Some of the functions in core use this pattern of chaining the same symbol through a let
to conditionally build up a value. I had to change contition1 to an example that would not loop forever, and change the when to an if so it could return a value at the end of the loop.
(defn myfunc [x someval1 someval2 condition1 condition2 condition3]
(loop [x x retur '()]
(if (condition1 x)
(let [templist '()
templist (if condition2 (conj templist {:somekey1 someval1}) templist)
templist (if condition3 (conj templist {:somekey2 someval2}) templist)]
(recur (+ x 1) (concat retur templist)))
retur)))
which can then be tested:
user> (myfunc 0 1 2 #(< % 5) true true)
({:somekey2 2} {:somekey1 1} {:somekey2 2} {:somekey1 1} {:somekey2 2}
{:somekey1 1} {:somekey2 2} {:somekey1 1} {:somekey2 2} {:somekey1 1})
user> (myfunc 0 1 2 #(< % 5) true false)
({:somekey1 1} {:somekey1 1} {:somekey1 1} {:somekey1 1} {:somekey1 1})
The idea in the let is to have each stage change the value if the condition is true, or return it unchanged if the condition is false. This pattern gives functional code an imperative look and can help to make it clear how a value is constructed, though it can also be taken too far in using it to "convert" imperative logic into a functional program.