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https://github.com/egnha/gestalt

Tidy Tools for Making and Combining Functions
https://github.com/egnha/gestalt

anonymous-functions function-composition partial-application quasiquotation

Last synced: 4 months ago
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Tidy Tools for Making and Combining Functions

Host: GitHub
URL: https://github.com/egnha/gestalt
Owner: egnha
License: other
Created: 2018-05-11T08:59:01.000Z (about 6 years ago)
Default Branch: master
Last Pushed: 2022-12-18T10:58:19.000Z (over 1 year ago)
Last Synced: 2024-01-19T13:12:53.268Z (6 months ago)
Topics: anonymous-functions, function-composition, partial-application, quasiquotation
Language: R
Homepage:
Size: 819 KB
Stars: 37
Watchers: 3
Forks: 3
Open Issues: 10
Metadata Files:
- Readme: README.Rmd
- License: LICENSE

Lists

awesome-stars - gestalt - Tidy Tools for Making and Combining Functions (R)

README

        ---

output: github_document

---

```{r, echo = FALSE}

knitr::opts_chunk$set(

  collapse = TRUE,

  comment = "#>",

  fig.path = "README-"

)

```

[![R-CMD-check](https://github.com/egnha/gestalt/actions/workflows/R-CMD-check.yaml/badge.svg)](https://github.com/egnha/gestalt/actions/workflows/R-CMD-check.yaml)

[![CRAN_Status_Badge](https://www.r-pkg.org/badges/version/gestalt)](https://cran.r-project.org/package=gestalt)

# gestalt

The **gestalt** package provides a function composition operator, `%>>>%`, which

improves the clarity, modularity, and versatility of your functions by enabling

you to:

 - [Express complex functions as chains](#overview) of smaller, more readily

   intelligible functions

   

 - Directly manipulate a composite function as a list-like object, so that you

   can [inspect](#inspect-or-modify-using-higher-order-functions),

   [modify](#inspect-or-modify-using-higher-order-functions), or

   [repurpose](#repurpose-using-subset-assignment) any part of the chain of

   constituent functions

More importantly, gestalt fosters a powerful way of thinking about

[values as functions](#the-value-of-values-as-functions).

## Overview

The following example (adapted from [purrr](https://purrr.tidyverse.org))

illustrates the use of `%>>>%` to express a function that takes the

name of a factor-column of the `mtcars` data frame, fits a linear model to the

corresponding groups, then computes the R² of the summary.

```{r}

library(gestalt)

fit <- mpg ~ wt

r2 <- {split(mtcars, mtcars[[.]])} %>>>%

  lapply(function(data) lm(!!fit, data)) %>>>%

  summarize: (

    lapply(summary) %>>>%

      stat: sapply(`[[`, "r.squared")

  )

r2("cyl")

```

gestalt leverages the ubiquity of the [magrittr](https://magrittr.tidyverse.org)

`%>%` operator, by adopting its semantics and augmenting it to enable you to:

 - **Clarify intent** by annotating constituent functions with descriptive names,

   which also serve as

   [subsetting references](#repurpose-using-subset-assignment)

   

 - **Express nested sub-compositions**, while nonetheless preserving the runtime 

   characteristics of a flattened composition, so you can focus on expressing

   structure that is most natural for your function

   

 - **Unquote sub-expressions** with the tidyverse `!!` operator, to enforce

   immutability or spare a runtime computation

## Ceci n’est pas une `%>%`

Despite the syntactic similarity, the `%>>>%` operator is conceptually distinct

from the magrittr `%>%` operator. Whereas `%>%` “pipes” a value into a function

to yield a value, `%>>>%` _composes_ functions to yield a function.

The most significant distinction, however, is that list idioms apply to

composite functions made by `%>>>%`, so that you can inspect, modify, and

repurpose them, intuitively.

### Select segments of functions using indexing

To select the first two functions in `r2`, in order to get the fitted model,

index with the vector `1:2`:

```{r}

r2[1:2]("cyl")[["6"]]  # Cars with 6 cylinders

```

### Repurpose using subset-assignment

To compute the residuals rather than the R², reassign the summary-statistic

function:

```{r}

residuals <- r2

residuals$summarize$stat <- function(s) sapply(s, `[[`, "residuals")

residuals("cyl")[["6"]]

```

    

### Inspect or modify using higher-order functions

Consider a function that capitalizes and joins a random selection of characters:

```{r}

scramble <- sample %>>>% toupper %>>>% paste(collapse = "")

set.seed(1)

scramble(letters, 5)

