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I was playing around with the Prefix and Postfix operators (@ and // respectively) and I ran into the following issue.

Given the following code, they evaluate in the same exact way:

Hold[MatrixPlot@Sort@data] // FullForm
(* Hold[MatrixPlot[Sort[data]]] *)

Hold[data // Sort // MatrixPlot] // FullForm
(* Hold[MatrixPlot[Sort[data]]] *)

However, given the following expressions, I get different results:

(* Abs'[0] *)

Abs'[0] // FunctionExpand
(* 0 *)

I'm not quite sure really why this is. In dozens of other snippets of code I've had, f@expr, expr // f, and f[expr] all evaluate to the same result. Why does this one particular case give this result?

share|improve this question
This link is possibly relevant:, where I discuss similar precedence - related issues. Using FullForm on original expression often helps. – Leonid Shifrin Jul 15 '11 at 14:37
@Leonid FullForm is a much better way to see what's happening than what I suggested; I added this to my answer, hope you don't mind – acl Jul 15 '11 at 14:52
@acl Great! I was typing the answer using it when your came out, so I discarded mine, voted for yours and left the link. It's good to have both approaches listed. – Leonid Shifrin Jul 15 '11 at 15:14
The undocumented{?} function Precedence gives the following: Precedence[#] & /@ {Prefix, Postfix, Infix} -> {640., 70., 630.} – TomD Jul 15 '11 at 15:31
up vote 10 down vote accepted

This is a precedence issue. @ has higher precedence than //. To see what is going on, place the cursor on FunctionExpand in both cases, then either cmd+. (on OS X) or ctrl+. on anything else, and you end up selecting things by precedence.

Another way to see it is to use Trace:

FunctionExpand@Abs'[0] // Trace
-> {{{FunctionExpand[Abs],Abs},Abs^\[Prime]},(Abs^\[Prime])[0]}


Abs'[0] // FunctionExpand//Trace
-> {FunctionExpand[(Abs^\[Prime])[0]],0}

In particular, notice how in the first case mma first evaluates FunctionExpand[Abs], obtaining Abs, then continuing. This is precisely due to how strongly @ binds as compared to //.

EDIT: Inspired by @Leonid's comment, this is also informative:

Hold[FunctionExpand@Abs'[0]] // FullForm
Hold[Abs'[0] // FunctionExpand] // FullForm
-> Hold[Derivative[1][FunctionExpand[Abs]][0]]

which is a much better demonstration of what is going on.

share|improve this answer
Thanks, this answers my question perfectly. – Mike Bantegui Jul 16 '11 at 5:50

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