Dapper dot net has a buffer parameter (a bool), but as far as I can tell the only thing it does is cast the result to a list before returning it.

As per the documentation:

Dapper's default behavior is to execute your sql and buffer the entire reader on return. This is ideal in most cases as it minimizes shared locks in the db and cuts down on db network time.

However when executing huge queries you may need to minimize memory footprint and only load objects as needed. To do so pass, buffered: false into the Query method.

I'm not sure how casting the result to a list accomplishes this. Am I missing something? My only idea is that it is supposed to set the CommandBehavior for the ExecuteReader to CommandBehavior.SequentialAccess (but it doesn't).

  • 1
    Duplicate of Explanation of dapper buffer/cache, which has has a slightly longer, detailed answer by @Marc (although, admittedly, was actually asked after this question).
    – Groo
    Oct 21, 2014 at 11:21
  • @Groo, if the other question was asked after this one, then the other question is the duplicate, not this one.
    – kristianp
    Feb 27, 2019 at 0:50

3 Answers 3


but as far as I can tell the only thing it does is cast the result to a list before returning it

You aren't missing anything. That is the key difference. Except it isn't a cast as such: the actual returned object is very different. Basically, there are two ways of reading data:

  • in a streaming API each element is yielded individually; this is very memory efficient, but if you do lots of subsequent processing per item, mean that your connection / command could be "active" for an extended time
  • in a buffered API all the rows are read before anything is yielded

If you are reading a very large amount of data (thousands to millions of rows), a non-buffered API may be preferable. Otherwise lots of memory is used, and there may be noticeable latency before even the first row is available. However, in most common scenarios the amount of data read is within reasonable limits, so it is reasonable to push it into a list before handing it to the caller. That means that the command / reader etc has completed before it returns.

As a side note, buffered mode also avoids the oh-so-common "there is already an open reader on the connection" (or whatever the exact phrasing is).


I have to disagree with @chris-marisic on this... I ran into multiple "Out Of Memory" exceptions at that exact line (data.ToList()) when using buffered:true. It was not a "zillion rows X bazillion columns" query, just a regular 5-6k rows SQL-result with about 30 columns.

It really depends on your configuration. E.g. whether your SQL and IIS run on same physical machine or not. And how much memory is installed on the IIS machine, and what is the page file setting etc. If the web-server has 2 GB or less - consider setting "buffered:false" for super-heavy reports.

  • To elaborate on that: data.ToList() creates an list fully in memory anyway. So if you are using buffered:true, you will probably get the list in memory twice. Feb 10, 2017 at 22:18
  • By data.ToList() I was referencing an actual line from dapper's source code.
    – jazzcat
    May 6, 2017 at 19:35

In practice it is better to never use buffered: false.

I've found reading even many millions of rows that it is both faster and more memory efficient to use buffered results than unbuffered. Perhaps there is a cross over point if your tables have 500 columns and you're reading 10s of millions or 100s of millions of rows.

If your result sets are smaller than many billions of values it is not worth using buffered: false for any reason.

I was shocked during actual analysis that reading gigabytes of data from Sql Server was both faster (2-6x faster) and more memory efficient in standard buffered mode. The performance increase even accounts for the most minute operation possible, adding an object to a sparse array by index to an array that does not resize. Using a multi-gigabyte sparse array switching from unbuffered to buffered saw the 2x improvement in load time. Writing to a dictionary using buffered saw the 6x improvement in load time when inserting millions of records (dictionary used the table's int PK as key so as basic of a hashcode calculation as possible).

As with everything regarding performance you always must analyze. However I can tell you with a very high level of certainty always start with the default buffered behavior of Dapper.

  • 2
    Chris, when you talk about populating the array or writing to a dictionary, are you talking about how you're handling results that Dapper has already returned? So technically that's profiling your own post-buffered-read code? Or are you talking about processing results from SQL Server at a lower level?.
    – Rich
    Jan 20, 2016 at 16:20
  • @Rich Using foreach(item in unbuffered) dictionary.Add(item.Id, item) was 6x slower than bufferedquery.ToDictionary(x=> x.Id). There is a definitive latency cost for using unbuffered. (I'm reading sets of millions and hundreds of millions, note i also used the properly sized capacity constructor for the dictionary) Jan 20, 2016 at 18:08
  • So you are indeed talking about what I thought. Awesome. Very useful info, thanks.
    – Rich
    Jan 20, 2016 at 19:08
  • 2
    @ChrisMarisic We are using S3's Multipart Upload support. Where we upload pieces at a time and S3 combines them upon completion. Suffice it to say there are good use cases for both unbuffered and buffered Dapper queries. We use buffered for most API calls but we also limit result counts to avoid resource problems. Apr 12, 2018 at 18:36
  • 1
    @ChrisMarisic Ah, "my way or the highway." No worries. Onlookers can make their own judgements. Apr 12, 2018 at 21:10

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.