2

Suppose I define the following (bad) pattern

Subscript[\[Beta], i_][x_] := Subscript[\[Beta], i][x[[i]]];
  1. Is it possible to clear this pattern without clearing definitions for all the other subscripted variables? My first thought would be to modify Subscript's DownValues, but it seems to be empty

  2. Is it possible/practical to have functions with subscripted arguments? IE, something along the lines of f[x_1,x_2,x_3]:=Total[x_#&/@Range[3]]. I've heard people use Symbolize to help with subscripts, would it work here?

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  • You're example in 2 is not very clear... but yes you can use subscripts in functions -- they obey the pattern matching rules like anything else. And yes, I've often used Symbolize or MakeBoxes if I want to use a subscript heavy notation.
    – Simon
    Nov 23, 2010 at 9:13
  • The advantage of not using subscript is that for upvalue definitions the symbol is one level less deep. Compare: b/:a[b[j_],x_]:=x^b[j] which works fine with b/:Subscript[a, b[j_]][x_]:=x^b[j] which fails.
    – Simon
    Nov 23, 2010 at 9:20
  • The goal of f in the example is to have a function which sums over it's arguments, and the question would be how to make it fill x_3 variables with values. Right now I do something along the lines of f=Function@@{Table[Symbol["x"<>ToString[i]]',{i,1,5},Total...} for this kind of task Nov 23, 2010 at 17:50
  • I still don't follow... I assume you want more than just a alias like f = Total[{##}]& -- so you don't mean something like f[pat:(Subscript[x_, _]..)] := Total[{pat}] which sums over arguments if they are subscripts of the same symbol...
    – Simon
    Nov 24, 2010 at 2:23
  • Here's an actual practical example -- stackoverflow.com/questions/4142730/… . The solution there uses "Part" and some holding rules to simulate having an array of variables, but it might be easier to have array of subscripted variables instead. Essentially to have a function in terms of x_i variables instead of x[[i]] variables (the latter generates warnings) Nov 24, 2010 at 2:27

1 Answer 1

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It is in SubValues (see Information["*Values"]).

In[25]:= Subscript[\[Beta],i_][x_]:=Subscript[\[Beta],i][x[[i]]];
SubValues[Subscript]
Out[26]= {HoldPattern[Subscript[\[Beta], i_][x_]]:>Subscript[\[Beta], i][x[[i]]]}

Just use =. to clear:

In[27]:= Subscript[\[Beta],i_][x_]=.
SubValues[Subscript]
Out[28]= {}

HTH

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  • Had a hard time finding docs for =.: Turns out it is an alias for Unset, and a nice one at that :)
    – Janus
    Nov 23, 2010 at 8:42
  • Cool. This generalizes if you want to remove all definitions with say Subscript[a, _] to something like SubValues[Subscript]=Cases[SubValues[Subscript],_?(FreeQ[#,Subscript[a, _]]&)].
    – Simon
    Nov 23, 2010 at 9:16
  • Interesting, they are not in Help Browser, but I found a page with explanation for undocumented value lists -- verbeia.com/mathematica/tips/HTMLLinks/Tricks_Misc_4.html Nov 23, 2010 at 18:47
  • @Yaroslaw: To be fair, the SubValues do show up if you just use ?? (i.e. Information), but I agree that it took some detective work to find out what they were. You could argue that this is an implementation detail: after all, you don't need to know that it is a SubValue to Unset it.
    – Janus
    Nov 24, 2010 at 1:13

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