# Why is reduce faster than sum or sumBy?

My coworker and I were comparing the speed of C# functions when passing in lambdas to do work compared to inlined functions with regards to time spent doing work. We found that you incurred a cost when passing in a lambda projection to a C# select function (for example) and wanted to see if F# had the same issues, or if it did something different.

Regardless of our original intent, we stumbled onto something that we can't figure out. In the following example we sum a list 3 different ways

1. Reduce
2. Sum
3. SumBy

``````module fs

open NUnit.Framework
open FsUnit
open System
open System.Diagnostics;

[<Test>]
let sumTest() =
let nums = [0..1000]

let repeat = 100000

let stopWatch = new Stopwatch()

stopWatch.Start()

let sumsReduce =
[
for i in [0..repeat] do
yield List.reduce (+) nums
]

Console.WriteLine("reduce = {0} - Time = {1}", List.head sumsReduce, stopWatch.Elapsed.TotalSeconds);
stopWatch.Restart()

let sumsSum =
[
for i in [0..repeat] do
yield List.sum nums
]

Console.WriteLine("sum = {0} - Time = {1}", List.head sumsSum, stopWatch.Elapsed.TotalSeconds);
stopWatch.Restart()

let sumsSumBy =
[
for i in [0..repeat] do
yield List.sumBy id nums
]

Console.WriteLine("sumBy = {0} - Time = {1}", List.head sumsSumBy, stopWatch.Elapsed.TotalSeconds);
stopWatch.Restart()
``````

The output to this looks like:

``````reduce = 500500 - Time = 0.2725156
sum = 500500 - Time = 1.1183165
sumBy = 500500 - Time = 1.1126781
``````

So clearly reduce is the big winner here. In the decompilation, I can see that reduce gets boiled down

``````[Serializable]
internal class sumsReduce\u004021\u002D1 : OptimizedClosures.FSharpFunc<int, int, int>
{
internal sumsReduce\u004021\u002D1()
{
base.\u002Ector();
}

public override int Invoke(int x, int y)
{
return x + y;
}
}
``````

But I'm having a hard time figuring out what sum and sumBy are doing. Where is the timing discrepancy from?

The current answer suggested that reduce is 5 times faster because originally I was giving reduce an unchecked operator. However, updating the test to use a checked operator (from the `Checked` module) and I still get the same result

``````let sumsReduce =
[
for i in [0..repeat] do
yield List.reduce (Checked.(+)) nums
]
``````

Notice the time discrepancy still exists

``````reduce = 500500 - Time = 0.274697
sum = 500500 - Time = 1.1126796
sumBy = 500500 - Time = 1.1370642
``````
-
I'd be very inclined to believe that @ildjarn got it right. Checked arithmetic has to slow things down quite a bit. –  Onorio Catenacci Aug 23 at 21:00
@OnorioCatenacci, I ran the test with checked arithemtic and it made no difference –  devshorts Aug 23 at 22:06

Sum and SumBy use an enumerator:

``````    while e.MoveNext() do
acc <- Checked.(+) acc e.Current
acc
``````

whereas reduce uses an recursive loop with an optimised closure: (reduce uses fold under the cover's - fold f head tail)

``````    let fold<'T,'State> f (s:'State) (list: 'T list) =
match list with
| [] -> s
| _ ->
let rec loop s xs =
match xs with
| [] -> s
| h::t -> loop (f.Invoke(s,h)) t
loop s list
``````

Using optimised closures can often yield a performance boost.

-
Hmm that makes more sense, but, in that case does the SumLoop function in the gist should run faster than SumEnum. gist.github.com/faisalmansoor/6301115 But, List.reduce boils down to SumLoop like method, while List.Sum to SumEnum. Any ideas? –  FaisalMansoor Aug 21 at 22:44
I think it is the list traversal that makes the difference, not the `OptimizedClosure`. Using an `OptimizedClosure` and an enumerator offers very little increase in performance, but using `Checked.(+)` in a recursive function is just as fast as `List.Reduce`. –  Leaf Garland Aug 22 at 8:01
True, the optimised closure makes more of a difference with heavily curried functions etc. –  7sharp9 Aug 22 at 18:05
`sum` and `sumBy` use checked arithmetic, but you're passing unchecked operator `+` to `reduce` -- not exactly apples to apples.