C# driver
Fauna’s open source C# driver provides the resources required to interact with FaunaDB for C# and Mono developers.
Install
Install the Nuget package by adding the package reference to your MSBuild project:
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<OutputType>Exe</OutputType>
<TargetFramework>netcoreapp3.1</TargetFramework>
</PropertyGroup>
<ItemGroup>
<PackageReference Include="FaunaDB.Client" Version="2.11.0" />
</ItemGroup>
</Project>
or by using your IDE and searching for FaunaDB.Client
.
Usage
Here is an example demonstrating how to use the C# driver to execute a simple query on FaunaDB:
using System;
using System.Collections.Generic;
using System.Threading.Tasks;
using FaunaDB.Client;
using FaunaDB.Types;
using static FaunaDB.Query.Language;
namespace FaunaDBProject
{
class FaunaDBHelloWorld
{
static readonly string ENDPOINT = "https://db.fauna.com:443";
static readonly string SECRET = "<<YOUR-SECRET-HERE>>";
static void ProcessData(Value[] values)
{
foreach (Value value in values)
{
//do something
}
}
static async Task DoQuery(FaunaClient client)
{
Value result = await client.Query(Paginate(Match(Index("spells"))));
IResult<Value[]> data = result.At("data").To<Value[]>();
data.Match(
Success: value => ProcessData(value),
Failure: reason => Console.WriteLine($"Something went wrong: {reason}")
);
}
public static void Main(string[] args)
{
var client = new FaunaClient(endpoint: ENDPOINT, secret: SECRET);
DoQuery(client).Wait();
}
}
}
How to instantiate a FaunaDB FaunaClient
var client = new FaunaClient(endpoint: ENDPOINT, secret: SECRET);
secret
is the only required argument. All other arguments are optional.
How to execute a query
Value result = await client.Query(Paginate(Match(Index("spells"))));
Query
methods receives an Expr
object. Expr
objects can be
composed with others Expr
to create complex query objects.
FaunaDB.Query.Language
is a helper class where you can find all
available expressions in the library.
How to access objects fields and convert to primitive values
Objects fields are accessed through At
methods of Value
class. It’s
possible to access fields by names if the value represents an object or
by index if it represents an array. Also, it’s possible to convert
Value
class to its primitive correspondent using To
methods
specifying a type.
IResult<Value[]> data = result.At("data").To<Value[]>();
How work with IResult<T>
objects
This object represents the result of an operation and it might be success or a failure. All conversion operations returns an object like this. This way it’s possible to avoid check for null-ability everywhere in the code.
data.Match(
Success: value => ProcessData(value),
Failure: reason => Console.WriteLine($"Something went wrong: {reason}")
);
Optionally it’s possible transform one IResult<T>
into another
IResult<U>
of different type using Map
and FlatMap
.
IResult<int> result = <<...>>;
IResult<string> result.Map(value => value.toString());
If result
represents an failure all calls to Map
and FlatMap
are
ignored. See FaunaDB.Types.Result
.
How to work with user-defined classes
Instead of manually creating your objects via the DSL (e.g. the Obj()
method), you may use the Encoder
class to convert a user-defined type
into the equivalent Value
type.
For example:
class Product
{
[FaunaField("description")]
public string Description { get; set; }
[FaunaField("price")]
public double Price { get; set; }
[FaunaConstructor]
public Product(string description, double price)
{
Description = description;
Price = price;
}
}
To persist an instance of Product
in FaunaDB:
Product product = new Product("Smartphone", 649.90);
await client.Query(
Create(
Collection("product"),
Obj("data", Encoder.Encode(product))
)
);
To convert from a Value
type back to the Product
type, you can use a
Decoder
:
Value value = await client.Query(Get(Ref(Collection("product"), "123456789")));
Product product = Decoder.Decode<Product>(value);
or via the To<T>()
helper method:
Value value = await client.Query(Get(Ref(Collection("product"), "123456789")));
IResult<Product> product = value.To<Product>();
Note that in this case the return type is IResult<T>
.
There are three attributes that can be used to change the behavior of
the Encoder
and Decoder
:
-
FaunaField
: Used to override a custom field name and/or provide a default value for that field. If this attribute is not specified, the member name will be used instead. Can be used on fields, properties and constructor arguments. -
FaunaConstructor
: Used to mark a constructor or a public static method as the method used to instantiate the specified type. This attribute can be used only once per class. -
FaunaIgnore
: Used to ignore a specific member. Can be used on fields, properties and constructors arguments. If used on a constructor argument, that argument must have a default value.
Encoder
and Decoder
can currently convert:
-
Primitive scalar types (
int
,long
,string
, etc.) -
Primitive arrays, generic collections such as
List<T>
, and their respective interfaces such asIList<T>
. -
Dictionaries with string keys, such as
Dictionary<string, T>
and its respective interfaceIDictionary<string, T>
.
Next steps
-
Driver repository: https://github.com/fauna/faunadb-csharp
-
For more information about the Fauna Query Language, consult our query language reference documentation.
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