Given a setup like this ..

class Product {
   int Cost;
   // other properties unimportant

var products = new List<Product> {
    new Product { Cost = 5 },
    new Product { Cost = 10 },
    new Product { Cost = 15 },
    new Product { Cost = 20 }

var credit = 15;

Assume that the list will be sorted in the given order. I wish to basically iterate over each item in the list, keep a summed value of cost, and keep getting products out as long as the total cost does not exceed credit.

I can do this with some loops and stuff, but I was wondering if there is a way to compact it into a simpler LINQ query.

  • The way I understand it, LINQ is going to get an interator anyway. So you might be able to write prettier code but I don't know if anything is really saved in doing so.
    – Yuck
    Sep 13 '11 at 13:11
  • 1
    I would prefer a loop in this situation. Sep 13 '11 at 13:14
  • @CodeInChaos: Given the samples below I have to agree with you. This is an area where LINQ doesn't feel quite right.
    – Yuck
    Sep 13 '11 at 13:15

Others have pointed out the captured variable approach, and there are arguably correct viewpoints that this approach is bad because it mutates state. Additionally, the captured variable approaches can only be iterated once, and are dangerous because a. you might forget that fact and try to iterate twice; b. the captured variable does not reflect the sum of the items taken.

To avoid these problems, just create an extension method:

public static IEnumerable<TSource> TakeWhileAggregate<TSource, TAccumulate>(
    this IEnumerable<TSource> source,
    TAccumulate seed,
    Func<TAccumulate, TSource, TAccumulate> func,
    Func<TAccumulate, bool> predicate
) {
    TAccumulate accumulator = seed;
    foreach (TSource item in source) {
        accumulator = func(accumulator, item);
        if (predicate(accumulator)) {
            yield return item;
        else {
            yield break;


var taken = products.TakeWhileAggregate(
    (cost, product) => cost + product.Cost,
    cost => cost <= credit

Note that NOW you can iterate twice (although be careful if your TAccumulate is mutable a reference type).

  • 1
    +1, Very nice, but you should replace cost += product.Cost with cost + product.Cost as += returns a value that you're not using (and ReSharper moans)
    – RichK
    Sep 13 '11 at 14:05
  • 1
    The latter solution is far better. Note also that you could make a version without the "seed" by simply seeding the accumulator to default(TAccumulate). I am a bit confused by your comment about mutable reference types; can you explain a bit more? Sep 13 '11 at 14:40
  • 1
    @Eric Lippert: I was thinking of a scenario where the accumulator (func) mutates the accumulated value thus mutating seed. Something like class Foo { public int Bar { get; set; } } Then: Foo foo = new Foo(); var taken = products.TakeWhileAggregate(foo, (f, p) => { f.Bar+= p.Cost; return f; } f => f.Bar <= credit);. Now foo is mutated on each iteration of taken and subsequent iterations don't produce the "same" sequence of values; that is, exactly the same problem with the captured variable approach.
    – jason
    Sep 13 '11 at 14:50
  • 1
    Got it. Yes, that would be just as bad as the original; you couldn't do the same thing twice (or in an interleaved manner) without them interfering with each other. Sep 13 '11 at 14:51
  • @jason is there a way to achieve this in Linq to SQL, maybe via expression trees? I can't seem to find the source code of the provider queries for LINQ to SQL. Please see my post on the EF repo. Oct 14 '15 at 5:04

Not "fully" linq, because it needs one extra variable, but it is the easiest I could think of:

int current=0;
var selection = products.TakeWhile(p => (current = current + p.Cost) <= credit);
  • 5
    The ugly thing here is that the TakeWhile expression has a side effect. Which IMO is against the spirit of linq. Sep 13 '11 at 13:15
  • 1
    @Stacey: Updating current, which although is the intended effect is still a functional side-effect.
    – Yuck
    Sep 13 '11 at 13:16
  • 2
    I prefer the functions used in linq to be "pure" in a functional sense. i.e. they don't mutate any state that they didn't create themselves. But of course that's just a stylistic choice and your code works and isn't too hard to understand. It's not shorter than a classical loop though. Sep 13 '11 at 13:19
  • 1
    No, it doesn't appear so. I find linq easier to read than a loop for some reason. Thanks a lot for all of the help and insight. I had never really considered the modification of an external variable to be a problem until you brought it up.
    – Ciel
    Sep 13 '11 at 13:26
  • 6
    This is a very bad idea as others have said. A sequence operator which mutates a variable is very confusing. There are better ways to do this. Sep 13 '11 at 14:11

You can do this if you want a solution without an external variable

var indexQuery = products.Select((x,index) => new { Obj = x, Index = index });

var query = from p in indexQuery 
            let RunningTotal = indexQuery.Where(x => x.Index <= p.Index)
                                         .Sum(x => x.Obj.Cost)
            where credit >= RunningTotal
            select p.Obj;
  • @Corey: in all fairness he never said it was the most efficient way of doing it. If you can find a more efficient way to do it without an external variable I'd be very interested though.
    – Chris
    Sep 13 '11 at 13:50
  • @Chris, IMO the nicest way of doing it is using the "Scan" LINQ operator from the Reactive framework. For the sake of simplicity, I'll post code below using my own version of Scan. Sep 13 '11 at 13:54
  • @Corey: Oooh, I'm very interested then. I've been looking at the Reactive Framework in the last few days so exampels of its use would be great. :)
    – Chris
    Sep 13 '11 at 13:58

ok, re my comment above in @Aducci's answer, here's a version using Scan

      var result=products.Scan(new {Product=(Product)null, RunningSum=0},
        (self, next) => new {Product=next, RunningSum=self.RunningSum+next.Cost})
        .Select(x => x.Product);

And this is my implementation of Scan (which I assume is similar to what's in the Rx Framework, but I haven't checked)

    public static IEnumerable<TAccumulate> Scan<TSource, TAccumulate>(this IEnumerable<TSource> source,
      TAccumulate seed, Func<TAccumulate, TSource, TAccumulate> accumulator) {

      foreach(var item in source) {
        seed=accumulator(seed, item);
        yield return seed;

Use a captured variable to track the amount taken so far.

int sum = 0;

IEnumerable<Product> query = products.TakeWhile(p =>
  bool canAfford = (sum + p.Cost) <= credit;
  sum = canAfford ? sum + p.Cost : sum;
  return canAfford;

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