```

Here you see the final result of the composition. But because `scramble` is a

list-like object, you can also inspect its intermediate steps by applying a

standard “map-reduce” strategy, such as the following higher-order function:

```{r}

stepwise <- lapply(`%>>>%`, print) %>>>% compose

```

`stepwise` maps over the constituent functions of a composite function to

add printing at each step:

```{r}

set.seed(1)

stepwise(scramble)(letters, 5)

```

## The [value of values](https://youtu.be/-6BsiVyC1kM) as functions

Whenever you have a value that results from a series of piped values, such as

```{r}

library(magrittr)

mtcars %>% 

  split(.$cyl) %>% 

  lapply(function(data) lm(mpg ~ wt, data)) %>% 

  lapply(summary) %>% 

  sapply(`[[`, "r.squared")

```

you can transpose it to a **constant composite function** that computes the same

value, simply by treating the input value as a constant function and replacing

each function application, `%>%`, by function composition, `%>>>%`:

```{r}

R2 <- {mtcars} %>>>% 

  split(.$cyl) %>>>%

  lapply(function(data) lm(mpg ~ wt, data)) %>>>%

  lapply(summary) %>>>%

  sapply(`[[`, "r.squared")

```

You gain power by treating (piped) values as (composite) functions:

 1. **Values as functions are lazy**. You can separate the value’s declaration

    from its point of use—the value is only computed on demand:

    ```{r}

    R2()

    ```

    

 2. **Values as functions are cheap**. You can cache the value of `R2` by

    declaring it as a constant:

    ```{r, eval = FALSE}

    R2 <- constant(R2)

    R2()

    #>         4         6         8 

    #> 0.5086326 0.4645102 0.4229655

    

    # On a 2015 vintage laptop

    microbenchmark::microbenchmark(R2(), times = 1e6)  

    #> Unit: nanoseconds

    #>  expr min  lq     mean median  uq      max neval

    #>  R2() 532 567 709.1435    585 647 39887308 1e+06

    ```

  

 2. **Values as functions encode their computation**. Since a composite function

    qua computation is a list-like object, you can compute on it to extract

    **latent information**.

    

    For instance, you can get the normal Q–Q plot of the fitted model for

    6-cylinder cars from the head of `R2`:

    ```{r, eval = FALSE}

    head(R2, 3)() %>% .[["6"]] %>% plot(2)

    ```

    

    

## Complements

In conjunction with `%>>>%`, gestalt also provides:

 - `fn`, a more concise and flexible variation of `function`, which supports

   tidyverse quasiquotation.

    ```{r}

    size <- 5L

    

    fn(x, ... ~ sample(x, !!size, ...))

    ```

    

 - `partial`, to make new functions from old by fixing a number of arguments,

   i.e.,

   [partial application](https://en.wikipedia.org/wiki/Partial_application).

   Like `fn`, it also supports quasiquotation.

    ```{r}

    (draw <- partial(sample, size = !!size, replace = TRUE))

    

    set.seed(2)

    draw(letters)

    ```

    Additionally, `partial` is:

    

    * **Hygenic**: The fixed argument values are

      [tidily evaluated](https://rlang.r-lib.org/reference/eval_tidy.html)

      promises; in particular, the usual lazy behavior of function arguments,

      which can be overridden via unquoting, is respected even for fixed

      arguments.

      

    * **Flat**: Fixing arguments in stages is _operationally_ equivalent to

      fixing them all at once—you get the same function either way:

      ```{r}

      partial(partial(sample, replace = TRUE), size = 5L)

      ```

 

See the package documentation for more details (`help(package = gestalt)`).

## Installation

Install from [CRAN](https://cran.r-project.org/package=gestalt):

```{r, eval = FALSE}

install.packages("gestalt")

```

Alternatively, install the development version from GitHub:

```{r gh-installation, eval = FALSE}

# install.packages("devtools")

devtools::install_github("egnha/gestalt", build_vignettes = TRUE)

```

## Acknowledgments

 - The core semantics of `%>>>%` conform to those of the 

   [magrittr](https://magrittr.tidyverse.org) `%>%` operator developed by

   [Stefan Milton Bache](https://github.com/smbache).

   

 - The engine for quasiquotation and expression capture is powered by the

   [rlang](https://rlang.r-lib.org) package by

   [Lionel Henry](https://github.com/lionel-) and

   [Hadley Wickham](https://github.com/hadley).

   

 - The “triple arrow” notation for the composition operator is taken from the

   Haskell

   [Control.Arrow](https://hackage.haskell.org/package/base/docs/Control-Arrow.html)

   library by Ross Paterson.

## License

MIT Copyright © 2018–2022 [Eugene Ha](https://github.com/egnha)