The `CRAN`

version of the `R`

package `wrapr`

package now includes a concise anonymous function constructor: `l()`

.

To use it please do the following: attach `wrapr`

and ask it to place a definition for `l()`

in your environment:

```
library("wrapr")
::defineLambda(name = "l")
wraprls()
```

```
## [1] "LEFT_NAME" "OTHER_SYMBOL" "X" "Y"
## [5] "angle" "d" "d2" "df"
## [9] "f" "inputs" "l" "plotb"
## [13] "variable" "variable_name" "variable_string" "x"
```

Note: throughout this document we are using the letter “`l`

” as a stand-in for the Greek letter lambda, as this non-ASCII character can cause formatting problems in some situations.

You can use `l()`

to define functions. The syntax is: `l(arg [, arg]*, body [, env=env])`

. That is we write a `l()`

-call (which you can do by cutting and pasting) and list the desired function arguments and then the function body. For example the function that squares numbers is:

`l(x, x^2)`

```
## function (x)
## x^2
```

We can use such a function to square the first four positive integers as follows:

`sapply(1:4, l(x, x^2))`

`## [1] 1 4 9 16`

Dot-pipe style notation does not need the `l()`

factory as it treats pipe stages as expressions parameterized over the variable “`.`

”:

`1:4 %.>% { .^2 }`

`## [1] 1 4 9 16`

And we can also build functions that take more than one argument as follows:

`l(x, y, x + 3*y)`

```
## function (x, y)
## x + 3 * y
```