Hot Chocolatev13
This is documentation for v13, which is no longer actively maintained.
For up-to-date documentation, see the latest stable version.

Filtering

With Hot Chocolate filters, you can expose complex filter objects through your GraphQL API that translates to native database queries. The default filter implementation translates filters to expression trees that are applied to IQueryable. Hot Chocolate by default will inspect your .NET model and infer the possible filter operations from it. Filters use IQueryable (IEnumerable) by default, but you can also easily customize them to use other interfaces.

The following type would yield the following filter operations:

C#
public class Foo
{
public string Bar { get; set; }
}
SDL
input FooFilterInput {
and: [FooFilterInput!]
or: [FooFilterInput!]
name: StringOperationFilterInput
}
input StringOperationFilterInput {
and: [StringOperationFilterInput!]
or: [StringOperationFilterInput!]
eq: String
neq: String
contains: String
ncontains: String
in: [String]
nin: [String]
startsWith: String
nstartsWith: String
endsWith: String
nendsWith: String
}

Getting started

Filtering is part of the HotChocolate.Data package.

Bash
dotnet add package HotChocolate.Data
Warning
All HotChocolate.* packages need to have the same version.

To use filtering you need to register it on the schema:

C#
services.AddGraphQLServer()
// Your schema configuration
.AddFiltering();

Hot Chocolate will infer the filters directly from your .Net Model and then use a Middleware to apply filters to IQueryable<T> or IEnumerable<T> on execution.

C#
public class Query
{
[UseFiltering]
public IQueryable<User> GetUsers([Service] IUserRepository repository)
=> repository.GetUsers();
}

⚠️ Note: If you use more than one middleware, keep in mind that ORDER MATTERS. The correct order is UsePaging > UseProjections > UseFiltering > UseSorting

Customization

Under the hood, filtering is based on top of normal Hot Chocolate input types. You can easily customize them with a very familiar fluent interface. The filter input types follow the same descriptor scheme as you are used to from the normal input types. Just extend the base class FilterInputType<T> and override the descriptor method.

IFilterInputTypeDescriptor<T> supports most of the methods of IInputTypeDescriptor<T>. By default filters for all fields of the type are generated. If you do want to specify the filters by yourself you can change this behavior with BindFields, BindFieldsExplicitly or BindFieldsImplicitly. When fields are bound implicitly, meaning filters are added for all properties, you may want to hide a few fields. You can do this with Ignore(x => Bar). It is also possible to customize the GraphQL field of the operation further. You can change the name, add a description or directive.

C#
public class UserFilterType : FilterInputType<User>
{
protected override void Configure(
IFilterInputTypeDescriptor<User> descriptor)
{
descriptor.BindFieldsExplicitly();
descriptor.Field(f => f.Name).Name("custom_name");
}
}

If you want to limit the operations on a field, you need to declare you own operation type. Given you want to only allow eq and neq on a string field, this could look like this

C#
public class UserFilterType : FilterInputType<User>
{
protected override void Configure(
IFilterInputTypeDescriptor<User> descriptor)
{
descriptor.BindFieldsExplicitly();
descriptor.Field(f => f.Name).Type<CustomStringOperationFilterInputType>();
}
}
public class CustomStringOperationFilterInputType : StringOperationFilterInputType
{
protected override void Configure(IFilterInputTypeDescriptor descriptor)
{
descriptor.Operation(DefaultFilterOperations.Equals).Type<StringType>();
descriptor.Operation(DefaultFilterOperations.NotEquals).Type<StringType>();
}
}
SDL
input UserFilterInput {
and: [UserFilterInput!]
or: [UserFilterInput!]
name: CustomStringOperationFilterInput
}
input CustomStringOperationFilterInput {
and: [CustomStringOperationFilterInput!]
or: [CustomStringOperationFilterInput!]
eq: String
neq: String
}

To apply this filter type we just have to provide it to the UseFiltering extension method with as the generic type argument.

