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I am looking for a full list of atomic objects in Mathematica (for which AtomQ yields True).

I know about



Are there any others?

ref: http://reference.wolfram.com/mathematica/tutorial/BasicObjects.html

EDIT: Continually adding new symbols from answers to list above.

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I am sure that the developers had their reasons to add more atomic objects to the list (which remained fixed for a long time), perhaps such as better integration of components, efficiency, etc, but if this represents a new development trend, I'd be worried, since keeping the number of elementary and atomic objects small seems (to me anyway) to be one essential ingredient for the true power and consistency of a programming language. –  Leonid Shifrin May 11 '11 at 14:56
Why did someone down-vote this? –  Mr.Wizard May 11 '11 at 21:28
Now that you're "back in town" have you seen my answer? –  Mr.Wizard Nov 12 '12 at 22:23

2 Answers 2

up vote 5 down vote accepted

It appears your list needs one more object to be complete:

In[520]:= f = BooleanFunction[30, 3];

In[521]:= AtomQ[f]

Out[521]= True
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I am curious if there is any programmatic way to get this list (possibly based on some undocumented internal top-level functions), with only the top-level functionality (available to the end-user)? –  Leonid Shifrin May 11 '11 at 14:22
@Leonid, I'm also curious, and also tried to do that. It's not trivial, compare e.g. AtomQ@SparseArray[] with AtomQ@SparseArray[{1->1}] –  Szabolcs May 11 '11 at 14:29
@Szabolcs I think I can explain at least what you observed. For non-trivial atomic heads such as Rational, Complex, SparseArray (those that appear to have elements and not be atomic, the way they are rendered), auto-evaluation happens. For example, AtomQ[Unevaluated[Rational[1, 2]]] gives False. This auto-evaluation is normally invisible, but you can track it with On[]. It does not happen when you supply wrong number or type of arguments, like in Rational[{1},{2}]. My guess is that AtomQ (as well as some other functions) is internally overloaded on these auto-evaluated forms. –  Leonid Shifrin May 11 '11 at 14:36
@leonid I would guess that Rational[1,2] does not auto-evaluate to an atom, but rather the atom is directly constructed in the parse stage. –  ragfield May 11 '11 at 15:04
@ragfield In fact, we can prove that we are dealing with auto-evaluation here, as follows: Block[{Rational}, AtomQ[Rational[1, 2]]] gives False. And, this could not be done for all cases at parse-time anyway, without breaking some functional/mettaprogramming features of Mathematica, allowing for example for the code like this: Rational @@ {1, 2}, and generally for the automatic construction of atomic objects from pieces at run-time. –  Leonid Shifrin May 11 '11 at 15:26

Looks like we have another one:

obj = Graphics`Mesh`Delaunay @ RandomReal[1, {10, 2}]

"MeshObject[1]"[2, {10, 21, 12}]

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Sorry, I forgot to check my replies on SO (I did check them on Mma.SE). Are you still using v7? On v8 this doesn't seem to be atomic. Did you have to do any other initialization to make this function usable than Graphics`Mesh`MeshInit[]? –  Szabolcs Nov 13 '12 at 14:24
@Szabolcs still on v7, and no, running only the code above is sufficient to produce the given output. –  Mr.Wizard Nov 13 '12 at 14:32
It must be a difference between v7 and v8 then. It's a little surprising as I'd expect them to move from composite expressions to optimized atomic representations, not the other way. –  Szabolcs Nov 13 '12 at 14:44

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