Data Indexing
search_flip - Full featured ElasticSearch Ruby Client

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search_flip - Full featured ElasticSearch Ruby Client

Benjamin Vetter • May 25, 2019 • Hamburg, Germany

The video presented by Benjamin Vetter at Ruby Unconf 2019 focuses on integrating Elasticsearch into Rails applications using the 'search_flip' gem, which he developed to provide a more user-friendly experience compared to existing Elasticsearch clients. The gem allows for chainable domain-specific language (DSL) that simplifies the construction of search queries. Key points discussed include:

  • Introduction to Search_flip: Vetter outlines the purpose of the gem, emphasizing its chainable DSL designed to streamline query construction while reducing code complexity that often arises with raw Elasticsearch queries.

  • Comparative Analysis: He contrasts Searchflip with other gems like 'searchcake', noting that while some improve readability, they still replicate older Active Record methods, leading to cumbersome code structures.

  • Use Cases for Elasticsearch: Vetter discusses when to consider using Elasticsearch, particularly when traditional databases become insufficient due to scaling or performance issues. Features such as scoring, aggregations, and suggestions in Elasticsearch can be advantageous.

  • Integrating Search_flip: Practical instructions are given on creating an index by defining models and specifying how data will be serialized for Elasticsearch. Vetter explains the operations that can be performed on indexes, such as creating, deleting, or updating mappings, in a clear manner.

  • Chainable Queries and Aggregations: The gem's ability to allow users to craft flexible, adaptable queries is highlighted. Vetter illustrates this with examples from contexts like hotel booking platforms and e-commerce, allowing for filtering, sorting, and aggregating data in an intuitive way.

  • Demo of Movie Index: A practical demonstration using IMDB data illustrates how to create a hotel index, import data selectively, and utilize queries and aggregations to extract insights effectively.

  • Synchronization Challenges: Vetter notes the challenges of maintaining data synchronization between Elasticsearch and databases, pointing out that while Search_flip doesn't natively solve this issue, it can utilize external tools for smooth data flow.

  • Future Exploration: He encourages attendees to explore the functionalities of Search_flip further, providing a foundation for understanding how to leverage it for various applications.

In conclusion, Search_flip stands out by simplifying Elasticsearch integrations into Ruby on Rails applications, allowing developers to write more maintainable, readable, and flexible code while harnessing the power of Elasticsearch's capabilities.

search_flip - Full featured ElasticSearch Ruby Client
Benjamin Vetter • May 25, 2019 • Hamburg, Germany