C#
public class Query
{
[UseFiltering(typeof(UserFilterType))]
public IQueryable<User> GetUsers([Service] IUserRepository repository)
=> repository.GetUsers();
}

"and" / "or" Filter

There are two built in fields.

  • and: Every condition has to be valid
  • or : At least one condition has to be valid

Example:

GraphQL
query {
posts(
first: 5
where: {
or: [{ title: { contains: "Doe" } }, { title: { contains: "John" } }]
}
) {
edges {
node {
id
title
}
}
}
}

⚠️ or does not work when you use it like this:

GraphQL
query {
posts(
first: 5
where: { title: { contains: "John", or: { title: { contains: "Doe" } } } }
) {
edges {
node {
id
title
}
}
}
}

In this case the filters are applied like title.Contains("John") && title.Contains("Doe") rather than title.Contains("John") || title.Contains("Doe") how you probably intended it.

Removing "and" / "or"

If you do not want to expose and and or you can remove these fields with the descriptor API:

C#
public class UserFilterType : FilterInputType<User>
{
protected override void Configure(
IFilterInputTypeDescriptor<User> descriptor)
{
descriptor.AllowAnd(false).AllowOr(false);
}
}

Filter Types

Boolean Filter

Defined the filter operations of a bool field.

C#
public class User
{
public bool IsOnline { get; set; }
}
public class Query
{
[UseFiltering]
public IQueryable<User> GetUsers([Service] IUserRepository repository)
=> repository.GetUsers();
}
SDL
type Query {
users(where: UserFilterInput): [User]
}
input BooleanOperationFilterInput {
eq: Boolean
neq: Boolean
}
input UserFilterInput {
and: [UserFilterInput!]
or: [UserFilterInput!]
isOnline: BooleanOperationFilterInput
}

Comparable Filter

Defines filters for IComparables like: bool, byte, shot, int, long, float, double decimal, Guid, DateTime, DateTimeOffset and TimeSpan

C#
public class User
{
public int LoginAttempts { get; set; }
}
public class Query
{
[UseFiltering]
public IQueryable<User> GetUsers([Service] IUserRepository repository)
=> repository.GetUsers();
}
SDL
type Query {
users(where: UserFilterInput): [User]
}
input ComparableOperationInt32FilterInput {
eq: Int
neq: Int
in: [Int!]
nin: [Int!]
gt: Int
ngt: Int
gte: Int
ngte: Int
lt: Int
nlt: Int
lte: Int
nlte: Int
}
input UserFilterInput {
and: [UserFilterInput!]
or: [UserFilterInput!]
loginAttempts: ComparableOperationInt32FilterInput
}

String Filter

Defines filters for string

C#
public class User
{
public string Name { get; set; }
}
public class Query
{
[UseFiltering]
public IQueryable<User> GetUsers([Service] IUserRepository repository)
=> repository.GetUsers();
}
SDL
type Query {
users(where: UserFilterInput): [User]
}
input StringOperationFilterInput {
and: [StringOperationFilterInput!]
or: [StringOperationFilterInput!]
eq: String
neq: String
contains: String
ncontains: String
in: [String]
nin: [String]
startsWith: String
nstartsWith: String
endsWith: String
nendsWith: String
}
input UserFilterInput {
and: [UserFilterInput!]
or: [UserFilterInput!]
name: StringOperationFilterInput
}

Enum Filter

Defines filters for C# enums

C#
public enum Role {
Default,
Moderator,
Admin
}
public class User
{
public Role Role { get; set; }
}
public class Query
{
[UseFiltering]
public IQueryable<User> GetUsers([Service] IUserRepository repository)
=> repository.GetUsers();
}
SDL
type Query {
users(where: UserFilterInput): [User]
}
input RoleOperationFilterInput {
eq: Role
neq: Role
in: [Role!]
nin: [Role!]
}
input UserFilterInput {
and: [UserFilterInput!]
or: [UserFilterInput!]
kind: RoleOperationFilterInput
}

Object Filter

An object filter is generated for all nested objects. The object filter can also be used to filter over database relations. For each nested object, filters are generated.

