A "coroutine", in the commonly used sense, is basically a function that -- once started -- can be envisioned as running alongside the caller. That is, when the coroutine "yields" (a semi-special kind of return), it isn't necessarily done -- and "calling" it again will have the coroutine pick up right where it left off, with all its state intact, rather than starting from the beginning. The calls can thus be seen as kinda passing messages between the two functions.
Few languages fully and natively do this. (Stack-based languages tend to have a hard time with it, absent some functionality like Windows's "fibers".) Ruby does, apparently, and Python uses a limited version of it. I believe they call it a "generator", and it's basically used kinda like an iterable collection (whose iterator generates its next "element" on the fly). C# can semi do that as well (they call it an "iterator"), but the compiler actually turns the function into a class that implements a state machine of sorts.