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I don't understand, why does this recursion end:

In[27]:= MyFunc[n_] := MyFunc[n] = 2;

Out[28]= 2

Shouldn't it be endless

MyFunc[3] = 2
(MyFunc[3] = 2) = 2

and so on?

Why does this

MyFunc[n_] := MyFunc[n];

During evaluation of In[31]:= $IterationLimit::itlim: Iteration limit of 4096 exceeded. >>

Out[33]= Hold[MyFunc[3]]

cause "iteration" limit error, not recursion limit?

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1 Answer 1

My other answer glossed over some important details. Here's a second and, I hope, better one:

SetDelayed has the attribute HoldAll while Set has the attribute HoldFirst. So, your definition

MyFunc[n_] := MyFunc[n] = 2;

is stored with no part evaluated. Only when you call it, eg MyFunc[3] is the rhs evaluated, in this case to an expression involving Set, MyFunc[3] = 2. Since Set has attribute HoldFirst this rule is stored with its first argument (ie the lhs) unevaluated. At this stage MyFunc[3], the lhs of the Set expression is not re-evaluated. But if it were, Mathematica would find the rule MyFunc[3] = 2 and evaluate MyFunc[3] to 2 without using the rule with lhs MyFunc[n_].

Your second definition, ie

MyFunc[n_] := MyFunc[n];

is also stored unevaluated. However, when you call the function, eg myFunc[3], the rhs is evaluated. The rhs evaluates to MyFunc[3] or, if you like, another call to MyFunc. During the evaluation of MyFunc[3] Mathematica finds the stored rewrite rule MyFunc[n_] := MyFunc[n] and applies it. Repeatedly. Note that Mathematica regards this as iteration rather than recursion.

It's not entirely clear to me what evaluating the lhs of an expression might actually mean. Of course, a call such as MyFunc[3+4] will actually lead to MyFunc[7] being evaluated, as Mathematica greedily evaluates arguments to function calls.

In fact, when trying to understand what's going on here it might be easier to forget assignment and left- and right-hand sides and remember that everything is an expression and that, for example,

MyFunc[n_] := MyFunc[n] = 2;

is just a way of writing

SetDelayed[MyFunc[n_], MyFunc[n] = 2]
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