In Clojure, `(for [x (range 1 8) y (range 1 8)] [x y])`

returns the cartesian product of `x`

and `y`

with `y`

running from `1`

to `7`

for each and every iteration of `x`

.

From the repl:

```
user=> (for [x (range 1 8) y (range 1 8)] [x y])
([1 1] [1 2] [1 3] [1 4] [1 5] [1 6] [1 7] [2 1] [2 2] [2 3] [2 4] [2 5] [2 6] [2 7] [3 1] [3 2] [3 3] [3 4] [3 5] [3 6] [3 7] [4 1] [4 2] [4 3] [4 4] [4 5] [4 6] [4 7] [5 1] [5 2] [5 3] [5 4] [5 5] [5 6] [5 7] [6 1] [6 2] [6 3] [6 4] [6 5] [6 6] [6 7] [7 1] [7 2] [7 3] [7 4] [7 5] [7 6] [7 7])
```

In your examples, `:while`

is associated with `y`

and not `x`

. So the `:while`

applies for every iteration of `y`

and then *restarts* after the next iteration of `x`

.

To make this clearer, note that you can also associate `:while`

with `x`

:

```
user=> (for [x (range 1 8) :while (odd? x) y (range 1 8)] [x y])
([1 1] [1 2] [1 3] [1 4] [1 5] [1 6] [1 7])
```

which runs the loop *while* `x`

is odd, then breaks.

So in your first example, `:while`

breaks on every single iteration on `y`

when `y`

equals `1`

because there is no value of `x`

for which `(and (< x 1) (even? x))`

holds `true`

.

Your second example, on the other hand, works because even though `:while`

breaks on the first iteration of `y`

because `(< 1 1)`

yields `false`

, the second iteration of `y`

succeeds because `x`

starts from `2`

, so if `y`

is `1`

, and `(and (< y x) (even? x))`

is `(and (< 1 2) (even? 2))`

which evaluates to `true`

.

See http://clojuredocs.org/clojure_core/clojure.core/for for more details. Especially the part showing the difference between `:when`

and `:while`

.

`:while`

doesn't bind to the whole`for`

construct, only to the part iterating over`y`

and thenrestartsevery time`x`

is incremented. See my answer for more details.`:when`

and`:while`

.