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Assume I have the following string constants:

const string constString1 = "Const String 1";
const string constString2 = "Const String 2";
const string constString3 = "Const String 3";
const string constString4 = "Const String 4";

Now I can append the strings in two ways: Option1:

string resultString = constString1 + constString2 + constString3 + constString4;


string resultString = string.Format("{0}{1}{2}{3}",constString1,constString2,constString3,constString4);

Internally string.Format uses StringBuilder.AppendFormat. Now given the fact that I am appending constant strings, which of the options (option1 or option 2) is better with respect to performance and/or memory?

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this smacks of premature optimization. –  nathan gonzalez Mar 2 '11 at 7:11
Possible duplicate stackoverflow.com/questions/296978/… –  Nauman Mar 2 '11 at 7:12
@nathan - and of trying to optimize without measuring... –  Marc Gravell Mar 2 '11 at 7:17
@System.Exception No, different question. Here he's asking of concat of const strings. The "side" effect (how the compiler optimizes it) is interesting enough that a new question is ok. The result (concat is faster than format) is the same, but for another reason. –  xanatos Mar 2 '11 at 7:17
@xanatos: There's no technical reason why concat should be faster than format in this case (all strings are constant, including the format string). –  Nick Bastin Mar 2 '11 at 7:21

2 Answers 2

up vote 9 down vote accepted

The first one will be done by the compiler (at least the Microsoft C# Compiler) (in the same way that the compiler does 1+2), the second one must be done at runtime. So clearly the first one is faster.

As an added benefit, in the first one the string is internalized, in the second one it isn't.

And String.Format is quite slow :-) (read this http://msmvps.com/blogs/jon_skeet/archive/2008/10/06/formatting-strings.aspx). NOT "slow enough to be a problem", UNLESS all your program do all the day is format strings (MILLIONS of them, not TENS). Then you could probably to it faster Appending them to a StringBuilder.

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I think the same. –  PedroC88 Mar 2 '11 at 7:13
Even a C++ compiler could optimize both of these to the same instructions, the CLR JIT should have no trouble coalescing them to the same assemblies. Of course, it might not actually do it, but not for lack of information. The only way to know for sure is to test it. –  Nick Bastin Mar 2 '11 at 7:16
Actually, the optimizations you are referring to here are optimizations done by the C# compiler, and not by the JIT-compiler. –  Øyvind Bråthen Mar 2 '11 at 7:17
Sure, my point was that even if the CLR compiler didn't do it (which it clearly could, since you have enough information at compile time), it certainly could easily do it at runtime. –  Nick Bastin Mar 2 '11 at 7:19
@Øyvind Yeah. I have checked it with Reflector and I'm correcting. –  xanatos Mar 2 '11 at 7:20

The first variant will be best, but only when you are using constant strings.

There are two compilator optimizations (from the C# compiler, not the JIT compiler) that are in effect here. Lets take one example of a program

const string A = "Hello ";
const string B = "World";

string test = A + B;

First optimization is constant propagation that will change your code basically into this:

string test = "Hello " + "World";

Then a concatenation of literal strings (as they are now, due to the first optimization) optimization will kick in and change it to

string test = "Hello World";

So if you write any variants of the program shown above, the actual IL will be the same (or at least very similar) due to the optimizations done by the C# compiler.

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No, the first version will be best either way; with non-literals it will still compile to a single string.Concat call, and doesn't need to parse a format string ("{0}{1}{2}{3}") –  Marc Gravell Mar 2 '11 at 7:18

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