Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I understand unsafe code is more appropriate to access things like the Windows API and do unsafe type castings than to write more performant code, but I would like to ask you if you have ever noticed any significant performance improvement in real-world applications by using it when compared to safe c# code.

share|improve this question
P/Invoke is not quite the same as unsafe ... I'm not sure the reasoning follows... Besides: have you measured to see if you are doing something useful here? – Marc Gravell Mar 21 '11 at 7:21
Neither of safe or unsafe is supposed to be more performant de-facto. The total performance depends on the algorithms you've implemented in your code. – zerkms Mar 21 '11 at 7:22
I'm not using unsafe code right now. I am just trying to understand if it is worth changing critical parts of the code to unsafe code. – Miguel Mar 21 '11 at 7:23
Why do you assume that "unsafe" implies "better performance"? That's only true in a couple of specialized scenarios. – jalf Mar 21 '11 at 7:34

Some Performance Measurements

The performance benefits are not as great as you might think.

I did some performance measurements of normal managed array access versus unsafe pointers in C#.

Results from a build run outside of Visual Studio 2010, .NET 4, using an Any CPU | Release build on the following PC specification: x64-based PC, 1 quad-core processor. Intel64 Family 6 Model 23 Stepping 10 GenuineIntel ~2833 Mhz.

Linear array access
 00:00:07.1053664 for Normal
 00:00:07.1197401 for Unsafe *(p + i)

Linear array access - with pointer increment
 00:00:07.1174493 for Normal
 00:00:10.0015947 for Unsafe (*p++)

Random array access
 00:00:42.5559436 for Normal
 00:00:40.5632554 for Unsafe

Random array access using Parallel.For(), with 4 processors
 00:00:10.6896303 for Normal
 00:00:10.1858376 for Unsafe

Note that the unsafe *(p++) idiom actually ran slower. My guess this broke a compiler optimization that was combining the loop variable and the (compiler generated) pointer access in the safe version.

Source code available on github.

share|improve this answer
-1. At that time already a good example how NOT to measure performance as basically the trial code is too simplistic. – TomTom Feb 15 '14 at 9:11
@TomTom How so? – Thomas Bratt Feb 17 '14 at 10:28
It is too trivial. It does not take into account the optimizations that the compiler does / Can do. As such it is unclea whether the numbers have any meaning. – TomTom Feb 17 '14 at 10:33
Surely the point is to measure whether changing the idiom allows the compiler to optimize - for example, by removing bounds checking? – Thomas Bratt Feb 17 '14 at 13:35

A good example is image manipulations. Modifying the Pixels by using a pointer to their bytes (which requires unsafe code) is quite a bit faster.


That being said, for most scenarios, the difference wouldn't be as noticeable. So before you use unsafe code, profile your application to see where the performance bottlenecks are and test whether unsafe code is really the solution to make it faster.

share|improve this answer
Safe image manipulation can be quite fast too. Especially if your algorithm can be written to eliminate boundschecks. I only use unsafe code to copy the data from the bitmap into an array and back. And if you use a byte[] you can even avoid that and just use Marshal functions. – CodesInChaos Mar 21 '11 at 8:40
@Botz3000: That's a great link (looking forward to reading the rest of the site) but the conclusion is unsound. Using GetPixel and SetPixel is really slow but using int[] is more or less as fast as using pointers without the drawbacks. – Thomas Bratt Jul 10 '12 at 9:01
@CodeInChaos: I have to agree. the conclusion I came to is that the only area to benefit is copying the bitmap data. Haven't tried using Marshal yet though. – Thomas Bratt Jul 10 '12 at 9:02

As was stated in other posts, you can use unsafe code in very specialised contexts to get a significant performance inprovement. One of those scenarios is iterating over arrays of value types. Using unsafe pointer arithmetic is much faster than using the usual pattern of for-loop/indexer..

struct Foo
    int a = 1;
    int b = 2;
    int c = 0;

Foo[] fooArray = new Foo[100000];

fixed (Foo* foo = fooArray)  // foo now points to the first element in the array...
    var remaining = fooArray.length;
    while (remaining-- > 0)
        foo->c = foo->a + foo->b;
        foo++;  // foo now points to the next element in the array...

The main benefit here is that we've cut out array index checking entirely..

While very performant, this kind of code is hard to handle, can be quite dangerous (unsafe), and breaks some fundamental guidelines (mutable struct). But there are certainly scenarios where this is appropriate...

share|improve this answer
Another big drawback of this kind of code is that not a great proportion of C# programmers understand it or its implications. If you're working in a team, adopt the KISS principle... – MattDavey Mar 21 '11 at 9:12
Are you sure that this particular example is much faster? Sun's JVM manages to make this type of code (in Java or Scala) nearly as fast as C++ with pointer arithmetic; I'm surprised that C# implementations wouldn't do the same. – Rex Kerr Mar 21 '11 at 16:16
This particular example, no, because the compiler can determine that i will never be outside the bounds of the array and thus skip array bounds checks. But the principle remains. In my particular case I have a ring-buffer implemented using an array, and a seperate Iterator object to iterate over it. In this case the compiler cannot make this optimization.. – MattDavey Mar 21 '11 at 16:58
Agreed on ring buffers, at least for sizes that are integer multiples of two. If it's not two, the compiler (either the real one or the just-in-time one) could conceivably observe that your test fixes the range always, and thus it doesn't need to repeat the exact same test again. I don't know whether this is done, however; haven't needed a high performance ring buffer lately. – Rex Kerr Mar 21 '11 at 17:44
In my tests using fixed and pointers is actually slower (Win 7, x64). Don't assume anything, you need to measure. – Wout Sep 5 '13 at 14:21

Well, I would suggest to read this blog-post: MSDN blogs: Array Bounds Check Elimination in the CLR

This clarifies how bounds-checks are done in C#. Moreover, Thomas Bratts tests seem to me useless (looking at the code) since the JIT removes in his 'save' loops the bound-checks anyway.

share|improve this answer
Can you summarise the post here. If the link ever goes dark your answer isn't going to be very helpful. – ChrisF Sep 30 '12 at 20:32
You've missed the point of the tests - they aren't to show the effect of bounds checking vs. unsafe. They are to show that bounds checking is often optimized away and that the cost of unsafe is probably not worth it in these cases. – Thomas Bratt Mar 25 '13 at 15:57

I am using unsafe code for video manipulation code. In such code you want it to run as fast as possible without internal checks on values etc. Without unsafe attributes my could would not be able to keep up with the video stream at 30fps or 60 fps. (depending on used camera).

But because of speed its widely used by people who code graphics.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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