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Custom filter methods

Describes how to use custom filter methods in Optimizely Search & Navigation.

Use filters to narrow down search results and to add advanced search functionality to websites. The Optimizely Search & Navigation fluent API provides a set of filter methods you can extend.

The Filter method provides a powerful way of filtering out certain matching documents by accepting an expression that returns a filter. Create these expressions by using extension methods, such as the Match method. These extension methods are limited to operating on value types and strings but not on complex types. However, you can extend the filtering functionality in the following ways:

  • Create a custom extension method that returns a FilterExpression. This is the most common way.
  • Create extension methods that return an instance of the DelegateFilterBuilder class.

Return a FilterExpression

A FilterExpression is an object that encapsulates an expression that returns a Filter. When the query is executed, the FilterExpression is found and replaced by the expression it encapsulates. Finally, the field names in that expression are replaced with the corresponding field names on the server side.

The following example shows two classes: Author and BlogPost.

public class Author {
  public int Id {
    get;
    set;
  }
  public string Name {
    get;
    set;
  }
}

public class BlogPost {
  public string Title {
    get;
    set;
  }
  public Author {
    get;
    set;
  }
}

Assume that you want to find blog posts that have authors. Without a custom extension method, you cannot do that directly because there is no Exists method for the Author type. However, you know that authors have an Id (which is true because the Id is a value type and is 0 if not specified), so the following code can accomplish this.

client.Search<BlogPost>()
  .Filter(x => x.Author.Id.Exists());

Adding a custom extension method can make queries like this more convenient.

public static class AuthorFilters {
  public static FilterExpression < Author > Exists(this Author author) {
    return new FilterExpression < Author > (x => x.Id.Exists());
  }
}

Next, rewrite the original query to check for the existence of an author instead of the existence of the author ID.

client.Search<BlogPost>()
  .Filter(x => x.Author.Exists());

Alternatively, add a custom method for the BlogPost class.

public static class BlogPostFilters
  {
    public static FilterExpression<BlogPost> HasAuthor(this BlogPost blogPost)
      {
        return new FilterExpression<BlogPost>(x => x.Author.Id.Exists());
      }
  }

Then, your query can be:

client.Search<BlogPost>()
  .Filter(x => x.HasAuthor());

Extending the filtering functionality by creating extension methods that return FilterExpression is not limited to checking for existence or to single filters. Assuming that a user is logged in and a publication date exists on the BlogPost class, you can create a custom method for finding blog posts visible to the user.

public static class BlogPostFilters {
  public static FilterExpression < BlogPost > VisibleToUser(this BlogPost blogPost, User user) {
    return new FilterExpression < BlogPost > (x => x.PublicationDate.InRange(DateTime.Now, DateTime.MaxValue) |
      x.Author.Id.Match(user.Id));
  }
}

Return a DelegateFilterBuilder

Extension methods returning an instance of DelegateFilterBuilder are one level closer because the DelegateFilterBuilder constructor requires an expression that returns an actual filter. This means they are not as useful for extending the filtering functionality for complex types. Instead, they are useful for extending the filtering functionality using filters not exposed by the fluent API.