A GraphQL library for .NET Core. Compiles queries into .NET Expressions (LinqProvider) for runtime execution against object graphs. E.g. against an ORM data model (EntityFramework or others) or just an in-memory object.


Keywords
GraphQL, data, expression, language, query, csharp, dotnet, graphql-server
License
MIT
Install
Install-Package EntityGraphQL -Version 5.2.0

Documentation

Entity GraphQL

A GraphQL library for .NET Core

Build

Head to entitygraphql.github.io for documentation and to get started.

EntityGraphQL is a .NET library that allows you to easily build a GraphQL API on top of your data model with the extensibility to easily bring multiple data sources together in the single GraphQL schema.

EntityGraphQL builds a GraphQL schema that maps to .NET objects. It provides the functionality to parse a GraphQL query document and execute that against your mapped objects. These objects can be an Entity Framework DbContext or any other .NET object, it doesn't matter.

A core feature of EntityGraphQL with Entity Framework (although EF is not a requirement) is that it builds selections of only the fields requested in the GraphQL query which means Entity Framework is not returning all columns from a table. This is done with the LINQ projection operator Select() hence it works across any object tree.

Please explore, give feedback or join the development.

Installation

The EntityGraphQL.AspNet Nuget package will get you easily set up with ASP.NET.

However the core EntityGraphQL Nuget package has no ASP.NET dependency.

Quick Start with Entity Framework

Note: There is no dependency on EF. Queries are compiled to IQueryable or IEnumberable linq expressions. EF is not a requirement - any ORM working with LinqProvider or an in-memory object will work - although EF well is tested.

1. Define your data context (in this example an EF context)

public class DemoContext : DbContext {
  public DbSet<Property> Properties { get; set; }
  public DbSet<PropertyType> PropertyTypes { get; set; }
  public DbSet<Location> Locations { get; set; }
}

public class Property {
  public uint Id { get; set; }
  public string Name { get; set; }
  public PropertyType Type { get; set; }
  public Location Location { get; set; }
}

public class PropertyType {
  public uint Id { get; set; }
  public string Name { get; set; }
  public decimal Premium { get; set; }
}

public class Location {
  public uint Id { get; set; }
  public string Name { get; set; }
}

2. Create a route

Here is an example for a ASP.NET. You will also need to install EntityGraphQL.AspNet to use MapGraphQL. You can also build you own endpoint, see docs.

Nuget

public class Startup {
  public void ConfigureServices(IServiceCollection services)
  {
      services.AddDbContext<DemoContext>(opt => opt.UseInMemoryDatabase());
      // This registers a SchemaProvider<DemoContext>
      services.AddGraphQLSchema<DemoContext>();
  }

  public void Configure(IApplicationBuilder app, DemoContext db)
  {
      app.UseRouting();
      app.UseEndpoints(endpoints =>
      {
          // default to /graphql endpoint
          endpoints.MapGraphQL<DemoContext>();
      });
  }
}

This sets up 1 end point:

  • POST at /graphql where the body of the post is a GraphQL query
  • You can authorize that route how you would any ASP.NET route. See Authorization below for details on having parts of the schema requiring Authorization/Claims

Note - As of version 1.1+ the EntityGraphQL.AspNet extension helper uses System.Text.Json. Previous versions used JSON.NET.

3. Build awesome applications

You can now make a request to your API. For example

  POST localhost:5000/graphql
  {
    properties { id name }
  }

Will return the following result.

{
  "data": {
    "properties": [
      {
        "id": 11,
        "name": "My Beach Pad"
      },
      {
        "id": 12,
        "name": "My Other Beach Pad"
      }
    ]
  }
}

Maybe you only want a specific property

  {
    property(id: 11) {
      id name
    }
  }

Will return the following result.

{
  "data": {
    "property": {
      "id": 11,
      "name": "My Beach Pad"
    }
  }
}

If you need a deeper graph or relations, just ask

  {
    properties {
      id
      name
      location {
        name
      }
      type {
        premium
      }
    }
  }

Will return the following result.

{
  "data": {
    "properties": [
      {
        "id": 11,
        "name": "My Beach Pad",
        "location": {
          "name": "Greece"
        },
        "type": {
          "premium": 1.2
        }
      },
      {
        "id": 12,
        "name": "My Other Beach Pad",
        "location": {
          "name": "Spain"
        },
        "type": {
          "premium": 1.25
        }
      }
    ]
  }
}

Visit documentation for more information.

Using expressions else where (EQL)

Lets say you have a screen in your application listing properties that can be configured per customer or user to only show exactly what they are interested in. Instead of having a bunch of checkboxes and complex radio buttons etc. you can allow a simple EQL statement to configure the results shown. Or use those UI components to build the query.

  // This might be a configured EQL statement for filtering the results. It has a context of Property
  (type.id = 2) or (type.id = 3) and type.name = "Farm"

This would compile to (Property p) => (p.Type.Id == 2 || p.Type.Id == 3) && p.Type.Name == "Farm";

This can then be used in various Linq functions either in memory or against an ORM.

// we create a schema provider to compile the statement against our Property type
var schemaProvider = SchemaBuilder.FromObject<Property>();
var compiledResult = EntityQueryCompiler.Compile(myConfigurationEqlStatement, schemaProvider);
// you get your list of Properties from you DB
var thingsToShow = myProperties.Where(compiledResult.LambdaExpression);

Another example is you want a customised calculated field. You can execute a compiled result passing in an instance of the context type.

// You'd take this from some configuration
var eql = @"if location.name = ""Mars"" then (cost + 5) * type.premium else (cost * type.premium) / 3"
var compiledResult = EntityQueryCompiler.Compile(eql, schemaProvider);
var theRealPrice = compiledResult.Execute<decimal>(myPropertyInstance);

Versioning

We do our best to follow Semantic Versioning:

Given a version number MAJOR.MINOR.PATCH, an increment in:

  • MAJOR version is when we make incompatible API changes,
  • MINOR version is when we add functionality in a backwards compatible manner, and
  • PATCH version is when we make backwards compatible bug fixes.

Contribute & Join the Development

Please do. Pull requests are very welcome. See the open issues for bugs or features that would be useful.