The C# compiler is smart enough to optimize string concatenation with the
+ operator into
The following code:
var a = "one"; var b = "two"; var c = "three"; var d = "four"; var x = a + b + c + d;
Is compiled into this IL:
IL_0000: ldstr "one" IL_0005: stloc.0 // a IL_0006: ldstr "two" IL_000B: stloc.1 // b IL_000C: ldstr "three" IL_0011: stloc.2 // c IL_0012: ldstr "four" IL_0017: stloc.3 // d IL_0018: ldloc.0 // a IL_0019: ldloc.1 // b IL_001A: ldloc.2 // c IL_001B: ldloc.3 // d IL_001C: call System.String.Concat
The compiler figured out the correct overload of
String.Concat that takes 4 arguments and used that.
The F# compiler doesn't do that. Instead, each
+ is compiled into a separate call of
IL_0005: ldstr "one" IL_000A: ldstr "two" IL_000F: call System.String.Concat IL_0014: ldstr "three" IL_0019: call System.String.Concat IL_001E: ldstr "four" IL_0023: call System.String.Concat
Obviously this is because this particular optimization is not implemented in the F# compiler.
The question is why: is it technically hard do or is there some other reason?
String concatenation is a fairly common operation and while I realize that the performance of compiled code is not a top priority, I imagine this kind of optimization would be useful in many cases.