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I've been reading tips about Javascript performance boosting and one tip said to cache all the variables (that don't change) in the loops comparer statement and I was wondering if this also applied to .NET.

Assuming I had a simple for loop, which one of the following would be faster or would they be the same?

No Cache:

for (int i = 0; i < someArray.Length; i++)


With Cache:

for (int i = 0, count = someArray.Length; i < count; i++)


According to the article "caching" the value of Length cuts out one operation in the loop because its faster to access local variables compared to accessing members of an object. Is it actually faster declaring a local variable compared to simply accessing the member? Does the GC pick up on this and automatically cache the value? Is there any negatives in declaring a local variable over accessing the member?

Whilst speed is probably a key factor here, its not the only one. My next question would probably be which one is more efficient. Which uses less memory allocations? Which performs less stack manipulation? etc...

From comments, it seems accessing array lengths is pretty fast. Lets say I use an IList<> instead. Would caching the value of Count be faster than retrieving it each iteration?

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Worth to read before: The Sad Tragedy of Micro-Optimization Theater –  Steve May 19 '13 at 7:33
@Steve I know wasting time on Micro-Optimization is time wasted, however this is more of a curiosity rather than a major performance optimization discovery. However, it could also possibly move from a micro-optimization classification to quite a large performance optimization if you are iterating over an array of 1,000,000+ items! However that article is a good read :) Thanks! :P –  jduncanator May 19 '13 at 7:35
No judgement by me on your intentions, they are pretty clear. Just keeping the things in perspective. I am just looking now to the IL code generated by your instructions and the second loop seems not optimized at all, but this could be easily changed on the jitted code. –  Steve May 19 '13 at 7:44
.net compilers are smart..the compiler would automatically optimize code wherever needed..you dont need to worry about it..focus on your app logic not optimization..atleast in .net –  Anirudha May 19 '13 at 7:46
@jduncanator: Just because you're iterating over a million items doesn't mean it would become important (even if it were a benefit at all). It depends on the cost of iteration vs the cost of what's in the body of the loop. Saving a millisecond due to micro-optimization is great if the total time for the whole loop is 3ms. Not so much if it's an hour. –  Jon Skeet May 19 '13 at 7:50

3 Answers 3

up vote 2 down vote accepted

In a compiled language, all you're doing is premature optimization. I suppose an interpreted language might save a bit, but even there it feels like your payoff would be so minimal for what is (in my experience) an unusual way to code a for loop.

To answer your question directly for C#, no, the compiler does not optimize anything by caching. I could very easily create a new array with a new length during the loop. As such, it will load the array length every time it evaluates the stop condition. Or worse, I may not be using "traditional" style stop conditions and may need to evaluate a function to know to stop.

That said, here's a simple program:

static void Main( string[] args ) {
    int[] integers = new int[] { 1, 2, 3, 4, 5 };

    for( int i = 0; i < integers.Length; i++ ) {
        Console.WriteLine( i );

And here's the IL (with nops removed):

IL_000d:  call       void [mscorlib]System.Runtime.CompilerServices.RuntimeHelpers::InitializeArray(class [mscorlib]System.Array,
                                                                                                     valuetype [mscorlib]System.RuntimeFieldHandle)
IL_0012:  stloc.0
IL_0013:  ldc.i4.0
IL_0014:  stloc.1
IL_0015:  br.s       IL_0024
IL_0018:  ldloc.1
IL_0019:  call       void [mscorlib]System.Console::WriteLine(int32)
IL_0020:  ldloc.1
IL_0021:  ldc.i4.1
IL_0022:  add
IL_0023:  stloc.1
IL_0024:  ldloc.1
IL_0025:  ldloc.0
IL_0026:  ldlen
IL_0027:  conv.i4
IL_0028:  clt
IL_002a:  stloc.2
IL_002b:  ldloc.2
IL_002c:  brtrue.s   IL_0017

The key answer to your question here, is it is pushing the array to location 0 in the stack, then during IL_0026 is performing a call to get the length of the array, then IL_0028 is performing the less than comparison, and finally going to IL_0017 if the evaluation is true.

By caching the length of the array, all you're saving is a ldlen and a stloc call. The ldlen instruction should be fast as getting the length of an array is not much of time waster.


The primary difference with a list will be this instruction:

IL_002b:  callvirt   instance int32 class [mscorlib]System.Collections.Generic.List`1<int32>::get_Count()

callvirt will take up more time, but all this function realistically does is return a private variable.

You'd be way better off worrying about things that take milliseconds - like chunking database calls, or optimizing SQL queries so they're faster, etc, than trying to shave off single IL operations.

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Makes sence, but would this still apply to say, an IList<>? –  jduncanator May 19 '13 at 7:49
Note that the IL doesn't tell the whole story anyway. I'd expect the JIT to be spot this incredibly common pattern and optimize it further for the array case, if it can tell that the array variable doesn't change (to refer to a different array) during the loop. –  Jon Skeet May 19 '13 at 7:55
Not that it matters in this particular instance, but is the IL you provide above compiled with optimisations disabled? Current C# compiler optimisations transform the clt and brtrue into a blt from what I can see. –  Bob Dec 16 '14 at 6:25

I once tried caching vs. array.Length. Array.Length was faster. I think, thats because of inner structure of virtual machine and "safety". Whe you use .Length notation, it consider, that it will never overflow array. With variable, it is unknown and it makes additional tests. Assembly code looks one way, but inner behavior of virtual machine is other thing.

But on the other hand, you are doing premature optimalization.

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I doubt it will make your code faster, and may actually make it slower. Getting the length of an array is really cheap (probably an L1 hit), and computing the length beforehand may mess up the JIT's bound-check elimination.

In C#, writing: array[i] actually is more like writing: if (i >= array.Length) throw...; array[i]

The CLR writers spent alot of time making the JIT really good at eliminating those checks when unnecessary. Writing your loops in the second style may make the CLR unable to eliminate the checks.

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How about a something implementing a IList<>? –  jduncanator May 19 '13 at 7:48
That completely depends on the implementation. If it's not cached somewhere, you probably shouldn't be computing it in a loop ending condition check. –  mattsills May 19 '13 at 7:55

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