The two may appear similar but in reality are very different.

`zipmap`

creates a map
`(map vector ...)`

creates a `LazySeq`

of n-tuples (vectors of size n)

These are two very different data structures.
While a lazy sequence of 2-tuples may appear similar to a map, they behave very differently.

Say we are mapping two collections, `coll1`

and `coll2`

. Consider the case `coll1`

has duplicate elements. The output of `zipmap`

will only contain the value corresponding to the last appearance of the duplicate keys in `coll1`

. The output of `(map vector ...)`

will contain 2-tuples with all values of the duplicate keys.

A simple REPL example:

```
=> (zipmap [:k1 :k2 :k3 :k1] [1 2 3 4])
{:k3 3, :k2 2, :k1 4}
=>(map vector [:k1 :k2 :k3 :k1] [1 2 3 4])
([:k1 1] [:k2 2] [:k3 3] [:k1 4])
```

With that in mind, it is trivial to see the danger in assuming the following:

But basically -- apart from the order of the resulting pairs -- these two methods are equivalent, because the seq'd map becomes a sequence of vectors.

The seq'd map becomes a sequence of vectors, but not necessarily the same sequence of vectors as the results from `(map vector ...)`

For completeness, here are the seq'd vectors sorted:

```
=> (sort (seq (zipmap [:k1 :k2 :k3 :k1] [1 2 3 4])))
([:k1 4] [:k2 2] [:k3 3])
=> (sort (seq (map vector [:k1 :k2 :k3 :k1] [1 2 3 4])))
([:k1 1] [:k1 4] [:k2 2] [:k3 3])
```

I think the closest we can get to a statement like the above is:

The `set`

of the result of `(zip map coll1 coll2)`

will be equal to the `set`

of the result of `(map vector coll1 coll2)`

if `coll1`

is itself `set`

.

That is a lot of qualifiers for two operations that are supposedly very similar.
That is why special care must be taken when deciding which one to use.
They are very different, serve different purposes and should not be used interchangeably.