# Sieve ⚗️ Sieve is a simple, clean, and extensible framework for .NET Core that **adds sorting, filtering, and pagination functionality out of the box**. Most common use case would be for serving ASP.NET Core GET queries. [![NuGet Release](https://img.shields.io/nuget/v/Sieve.svg?style=flat-square)](https://www.nuget.org/packages/Sieve) [Get Sieve on nuget](https://www.nuget.org/packages/Sieve/) ## Usage for ASP.NET Core In this example, consider an app with a `Post` entity. We'll use Sieve to add sorting, filtering, and pagination capabilities when GET-ing all available posts. ### 1. Add required services Inject the `SieveProcessor` service. So in `Startup.cs` add: ``` services.AddScoped(); ``` ### 2. Tell Sieve which properties you'd like to sort/filter in your models Sieve will only sort/filter properties that have the attribute `[Sieve(CanSort = true, CanFilter = true)]` on them (they don't have to be both true). So for our `Post` entity model example: ``` public int Id { get; set; } [Sieve(CanFilter = true, CanSort = true)] public string Title { get; set; } [Sieve(CanFilter = true, CanSort = true)] public int LikeCount { get; set; } [Sieve(CanFilter = true, CanSort = true)] public int CommentCount { get; set; } [Sieve(CanFilter = true, CanSort = true, name = "created")] public DateTimeOffset DateCreated { get; set; } = DateTimeOffset.UtcNow; ``` There is also the `name` parameter that you can use to have a different name for use by clients. ### 3. Get sort/filter/page queries by using the Sieve model in your controllers In the action that handles returning Posts, use `SieveModel` to get the sort/filter/page query. Apply it to your data by injecting `SieveProcessor` into the controller and using its `ApplyAll` method. So for instance: ``` [HttpGet] public JsonResult GetPosts(SieveModel sieveModel) { var result = _dbContext.Posts.AsNoTracking(); // Makes read-only queries faster result = _sieveProcessor.ApplyAll(sieveModel, result); // Returns `result` after applying the sort/filter/page query in `SieveModel` to it return Json(result.ToList()); } ``` There are also `ApplySorting`, `ApplyFiltering`, and `ApplyPagination` methods. ### 4. Send a request [Send a request](#send-a-request) ### Add custom sort/filter methods If you want to add custom sort/filter methods, inject `ISieveCustomSortMethods` or `ISieveCustomFilterMethods` with the implementation being a class that has custom sort/filter methods that Sieve will through. For instance: ``` services.AddScoped(); services.AddScoped(); ``` Where `SieveCustomSortMethodsOfPosts` for example is: ``` public class SieveCustomSortMethods : ISieveCustomSortMethods { public IQueryable Popularity(IQueryable source, bool useThenBy, bool desc) // The method is given an indicator of weather to use ThenBy(), and if the query is descending { var result = useThenBy ? ((IOrderedQueryable)source).ThenBy(p => p.LikeCount) : // ThenBy only works on IOrderedQueryable source.OrderBy(p => p.LikeCount) .ThenBy(p => p.CommentCount) .ThenBy(p => p.DateCreated); return result; // Must return modified IQueryable } } ``` And `SieveCustomFilterMethods`: ``` public class SieveCustomFilterMethods : ISieveCustomFilterMethods { public IQueryable IsNew(IQueryable source, string op, string value) // The method is given the {Operator} & {Value} { var result = source.Where(p => p.LikeCount < 100 && p.CommentCount < 5); return result; // Must return modified IQueryable } } ``` ### Configure Sieve Use the [ASP.NET Core options pattern](https://docs.microsoft.com/en-us/aspnet/core/fundamentals/configuration/options) with `SieveOptions` to tell Sieve where to look for configuration. For example: ``` services.Configure(Configuration.GetSection("Sieve")); ``` Then you can add the configuration: ``` { "Sieve": { "CaseSensitive": `boolean: should property names be case-sensitive? Defaults to false`, "DefaultPageSize": `number: optional number to fallback to when no page argument is given` } } ``` ## Send a request With all the above in place, you can now send a GET request that includes a sort/filter/page query. An example: ``` GET /GetPosts ?sorts= LikeCount,CommentCount,-created // sort by likes, then comments, then descendingly by date created &filters= LikeCount>10, Title@=awesome title, // filter to posts with more than 10 likes, and a title that contains the phrase "awesome title" &page= 1 // get the first page... &pageSize= 10 // ...which contains 10 posts ``` More formally: * `sorts` is a comma-delimited ordered list of property names to sort by. Adding a `-` before the name switches to sorting descendingly. * `filters` is a comma-delimited list of `{Name}{Operator}{Value}` where * `{Name}` is the name of a property with the Sieve attribute or the name of a custom filter method for TEntity * `{Operator}` is one of the [Operators](#operators) * `{Value}` is the value to use for filtering * `page` is the number of page to return * `pageSize` is the number of items returned per page Notes: * Don't forget to remove commas from any `{Value}` fields * You can have spaces anywhere except *within* `{Name}` or `{Operator}` fields * Here's a [good example on how to work with arrays](https://github.com/Biarity/Sieve/issues/2) ### Creating your own DSL You can replace this DSL with your own (eg. use JSON instead) by implementing an [ISieveModel](https://github.com/Biarity/Sieve/blob/master/Sieve/Models/ISieveModel.cs). You can use the default [SieveModel](https://github.com/Biarity/Sieve/blob/master/Sieve/Models/SieveModel.cs) for reference. ### Operators | Operator | Meaning | |------------|--------------------------| | `==` | Equals | | `!=` | Not equals | | `>` | Greater than | | `<` | Less than | | `>=` | Greater than or equal to | | `<=` | Less than or equal to | | `@=` | Contains | | `_=` | Starts with | ### Example project You can find an example project incorporating most Sieve concepts in [SieveTests](https://github.com/Biarity/Sieve/tree/master/SieveTests). ## License & Contributing Sieve is licensed under Apache 2.0. Any contributions highly appreciated!