Implement Backend Search with React InstantSearch
This version of React InstantSearch has been deprecated in favor of the latest version of React InstantSearch.
Advanced InstantSearch users may need to query Algolia’s servers from their backend instead of the frontend, while still being able to reuse InstantSearch widgets. Possible motivations could be for security restrictions, for SEO purposes or to enrich the data sent by the custom server, that is, fetching Algolia data and data from their own servers. If this sounds appealing to you, feel free to follow this guide. Keep in mind though that Algolia recommends doing frontend search for performance and high availability reasons.
In this guide, you can learn how to leverage InstantSearch with your own backend to query Algolia.
How backend search works
InstantSearch is the UI part on top a search client with a state managed by a JavaScript Helper. These three layers are composable and can be interchanged to leverage the InstantSearch widgets system with different search clients.
The search client that Algolia offers queries Algolia’s backends whenever the user refines the search. It’s possible to implement your own search client that queries your backend, which then queries Algolia’s backends with the Algolia search client on your server.
To create your own client, you will need to implement a given interface that receives and returns formatted data that InstantSearch can understand.
On the backend: Create the necessary routes
This guide assumes that you have an existing server running on http://localhost:3000 with the route POST /search
that takes the default Algolia query parameters as JSON. This backend could be using the JavasScript API client to query Algolia, on top of any other operations you want to perform.
The algoliasearch
package allows you to query Algolia from your backend. Here’s an example using Express:
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// Instantiate an Algolia client
const algoliasearch = require('algoliasearch');
const algoliaClient = algoliasearch('YourApplicationID', 'YourSearchOnlyAPIKey');
// Add the search endpoint
app.post('/search', async ({body}, res) => {
const { requests } = body;
const results = await algoliaClient.search(requests);
res.status(200).send(results);
});
Supporting search for facet values
Algolia offers the concept of Search For Facet Values. This enables your refinement lists to be searchable. If your frontend makes use of this feature, via a search box on top of refinement lists, you must create an endpoint POST /sffv
. Add a new route to support that:
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app.post('/sffv', async ({body}, res) => {
const { requests } = body;
const results = await algoliaClient.searchForFacetValues(requests);
res.status(200).send(results);
});
Once your new route is ready, get back to the frontend and create a search client that can communicate with this server
On the frontend: Call your new backend routes
Searching for results
A search client is an object which implements the method search()
, called every time the user searches and refines results.
Since the server accepts the InstantSearch format as an input, you only need to pass these requests to your backend in this method, and return the response.
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const customSearchClient = {
search(requests) {
return fetch('http://localhost:3000/search', {
method: 'post',
headers: {
'Content-Type': 'application/json',
},
body: JSON.stringify({ requests }),
}).then(res => res.json());
}
};
This example uses the Fetch API to query the server; make sure to take note of the browser compatibility before using it in production.
If you want to transform the data to be passed to your server, you can learn more about all the parameters that the
search()
method supports in the Algolia API reference.
Searching for facet values
If your server exposes a Search For Facet Values endpoint, you can implement this feature in a similar way as the search()
method with the searchForFacetValues()
method.
The implementation is the same as the search()
method, except that it targets POST /sffv
.
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const customSearchClient = {
search(requests) {
/* ... */
},
searchForFacetValues(requests) {
return fetch('http://localhost:3000/sffv', {
method: 'post',
headers: {
'Content-Type': 'application/json',
},
body: JSON.stringify({ requests }),
}).then(res => res.json());
}
};
You’ll be able to search within your refinement lists from your custom backend.
Note that you will need to set the option
searchable
totrue
in your refinement list to make it searchable.
Using the search client with InstantSearch
Now, you need to tell InstantSearch to use the search client you created. This is possible with the searchClient
option. This parameter turns off all Algolia requests coming from the frontend and proxies them to your own backend.
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import { InstantSearch } from 'react-instantsearch';
const App = ({children}) => (
<InstantSearch
searchClient={customSearchClient}
indexName="YourIndexName"
>
{children}
</InstantSearch>
);
InstantSearch is now requesting your own backend and will display the UI, accordingly.
Going further: Enriching data from the backend
Now that you’ve got InstantSearch querying your own backend before fetching results from Algolia, you could merge Algolia’s data to yours to offer your users more exhaustive results.
A recurring problem with ecommerce websites using Algolia is to manage the remaining stock for each product; it’s sometimes hard to keep track of the exact number of items. An approach made possible with a custom backend is to only store the item’s availability on each Algolia record (none
, low
, medium
, high
) and to fetch the exact stock on your database.
You need to make a few changes to your backend:
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app.post('/search', async ({body}, res) => {
const requests = body;
const algoliaResults = await algoliaClient.search(requests);
const results = {
...algoliaResults,
results: algoliaResults.results.map(result => ({
...result,
hits: result.hits.map(async hit => ({
...hit,
// `getStock()` retrieves a product's exact stock from your own database
stock: await getStock(hit.productID),
})),
})),
};
res.status(200).send(results);
});
You can now access the property stock
on each hit with InstantSearch on the frontend.
Conclusion
Throughout this guide, you learned:
- How to handle Algolia requests coming from InstantSearch on your own backend
- How to create a custom search client calling this server
- How to plug the search client to InstantSearch