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Colin Fay
Colin Fay

Posted on • Originally published at colinfay.me on

Hello hordes!

Introducing hordes, a module that makes R available from NodeJS.

About

General philosophy

The general idea of hordes is that NodeJS is the perfect tool when it comes to HTTP i/o, hence we can leverage the strength of this ecosystem to build Web Services that can serve R results.

For example, if you have a web service that needs authentication, using hordes allows to reuse existing NodeJS modules, which are widely used and tested inside the NodeJS ecosystem. Another good example is NodeJS native cluster mode, and external modules like pm2 which are designed to launch your app in a multicore mode, watch that your app is still running continuously, and relaunch it if one of the process stop (kind of handy for a production application that handle a lot of load).

hordes also makes things easier when it comes to mixing various languages in the same API: for example, you can serve standard HTML on an endpoint, and R on others. And of course, it makes it more straightforward to include R inside an existing NodeJS stack.

From the R point of view, the general idea with hordes is that every R function call should be stateless. Keeping this idea in mind, you can build a package where functions are to be considered as ‘endpoints’ which are then called from NodeJS. In other words, there is no“shared-state” between two calls to R—if you want this to happen, you should either register the values inside Node, or use a database as a backend (which should be the preferred solution if you ask me).

But wait…

… Do I need to learn NodeJS?

Yes! How cool is that!

If unlike me you’re not a programming language nerd and don’t feel like learning JavaScript and NodeJS, the idea is to make the collaboration between R dev and NodeJS developers/production engineer way easier. R devs can write packages with functions returning data that can be handled by NodeJS, and that way, it will be more straightforward to include R inside a web app that already runs on Node, or to build a newNode app that can use the R functions.

Install

hordes can be installed from npm with

npm install hordes

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How to

The hordes module contains the following functions:

library

library behaves as R library() function, except that the output is aJavaScript object with all the functions from the package.

For example, library("stats") will return an object with all the functions from {stats}. By doing const stats = library("stats");,you will have access to all the functions from {stats}, for example stats.lm().

Note that if you want to call functions with dot (for example as.numeric()), you should do it using the [ notation, not the dot one (i.e base['as.numeric'], not base.as.numeric).

Calling stats.lm("code") will launch R, run stats::lm("code") and return the output to Node.

Note that every function returns a promise, where R stderr rejects the promise and stdout resolves it. This point is kind of important to keep in mind if you’re building your own package that will be then called through hordes.

const {library} = require('hordes');
const stats = library("stats");
stats.lm("Sepal.Length ~ Sepal.Width, data = iris").
    then((e) => console.log(e)).
    catch((err) => console.error(err))


Call:
stats::lm(formula = Sepal.Length ~ Sepal.Width, data = iris)

Coefficients:
(Intercept) Sepal.Width  
     6.5262 -0.2234  

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As they are promises, you can use them in an async/await pattern or with then/catch. The rest of this README will use async/await

const { library } = require('hordes');
const stats = library("stats");

(async() => {
    try {
        const a = await stats.lm("Sepal.Length ~ Sepal.Width, data = iris")
        console.log(a)
    } catch (e) {
        console.log(e)
    }

    try {
        const a = stats.lm("Sepal.Length ~ Sepal.Width, data = iris")
        const b = stats.lm("Sepal.Length ~ Petal.Width, data = iris")
        const ab = await Promise.all([a, b])
        console.log(ab[0])
        console.log(ab[1])
    } catch (e) {
        console.log(e)
    }
})();


Call:
stats::lm(formula = Sepal.Length ~ Sepal.Width, data = iris)

Coefficients:
(Intercept) Sepal.Width  
     6.5262 -0.2234  

Call:
stats::lm(formula = Sepal.Length ~ Sepal.Width, data = iris)

Coefficients:
(Intercept) Sepal.Width  
     6.5262 -0.2234  

Call:
stats::lm(formula = Sepal.Length ~ Petal.Width, data = iris)

Coefficients:
(Intercept) Petal.Width  
     4.7776 0.8886 

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Values returned by the hordes functions, once in NodeJS, are string values matching the stdout of Rscript.

If you want to exchange data between R and NodeJS, use an interchangeable format (JSON, arrow, base64 for images, raw strings…):

const {library} = require('hordes');
const jsonlite = library("jsonlite");
const base = library("base");

(async () => {
    try {
            const a = await jsonlite.toJSON("iris")
            console.log(JSON.parse(a)[0])
        } catch(e){
            console.log(e)
        }
    try {
            const b = await base.cat("21")
            console.log(parseInt(b) * 2)
        } catch(e){
            console.log(e)
        }
}
)();


{
  'Sepal.Length': 5.1,
  'Sepal.Width': 3.5,
  'Petal.Length': 1.4,
  'Petal.Width': 0.2,
  Species: 'setosa'
}
42

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mlibrary

mlibrary does the same job as library except the functions are natively memoized.

const {library, mlibrary} = require('hordes');
const base = library("base");
const mbase = mlibrary("base");

(async () => {
    try {
            const a = await base.sample("1:100, 5")
            console.log("a:", a)
            const b = await base.sample("1:100, 5")
            console.log("b:", b)
        } catch(e){
            console.log(e)
        }

    try {
            const a = await mbase.sample("1:100, 5")
            console.log("a:", a)
            const b = await mbase.sample("1:100, 5")
            console.log("b:", b)
        } catch(e){
            console.log(e)
        }
}
)();


a: [1] 49 13 37 25 91

b: [1] 5 17 68 26 29

a: [1] 96 17 6 4 75

b: [1] 96 17 6 4 75

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get_hash

When calling library() or mlibrary(), you can specify a hash, which can be compiled with get_hash. This hash is computed from the DESCRIPTION of the package called. That way, if ever the DESCRIPTION file changes (version update, or stuff like that…), you can get alerted(app won’t launch). Just ignore this param if you don’t care about that(but you should in a production setting).

