# Idiomatic way for finding if an element exists in an nested vector

I have modeled my data as embedded vectors. I need to find if an element exists within these vectors. I have the below code which does it correctly. However, I'd like suggestions on a more idiomatic way to do it.

``````(defn exists-in-vector?
[my-vec my-sym]
(= my-sym (first my-vec)))

(defn exists-in-vectors?
[all-vectors my-symbol]
(empty? (for [first-vector all-vectors
second-vector first-vector
third-vector second-vector
:when (exists-in-vector? third-vector my-symbol)
:while (exists-in-vector? third-vector my-symbol)]
true)))

> (exists-in-vectors? [[[[:a 20] [:b :30]] [[:c 20] [:d :30]]]
[[[:h 20] [:g :30]] [[:f 20] [:e :30]]]]
:a) => true
``````
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This is one of the few cases where 'flatten' is exactly what you want:

``````(def vectors [[[[:a 20] [:b :30]] [[:c 20] [:d :30]]]
[[[:h 20] [:g :30]] [[:f 20] [:e :30]]]])

(some #{:g} (flatten vectors))
;=> :g

(some #{:k} (flatten vectors))
;=> nil
``````

By the way, the definition of flatten is interesting. (source flatten) or http://clojuredocs.org/clojure_core/clojure.core/flatten :

```(defn flatten
"Takes any nested combination of sequential things (lists, vectors,
etc.) and returns their contents as a single, flat sequence.
(flatten nil) returns nil."
:static true}
[x]
(filter (complement sequential?)
(rest (tree-seq sequential? seq x))))
```
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A nested vector may be thought of as a tree

``````(def tree [[[[:a 20] [:b :30]] [[:c 20] [:d :30]]]
[[[:h 20] [:g :30]] [[:f 20] [:e :30]]]])

(some #(= :a %) (tree-seq vector? identity tree))
;=> true

(some #(= :k %) (tree-seq vector? identity tree))
;=> nil
``````
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thanks for the solution ! I am using this sol for other problems. –  murtaza52 Apr 30 '13 at 14:00
``````user=> (defn in-nested? [thing elt]
#_=>   (if (vector? thing)
#_=>       (boolean (some #(in-nested? % elt) thing))
#_=>       (= thing elt)))
#'user/in-nested?

user=> (def data [[[[:a 20] [:b :30]] [[:c 20] [:d :30]]] [[[:h 20] [:g :30]] [[:f 20] [:e :30]]]])
#'user/data

user=> (in-nested? data :a)
true
user=> (in-nested? data :c)
true
user=> (in-nested? data :z)
false
user=> (in-nested? data 20)
true
user=> (in-nested? data 40)
false
``````
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