# How to Block Symbols without evaluating them?

Suppose I have a list of names of `Symbol`s:

``````f1 := Print["f1 is evaluated!"];
list = {"f1", "f2"};
``````

The obvious way to `Block` these `Symbol`s leads to evaluation of them:

``````In[19]:= With[{list=Symbol/@list},Block[list,f1//ToString]]
During evaluation of In[19]:= f1 is evaluated!
During evaluation of In[19]:= f1 is evaluated!
Out[19]= Null
``````

But without evaluation we could `Block` them without any problem:

``````In[20]:= Block[{f1, f2}, f1 // ToString]
Out[20]= "f1"
``````

Is it possible to inject this list into the `Block` scope without evaluating the `Symbol`s?

Disclaimer: While my response provides a solution to the problem as expressed, I do not recommend it for regular use. I offer it up because it may be of some academic interest.

From time-to-time, usually in a debugging context, I have looked longingly at Lisp's `MACROEXPAND-1` and wished for a Mathematica function which applies only one level of evaluation to its argument(s). Let's call this mythical function `EvaluateOnce`. It would find the transformation rule applicable to the expression and apply only that rule, something like this:

``````In[19]:= fact[0] = 1; fact[x_] := x * fact[x - 1]
EvaluateOnce[fact[5]]
Out[19]= Hold[5 fact[5-1]]

In[20]:= f1 := Print["f1 is evaluated!"];
EvaluateOnce[Symbol["f1"]]
Out[20]= Hold[f1]
``````

It would work on multiple expressions as well:

``````In[21]:= EvaluateOnce[1 + 2 * 3, Sqrt @ Sin @ Pi]
Out[22]= Hold[1+6, Sqrt[0]]
``````

The current question could benefit from such a capability for then the solution could be expressed as:

``````EvaluateOnce @@ Symbol /@ Hold @@ list /.
Hold[args__] :> Block[{args}, f1 // ToString]
``````

Alas, there are a number of technical obstacles to writing such a function -- not least of which is a certain amount of fuzziness about what exactly constitutes a "single level of evaluation" in Mathematica. But fools rush in where angels fear to tread, so I offer this hack:

``````ClearAll@EvaluateOnce
SetAttributes[EvaluateOnce, HoldAllComplete]
EvaluateOnce[exprs:PatternSequence[_, __]] :=
Replace[Hold @@ Evaluate /@ EvaluateOnce /@ Hold[exprs], Hold[e_] :> e, 1]
EvaluateOnce[expr_] :=
Module[{depth = 0, length = 1+Length@Unevaluated@expr, tag, enter, exit}
, SetAttributes[exit, HoldAllComplete]
; enter[in_]:= If[1 === depth && 0 === length, Throw[in, tag], ++depth]
; exit[in_, out_] := (If[2 === depth, length--]; depth--)
; Hold @@ Catch[With[{r = TraceScan[enter, expr, _, exit]}, Hold[r]], tag]
]
``````

This function comes without a warranty :) It uses `TraceScan` and some heuristics to guess when a "single level of evaluation" is complete and then uses `Throw` and `Catch` to terminate the evaluation sequence early.

The heuristics appear to work satisfactorily for function definitions whose "first level of evaluation" stays within the bounds of standard evaluation. It also fails miserably for those that don't. I'm also certain that it will get confused with the application of some evaluation attributes.

Notwithstanding these faults, I still find this function handy when trying to debug or even just understand functions with lots of standard pattern-matching definitions.

• +1 - very interesting function, will experiment with it. I was always thinking that one can use `Trace`- family functions for something like this, but never came up with something useful. FWIW, I was (and am) also interested in one-step evaluation, but addressed this problem in a different way, by constructing a custom evaluator. May be, you may find my post in this thread of some interest: groups.google.com/group/comp.soft-sys.math.mathematica/… Jun 4 '11 at 19:02
• @Leonid Thanks for the interesting link. I, too, have tried to reproduce the standard evaluator in Mma code. It's those pesky built-in definitions that make things difficult. I'd like to see WRI implement some form of partial evaluation although I confess that the feature is not particularly high on my Mma wish list. Jun 4 '11 at 19:17

Here is yet another technique to do this:

``````SetAttributes[blockAlt,HoldRest];
blockAlt[s : {__String}, body_] :=
Replace[Join @@ ToHeldExpression[s], Hold[x__] :> Block[{x}, body]]
``````

We save here on pure functions, due to the disruptive nature of rules (they don't respect other scoping constructs, including themselves)