C#
public class User
{
public Address Address { get; set; }
}
public class Address
{
public string Street { get; set; }
public bool IsPrimary { get; set; }
}
public class Query
{
[UseFiltering]
public IQueryable<User> GetUsers([Service] IUserRepository repository)
=> repository.GetUsers();
}
SDL
type Query {
users(where: UserFilterInput): [User]
}
input AddressFilterInput {
and: [AddressFilterInput!]
or: [AddressFilterInput!]
street: StringOperationFilterInput
isPrimary: BooleanOperationFilterInput
}
input BooleanOperationFilterInput {
eq: Boolean
neq: Boolean
}
input StringOperationFilterInput {
and: [StringOperationFilterInput!]
or: [StringOperationFilterInput!]
eq: String
neq: String
contains: String
ncontains: String
in: [String]
nin: [String]
startsWith: String
nstartsWith: String
endsWith: String
nendsWith: String
}
input UserFilterInput {
and: [UserFilterInput!]
or: [UserFilterInput!]
address: AddressFilterInput
}

List Filter

List filters are generated for all nested enumerations.

C#
public class User
{
public string[] Roles { get; set; }
public IEnumerable<Address> Addresses { get; set; }
}
public class Address
{
public string Street { get; set; }
public bool IsPrimary { get; set; }
}
public class Query
{
[UseFiltering]
public IQueryable<User> GetUsers([Service] IUserRepository repository)
=> repository.GetUsers();
}
SDL
type Query {
users(where: UserFilterInput): [User]
}
input AddressFilterInput {
and: [AddressFilterInput!]
or: [AddressFilterInput!]
street: StringOperationFilterInput
isPrimary: BooleanOperationFilterInput
}
input BooleanOperationFilterInput {
eq: Boolean
neq: Boolean
}
input ListAddressFilterInput {
all: AddressFilterInput
none: AddressFilterInput
some: AddressFilterInput
any: Boolean
}
input ListStringOperationFilterInput {
all: StringOperationFilterInput
none: StringOperationFilterInput
some: StringOperationFilterInput
any: Boolean
}
input StringOperationFilterInput {
and: [StringOperationFilterInput!]
or: [StringOperationFilterInput!]
eq: String
neq: String
contains: String
ncontains: String
in: [String]
nin: [String]
startsWith: String
nstartsWith: String
endsWith: String
nendsWith: String
}
input UserFilterInput {
and: [UserFilterInput!]
or: [UserFilterInput!]
roles: ListStringOperationFilterInput
addresses: ListAddressFilterInput
}

Filter Conventions

If you want to change the behavior filtering globally, you want to create a convention for your filters. The filter convention comes with a fluent interface that is close to a type descriptor.

Get Started

To use a filter convention you can extend FilterConvention and override the Configure method. Alternatively, you can directly configure the convention over the constructor argument. You then have to register your custom convention on the schema builder with AddConvention. By default a new convention is empty. To add the default behavior you have to add AddDefaults.

C#
public class CustomConvention : FilterConvention
{
protected override void Configure(IFilterConventionDescriptor descriptor)
{
descriptor.AddDefaults();
}
}
services.AddGraphQLServer()
.AddConvention<IFilterConvention, CustomConvention>();
// or
services.AddGraphQLServer()
.AddConvention<IFilterConvention>(new FilterConvention(x =>
x.AddDefaults()))

Often you just want to extend the default behavior of filtering. If this is the case, you can also use FilterConventionExtension

C#
public class CustomConventionExtension : FilterConventionExtension
{
protected override void Configure(IFilterConventionDescriptor descriptor)
{
// config
}
}
services.AddGraphQLServer()
.AddConvention<IFilterConvention, CustomConventionExtension>();
// or
services.AddGraphQLServer()
.AddConvention<IFilterConvention>(new FilterConventionExtension(x =>
{
// config
}));

Argument Name

With the convention descriptor, you can easily change the argument name of the FilterInputType.

