# Partial cartesian product (ensure one value in each set)

Given a set of items `[z,a,b,c]` I want to find the "cartesian power" (cartesian product with itself n times) but only those results that have a `z` in them. For example:

``````normal_values = ["a","b","c"]
p limited_cartesian( normal_values, "z", 2 )
#=> [
#=>   ["z", "z"]
#=>   ["z", "a"]
#=>   ["z", "b"]
#=>   ["z", "c"]
#=>   ["a", "z"]
#=>   ["b", "z"]
#=>   ["c", "z"]
#=> ]
``````

I can do this by spinning through the full set and skipping entries that don't have the special value, but I'm wondering if there's a simpler way. Preferably one that allows me to only evaluate the desired entries lazily, without wasting time calculating unwanted entries.

``````def limited_cartesian( values, special, power )
[special, *values].repeated_permutation(power)
.select{ |prod| prod.include?( special ) }
end
``````
-
Is `'z'` supposed to be in `normal_values`? –  mu is too short Jan 25 at 5:35
@mu It could be if you want it there; I pulled it out because it is treated specially, and in my actual code it's something that I am injecting into an array of not normal values. –  Phrogz Jan 25 at 5:36
`limited_cartesian( normal_values, "z", 3 ).size => 37`!! You are probably aware (from an answer to the related question you asked recently) that the first two lines of `limited_cartesian` above can be replaced with `toomany = [special, *values].repeated_permutation(power)`. –  Cary Swoveland Jan 26 at 6:19

Edit: With v3.0 I finally have something respectable. As is oft the case, the key was looking at the problem the right way. It occurred to me that I could repeatedly permute `normal_values << special`, `power - 1` times, then for each of those permutations, there would be one more element to add. If the permutation contained at least one `special`, any element of `normal_values << special` could be added; otherwise, `special` must be added.

``````def limited_cartesian( values, special, power )
all_vals = values + [special]
all_vals.repeated_permutation(power-1).map do |p|
if p.include?(special)
*all_vals.each_with_object([]) { |v,a| a << (p + [v]) }
else
p + [special]
end
end
end

limited_cartesian( values, 'z', 1 )
# [["z"]]

limited_cartesian( values, 'z', 2 )
# => [["a", "z"], ["b", "z"], ["c", "z"],
#     ["z", "a"], ["z", "b"], ["z", "c"],
#     ["z", "z"]]

limited_cartesian( values, 'z', 3 )
# => [["a", "a", "z"], ["a", "b", "z"], ["a", "c", "z"],
#     ["a", "z", "a"], ["a", "z", "b"], ["a", "z", "c"],
#     ["a", "z", "z"], ["b", "a", "z"], ["b", "b", "z"],
#     ["b", "c", "z"], ["b", "z", "a"], ["b", "z", "b"],
#     ["b", "z", "c"], ["b", "z", "z"], ["c", "a", "z"],
#     ["c", "b", "z"], ["c", "c", "z"], ["c", "z", "a"],
#     ["c", "z", "b"], ["c", "z", "c"], ["c", "z", "z"],
#     ["z", "a", "a"], ["z", "a", "b"], ["z", "a", "c"],
#     ["z", "a", "z"], ["z", "b", "a"], ["z", "b", "b"],
#     ["z", "b", "c"], ["z", "b", "z"], ["z", "c", "a"],
#     ["z", "c", "b"], ["z", "c", "c"], ["z", "c", "z"],
#     ["z", "z", "a"], ["z", "z", "b"], ["z", "z", "c"],
#     ["z", "z", "z"]]
``````

This is my v2.1, which works, but is not pretty. I'll leave it for the record.

``````def limited_cartesian( values, special, power )
ndx = Array(0...power)
ndx[1..-1].each_with_object( [[special]*power] ) do |i,a|
ndx.combination(i).to_a.product(values.repeated_permutation(power-i).to_a)
.each { |pos, val| a << stuff_special(special, pos, val.dup) }
end
end

def stuff_special( special, pos, vals )
pos.each_with_object(Array.new(pos.size + vals.size)) {|j,r|
r[j] = special }.map {|e| e.nil? ? vals.shift : e }
end
# e.g., stuff_special( 'z', [1,4], ["a","b","c"]) => ["a","z","b","c","z"]
``````
-
Looks promising, but it's missing values. There should be 37 results for the second example, not 18. For example, `["z","z","z"]` is missing, and `["a","a","z"]`. –  Phrogz Jan 25 at 15:20
Wow, that sure isn't pretty, but it is right! I'll leave this a few more days to see if someone else comes up with a more elegant solution. –  Phrogz Jan 26 at 15:55