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For instance, does the compiler know to translate

string s = "test " + "this " + "function";

to

string s = "test this function";

and thus avoid the performance hit with the string concatenation?

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7 Answers 7

up vote 34 down vote accepted

Yes. This is guaranteed by the C# specification. It's in section 7.18 (of the C# 3.0 spec):

Whenever an expression fulfills the requirements listed above, the expression is evaluated at compile-time. This is true even if the expression is a sub-expression of a larger expression that contains non-constant constructs.

(The "requirements listed above" including the + operator applied to two constant expressions.)

See also this question.

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Same with VB.NET I would assume, right? –  Larsenal Nov 13 '08 at 23:52
    
Not sure - it's a language issue, not a framework one. –  Jon Skeet Nov 13 '08 at 23:56
    
Mind if I change the question then to C#? –  Larsenal Nov 14 '08 at 0:30
    
@DLarsen: Good call :) –  Jon Skeet Nov 14 '08 at 6:19

Just a side note on a related subject - the C# compiler will also 'optimize' multiple concatenations involving non-literals using the '+' operator to a single call to a multi-parameter overload of the String.Concat() method.

So

string result = x + y + z;

compiles to something equivalent to

string result = String.Concat( x, y, z);

rather than the more naive possibility:

string result = String.Concat( String.Concat( x, y), z);

Nothing earth-shattering, but just wanted to add this bit to the discussion about string literal concatenation optimization. I don't know whether this behavior is mandated by the language standard or not.

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Yes.

C# not only optimizes the concatenation of string literals, it also collapses equivalent string literals into constants and uses pointers to reference all references to the same constant.

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Do you have a reference for this information? –  Justin Dearing Aug 26 '09 at 13:03
1  
Its called "String Interning", and is covered in depth in the book CLR via C#. –  FlySwat Aug 30 '09 at 18:13

Yes - You can see this explicitly using ILDASM.

Example:

Here's a program that is similar to your example followed by the compiled CIL code:

Note: I am using the String.Concat() function just to see how the compiler treats the two different methods of concatenation.

Program

class Program
{
    static void Main(string[] args)
    {
        string s = "test " + "this " + "function";
        string ss = String.Concat("test", "this", "function");
    }
}

ILDASM

.method private hidebysig static void  Main(string[] args) cil managed
{
  .entrypoint
  // Code size       29 (0x1d)
  .maxstack  3
  .locals init (string V_0,
           string V_1)
  IL_0000:  nop
  IL_0001:  ldstr      "test this function"
  IL_0006:  stloc.0
  IL_0007:  ldstr      "test"
  IL_000c:  ldstr      "this"
  IL_0011:  ldstr      "function"
  IL_0016:  call       string [mscorlib]System.String::Concat(string,
                                                              string,
                                                              string)
  IL_001b:  stloc.1
  IL_001c:  ret
} // end of method Program::Main

Notice how at IL_0001 the compiler created the constant "test this function" as opposed to how the compiler treats the String.Concat() function - which creates a constant for each of the .Concat() params, then calls the .Concat() function.

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From the horses mouth:

"Concatenation is the process of appending one string to the end of another string. When you concatenate string literals or string constants by using the + operator, the compiler creates a single string. No run time concatenation occurs. However, string variables can be concatenated only at run time. In this case, you should understand the performance implications of the various approaches. "

http://msdn.microsoft.com/en-us/library/ms228504.aspx

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I believe the answer to that is yes, but you'd have to look at what the compiler spits out ... just compile, and use reflector on it :-)

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I had a similar question, but about VB.NET instead of C#. The simplest way of verifying this was to view the compiled assembly under Reflector.

The answer was that both the C# and VB.NET compiler optimise concatenation of string literals.

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