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I want to repeat a function n times on a table, For n=2 I have the following code, How can I be sure that the function had run twice since my fc is differend every time?

smat = Table[{9, 8, 10}, {3}]

f[x_?Table] :=  ReplacePart[
 x, {{2, 1} -> x[[2]][[1]] - #, {2, 2} -> x[[2]][[2]] + #}] &@ fc[x[[2]][[1]]];

fc[k_?NumericQ] := Count[RandomReal[{0, 1}, k], x_ /; x < .1]

Nest[f, smat, 2]
share|improve this question
The way I read this, your only changing two vectors: x[[2]][[1]] and x[[2]][[2]] in your 3D array. Is this your intent? – rcollyer Jul 6 '11 at 1:11
@rcollyer yes this is what I want. My question is how can I be sure that my code works since the fc is random (different every time according to random numbers) amd I may have the same result by running my function n times with 1 time. – noni Jul 6 '11 at 1:47
up vote 1 down vote accepted

Acl covered the problems with the code pretty well, so I won't. To answer your question, though, I'd first separate your functions f and fc in separate cells, with fc being declared prior to f, and preface each cell with Clear[<function name>]. Now, to test if f is being applied twice, temporarily replace fc with

fc[_]:= a

or use another "dummy" value other than a, but it should be symbolic to increase readability. As a point of note, {1,2,3} + a == {1 + a, 2 + a, 3 + a}, so if f is applied twice, each term in x[[2]][[1]] and x[[2]][[2]] will have 2 a added to it.

Now, if you are unsure if fc is working correctly by itself, I'd apply it to a number separate cases without f, first.

share|improve this answer
Thank you very much!! – noni Jul 6 '11 at 2:27
@Noni, simple divide and conquer. The cell structure allows for this like few other platforms. Also, note the purpose of Clear is to provide you with a method to reset the definitions as you experiment. – rcollyer Jul 6 '11 at 2:55
Thank you again!! This is very helpful!! – noni Jul 6 '11 at 3:17
You could also Sow something every time, then Reap and see how many were sown. Less disruptive. – acl Jul 6 '11 at 11:32
@acl, very true. hadn't thought of that. – rcollyer Jul 6 '11 at 12:47

This is probably what you want:

smat = Table[{9, 8, 10}, {3}]
ClearAll[f, fc];

f[x_List] := 
 x, {{2, 1} -> x[[2]][[1]] - #, {2, 2} -> x[[2]][[2]] + #}] &@

 fc[k_?NumericQ] := Count[RandomReal[{0, 1}, k], x_ /; x < .1]

Nest[f, smat, 2]

ClearAll clears any previous definitions for those symbols (just in case). f[x_?Table] won't work; you want f[x_List], which means that the argument has a List head (Table is not a Head, and ? isn't what you want here).

I am not sure I have really answered your question though...

EDIT: To be clear, f[x_?something] means "apply something to x and, if it returns True, evaluate the right hand side of the := that follows. Look up PatternTest in Mathematica's documentation for more.

share|improve this answer
Thank you very much! This is what I was looking for. I don't know why but it does not let me to accept it as the answer I was looking for. I will try again later. Thanks again – noni Jul 6 '11 at 0:07
@noni wait a bit more, maybe someone will give a better one! – acl Jul 6 '11 at 0:08
:) ok, thank you very much – noni Jul 6 '11 at 0:12

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