The Table[ ] command usually returns a list with the same cardinality of its iterator.

Table[i, {i,4}] 

It is easy to show that is possible to return a list with a greater cardinality than the iterator

Table[Sequence @@ ConstantArray[1, i], {i, 2}]

But ... Are there ways to return a list with LESS cardinality than the iterator?

  • Table[Sequence @@ {}, {i, 10}] ? – Pablo Jun 11 '11 at 1:39
  • @Pablo Post an answer! – Dr. belisarius Jun 11 '11 at 1:41
  • I find this an odd question. May I know why you ask it? – Mr.Wizard Jun 11 '11 at 12:42
  • @Mr. Bucause I want to get the best way to produce variable length lists by using an iterator with Table[]. As I commented below, you can use Scan[IF[cond, AppendTo[] for example, but I for some reason I tend to use Table, and then after using it, if I have to discard some values, I post-process. That is awful, and I'd rather prefer to discard the list elements on the fly. – Dr. belisarius Jun 11 '11 at 15:47

A simple example:

Table[Sequence @@ ConstantArray[1, i - 1], {i, 2}]
Out[1] = {1}

This need not always return a list with smaller cardinality. For e.g., {i,3} returns equal and {i,4} returns more.

Or an even sillier example would be

Table[Sequence @@ {}, {i, 2}]

but I don't know if it counts.

You could also use Piecewise inside Table

Table[Sequence @@ Piecewise[{
    {ConstantArray[1, i], i < 3},
    {ConstantArray[2, i], 3 <= i < 5},
    {{}, i >= 5}}],
 {i, 20}]

Out[2] = {1, 1, 1, 2, 2, 2, 2, 2, 2, 2}
  • But I guess using Sequence@@{} and conditional constructs you could output whatever length you wish – Dr. belisarius Jun 11 '11 at 1:45
  • @belisarius: Were you looking for an example that always returns a certain fixed number less than the iterator? – abcd Jun 11 '11 at 1:47
  • I usually use Scan with IF[ cond, AppendTo[..] ] when I need a variable length output. I want to see if someone comes up with something neat for using Table in this case. – Dr. belisarius Jun 11 '11 at 1:50
  • @belisarius: You can use Piecewise in Table (see edit) – abcd Jun 11 '11 at 2:00

This should work:

Table[Sequence @@ {}, {i, 10}]

Assuming that I now understand your intent, I do not see the advantage to "on the fly" elimination within Table itself. One could accomplish it with something like:

Table[If[EvenQ@i, i, ##&[]], {i, 25}]

but it is faster to use Join:

Join @@ Table[If[EvenQ@i, {i}, {}], {i, 25}]

or DeleteCases:

DeleteCases[Table[If[EvenQ@i, i], {i, 25}], , 1]

and in this simple case, Select is more than twice as fast:

Table[i, {i, 25}] ~Select~ EvenQ

If it is a matter of memory usage, the first method using Sequence does come out ahead, but the Join method is not far behind.

  • Postprocessing is always possible, but I think increasingly inconvenient as the elements (for example images) grow. Suppose you want to convolve an image with a set of kernels and keep only those results satisfying certain criteria. Of course Table[] is not the better option, but I just want to get ideas on how to use it in those cases. Thanks for your input! – Dr. belisarius Jun 11 '11 at 22:21
  • @belisarius, would you mind posting an example where you find post-processing inconvenient or problematic? – Mr.Wizard Jun 11 '11 at 23:01
  • I am looking for alternative ideas, that's why I did not post a real example, as I have many ways to implement it. Sometimes I post dumb looking questions because what I look for is a subjective recommendation and those questions are at risk of being closed or even deleted in SO as "subjective or argumentative" and that will spoil the time others take in answering. – Dr. belisarius Jun 11 '11 at 23:28

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