I have data in the following structure (simplified):

```
(def m {"a" [1 2 3] "b" [4 5 6] "c" [7 8 9] "d" [10 11 12]})
```

I have a recursive function and at any iteration I am interested in the i'th element of each of `a`

, `b`

, `c`

and `d`

.

What I have been doing is:

```
(loop [i 0]
(let [a ((m "a") i)
b ((m "b") i)
c ((m "c") i)
d ((m "d") i)]
...do stuff with a, b, c and d...
```

In other words I am creating bindings for `a`

, `b`

, `c`

and `d`

and that is because I would rather not repeat something like `((m "a") i)`

multiple times in my code every time I need this value.

This seems a little clunky and not a very functional style. Is there a better way to achieve this? That is, either a more elegant way of creating the bindings or perhaps even a way that avoids bindings?

**Edit:** Adding an explanation as to why I need loop and not map:

My data represents a tree and my function traverses the tree to find the appropriate terminal node. The `i'th`

element of each of the vectors is the data related to the `i'th`

node. Therefore I start with `i = 0`

as this is the root node. I do some logic and this tells me which node to go to next. The logic is the same at each node and this is why I have used `loop`

and `recur`

. In reality there are perhaps 200 nodes and so one route through the tree could be `0 > 6 > 45 > 67 > 123 > 130 > 156 > done`

.

I would be hugely impressed if there is a way to traverse a tree with `map`

and not `loop`

.

`loop`

is one of the clearest ways to express what you're doing. Another alternative that might be fun to try is to use`tree-seq`

. – Daniel Neal Apr 8 at 8:18`tree-seq`

suggestion Daniel, I will take a look at that. – user2179977 Apr 8 at 10:47