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First of all, sorry for the confused title.

What I want to do is to convert {1, 4, 9} to:

{True, False, False, True, False, False, False, False, True}

That is, only the indexes from the first list will have value True, the rest will be False.

I sense there is some really simple solution, but I am quite new to both Mathematica and functional programming. I could do it iteratively, in a loop, but there has to be something that works with the list as a whole. Right? :)

Thanks for your help.

EDIT: to show that I tried to do something before I asked, here's my progress so far:

ReplacePart[Table[False, {x, Max[first]}], {1} -> True]
(* gives {True, False, False, False, False, False, False, False, False} *)

Unfortunately, it doesn't work with {1,4,9} -> True, but would work with {1 -> True, 4 -> True, 9 -> True}. But I don't know how to get to that...

EDIT 2: got it.

ReplacePart[Table[False, {x, Max[first]}], Table[x -> True, {x, first}]]

I'd still love to see your solutions! This one seems like an ugly hack to me ... :)

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3 Answers 3

up vote 13 down vote accepted

Here's a simple approach:

first = {1, 4, 9};
list = ConstantArray[False, Max@first];
list[[first]] = True;

Out[1]= {True, False, False, True, False, False, False, False, True}

Here's the above solution written as a convenient function:

convertIndices[index_List] := 
 Module[{list = ConstantArray[False, Max@index]}, 
  list[[index]] = True; list]


convertIndices@{1, 4, 9}
Out[2]= {True, False, False, True, False, False, False, False, True}
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list[[first]] = True never occured to me. That's the thing I've been looking for. :) Simple, beautiful. Thanks! –  Martin Janiczek Nov 5 '11 at 21:58
I've written it above as a convenient function so that all you need to do is pass a list to it. Please see my edit. –  r.m. Nov 5 '11 at 22:01
+1, certain modes of thought are persistent, and I never would have considered list[[first]]=True as I don't think about setting individual elements of a List. –  rcollyer Nov 8 '11 at 3:31
And, of course, there goes any chance of me ever catching up. :P –  rcollyer Nov 8 '11 at 3:32
Now all I need to do is get rid of Mr.Wizard and I'll be at the top of the tag for this month :D –  r.m. Nov 8 '11 at 4:42

Actually, I would have used Yoda's answer myself, but here's an alternative:

first = {1, 4, 9};
MemberQ[first, #] & /@ Range[Max[first]]

(* ===> {True, False, False, True, False, False, False, False, True}*)

Or this one:

Or @@@ Outer[Equal, Range[Max[first]], first]

(* ===> {True, False, False, True, False, False, False, False, True}*)

Both have the advantage that they skip Yoda's ConstantArray initialization step.

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I wouldn't actually call it an advantage. Try first = {1,4,10^6}. On my machine, your solutions take ~2s and ~1.5s respectively, whereas mine takes only ~0.035s. –  r.m. Nov 5 '11 at 22:28
@Yoda I wasn't referring to execution speed but to typing effort ;-) –  Sjoerd C. de Vries Nov 5 '11 at 22:31

I would use SparseArray for this operation. In my opinion it is very easy to understand, and it is also efficient, especially when a low percentage of indices are True.

true = {1, 4, 9};
SparseArray[(List /@ true) -> True, Automatic, False]

Alternatively with Transpose (which looks better when pasted into Mathematica):

SparseArray[{true}\[Transpose] -> True, Automatic, False]

You can use Normal if you must convert the output to a normal array, but most operations will not require that.

Also, sacrificing practicality for terseness:

#==1 & /@ SparseArray[List /@ true -> 1]
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