I often need to debug by preventing some definition from evaluating and checking intermediate results. I accomplish this by doing initAll;clearAll[f,g,h]. I don't like it because

  1. It forces you to put everything in a single init block
  2. It's not flexible enough to only keep certain patterns like f[1] unevaluated

Instead I'd like to have a list forbidden patterns and have any pattern that matches left unevaluated. How can I achieve this?

Edit So far I found this pattern the most useful (it's Michael Pilat's answer except with HoldForm and BlankNullSequence)

eh[expr_, symbols : {___Symbol}] := Block[symbols, HoldForm@Evaluate[expr]]

  • initAll ... ? <6 more to go> – Dr. belisarius Nov 23 '10 at 5:34
  • ie, initAll:=(f[x_]:=x^2;p[x_]:=x^3) – Yaroslav Bulatov Nov 23 '10 at 5:48
  • Maybe something like Leonid Shifrin's custom evaluator groups.google.com/group/comp.soft-sys.math.mathematica/msg/… is what you want? – Simon Nov 23 '10 at 6:13
  • He mentions that his evaluator might give different results than built-in. I'd prefer to use built-in evaluator, perhaps by temporarily modifying value lists. However, if doing it takes more effort than "initAll;clearAll[g,h]" or manually modifying definition of f[x_] to return unevaluated on f[1], it kind of defeats the point – Yaroslav Bulatov Nov 23 '10 at 7:03
  • Fair enough. I have to admit that I've used the initAll;clearAll[f,g,h] construction before... – Simon Nov 23 '10 at 8:53

Block can help with what you want:

f[x_] := x + 1;
g[x_] := x - 1;

In[13]:= Block[{f},

Out[13]= Hold[f[-1 + a]^2]

Do you want to prevent evaluation for certain down-value patterns of f? (E.g., block f[x_] but allow f[x_, y_])?


Here's a functional form:

SetAttributes[EvaluateHeld, HoldAll];
EvaluateHeld[expr_, symbols : {__Symbol}] :=
  Block[symbols, Hold@Evaluate[expr]

In[7]:= EvaluateHeld[f[g[a]]^2, {f}]

Out[7]= Hold[f[-1 + a]^2]
  • 1
    Block constructions are magic... but they make my head hurt. This version Block[{f = Hold[f[#]] &}, f[g[a]]^2] makes a little more sense to me. – Simon Nov 23 '10 at 9:26
  • Michael, ideally yes, but not if it's harder than manually modifying definition of f each time I want to try to keep it unevaluated for particular kind of input – Yaroslav Bulatov Nov 23 '10 at 19:37
  • Is it possible to wrap this into a function? IE, so one could do evalHeld[(f[g[a]]^2),{f}], and get the result above? – Yaroslav Bulatov Nov 24 '10 at 7:53
  • See my update =) I will also come up with something to block particular patterns of f, but I can't work on it until over the holiday as it's a bit more complicated and involves DownValue manipulation. – Michael Pilat Nov 24 '10 at 19:01

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