# httr quickstart guide

The goal of this document is to get you up and running with httr as quickly as possible. httr is designed to map closely to the underlying http protocol. I’ll try and explain the basics in this intro, but I’d also recommend “HTTP: The Protocol Every Web Developer Must Know” or “HTTP made really easy”.

This vignette (and parts of the httr API) derived from the excellent “Requests quickstart guide” by Kenneth Reitz. Requests is a python library similar in spirit to httr.

There are two important parts to http: the request, the data sent to the server, and the response, the data sent back from the server. In the first section, you’ll learn about the basics of constructing a request and accessing the response. In the second and third sections, you’ll dive into more details of each.

## httr basics

To make a request, first load httr, then call GET() with a url:

library(httr)
r <- GET("http://httpbin.org/get")

This gives you a response object. Printing a response object gives you some useful information: the actual url used (after any redirects), the http status, the file (content) type, the size, and if it’s a text file, the first few lines of output.

You can pull out important parts of the response with various helper methods, or dig directly into the object:

I’ll use httpbin.org throughout this introduction. It accepts many types of http request and returns json that describes the data that it received. This makes it easy to see what httr is doing.

As well as GET(), you can also use the HEAD(), POST(), PATCH(), PUT() and DELETE() verbs. You’re probably most familiar with GET() and POST(): GET() is used by your browser when requesting a page, and POST() is (usually) used when submitting a form to a server. PUT(), PATCH() and DELETE() are used most often by web APIs.

## The response

The data sent back from the server consists of three parts: the status line, the headers and the body. The most important part of the status line is the http status code: it tells you whether or not the request was successful. I’ll show you how to access that data, then how to access the body and headers.

### The status code

The status code is a three digit number that summarises whether or not the request was successful (as defined by the server that you’re talking to). You can access the status code along with a descriptive message using http_status():

A successful request always returns a status of 200. Common errors are 404 (file not found) and 403 (permission denied). If you’re talking to web APIs you might also see 500, which is a generic failure code (and thus not very helpful). If you’d like to learn more, the most memorable guides are the http status cats.

You can automatically throw a warning or raise an error if a request did not succeed:

I highly recommend using one of these functions whenever you’re using httr inside a function (i.e. not interactively) to make sure you find out about errors as soon as possible.

### The body

There are three ways to access the body of the request, all using content():

You can access cookies in a similar way:

Cookies are automatically persisted between requests to the same domain:

## The request

Like the response, the request consists of three pieces: a status line, headers and a body. The status line defines the http method (GET, POST, DELETE, etc) and the url. You can send additional data to the server in the url (with the query string), in the headers (including cookies) and in the body of POST(), PUT() and PATCH() requests.

### The url query string

A common way of sending simple key-value pairs to the server is the query string: e.g. http://httpbin.org/get?key=val. httr allows you to provide these arguments as a named list with the query argument. For example, if you wanted to pass key1=value1 and key2=value2 to http://httpbin.org/get you could do:

r <- GET("http://httpbin.org/get",
query = list(key1 = "value1", key2 = "value2")
)
content(r)$args #>$key1
#> [1] "value1"
#>
#> $key2 #> [1] "value2" Any NULL elements are automatically dropped from the list, and both keys and values are escaped automatically. r <- GET("http://httpbin.org/get", query = list(key1 = "value 1", "key 2" = "value2", key2 = NULL)) content(r)$args
#> $key 2 #> [1] "value2" #> #>$key1
#> [1] "value 1"

(Note that content(r)$header retrieves the headers that httpbin received. headers(r) gives the headers that it sent back in its response.) ## Cookies Cookies are simple key-value pairs like the query string, but they persist across multiple requests in a session (because they’re sent back and forth every time). To send your own cookies to the server, use set_cookies(): r <- GET("http://httpbin.org/cookies", set_cookies("MeWant" = "cookies")) content(r)$cookies
#> $MeWant #> [1] "cookies" #> #>$a
#> [1] "1"
#>
#> \$b
#> [1] "1"

Note that this response includes the a and b cookies that were added by the server earlier.

### Request body

When POST()ing, you can include data in the body of the request. httr allows you to supply this in a number of different ways. The most common way is a named list:

r <- POST("http://httpbin.org/post", body = list(a = 1, b = 2, c = 3))

You can use the encode argument to determine how this data is sent to the server:

url <- "http://httpbin.org/post"
body <- list(a = 1, b = 2, c = 3)

# Form encoded
r <- POST(url, body = body, encode = "form")
# Multipart encoded
r <- POST(url, body = body, encode = "multipart")
# JSON encoded
r <- POST(url, body = body, encode = "json")

To see exactly what’s being sent to the server, use verbose(). Unfortunately due to the way that verbose() works, knitr can’t capture the messages, so you’ll need to run these from an interactive console to see what’s going on.

POST(url, body = body, encode = "multipart", verbose()) # the default
POST(url, body = body, encode = "form", verbose())
POST(url, body = body, encode = "json", verbose())

PUT() and PATCH() can also have request bodies, and they take arguments identically to POST().

You can also send files off disk: