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I have a ~10M record MySQL table that I interface with using SqlAlchemy. I have found that queries on large subsets of this table will consume too much memory even though I thought I was using a built-in generator that intelligently fetched bite-sized chunks of the dataset:

for thing in session.query(Things):

To avoid this, I find I have to build my own iterator that bites off in chunks:

lastThingID = None
while True:
    things = query.filter(Thing.id < lastThingID).limit(querySize).all()
    if not rows or len(rows) == 0: 
    for thing in things:
        lastThingID = row.id

Is this normal or is there something I'm missing regarding SA built-in generators?

The answer to this question seems to indicate that the memory consumption is not to be expected.

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I have something very similar, except that it yields "thing". Works better than all other solutions –  iElectric Jun 17 '13 at 17:53
Isn't it Thing.id > lastThingID? And what is "rows"? –  synergetic Oct 12 '13 at 1:42

3 Answers 3

up vote 49 down vote accepted

Most DBAPI implementations fully buffer rows as they are fetched - so usually, before the SQLAlchemy ORM even gets a hold of one result, the whole result set is in memory.

But then, the way Query works is that it fully loads the given result set by default before returning to you your objects. The rationale here regards queries that are against more than just simple SELECT statements - joins to other tables which may return the same object identity multiple times in one result set (common with eager loading), the full set of rows needs to be in memory so that the correct results can be returned - otherwise collections and such might be only partially populated.

So Query offers an option to change this behavior, which is the yield_per() call http://www.sqlalchemy.org/docs/orm/query.html?highlight=yield_per#sqlalchemy.orm.query.Query.yield_per . This call will cause the Query to yield rows in batches, where you give it the batch size. As the docs state, this is only appropriate if you aren't doing any kind of eager loading of collections - so it's basically if you really know what you're doing. And also, if the underlying DBAPI pre-buffers rows , there will still be that memory overhead so the approach only scales slightly better than not using it.

I hardly ever use yield_per() - instead, I use a better version of the LIMIT approach you suggest above using window functions. LIMIT and OFFSET have a huge problem that very large OFFSET values cause the query to get slower and slower, as an OFFSET of N causes it to page through N rows - it's like doing the same query fifty times instead of one, each time reading a larger and larger number of rows. With a window-function approach, I pre-fetch a set of "window" values that refer to chunks of the table I want to select. I then emit individual SELECT statements that each pull from one of those windows at a time.

The window function approach is on the wiki at http://www.sqlalchemy.org/trac/wiki/UsageRecipes/WindowedRangeQuery and I use it with great success.

Also note, not all databases support window functions - you need PG, Oracle, or SQL Server. IMHO using at least Postgresql is definitely worth it - if you're using a relational database, you might as well use the best.

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You mention Query instanciates everything to compare identities. Could this be avoided by sorting on the primary key, and only comparing consecutive results? –  Tobu Nov 25 '12 at 15:34
the issue is if you yield an instance with identity X, the application gets a hold of it, and then makes decisions based on this entity, and maybe even mutates it. Later, perhaps (actually usually) even on the very next row, the same identity comes back in the result, perhaps to add more contents to its collections. The application therefore received the object in an incomplete state. sorting doesn't help here because the biggest issue is the workings of eager loading - both "joined" and "subquery" loading have different issues. –  zzzeek Nov 25 '12 at 19:21
I understood the "next row updates the collections" thing, in which case you only need to look ahead by one db row to know when the collections are complete. The implementation of eager loading would have to cooperate with the sort, so that collection updates are always done on adjacent rows. –  Tobu Nov 25 '12 at 22:11
the yield_per() option is always there for when you're confident the query you're emitting is compatible with delivering partial result sets. I spent a marathon several-days session trying to enable this behavior in all cases, there were always obscure, that is, until your program uses one of them, edges that failed. In particular, relying upon ordering can't be assumed. As always, I'm welcome to actual code contributions. –  zzzeek Nov 26 '12 at 14:39
I'm sorry for heckling you. I just wanted to know more on what made this difficult. –  Tobu Nov 26 '12 at 14:46

AFAIK, the first variant still gets all the tuples from the table (with one SQL query) but builds the ORM presentation for each entity when iterating. So it is more efficient than building a list of all entities before iterating but you still have to fetch all the (raw) data into memory.

Thus, using LIMIT on huge tables sounds like a good idea to me.

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I've been looking into efficient traversal/paging with SQLAlchemy and would like to update this answer.

I think you can use the slice call to properly limit the scope of a query and you could efficiently reuse it.


window_size = 10  # or whatever limit you like
window_idx = 0
while True:
    start,stop = window_size*window_idx, window_size*(window_idx+1)
    things = query.slice(start, stop).all()
    if things is None:
    for thing in things:
    if len(things) < window_size:
    window_idx += 1
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