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When working within a class on its own fields and properties, I typically only use the property when it performs some function (like limiting a value or validating or whatever). Otherwise I prefer to read/write the backing field directly.

I somehow got it in my head that this would be a more generally performant way to do things, but it occurred to me that I don't really have any evidence to support this idea.

Aside from convention or taste, is there an actual performance factor between one and the other methods?

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possible duplicate of Actual Performance of Fields vs. Properties –  nawfal Jan 1 at 11:02
    
That question was asked several months after this one; if anything, it is the duplicate. –  Superstringcheese Jan 1 at 15:08
    
I had noticed it, but then I felt that question is worded better and has got more attention. In such cases, the consensus is it is ok close the older question –  nawfal Jan 1 at 17:39
1  
In the spirit of that rule, I voted to close. I do think that the sum of useful information in the two posts is greater than that of either one. –  Superstringcheese Jan 2 at 13:35

4 Answers 4

up vote 3 down vote accepted

If the property is a straight get/set its compiled away - in other words, the compiler will turn either using the property or the field directly into the same thing - so no performance difference.

However, get/sets can incorporate whatever logic they want so can be expensive - however, guidelines often advise keeping them light.

Properties have a few benefits, even if they are just get/set covers:

  • Data binding can only see properties, not fields.
  • It keeps with the concept of encapsulation.
  • You can enforce read only or write only semantics.
  • You can apply attributes separately to the underlying field (useful in serialisation scenarios).

Just as an aside, although it is interesting to review the minute performance characteristics of these things - in production code applying this type of optimisation (well, in this case there isn't one) would likely come under the banner of premature optimisation.

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It really depends. Technically it could be slower, but even in those cases it will be almost imperceptable. Here are the rules for how method inlining works taken from here.

  • Methods that are greater than 32 bytes of IL will not be inlined.
  • Virtual functions are not inlined.
  • Methods that have complex flow control will not be in-lined. Complex flow control is any flow control other than if/then/else; in this case, switch or while.
  • Methods that contain exception-handling blocks are not inlined, though methods that throw exceptions are still candidates for inlining.
  • If any of the method's formal arguments are structs, the method will not be inlined.

Since the C# compiler creates separate getter and setter methods from the property declaration they would obvious be treated independently of one another. Based on the rules above I would say most of the time property accessors are inlined. I think the rule about methods having to be nonvirtual would be one of the nontrivial showstoppers that would occur frequently though.

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Methods with structs as arguments not being inlined was a bug that has been fixed in .NET 3.5 SP1 for x86. And I'm fairly sure that methods larger than 32 bytes are still candidates for inlining, just less likely. I think it uses a scoring system to determine whether a method gets inlined and large methods get big point deduction probably, but if that is offset by positive factors, it might still be inlined. –  JulianR Jul 3 '10 at 4:59
    
@JulianR: Good point. That article I copied from is very old so I'm quite sure the details have changed some. –  Brian Gideon Jul 3 '10 at 17:19

There shouldn't be a difference in performance. If you use Reflector to look at the disassembly of the code, it automatically creates the backing field for you in the simplest way. It's really just syntactic sugar your compiler provides for you to make life easier.

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If a class or structure exposes a mutable field of a structure type, it's possible to access individual fields of that structure without having to copy the whole thing. By contrast, if it exposes a property (mutable or not), or a "readonly" field, then accessing any part of the struct will cause the system to copy the whole struct and then access the copy. Further, consumer code can modify a field of an exposed struct field conveniently and efficiently, without any redundant copy operations. By contrast, if a struct is exposed as a property, modifying any portion of it will require that the consumer copy it to a temporary variable, make the changes, and then store it back, a sequence of steps which would likely cause the entire structure to be copied four times (once each by the supplier and consumer when reading, and once each again when writing).

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