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In my C# Class Library project I have a method that needs to compute some statistics GetFaultRate, that, given a date, computes the number of products with faults over the number of products produced.

float GetFaultRate(DateTime date)
    var products = GetProducts(date);
    var faultyProducts = GetFaultyProducts(date);

    var rate = (float) (faultyProducts.Count() / products.Count());

    return rate;

Both methods, GetProducts and GetFaultyProducts take the data from a Repository class _productRepository.

IEnumerable<Product> GetProducts(DateTime date)
    var products = _productRepository.GetAll().ToList();

    var periodProducts = products.Where(p => CustomFunction(p.productionDate) == date);

    return periodProducts;

IEnumerable<Product> GetFaultyProducts(DateTime date)
    var products = _productRepository.GetAll().ToList();

    var periodFaultyProducts = products.Where(p => CustomFunction(p.ProductionDate) == date && p.Faulty == true);

    return periodFaultyProducts;

Where GetAll has signature:

IQueryable<Product> GetAll();

The products in the database are many and it takes a lot of time to retrieve them and convert ToList(). I need to enumerate the collection since any custom function such as CustomFunction, cannot be executed in a IQueryable<T>.

My application gets stuck for a long time before obtaining the fault rate. I guess it is because of the large number of objects to be retrieved. I can indeed remove the two functions GetProducts and GetFaultyProducts and implement the logic inside GetFaultRate. However since I have other functions that use GetProducts and GetFaultyProducts, with the latter solution I have only one access to the database but a lot of duplicate code.

What can be a good compromise?

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3 Answers 3

up vote 4 down vote accepted

First off, don't convert the IQueryable to a list. It forces the entire data set to be brought into memory all at once, rather than just calling Where directly on the query which will allow you to filter the data as it comes in. This will substantially decrease your memory footprint, and (very) marginally increase the runtime speed. If you need to convert an IQueryable to an IEnumerable so that the Where isn't executed by the database simply use AsEnumerable.

Next, getting all of the data is something you should avoid if at all possible, especially multiple times. You'd need to show us what your date function does, but it's possible that it is something that could be done on the database. Any filtering you can do at all at the database will substantially increase performance.

Next, you really don't need two queries here. The second query is just a subset of the first, so if you know that you'll always be using both queries then you should just just perform the first query, bring the results into memory (i.e. with a ToList that you store) and then use a Where on that to filter the results further. This will avoid another database trip as well as all of the data processing/filtering.

If you won't always be using both queries, but will sometimes use just one or the other, then you can improve the second query by filtering out on Faulty before getting all items. Add Where(p => p.Faulty) before you call AsEnumerable and filter on the date information after calling AsEnumerable (and that's if you can't convert any of the date filtering to filtering that can be done at the database).

It appears that in the end you only need to compute the ratio of items that are faulty as compared to the total. That can easily be done with a single query, rather than two.

You've said that Count is running really slowly in your code, but that's not really true. Count is simply the method that is actually enumerating your query, whereas all of the other methods were simply building the query, not executing it. However, you can cut your performance costs drastically by combining the queries entirely.

var lookup = _productRepository.GetAll()
.AsEnumerable()//if at all possible, try to re-write the `Where` 
               //to be a valid SQL query so that you don't need this call here
.Where(p => CustomFunction(p.productionDate) == date)
.ToLookup(product => product.Faulty);

int totalCount = lookup[true].Count() + lookup[false].Count();
double rate = lookup[true].Count() / (double) totalCount;
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"which will allow you to filter the data as it comes in" - doubt that in context of eg EF... data does not get filtered on the stream in the app (like it would be on an IEnumerable<T>) - it gets filtered before the output is sent to app... and there comes "and (very) marginally increase the runtime speed." into play: I doubt that either - depending on the query it might be possible to achieve better performance if doing some groupings/queries and alikes in the .net-domain (if you have the appropriate datastructure for your query) –  Andreas Niedermair Oct 10 '12 at 14:13
@AndreasNiedermair "doubt that in context of eg EF" Well as that code would be after a call to AsEnumerable it wouldn't be in the context of EF, it would just be an IEnumerable. As for the marginal performance, I was simply saying that using AsEnumerable instead of ToList will avoid creating populating, and then discarding a List. Compared to database transactions that's pretty marginal, but it is something. The primary problem with the ToList though is the memory it will consume, and also the fact that the IEnumerable processing can't start until all rows are fetched. –  Servy Oct 10 '12 at 14:19
the main issues with List<T> are: (1) memory-footprint, because all items need to remain in memory, (2) performance-footprint, because List<T> is intelligent when it gets to its (index-)boundaries (it magically enlarges itself and creates some more empty indices). issue 1 is constant, whereas issue 2 occures n-times ... I am totally with you and your explanation, just felt that it needed some enhancements :) –  Andreas Niedermair Oct 10 '12 at 14:27
@AndreasNiedermair Yes, there is a performance cost with the List resizing itself, but even that resizing will have a larger memory footprint than performance footprint. And again, there is a very large DB call going on here; that's going to completely obscure the processing involved with populating the list by comparison. As the saying goes, "you can hide anything behind a DB call". –  Servy Oct 10 '12 at 14:31
Thanks! I tried all your suggestions and I improved a bit the speed. I noticed that the operation that takes the longer time is the Count() (see edit). Is there any way for Count() to perform faster? Is it better to execute it in a IQueryable? –  CiccioMiami Oct 11 '12 at 12:08
var products = GetProducts(date);
var periodFaultyProducts = (from p in products.AsParallel()
                            where p.Faulty == true
                            select p).AsEnumerable();
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Used AsParallel() to execute query in parallel. Makes a little bit faster. –  Azhar Khorasany Oct 10 '12 at 14:26
where p.Faulty == true - really?! ... why not where p.Faulty –  Andreas Niedermair Oct 10 '12 at 14:29
@AndreasNiedermair Whatever! Explain the reason if you find the code faulty or in efficient. Don't piss off other people. –  Azhar Khorasany Oct 10 '12 at 14:32
@AzharKhorasany Parallelizing is unlikely to be helpful here. The only thing you have parallelized is filtering based on an already computed boolean value. The overhead of threading here will more than likely slow the code down more. It might, but unlikely would, be helpful to parallelize the date processing, but here you're doing it twice (once for each query) when you really don't need to. Not duplicating that would likely speed up your code by quite a bit more. –  Servy Oct 10 '12 at 14:34
@Servy thanks. I didn't know that. Please tell Andreas to do the same too! –  Azhar Khorasany Oct 10 '12 at 14:35

You need to reduce the number of database requests. ToList, First, FirstOrDefault, Any, Take and Count forces your query to run at a database. As Servy pointed out, AsEnumerable converts your query from IQueryable to IEnumerable. If you have to find subsets you can use Where.

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