ArangoDB v3.4 reached End of Life (EOL) and is no longer supported.

This documentation is outdated. Please see the most recent version here: Latest Docs

Populating an autocomplete textbox

Problem

I want to populate an autocomplete textbox with values from a collection. The completions should adjust dynamically based on user input.

Solution

Use a web framework for the client-side autocomplete rendering and event processing. Use a collection with a (sorted) skiplist index and a range query on it to efficiently fetch the completion values dynamically. Connect the two using a simple Foxx route.

Install an example app

This app contains a jquery-powered web page with an autocomplete textbox. It uses jquery autocomplete, but every other web framework will also do.

The app can be installed as follows:

  • in the ArangoDB web interface, switch into the Applications tab
  • there, click Add Application
  • switch on the Github tab
  • for Repository, enter jsteemann/autocomplete
  • for Version, enter master
  • click Install

Now enter a mountpoint for the application. This is the URL path under which the application will become available. For the example app, the mount point does not matter. The web page in the example app assumes it is served by ArangoDB, too. So it uses a relative URL autocomplete. This is easiest to set up, but in reality you might want to have your web page served by a different server. In this case, your web page will have to call the app mount point you just entered.

To see the example app in action, click on Open. The autocomplete textbox should be populated with server data when at least two letters are entered.

Backend code, setup script

The app also contains a backend route /autocomplete which is called by the web page to fetch completions based on user input. The HTML code for the web page is here.

Contained in the app is a setup script that will create a collection named completions and load some initial data into it. The example app provides autocompletion for US city names, and the setup script populates the collection with about 10K city names.

The setup script also creates a skiplist index on the lookup attribute, so this attribute can be used for efficient filtering and sorting later. The lookup attribute contains the city names already lower-cased, and the original (pretty) names are stored in attribute pretty. This attribute will be returned to users.

Backend code, Foxx route controller

The app contains a controller. The backend action /autocomplete that is called by the web page is also contained herein:

controller.get("/autocomplete", function (req, res) {
  // search phrase entered by user
  var searchString = req.params("q").trim() || "";
  // lower bound for search range
  var begin = searchString.replace(/[^a-zA-Z]/g, " ").toLowerCase();
  if (begin.length === 0) {
    // search phrase is empty - no need to perfom a search at all
    res.json([]);
    return;
  }
  // upper bound for search range
  var end = begin.substr(0, begin.length - 1) + String.fromCharCode(begin.charCodeAt(begin.length - 1) + 1);
  // bind parameters for query
  var queryParams = {
    "@collection" : "completions",
    "begin" : begin,
    "end" : end
  };
  // the search query
  var query = "FOR doc IN @@collection FILTER doc.lookup >= @begin && doc.lookup < @end SORT doc.lookup RETURN { label: doc.pretty, value: doc.pretty, id: doc._key }";
  res.json(db._query(query, queryParams).toArray());
}

The backend code first fetches the search string from the URL parameter q. This is what the web page will send us.

Based on the search string, a lookup range is calculated. First of all, the search string is lower-cased and all non-letter characters are removed from it. The resulting string is the lower bound for the lookup. For the upper bound, we can use the lower bound with its last letter character code increased by one.

For example, if the user entered Los A into the textbox, the web page will send us the string Los A in URL parameter q. Lower-casing and removing non-letter characters from the string, we’ll get losa. This is the lower bound. The upper bound is losa, with its last letter adjusted to b (i.e. losb).

Finally, the lower and upper bounds are inserted into the following query using bind parameters @begin and @end:

FOR doc IN @@collection 
  FILTER doc.lookup >= @begin && doc.lookup < @end 
  SORT doc.lookup 
  RETURN { 
    label: doc.pretty, 
    value: doc.pretty, 
    id: doc._key 
  }

The city names in the lookup range will be returned sorted. For each city, three values are returned (the id contains the document key, the other two values are for display purposes). Other frameworks may require a different return format, but that can easily be done by adjusting the AQL query.

Author: Jan Steemann

Tags: #aql #autocomplete #jquery