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I've read in a few places now that the maximum instance size for a struct should be 16 bytes.

But I cannot see where that number (16) comes from.

Browsing around the net, I've found some who suggest that it's an approximate number for good performance but Microsoft talk like it is a hard upper limit. (e.g. MSDN )

Does anyone have a definitive answer about why it is 16 bytes?

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6 Answers

up vote 28 down vote accepted

It is just a performance rule of thumb.

The point is that because value types are passed by value, the entire size of the struct has to be copied if it is passed to a function, whereas for a reference type, only the reference (4 bytes) has to be copied. A struct might save a bit of time though because you remove a layer of indirection, so even if it is larger than these 4 bytes, it might still be more efficient than passing a reference around. But at some point, it becomes so big that the cost of copying becomes noticeable. And a common rule of thumb is that this typically happens around 16 bytes. 16 is chosen because it's a nice round number, a power of two, and the alternatives are either 8 (which is too small, and would make structs almost useless), or 32 (at which point the cost of copying the struct is already problematic if you're using structs for performance reasons)

But ultimately, this is performance advice. It answers the question of "which would be most efficient to use? A struct or a class?". But it doesn't answer the question of "which best maps to my problem domain".

Structs and classes behave differently. If you need a struct's behavior, then I would say to make it a struct, no matter the size. At least until you run into performance problems, profile your code, and find that your struct is a problem.

your link even says that it is just a matter of performance:

If one or more of these conditions are not met, create a reference type instead of a structure. Failure to adhere to this guideline can negatively impact performance.

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Yes, the link does say it is a matter of performance but is also quite strong in the language it uses i.e. "Do not define a structure...". They could have said "It is not advisable..." –  Joe Jul 4 '09 at 15:01
    
True, the wording does seem a bit strong. But it might be to emphasize that heap-allocated classes aren't slow (as programmers coming from C/C++ might expect) –  jalf Jul 4 '09 at 15:04
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One probably answer for the precise number is that a 16-byte structure is still small enough to fit on the CPU's memory bus, or to be copied as part of a SIMD instruction. Larger structures become more complex to copy around or read/write. –  jalf Dec 22 '09 at 19:53
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The size figure comes largely from the amount of time it takes to copy the struct on the stack, for example to pass to a method. Anything much larger than this and you are consuming a lot of stack space and CPU cycles just copying data - when a reference to an immutable class (even with dereferencing) could be a lot more efficient.

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If a structure is not larger than 16 bytes, it can be copied with a few simple processor instructions. If it's larger, a loop is used to copy the structure.

As long as the structure is not larger than 16 bytes, the processor has to do about the same work when copying the structure as when copying a reference. If the structure is larger, you lose the performance benefit of having s structure, and you should generally make it a class instead.

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I am not an x86 assembly guru, heck I am probably a complete n00b in fact - but I am really curious, could you update your answer with some sample code to show this? Does it matter if the processor is running in 32-bit vs. 64-bit mode? –  Goyuix Mar 5 '12 at 20:43
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@Goyuix: There will be some performance differences between 32-bit and 64-bit code of course, but it follows the same principles. I made a performance test a while back. The code is just a lot of structs and a lot of loops, so that's not so interresting, but you can see the result here: stackoverflow.com/questions/2437925/… –  Guffa Mar 5 '12 at 21:21
    
It seems to me like this is the one right answer, and I'm not sure why it's been mostly overlooked. That perf-comparison table on your other answer is very telling. –  Justin Morgan Oct 5 '12 at 19:29
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As other answers have noted, the cost of copying a structure which is larger than 16 bytes is significantly greater than the cost of copying one 16 bytes or smaller. It's important to note, however, that copying a structure of any particular size once will be a fraction of the cost creating a new class object instance of that same size. If a struct would be copied many times in its lifetime, and the value-type semantics are not particularly required, a class object may be preferable. If, however, a struct would end up being copied only once or twice, such copying would likely be cheaper than the creation of a new class object. The break-even number of copies where a class object would become cheaper varies with the size of the struct/object in question, but is much higher for things that are 16 bytes or less, than for things greater than 16 bytes.

BTW, another point worth mentioning is that the cost of passing a struct as a ref parameter is independent of the size of the struct. In many cases, optimal performance may be achieved by using value types and passing them by ref. Once must be careful to avoid using properties or readonly fields of structure types, however, since accessing either of those will create an implicit temporary copy of the struct in question.

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I didn't know this part about using properties or readonly fields. Can you point me to a link for further reading? –  Justin Morgan Oct 3 '12 at 20:26
    
@Justin: A property getter is nothing more than a method whose return type is the type of the property in question. As such, the property must copy the information to whatever register or memory locations are used for the return value. Read-only fields are copied when accessing any properties or methods because the compiler can't know whether the called method might try to alter the struct upon which it is invoked. Unlike in C#, .net has no mechanism to prevent a struct method from altering the struct that's passed to it; there were two ways Microsoft could have dealt with this situation: –  supercat Oct 4 '12 at 16:34
    
(1) Allow read-only structures to be passed directly to methods, and hope that nobody tries to pass them to mutating methods, or (2) make a temporary copy of a read-only structure, and pass that copy to the called method. Note that (2) will be slower than (1), and generally won't yield correct behavior in cases where (1) wouldn't also; what (2) does is change the nature of the incorrect behavior when an attempt is made for a method to change a read-only structure. –  supercat Oct 4 '12 at 16:37
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Here is a scenario where structs can exhibit superior performance:

When you need to create 1000s of instances. In this case if you were to use a class, you would first need to allocate the array to hold the 1000s of instances and then in a loop allocate each instance. But instead if you were to use structs, then the 1000s of instances become available immediately after you allocate the array that is going to hold them.

In addition, structs are extremely useful when you need to do interop or want to dip into unsafe code for performance reasons.

As always there is a trade-off and one needs to analyze what they are doing to determine the best way to implement something.

ps: This scenario came into play when I was working with LIDAR data where there could be millions of points representing x,y,z and other attributes for ground data. This data needed to be loaded into memory for some intensive computation to output all kinds of stuff.

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I think the 16 bytes is just a rule of thumb from a performance point of view. An object in .NET uses at least 24 bytes of memory (IIRC), so if you made your structure much larger than that, a reference type would be preferable.

I can't think of any reason why they chose 16 bytes specifically.

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