# How to intercept assigning new value for the In variable?

I wish to intercept assigning new values for the `In` variable.

I have tried to do this by defining `UpValues` for `In` but it does not help in this case:

``````Unprotect[In];
In /: Set[In[line_], expr_] /; ! TrueQ[\$InsideSet] :=
Block[{\$InsideSet = True},
Print[HoldForm@HoldForm[expr]; Set[In[line], expr]]]
In /: SetDelayed[In[line_], expr_] /; ! TrueQ[\$InsideSet] :=
Block[{\$InsideSet = True},
Print[HoldForm@HoldForm[expr]; SetDelayed[In[line], expr]]]
``````

Is it possible to intercept it?

P.S. This question has arisen as a part of previous question on the stage when Mathematica creates new `Symbol`s.

## EDIT

I would wish to intercept explicitly the assignment new DownValue for the `In` variable. `\$Pre` executes after this assignment and after creating all new `Symbol`s in the current `\$Context`:

``````In[1]:= \$Pre := (Print[Names["`*"]];
Print[DownValues[In][[All, 1]]]; ##) &

In[2]:= a

During evaluation of In[2]:= {a}

During evaluation of In[2]:= {HoldPattern[In[1]],HoldPattern[In[2]]}

Out[2]= a
``````
-
What symbols are you trying to prevent being created? If you pose what you really want to do, maybe someone will have a nice solution for that. I don't see trying to hook into `In` having a productive outcome. –  Brett Champion Apr 11 '11 at 22:07
@Brett My goals are primarily exploratory at this moment. I am just trying to collect the most powerful instruments for analysis and control of the evaluation. –  Alexey Popkov Apr 11 '11 at 22:22
One approach which allows in some cases to have a greater control over the evaluation is to construct custom evaluators on top of Mathematica's evaluator. This may induce a significant overhead, but that is a price for flexibility. One example I posted in this thread: groups.google.com/group/comp.soft-sys.math.mathematica/… (may have bugs). In some cases, `Stack` can be used to get evaluation that is otherwise hard or impossible to implement: groups.google.com/group/comp.soft-sys.math.mathematica/… –  Leonid Shifrin Apr 12 '11 at 8:19

Have you looked at `\$Pre` and `\$PreRead`?

`\$Pre` is a global variable whose value, if set, is applied to every input expression.

`\$PreRead` is a global variable whose value, if set, is applied to the text or box form of every input expression before it is fed to Mathematica.

UPDATE (now with better example)

``````In[1]:= \$Pre =
Function[{x}, Print["In[",\$Line,"] is: ", Unevaluated[x]]; x, HoldFirst];

In[2]:= 2 + 2

During evaluation of In[2]:= In[2] is: 2+2

Out[2]= 4

In[3]:= InString[2]

During evaluation of In[3]:= In[3] is: InString[2]

Out[3]= "\\(2 + 2\\)"
``````

UPDATE 2

Replace `\$Pre` with `\$PreRead` in my code above and you get close to what you want, I believe:

``````In[1]:= \$PreRead = Function[{x}, Print[Names["`*"]]; x, HoldFirst]

Out[1]= Function[{x}, Print[Names["`*"]]; x, HoldFirst]

In[2]:= a = 1

During evaluation of In[2]:= {x}

Out[2]= 1

In[3]:= b = 2

During evaluation of In[3]:= {a,x}

Out[3]= 2
``````

It's not possible to intercept `In` at the `*Value` level because the Kernel is simply not interacting with `In` via value manipulation in "top-level" Mathematica code.

-
Thank you for the point! But this question is about intercepting assignments to `In`. –  Alexey Popkov Apr 11 '11 at 19:42
`\$Pre` and `\$PreRead` can be used to do that, I updated with an example. If you just want to snoop, you can make `\$Pre` return the argument unchanged, after you inspect it. –  Michael Pilat Apr 11 '11 at 20:39
@Michael Please see EDITed part in my question. –  Alexey Popkov Apr 11 '11 at 21:35
Also, you can use `\$Line` to know which In value is going to be set. –  Szabolcs Apr 11 '11 at 21:43
See my second update, please =) –  Michael Pilat Apr 12 '11 at 4:14