Configuration

C#
descriptor.ArgumentName("example_argument_name");

Result

SDL
type Query {
users(example_argument_name: UserFilter): [User]
}

Binding of FilterTypes

FilterInputType's can be registered like any other type on the schema.

Configuration

C#
public class UserFilterInput : FilterInputType<User>
{
protected override void Configure(
IFilterInputTypeDescriptor<User> descriptor)
{
descriptor.Field(x => x.Name).Description("This is the name");
}
}
C#
services
.AddGraphQLServer()
.AddFiltering()
.AddType<UserFilterInput>()
...;

In case you use custom conventions, you can also bind the filter types on your convention.

C#
public class CustomFilterConvention : FilterConvention
{
protected override void Configure(IFilterConventionDescriptor descriptor)
{
descriptor.BindRuntimeType<User, UserFilterInput>()
}
}

Result

SDL
type Query {
users(where: UserFilterInput): [User]
}
type User {
name: String!
}
input UserFilterInput {
and: [UserFilterInput!]
or: [UserFilterInput!]
"This is the name"
name: StringOperationFilterInput
}
# ... StringOperationFilterInput left out for brevity

Scalars / Operation Input Types

This is also required when you use HotChocolate.Types.Scalars!

When you add custom scalars, you will have to create custom filter types. Scalars are mapped to a FilterInputType that defines the operations that are possible for this scalar. The built-in scalars are already mapped to matching filter types. For custom scalars, or scalars from HotChocolate.Types.Scalars, you have to create and bind types.

C#
public class EmailAddressOperationFilterInputType : FilterInputType
{
protected override void Configure(IFilterInputTypeDescriptor descriptor)
{
descriptor.Operation(DefaultFilterOperations.Equals).Type<EmailAddressType>();
descriptor.Operation(DefaultFilterOperations.NotEquals).Type<EmailAddressType>();
descriptor.Operation(DefaultFilterOperations.Contains).Type<EmailAddressType>();
descriptor.Operation(DefaultFilterOperations.NotContains).Type<EmailAddressType>();
descriptor.Operation(DefaultFilterOperations.In).Type<ListType<EmailAddressType>>();
descriptor.Operation(DefaultFilterOperations.NotIn).Type<ListType<EmailAddressType>>();
descriptor.Operation(DefaultFilterOperations.StartsWith).Type<EmailAddressType>();
descriptor.Operation(DefaultFilterOperations.NotStartsWith).Type<EmailAddressType>();
descriptor.Operation(DefaultFilterOperations.EndsWith).Type<EmailAddressType>();
descriptor.Operation(DefaultFilterOperations.NotEndsWith).Type<EmailAddressType>();
}
}

For comparable value types, you can use the ComparableOperationFilterInputType<T> base class.

C#
public class UnsignedIntOperationFilterInputType
: ComparableOperationFilterInputType<UnsignedIntType>
{
protected override void Configure(IFilterInputTypeDescriptor descriptor)
{
descriptor.Name("UnsignedIntOperationFilterInputType");
base.Configure(descriptor);
}
}

These types have to be registered on the filter convention:

C#
services
.AddGraphQLServer()
.AddFiltering(x => x.AddDefaults().BindRuntimeType<uint, UnsignedIntOperationFilterInputType>())
...;

Extend FilterTypes

Instead of defining your own operation type, you can also just change the configuration of the built in ones. You can use Configure<TFilterType>() to alter the configuration of a type.

C#
descriptor.Configure<StringOperationFilterInput>(
x => x.Operation(DefaultFilterOperations.Equals).Description("Equals"))
SDL
input StringOperationFilterInput {
and: [StringOperationFilterInput!]
or: [StringOperationFilterInput!]
"Equals"
eq: String
neq: String
contains: String
ncontains: String
in: [String]
nin: [String]
startsWith: String
nstartsWith: String
endsWith: String
nendsWith: String
}