state->growmemtuples = false;
> I also added a brief note within tuplestore.c to the effect that the
> two buffer sizing strategies are not in sync.
My inclination is to just copy the whole grow_memtuples function into
tuplestore.c too. There's no very good reason why tuplestore should
be stupider than tuplesort about this.
regards, tom lane
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