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I would like to get a List (ideally a set -- discarding repetition -- but assuming there's no direct way to do this I'll just use Union) of the leaves from a given expression.

For example, the expression

ArcTan[(-1 + 2*x)/Sqrt[3]]/Sqrt[3]

has a LeafCount of 18:

  • -1 (3)
  • 2 (3)
  • 3 (2)
  • x
  • ArcTan
  • Plus
  • Power (2)
  • Rational (2)
  • Times (3)

so I would like something like

{-1, 2, 3, x, ArcTan, Plus, Power, Rational, Times}

Actually, I really just want the functions so

{ArcTan, Plus, Power, Rational, Times}

would be ideal -- but presumably there's some not-too-difficult way to filter these when I have them.

I've had some luck with

H[s_] := If[LeafCount[s] == 1, s, Head[s]]
H /@ Level[expr, 1, Heads -> True]
H /@ Level[expr, 2, Heads -> True]
(* ... *)

but I feel like there must be a better way.

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Thanks for the Accept. –  Mr.Wizard Aug 19 '11 at 20:58

4 Answers 4

up vote 7 down vote accepted

Your own solution does not seem bad:

expr = ArcTan[(-1 + 2*x)/Sqrt[3]]/Sqrt[3];

H[s_] := If[LeafCount[s] == 1, s, Head[s]]

H /@ Level[exp, -1, Heads -> True] // Union
{-1, 2, 3, ArcTan, Plus, Power, Rational, Times, x}

Brett Champion's method is more streamlined, but I would change it a little:

Union@Cases[expr, h_[___] :> h, {0, -1}]

This way you pick up a top level head, such as ArcTan in:

expr = ArcTan[(-1 + 2*x)/Sqrt[3]];
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1  
+1, the level spec, {0,-1}, is quite clever: level 0 -> the entire expression, level -1 -> everything without subparts (i.e. the leaves). So, it essentially tells Cases to work from top to bottom of the expression tree. Nice! –  rcollyer Aug 19 '11 at 2:27

You could use Cases for this:

In[176]:= 
Cases[ArcTan[(-1 + 2*x)/Sqrt[3]]/Sqrt[3], h_[___] :> h, 
  {0,Infinity}] // DeleteDuplicates

Out[176]= {Rational, Power, Times, Plus, ArcTan}
share|improve this answer
    
+1, for a fairly streamlined solution. –  rcollyer Aug 19 '11 at 2:25

For the original question, one can get all leaves via Level with level spec of {-1} and allowing for heads.

In[87]:= Level[ArcTan[(-1 + 2*x)/Sqrt[3]]/Sqrt[3], {-1}, Heads -> True]

Out[87]= {Times, Power, 3, -(1/2), ArcTan, Times, Power, 3, -(1/
    2), Plus, -1, Times, 2, x}

Daniel Lichtblau

share|improve this answer
    
Where is Rational? The OP requested this. –  Mr.Wizard Aug 18 '11 at 21:11
1  
@Mr. Wizard I had missed that. In general types that are regarded as "atomic" by Mathematica will not have heads obtained via Level. Depending on what is really wanted that might or might not be a drawback. –  Daniel Lichtblau Aug 18 '11 at 21:35
    
+1 for the {-1}. I suspect its more efficient than using Depth. –  David Carraher Aug 18 '11 at 22:59

Here's what I came up with...

In[92]:= f[e_] := DeleteDuplicates[Prepend[Head[#] & /@ Level[e, Depth[e]], Head[e]]]

In[93]:= f[ArcTan[(-1 + 2*x)/Sqrt[3]]/Sqrt[3]]

Out[93]=  {Times, Integer, Rational, Power, Symbol, Plus, ArcTan}

You can then easily remove Integer and Symbol.


Edit:

Now let's wrap the expression in a list to make sure we're getting the uppermost head. (The original expression had Times as its head but it was also twice inside.

In[139]:= a = {ArcTan[(-1 + 2*x)/Sqrt[3]]/Sqrt[3]}
In[140]:= TreeForm[a, AspectRatio -> .7]

TreeForm

In[142]:= f[a]
Out[142]= {List, Integer, Rational, Power, Symbol, Times, Plus, ArcTan}
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