Ruby Unconf 2019

00:00:18.490 Hi everyone, welcome! Today I'll talk about integrating Elasticsearch into your Rails applications.
00:00:22.670 In particular, I want to share details about a gem called 'search_flip' that I wrote. Although it isn't completely new, as I started implementing it back in 2013, I hadn't marketed it much before. I used it internally for a long time, but now I've decided to release it publicly.
00:00:36.680 Search_flip is a gem that features a chainable DSL, which I will demonstrate in the next slides. Many gems out there lack this chainable DSL, making them quite cumbersome to work with. Search_flip essentially removes this bloat from your codebase.
00:00:59.960 A little about myself: I currently work at a company called Really Fat Vas, which as of Friday is now under the visible umbrella. You can find me on GitHub, and I have a strong passion for search technologies. I’ve been working with search for nearly ten years, starting with Elasticsearch when it was version 0.9. Before that, I worked with various tools like Solr.
00:01:14.240 You might wonder, why create another Elasticsearch client when there are already good ones available? Let's take a step back and consider a simple query in sample code. For instance, we have some comments in our database that we want to search through, and they should contain the text 'hello world'.
00:01:32.960 We also want these comments to have an approved state since we have a review process. Publicly, we’ll only show the approved comments. We may need to aggregate information about users to display counts of how many comments they had. Let’s examine how this query could look with different tools.
00:02:02.149 Additionally, we want to sort the results by ID. First, we look at querying with Elasticsearch Ruby. This approach often leads you to writing raw Elasticsearch queries, which can be tedious and error-prone. You don't need to focus on the code listed there; it's merely illustrative.
00:02:22.640 Writing raw Elasticsearch queries can feel cumbersome, requiring complex hashes built up for the query, which can easily go wrong due to syntax issues. I wanted to simplify this process, making it look more intuitive. For instance, there is another popular gem called 'search_cake' that aims to alleviate some of that bloat.
00:02:49.460 Search_cake has improved readability, but the underlying structure still resembles old Active Record methods from several years back, making it necessary to bundle all the clauses into one method.
00:03:04.710 The challenge remains in collecting all the clauses we want to send to Elasticsearch for the desired output. This often leads to a messy code structure, especially when user inputs dictate certain query clauses. My goal was to enable the chaining of these clauses seamlessly.
00:03:35.240 With Search_flip, the structure allows you to write queries that feel distinct from an Active Record query. You can chain clauses together, providing flexibility for optional additions based on parameters, much to the delight of users.
00:04:05.210 Who is search_flip for? Typically, when you're integrating search into an application, it is reasonable to approach it within your existing database. If that fulfills your needs, it's best to stick with it, as introducing a new service or database can be quite challenging. However, when your data needs outgrow your database capabilities, that’s when tools like Elasticsearch come into play.
00:04:35.300 Feature-rich options in Elasticsearch, such as scoring, aggregating, and suggestions, might compel you to explore it further, especially if you're struggling with complexity or performance with your current setup. Let’s delve deeper into how Search_flip integrates within a Rails application.
00:05:05.460 Essentially, you begin by creating an index class that includes the search index module. You can specify a model and then inform Search_flip how to serialize it. The serialized data will be sent to Elasticsearch for indexing.
00:05:34.140 These fields will be searchable, aggregable, and usable for highlighting. In your index classes, you can also specify mappings, index settings, aliases, and more—all designed to flexibly integrate with Elasticsearch optimally.
00:06:01.173 After building your index, you can perform several operations such as creating the index, checking if it exists, deleting it, or updating its mappings. You can import records efficiently, whether all records, a single record, or even arbitrary active record relations.
00:06:43.777 Similarly, you can delete records using the same commands for creating indexes. This overview is intended to familiarize you with the concept of Search_flip, providing a basic understanding of its purpose.
00:07:05.961 As mentioned, the Elasticsearch queries created with this gem are chainable and lazily evaluated. That means they only get executed when you request results, like with the 'total count' or 'records' method, mirroring how you might work with Active Record.
00:07:34.610 Let’s explore a practical example. Imagine a hotel booking platform where we maintain a hotel index. We can execute a search only for hotels with a minimum ranking, in a specific location, aggregating ratings to display on a sidebar and paginate results.
00:08:02.600 Looking into aggregations, these are about counting items, a feature easily found on popular sites that show brand counts as you filter results. With Search_flip, this can be as simple as calling 'aggregate' on a brand.
00:08:31.970 Additionally, you can perform date histogram aggregations effortlessly. One noteworthy thing is that Search_flip, although abstracted, still allows you full interaction with Elasticsearch.
00:09:07.350 Many users prefer sticking to the raw Elasticsearch features for flexibility. The motto of search_flip is to keep the simple things simple while permitting complex functionalities. You can incorporate various Elasticsearch features alongside the chainable queries.
00:09:27.710 Exploring more complex aggregations, for instance, you can create a sales histogram restricted to specific price ranges, showing aggregations only for documents priced above certain thresholds.
00:09:55.880 With Search_flip, building such deeply nested aggregations is manageable while preserving code clarity. This approach results in readable and maintainable code without losing the powerful capabilities of Elasticsearch.
00:10:19.060 Let’s switch gears to a practical demo. I’ve prepared a movie index using IMDB data. When you create an index, you can define its structure within your Rails app, including mappings that may seem cumbersome but are essential.
00:10:49.990 It’s important to serialize your index properly. The movie index I’ve set up has a familiar structure, highlighting fields like movie names, release years, and ratings. Now let’s import specific records into the index.
00:11:17.340 For example, we might choose to import only movies that currently have a rating. Once indexed, querying allows us to find and sort these records effectively.
00:11:49.310 When we query the index, we can also look at the database records, ensuring that results are sorted correctly—something that doesn’t always happen with traditional database queries.
00:12:15.330 Returning to our querying capabilities, we have the ability to create range queries and utilize aggregation features to extract valuable insights from the dataset.
00:12:39.000 The elegance of Search_flip lies in these flexible interactions that make filtering and retrieving data intuitive, even as your queries grow in complexity.
00:13:06.710 As we enhance our query requests, they can start to become intricate quickly, transitioning from straightforward searches to more elaborate aggregations. The software’s design aims to accommodate this growth.
00:13:35.310 Finally, we can execute bulk actions such as deleting records using the queries established earlier, showcasing how seamless operations remain even in varying scenarios.
00:14:02.490 Integrating with Elasticsearch poses challenges, such as maintaining synchronization with your databases, which many gems struggle with. While Search_flip does not natively address syncing, it can leverage hooks to update your index using a streaming system.
00:14:28.540 Using tools like Kafka or Redis, ensures smooth operation across systems while keeping data accurate and up-to-date. In practical applications, especially in large datasets, it is vital to manage how data flows between services.
00:14:55.370 So, are there any questions? Throughout this journey, we have only touched upon the surface of what can be accomplished with Search_flip. Both your use case and curiosity will guide how you explore and implement these features.
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