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The following Mathematica function f creates a string of whitespace of length n.

f[n_]:=Fold[StringJoin,"",Array[" "&,n]]

There must be a zillion alternatives to create this function.

How would you have done it?

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The version with Fold that you quoted is actually one of the worst ways to do this performance-wise, since it will have quadratic in n performance for large enough n. This string concatenation problem is language-agnostic. In Java, for example, StringBuffer and StringBuilder classes were introduced specifically to avoid this overhead. In Mathematica, StringJoin with multiple arguments (like in some of the answers you received) is also quite efficient and is a better solution. – Leonid Shifrin May 21 '11 at 21:09
Using Array the 4-argument signature Array[" "&,n,1,StringJoin] is the way to go, but this is inferior, performance-wise, than other methods suggested. – Sasha May 22 '11 at 15:10

5 Answers 5

up vote 10 down vote accepted
f[n_] := StringJoin @ ConstantArray[" ", n]

Edit: since @ is as idiomatic as @@ and a bit faster (thanks to Mr.Wizard for benchmarking) and shorter i updated the solution.

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I like this one. – ndroock1 May 21 '11 at 15:04
I'd just like to point out that StringJoin @ ConstantArray[" ", n] works too. (Since it's not intuitive that it should.) – Szabolcs May 24 '11 at 14:41
Yeah, i also noticed that both variants are possible but i tried to make the solution concise and idiomatic and thought changing the head to StringJoin was the more idiomatic alternative. In terms of speed and lowlevel-ness i like Sjoerds solution. – Thies Heidecke May 24 '11 at 16:00
+1 for updating your answer. – Mr.Wizard May 24 '11 at 17:19
f[n_] := FromCharacterCode[ConstantArray[32, {n}]]

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Refactoring theorists would say that 32 has a smell, while quite some Java code style checkers wouldn't accept the 32 either. I would like it if there was a named constant for 32. – ndroock1 May 21 '11 at 18:30
@user763851 you could use ToCharacterCode[" "] // First for that. – Sjoerd C. de Vries May 21 '11 at 21:57
@user763851 I'd go one step further and say that lots of "code smells" themselves are artifacts of languages for which refactoring theories are big, since "theories" indicate to me lots of protocols and not enough support for good abstractions. Refactoring should not necessarily be a separate step, the language should allow you to refactor code as you write it, or to write generic code from the start. The good news is that Mathematica does. – Leonid Shifrin May 21 '11 at 23:45
( About refactoring. Have you ever had to change BAD code ( say 100,000K++ lines ) you didn't write in the first place? ) - Do you mean that there are languages that do not facilitate Writing generic code from the start? Perhaps I missed your point there. – ndroock1 May 22 '11 at 7:51
@ndroock1 I worked with commercial Java projects (software for large banks) of about 3000 classes or so (I was a lead developer on a sub-project), out of which several hundred classes I wrote myself, and yes, I was doing many large-scale refactorings (hundreds classes affected at a time). And I must say that lots of bad code was due to Java weaknesses (verbose,no decent support for closures, no parametric polymorphism, no type inference, etc). Once I refactored the code to use functional-style programming (immutable objects, generics, proper use of interfaces), it became much more managable. – Leonid Shifrin May 22 '11 at 13:07
f[n_] := StringJoin[Table[" ", {n}]]
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Spacer and Invisible are also be useful for creating whitespace, with differences in how you specify the size of the space.

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Thanks. Just learned two new Mathematica statements. ;-) ( I have used Mathematica mostly as a mathematics workbench. ) – ndroock1 May 22 '11 at 7:55
f = ConstantArray[" ", #] <> "" &;

This is about twice as fast as Thies Heidecke's function, but not nearly as fast as Sjoerd's.

For large n a longer initial string is helpful. This is faster than Sjoerd's method for n > 10000:

f2ss = " "~ConstantArray~499 <> "";
f2[n_ /; n < 500] := StringTake[f2ss, n]
f2[n_ /; n < 5000] := StringTake[ConstantArray["          ", ⌈n/10⌉] <> "", n]
f2[n_] := StringTake[ConstantArray[f2@400, ⌈n/400⌉] <> "", n]
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yeah, I should have remarked that I chose my solution for speed. It's about 5.5 times as fast as Thies' solution. But then, you need strings in the order of 100 million characters to appreciate the difference. – Sjoerd C. de Vries May 21 '11 at 22:03
@Sjoerd it appears a modified StringJoin method is faster than FromCharacterCode on large n. – Mr.Wizard May 21 '11 at 22:48
@Sjoerd "strings in the order of 100 million characters" only take a few lifetimes to print. ;-) – ndroock1 May 22 '11 at 8:02
@ndrock1 Well, since we're discussing spaces it shouldn't be that difficult. Your paper comes pre-printed with them ;-) – Sjoerd C. de Vries May 22 '11 at 17:26
@Mr.Wizard oh, if i had known that the @ variant is twice as fast i'd probably used that in the first place. I think i'll update my answer – Thies Heidecke May 24 '11 at 16:33

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