For example, for a built-in function in Mathematica, f, originally f[1] gives {1,2,3}, but I want to let Mathematica gives only {1,3}. A simple method for rewritting f is desired. I don't want to define a new function or totally rewrite f or just dealing with original f's outputs. I want to rewite f.

Thanks. :)

  • $Post seems to be an good way, but it applies to all built-function which is not I want? – FreshApple May 20 '11 at 14:58
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    $Post is applied to every output expression as it is clearly stated in the documentation. It knows nothing on how this expression was generated. – Alexey Popkov May 20 '11 at 16:01
  • In you example, do you mean f[1] gives {1,2,3}, or do you mean something like f /@ {3, 5, 7} gives {1,2,3}? I ask because Sin gives a single numerical output, not a list. – Mr.Wizard May 20 '11 at 21:26
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    There are some solutions below, but it's really asking for trouble mucking with system symbols. It's much better to write a new function mySin[], calling the built in Sin[] and altering the output before returning. – Joshua Martell May 22 '11 at 4:25

You can use the Villegas-Gayley trick for this.

For the Sin function:


==> {Null,1}
  • @Sjoerd:Your answer is what I have looking for for a really long time. Sorry for the late response. :( and Many, many thanks for this brilliant hacking method! :) – FreshApple May 22 '11 at 10:59
  • @Fresh Actually, the above was written by Alexey who was referring to a trick we have been using quite a lot here since it was published in the Mathematica toolbag question (stackoverflow.com/questions/4198961/…). – Sjoerd C. de Vries May 22 '11 at 17:54

I prefer a method which is functional and reminds me of decorators in Python. http://wiki.python.org/moin/PythonDecorators

First we create the decorator:

OddOnly[x_] := If[OddQ[x], x, Null];

It can then be used as a prefix:


Null (* Doesn't actually give a result *)



A variation of Searke's method that I prefer is:

OddOnly[s_Symbol] := 
 Composition[If[OddQ@#, #, ##&[]] &, s]

This automatically removes results that are not odd, and it is applied to the function itself, which I find more convenient.


OddOnly[Sin] /@ {2, Pi, Pi/2}

(*  Out[]= {1}  *)

Array[OddOnly[Binomial], {5, 5}]

(*  Out[]= {{1}, {1}, {3, 3, 1}, {1}, {5, 5, 1}}  *)
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    Nice idea - +1. Since I know about your passion for terseness, let me point out that the effect equivalent to Unevaluated@Sequence[] inside If (or any head that is Hold* but not SequenceHold) can be achieved also with Sequence@@{}. – Leonid Shifrin May 22 '11 at 13:45
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    @Mr.Wizard The penalty is because it is one evaluation more, I think. Unevaluated gets stripped by the evaluator, without any sub-evaluation induced. But Apply[Sequence,{}] must undergo a separate evaluation. May be, there are other more subtle reasons that I am not aware of, as well. – Leonid Shifrin May 23 '11 at 9:34
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    @Leonid, appreciate your thoughts. Interestingly, if I set vanish[] := Sequence[] and then use vanish[] it is almost as fast as Unevaluated@Sequence[]; faster than Sequence @@ {}. – Mr.Wizard May 23 '11 at 9:54
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    @Mr.Wizard This seems logical. Before I became aware of Sequence@@{}, I was using 1/.(1:>Sequence[]) or something similar, which is a local version of your vanish. I think, in part the speed gain here is due to RuleDelayed (and SetDelayed) being SequenceHold. Simply rewriting is faster than inducing (sub)evaluation, which is what happens with Apply. – Leonid Shifrin May 23 '11 at 10:11
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    @Leonid, today in my notes I found an even shorter form: ##&[] I wish I was half as retentive as I am clever. ;-) – Mr.Wizard Oct 28 '11 at 9:04

Could apply a rule of the form

whatever /. _Integer?EvenQ :>Sequence[]

Daniel Lichtblau

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