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Suppose I have a list of param->value rules where the params are symbols that might have values assigned to them. For example:

{a, b, c} = {1, 2, 3};
x = Hold[{a->1, b->2, c->3}];

I need the list wrapped in Hold otherwise it would evaluate to {1->1, 2->2, 3->3}. (I'm open to any alternatives to Hold there if it makes the rest of this easier.)

Now suppose I want to convert x into this:

{"a"->1, "b"->2, "c"->3}

The following function will do that:

f[h_] := Block[{a,b,c}, ToString[#[[1]]]->#[[2]]& /@ ReleaseHold@h]

My question: Can you write a version of f where the list of symbols {a,b,c} doesn't have to be provided explicitly?

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Something like this seems like it almost works: Block[Names["Global*"], ...` –  dreeves Jan 20 '11 at 12:18
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3 Answers 3

up vote 5 down vote accepted

Here is a way using Unevaluated:

In[1]:= {a, b, c} = {1, 2, 3};

In[2]:= x = Hold[{a -> 1, b -> 2, c -> 3}];

In[3]:= ReleaseHold[
 x /. (symb_ -> e_) :> ToString[Unevaluated[symb]] -> e]

Out[3]= {"a" -> 1, "b" -> 2, "c" -> 3}
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+1 Good! Much more elegant than mine ... –  belisarius Jan 20 '11 at 14:29
Confirmed that this works as advertised. Thanks so much! –  dreeves Jan 21 '11 at 11:05
Using SymbolName instead of ToString also works. Curious if there's much reason to prefer one or the other. –  dreeves Jan 21 '11 at 11:16
@dreeves That is interesting. According to the Help, 'SymbolName always gives the short name without any context. ToString takes the settings of $Context and $ContextPath into account'. –  TomD Jan 21 '11 at 15:48
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{a, b, c} = {1, 2, 3};
x = Hold[{a -> 1, b -> 2, c -> 3}];
f[x_] := Cases[x, HoldPattern[z_ -> y_] :> 
                  StringTake[ToString[(Hold@z)], {6, -2}] -> y, 2];
f[x] // InputForm


{"a" -> 1, "b" -> 2, "c" -> 3} 

Perhaps not very elegant, but seems to work.

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Thanks! I'm worried about that StringTake[..., {6,-2}]. How robust is that to long variable names and arbitrary stuff on right-hand side of the rules? Oh, is it just to extract whatever's inside that Hold[...]? Maybe that's safe enough. –  dreeves Jan 20 '11 at 13:01
@dreeves SymbolName[] returns a string, so I think any symbol can be safely treated as a string ... And yes, it's just for getting out the Hold[] argument. –  belisarius Jan 20 '11 at 13:06
@dreeves The rhs of the rule remains untouched. The lhs is a Hold[SymbolName] thing, so I guess it's safe –  belisarius Jan 20 '11 at 13:09
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This is a bit of an old question, but I think there's an answer that combines the virtues of both Andrew Moylan's answer and belisarius' answer. You really want to have lists of rules with HoldPattern on the left-hand side, instead of lists of rules that have Hold wrapped around the whole thing, so that you can actually use the rules without having to go through any sort of ReleaseHold process.

In[1]:= {a, b, c} = {1, 2, 3};

Unevaluated can also be helpful in constructing the sort of list you want:

In[2]:= x = Thread[HoldPattern /@ Unevaluated[{a, b, c}] -> Range[3]]
Out[2]= {HoldPattern[a] -> 1, HoldPattern[b] -> 2, HoldPattern[c] -> 3}

Now you can do what you want with rule replacement. It's a bit involved, but it's something I find myself doing over and over and over again. You may notice that this list of rules has almost exactly the form of a list of OwnValues or DownValues, so being able to manipulate it is very helpful. The trick is using HoldPattern and Verbatim in concert:

In[3]:= f[rules_] :=
          HoldPattern[Verbatim[HoldPattern][s_Symbol] -> rhs_] :>
           With[{string = ToString[Unevaluated[s]]},
            string -> rhs], {1}]

The level spec on Replace is just there to make sure nothing unexpected happens if rhs is itself a rule or list of rules.

In[4]:= f[x] // InputForm
Out[4]= {"a" -> 1, "b" -> 2, "c" -> 3}
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