const { library, get_hash } = require('hordes');
console.log(get_hash("golem"))


'fdfe0166629045e6ae8f7ada9d9ca821742e8135efec62bc2226cf0811f44ef3'

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Then if you call library() with another hash, the app will fail.

var golem = library("golem", hash = "blabla")


            throw new Error("Hash from DESCRIPTION doesn't match specified hash.")


var golem = library("golem", hash = 'e2167f289a708b2cd3b774dd9d041b9e4b6d75584b9421185eb8d80ca8af4d8a')
Object.keys(golem).length


104

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waiter

You can launch an R process that streams data and wait for a specific output in the stdout.

The promise resolves with and {proc, raw_output}: proc is the process object created by Node, raw_output is the output buffer, that can be turned to string with .toString().

A streaming process here is considered in a loose sense: what we mean here is anything that prints various elements to the console. For example, when you create a new application using the {golem} package, the app is ready once this last line is printed to the console. This is exactly what waiter does, it waits for this last line to be printed to the R stdout before resolving.

> golem::create_golem('pouet')
-- Checking package name -------------------------------------------------------
v Valid package name
-- Creating dir ----------------------------------------------------------------
v Created package directory
-- Copying package skeleton ----------------------------------------------------
v Copied app skeleton
-- Setting the default config --------------------------------------------------
v Configured app
-- Done ------------------------------------------------------------------------
A new golem named pouet was created at /private/tmp/pouet .
To continue working on your app, start editing the 01_start.R file.


const { waiter } = require("hordes")
const express = require('express');
const app = express();

app.get('/creategolem', async(req, res) => {
    try {
        await waiter("golem::create_golem('pouet')", solve_on = "To continue working on your app");
        res.send("Created ")
    } catch (e) {
        console.log(e)
        res.status(500).send("Error creating the golem project")
    }
})

app.listen(2811, function() {
    console.log('Example app listening on port 2811!')
})

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-> http://localhost:2811/creategolem

Changing the process that runs R

By default, the R code is launched by RScript, but you can specifyanother (for example if you need another version of R):

const { library } = require('hordes');
const base = library("base", hash = null, process = '/usr/local/bin/RScript');

(async() => {
    try {
        const a = await base.sample("1:100, 5")
        console.log("a:", a)
    } catch (e) {
        console.log(e)
    }
})();

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Examples

Simple example

const { library } = require('hordes');
const dplyr = library("dplyr");
const stats = library("stats");

(async() => {
        try {
            const sample = await dplyr.sample_n("iris, 5")
            console.log(sample)
        } catch (e) {
            console.log(e)
        }

        try {
            const pull = await dplyr.pull("airquality, Month")
            console.log(pull)
        } catch (e) {
            console.log(e)
        }

        try {
            const lm = await stats.lm("Sepal.Length ~ Sepal.Width, data = iris")
            console.log(lm)
        } catch (e) {
            console.log(e)
        }
    }

)();


  Sepal.Length Sepal.Width Petal.Length Petal.Width Species
1 5.7 3.8 1.7 0.3 setosa
2 6.7 2.5 5.8 1.8 virginica
3 6.9 3.1 5.1 2.3 virginica
4 6.4 2.9 4.3 1.3 versicolor
5 5.1 3.3 1.7 0.5 setosa

  [1] 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 6 6 6 6 6 6
 [38] 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 7 7 7 7 7 7 7 7 7 7 7 7 7
 [75] 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8
[112] 8 8 8 8 8 8 8 8 8 8 8 8 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9
[149] 9 9 9 9 9

Call:
stats::lm(formula = Sepal.Length ~ Sepal.Width, data = iris)

Coefficients:
(Intercept) Sepal.Width  
     6.5262 -0.2234  

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API using express

const express = require('express');
const { library } = require('hordes');
const app = express();
const stats = library("stats");

app.get('/lm', async(req, res) => {
    try {
        const output = await stats.lm(`${req.query.left} ~ ${req.query.right}`)
        res.send('<pre>' + output + '</pre>')
    } catch (e) {
        res.status(500).send(e)
    }
})

app.get('/rnorm', async(req, res) => {
    try {
        const output = await stats.rnorm(req.query.left)
        res.send('<pre>' + output + '</pre>')
    } catch (e) {
        res.status(500).send(e)
    }
})

app.listen(2811, function() {
    console.log('Example app listening on port 2811!')
})

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->http://localhost:2811/lm?left=iris$Sepal.Length&right=iris$Petal.Length

-> http://localhost:2811/rnorm?left=10

golem Creator

const { waiter } = require("hordes")
const express = require('express');
const app = express();

app.get('/creategolem', async(req, res) => {
    try {
        await waiter(`golem::create_golem('${req.query.name}')`, solve_on = "To continue working on your app");
        res.send("Created ")
    } catch (e) {
        console.log(e)
        res.status(500).send("Error creating the golem project")
    }
})

app.listen(2811, function() {
    console.log('Example app listening on port 2811!')
})

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-> http://localhost:2811/creategolem?name=coucou

More info

Repo: https://github.com/ColinFay/hordes

Npm page: https://www.npmjs.com/package/hordes

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