EDIT

Yet another alternative (even shorter):

``````SetAttributes[blockAlt1, HoldRest];
blockAlt1[s : {__String}, body_] :=
Block @@ Append[ToHeldExpression@ToString[s], Unevaluated[body]]
``````
• +1 One could re-express `ToHeldExpression[s]` (deprecated in V3) as `ToExpression[s, InputForm, Hold]`. Jun 4 '11 at 15:26
• @WReach Sure, I am well aware of that (this is what I usually do myself) - just wanted to make the code shorter :). Not too nice of me, as `ToHeldExpression` is indeed deprecated. Jun 4 '11 at 15:29
• Nice! Is there any risk from that fact that `ToHeldExpression` says "Since Version 3.0 (released in 1996), ToHeldExpression has been superseded by ToExpression."? Well, it seems WReach beat me to it, but again, is there any risk to this? Is it going to disappear in a future version? Jun 4 '11 at 15:30
• @Alexey The problem is actually more general. Take `Map`, for example. I am pretty sure that if you set `Heads->True` globally, more than one feature will be broken. The solution is straightforward: pass options explicitly, but alas, almost no one does this in practice. The so widely used shortcuts `@@` and `@@@` don't even allow to do this. And I agree that developers must be much more careful than users. Jun 6 '11 at 7:54
• @Alexey This is not a system defect - this is just a class of bugs, coming from carelessness (at least this is my perception of it). The practical solution for this problem is quite simple. If you develop a package say, define a private function `map[f_,x_,levspec_:1]:=Map[f,x,levspec,Heads->False]` and use `map` consistently in place of `Map`, and the same for other functions. But this requires more discipline. In the context of Mathematica, I am pretty sure that automatic tools similar to `lint` for C and `FindBugs` for Java could be easily developed to detect potential bugs like this. Jun 6 '11 at 9:49

You could try to use `ToExpression`:

``````In[9]:= list = {"f1", "f2"};

In[19]:= f1 = 25;

In[20]:= ToExpression[
StringJoin["{", Riffle[list, ","], "}"], InputForm,
Function[vars, Block[vars, f1], HoldAll]]

Out[20]= 25
``````
• +1 The inner `Block` expression should be `Block[vars, f1 // ToString]` -- otherwise an unwanted evaluation will occur if `f1` is defined as in the original question. Jun 4 '11 at 15:33
• @WReach I think that here `f1` is the body of `Block`, so its evaluation is intended. The point is that it only evaluates once, as it should. A better example would be `Block[vars,Print[f1]]`, this indeed prints `f1` as it should. Jun 4 '11 at 20:46
• @Leonid With the original definition of `f1`, the example as written prints out `f1 is evaluated!` which the OP was trying to avoid by means of `Block`. Sasha's solution is correct, but I was confused at first until I realized that the printed output was generated after the `ToExpression` form is completely evaluated. I suggested `ToString` to match the original question and because others may be similarly confused (but maybe I'm the only one). Jun 4 '11 at 20:57
• @WReach Oh I see. I think using `f1` as the body of `Block` was probably not the best choice indeed. Jun 4 '11 at 21:28

You may consider this construct:

``````SetAttributes[block, HoldRest]

block[s : {__String}, body_] :=
Function[, Block[{##}, body], HoldAll] @@
Join @@ MakeExpression /@ s
``````

Second attempt at a shorter version of Leonid's second function:

``````block =
Function[, Block @@ ToHeldExpression@ToString@#~Join~Hold@#2, HoldRest]
``````
• It is better to set `HoldRest` attribute for `block` instead of `HoldAll`. +1 Jun 4 '11 at 7:11
• @Mr.Wizard How new `block` should be used? I tried `block[list, f1 // ToString]` but it does not work with new version. Jun 5 '11 at 12:36
• @Alexey, it seems I broke it. ;-) Or not? Does this work? `list = {"f1", "f2"}; f1 := Print["Evaluated!"]; block[list, f1 // ToString]` Anyway, this is just for fun. Jun 5 '11 at 13:15
• @Mr.Wizard It works. It seems that I just did not restart the kernel before using new definition. Nice solution! Jun 5 '11 at 14:07
• Upon closer look, your terse version works differently, and contains a feature that I tried to avoid in mine - namely, converting the body of the `Block` to string. Conversion to string is not always innocent, for example, here `block[{}, Hold[Print["a", "b"]]]`, we get back `a` and `b` as symbols, so we lose their string nature in the `ToString-ToExpression` cycle. In fact, I was using (constructively) exactly this loss of string quotes when I did `ToString[s]`, but this was safe since `s` was a list of strings. So, sorry to bring it to you, but your version won't always work correctly. Jun 5 '11 at 16:20