The first two answers to your question are not quite correct. The
sb.Append(i + ","); statement does not call
i.ToString(), what it actually does is
Internally in the
string.Concat function, it calls
ToString() on the two
objects passed in. The key performance concern in this statement is
(object)i. This is boxing - wrapping a value type inside a reference. This is a (relatively) sizable performance hit, as it takes extra cycles and memory allocation to box something, and then there's extra garbage collection required.
You can see this happening in the IL of the (Release) compiled code:
IL_000c: box [mscorlib]System.Int32
IL_0011: ldstr ","
IL_0016: call string [mscorlib]System.String::Concat(object,
IL_001b: callvirt instance class [mscorlib]System.Text.StringBuilder
See that the first line is a
box call, followed by a
Concat call, ending with finally calling
If you call
i.ToString() instead, shown below, you forego the boxing, and also the
for (int i = 0; i < 50; i++)
This call yields the following IL:
IL_000b: ldloca.s i
IL_000d: call instance string [mscorlib]System.Int32::ToString()
IL_0012: callvirt instance class [mscorlib]System.Text.StringBuilder
IL_0019: ldstr ","
IL_001e: callvirt instance class [mscorlib]System.Text.StringBuilder
Note that there is no boxing, and no
String.Concat, therefore there is less resources created that need to be collected, and less cycles wasted on boxing, at the cost of adding one
Append() call, which is relatively much cheaper.
This is why the second set of code is better performance.
You can extend this idea to many other things - anywhere that's operating on strings that you're passing a value type into a function that isn't explicitly taking that type as an argument (calls that take an
object as an argument, like
string.Format() for example), it's a good idea to call
<valuetype>.ToString() when passing in a value type argument.
In response to Theodoros' question in the comment:
The compiler team certainly could have decided to do such an optimization, but my guess is that they decided that the cost (in terms of additional complexity, time, additional testing, etc.) made the value of such a change not worth the investment.
Basically, they would have had to put in a special case branching for functions that ostensibly operate on
strings, but offer an overload with
object in it (basically,
if (boxing occurs && overload has string)). Inside that branch the compiler would have to also check to verify that the
object function overload does the same things as the
string overload with the exception of calling
ToString() on the arguments - it needs to do this because a user could create function overloads in which one function takes a
string and another takes an
object, but the two overloads perform different work on the arguments.
This seems to me like a lot of complexity and analysis for making a minor optimization to a few string manipulation functions. Additionally, this would be mucking around with the core compiler function resolution code, which already has some very exact rules that people misunderstand all the time (take a look at a number of Eric Lippert's answers - quite a few revolve around function resolution issues). Making it more complicated with "it works like this, except when you have that situation" type rules is certainly something to be avoided if the return is minimal.
The less expensive and less complex solution is to use the base function resolution rules, and let the compiler resolve you passing in a value type (like an
int) into a function, and having it figure out that the only function signature that fits it is one that takes
object, and do a box. Then rely on users to do the optimization of
ToString() when they profile their code and determine it is necessary (or just know about this behavior and do it all the time anyway when they encounter the situation, which I do).
A more likely alternative they could have done is have a number of
string.Concat overloads that take
doubles, etc. (like
string.Concat(int, int)) and just call
ToString on the arguments internally where they would not be boxed. This has the advantage that the optimization is in the class library instead of the compiler, but then you inevitably run into situations where you want to mix types in the concatenation, like the original question here where you have
string.Concat(int, string). The permutations would explode, which is the likely reason they did not do so. They also could have determined the most commonly used situations where such overloads would be used and do the top 5, but I'm guessing they decided that would just open them up to people asking "well, you did
(int, string), why don't you do