Partial answer, which hopefully provides some useful "seed nodes" to start more thorough search. My best guess:

- 1958 for
`map`

used for list processing,
- 1988 for
`flatten`

used in context of monads,
- 2004 for
`flatMap`

used as important method backing `for`

-comprehensions in Scala.

The function / method name `flatMap`

seems to be a portmanteau word composed from **flat**ten and **map**. This makes sense, because whenever `M`

is some monad, `A`

,`B`

some types, and `a: M[A]`

, `f: A => M[B]`

a value and a function, then the implementations of `map`

, `flatMap`

and `flatten`

should satisfy

```
a.flatMap(f) = a.map(f).flatten
```

(in Scala-syntax).

Let's first consider the both components `map`

and `flatten`

separately.

**Map**

The `map`

-function seems to have been used to map over lists since time immemorial. My best guess would be that it came from Lisp (around 1958), and then spread to all other languages that had anything resembling higher-order functions.

**Flatten**

Given how many things are represented by lists in Lisp, I assume that `flatten`

has also been used there for list processing.

The usage of `flatten`

in context of monads must be much more recent, because the monads themselves have been introduced in programming quite a bit later. If we are looking for the usage of word "flatten" in the context of monadic computations, we probably should at least check the papers by Eugenio Moggi. Indeed, in "Computational Lambda-Calculus and Monads" from 1988, he uses the formulation:

Remark 2.2: Intuitively `eta_A: A -> TA`

gives the inclusion of values into computations, while `mu_A: T^2 A -> TA`

**flatten** a *computation of a computation* into a computation.

(typesetting changed by me, emphasis mine, text in italic as in original). I think it's interesting that Moggi talks about flattening *computations*, and not just lists.

**Math notation / "Greek"**

On the Greek used in mathematical notation: in category theory, the more common way to introduce monads is through the natural transformations that correspond to `pure`

and `flatten`

, the morphisms corresponding to `flatMap`

are deemphasized. However, nobody calls it "flatten". For example, Maclane calls the natural transformation corresponding to method `pure`

"unit" (not to be confused with method `unit`

), and `flatten`

is usually called "multiplication", in analogy with Monoids. One might investigate further whether it was different when the "triple"-terminology was more prevalent.

**flatMap**

To find the origins of the `flatMap`

portmanteau word, I'd propose to start with the most prominent popularizer today, and then try to backtrack from there. Apparently, flatMap is a Scala meme, so it seems reasonable to start from Scala. One might check the standard libraries (especially the `List`

data structure) of the usual suspects: the languages that influenced Scala. These "roots" are named in Chapter 1, section 1.4 in Odersky's "Programming in Scala":

- C, C++ and C# are probably not where it came from.
- In Java it was the other way around: the
`flatMap`

came from Scala into version 1.8 of Java.
- I can't say anything about Smalltalk
- Ruby definitely has
`flat_map`

on `Enumerable`

, but I don't know anything about Ruby, and I don't want to dig into the source code to find out when it was introduced.
- Algol and Simula: definitely not.
- Strangely enough ML (SML) seems to get by without
`flatMap`

, it only has `concat`

(which is essentially the same as `flatten`

). OCaml's lists also seem to have `flatten`

, but no `flatMap`

.
- As you've already mentioned, Haskell had all this long ago, but in Haskell it is called
`bind`

and written as an operator
- Erlang has
`flatmap`

on lists, but I'm not sure whether this is the origin, or whether it was introduced later. The problem with Erlang is that it is from 1986, back then there was no github.
- I can't say anything about Iswim, Beta and gbeta.

I think it would be fair to say that `flatMap`

has been popularized by Scala, for two reasons:

- The
`flatMap`

took a prominent role in the design of Scala's collection library, and few years later it turned out to generalize nicely to huge distributed collections (Apache Spark and similar tools)
- The
`flatMap`

became the favorite toy of everyone who decided to do functional programming on the JVM properly (Scalaz and libraries inspired by Scalaz, like Scala Cats)

To sum it up: the "flatten" terminology has been used in the context of monads since the very beginning. Later, it was combined with `map`

into `flatMap`

, and popularized by Scala, or more specifically by frameworks such as Apache Spark and Scalaz.

`concatMap`

in Haskell because it's`concat . map`

. In Scala (among others)`concat`

is called`flatten`

, so`flatMap`

makes sense. – sepp2k Apr 15 '18 at 14:53`flatMap`

with`map`

you get a list of lists back. If you`flatten`

the result you get the result from`flatMap`

.`map`

existed in Lisp in the 60s and a variation,`maplist`

in the original lisp paper from 58. In CL`flatMap`

is called`mapcan`

and the CLHS explains it's the same as`(apply #'nconc (mapcar f x1 ... xn))`

. Thus the use of`flatten`

or`concat`

in the name just indicates the users perspective on one thinks of the list as data or arguments. – Sylwester Apr 15 '18 at 15:34`(mapcon #'(lambda (x) x) (list 1 2 3))`

. can you tell what it does, without trying? /just for fun/ – Will Ness Dec 18 '18 at 20:50`(1 2 3)`

and after the second it's`(1 . #1=(2 3 . #1#))`

and that stays for a while while its trying to get to the last pair to apply the next :-p Btw I think I was slightly fast by saying`mapcan`

is`flatMap`

since`flatMap`

is probably not destructive by nature. – Sylwester Dec 18 '18 at 21:111more comment