# What is the most efficient way to collect arrays of nested hash keys that access the leaf-nodes?

I have a nested hash and would like a single array, where each element is an array of keys which represents a path through a nested hash to the non-hashes (leaf-nodes).

For example, given the input:

``````x = Hash.new
x["a"] = Hash.new
x["a"]["b"] = Hash.new
x["a"]["b"]["c"] = "one"
x["a"]["b"]["d"] = "two"
x["a"]["e"] = "three"
x["f"] = Hash.new
x["f"]["g"] = "four"
``````

I would like the output:

``````[["a", "b", "c"], ["a", "b", "d"], ["a", "e"], ["f", "g"]]
``````

The code below works using two recursive methods: one to generate a nested array, and the other to un-nest it !.

My Ruby intuition tells me there must be a much more efficient and elegant way of achieving this. Can anyone suggest a 'golf' solution, or a perfectly Ruby Way solution?

``````def collect_key_paths(object, path=[])
result = nil
if object.is_a?(Hash)
path_for_current_hash = object.map do |key, value|
incremented_path = [path, key].flatten
collect_key_paths(value, incremented_path)
end
result = path_for_current_hash
else
result = path
end
result
end

def smoothe(array, store=[])
if array.none? { |element| element.is_a?(Array) }
store << array
else
array.each do |element|
store = smoothe(element, store)
end
end
store
end

x = Hash.new
x["a"] = Hash.new
x["a"]["b"] = Hash.new
x["a"]["b"]["c"] = "one"
x["a"]["b"]["d"] = "two"
x["a"]["e"] = "three"
x["f"] = Hash.new
x["f"]["g"] = "four"

nested_key_paths = collect_key_paths(x)
puts "RESULT:#{smoothe(nested_key_paths)}"
``````

The result of this code, running version 1.9.2 is:

``````RESULT:[["a", "b", "c"], ["a", "b", "d"], ["a", "e"], ["f", "g"]]
``````

Thank you!

-
possible duplicate of Converting a nested hash into a flat hash –  sawa Mar 13 '12 at 13:53
You can first get the hash given in the duplicate question that I gave, and then take out the `keys`. –  sawa Mar 13 '12 at 13:54

I'm not sure if this is the 'best' way, but you can prevent having to loop over it twice to 'smoothe' the result:

``````def collect_key_paths(hash, path = [])
items = []
hash.each do |k, v|
if v.is_a?(Hash)
items.push(*collect_key_paths(v, path + [k]))
else
items << (path + [k])
end
end
items
end

p collect_key_paths(x)
``````
-
``````class Hash
def collect_key_paths(path=[])
self.each.with_object([]) do |(k, v), a|
if v.kind_of?(Hash)
a.push(*v.collect_key_paths(path + [k]))
else
a << path + [k]
end
end
end
end
``````

``````x = Hash.new
x["a"] = Hash.new
x["a"]["b"] = Hash.new
x["a"]["b"]["c"] = "one"
x["a"]["b"]["d"] = "two"
x["a"]["e"] = "three"
x["f"] = Hash.new
x["f"]["g"] = "four"

puts x.collect_key_paths.inspect
``````
-

Slight variation:

``````def collect_key_paths(hash)
paths = []
hash.each do |k, v|
paths.concat(
Hash === v ?
collect_key_paths(v).map{ |path| [k, *path]} :
[k]
)
end
paths
end
``````
-