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	diff --git a/README.md b/README.md
	index 9cbea50..c04d75a 100644
	--- a/README.md
	+++ b/README.md
	@@ -1,384 +1,384 @@
	# Open API Spex
	[![Build Status](https://travis-ci.com/open-api-spex/open_api_spex.svg?branch=master)](https://travis-ci.com/open-api-spex/open_api_spex)
	[![Hex.pm](https://img.shields.io/hexpm/v/open_api_spex.svg)](https://hex.pm/packages/open_api_spex)


	Leverage Open Api Specification 3 (swagger) to document, test, validate and explore your Plug and Phoenix APIs.

	- Generate and serve a JSON Open Api Spec document from your code
	- Use the spec to cast request params to well defined schema structs
	- Validate params against schemas, eliminate bad requests before they hit your controllers
	- Validate responses against schemas in tests, ensuring your docs are accurate and reliable
	- Explore the API interactively with with [SwaggerUI](https://swagger.io/swagger-ui/)

	Full documentation available on [hexdocs](https://hexdocs.pm/open_api_spex/)

	## Installation

	The package can be installed by adding `open_api_spex` to your list of dependencies in `mix.exs`:

	```elixir
	def deps do
	[
	{:open_api_spex, "~> 3.4"}
	]
	end
	```

	## Generate Spec

	Start by adding an `ApiSpec` module to your application to populate an `OpenApiSpex.OpenApi` struct.

	```elixir
	defmodule MyAppWeb.ApiSpec do
	alias OpenApiSpex.{OpenApi, Server, Info, Paths}
	alias MyAppWeb.{Endpoint, Router}
	@behaviour OpenApi

	@impl OpenApi
	def spec do
	%OpenApi{
	servers: [
	# Populate the Server info from a phoenix endpoint
	Server.from_endpoint(Endpoint)
	],
	info: %Info{
	title: "My App",
	version: "1.0"
	},
	# populate the paths from a phoenix router
	paths: Paths.from_router(Router)
	}
	\|> OpenApiSpex.resolve_schema_modules() # discover request/response schemas from path specs
	end
	end
	```

	For each plug (controller) that will handle api requests, add an `open_api_operation` callback.
	It will be passed the plug opts that were declared in the router, this will be the action for a phoenix controller. The callback populates an `OpenApiSpex.Operation` struct describing the plug/action.

	```elixir
	defmodule MyAppWeb.UserController do
	alias OpenApiSpex.Operation
	alias MyAppWeb.Schemas.UserResponse

	@spec open_api_operation(atom) :: Operation.t()
	def open_api_operation(action) do
	operation = String.to_existing_atom("#{action}_operation")
	apply(__MODULE__, operation, [])
	end

	@spec show_operation() :: Operation.t()
	def show_operation() do
	%Operation{
	tags: ["users"],
	summary: "Show user",
	description: "Show a user by ID",
	operationId: "UserController.show",
	parameters: [
	Operation.parameter(:id, :path, :integer, "User ID", example: 123, required: true)
	],
	responses: %{
	200 => Operation.response("User", "application/json", UserResponse)
	}
	}
	end

	# Controller's `show` action
	def show(conn, %{id: id}) do
	{:ok, user} = MyApp.Users.find_by_id(id)
	json(conn, 200, user)
	end

	end
	```

	Alternatively, you can create an operation file separately using `defdelegate`.

	```elixir
	# Phoenix's controller
	defmodule MyAppWeb.UserController do
	defdelegate open_api_operation(action), to: MyAppWeb.UserApiOperation

	def show(conn, %{id: id}) do
	{:ok, user} = MyApp.Users.find_by_id(id)
	json(conn, 200, user)
	end
	end

	# Open API Spex operations
	defmodule MyAppWeb.UserApiOperation do
	alias OpenApiSpex.Operation
	alias MyAppWeb.Schemas.UserResponse

	@spec open_api_operation(atom) :: Operation.t()
	def open_api_operation(action) do
	operation = String.to_existing_atom("#{action}_operation")
	apply(__MODULE__, operation, [])
	end

	@spec show_operation() :: Operation.t()
	def show_operation() do
	%Operation{
	tags: ["users"],
	summary: "Show user",
	description: "Show a user by ID",
	operationId: "UserController.show",
	parameters: [
	Operation.parameter(:id, :path, :integer, "User ID", example: 123, required: true)
	],
	responses: %{
	200 => Operation.response("User", "application/json", UserResponse)
	}
	}
	end
	end
	```

	For examples of other action operations, see the
	[example web app](https://github.com/open-api-spex/open_api_spex/blob/master/examples/phoenix_app/lib/phoenix_app_web/controllers/user_controller.ex).

	Next, declare JSON schema modules for the request and response bodies.
	In each schema module, call `OpenApiSpex.schema/1`, passing the schema definition. The schema must
	have keys described in `OpenApiSpex.Schema.t`. This will define a `%OpenApiSpex.Schema{}` struct.
	This struct is made available from the `schema/0` public function, which is generated by `OpenApiSpex.schema/1`.

	You may optionally have the data described by the schema turned into a struct linked to the JSON schema by adding `"x-struct": __MODULE__`
	to the schema.

	```elixir
	defmodule MyAppWeb.Schemas do
	alias OpenApiSpex.Schema

	defmodule User do
	require OpenApiSpex

	OpenApiSpex.schema(%{
	title: "User",
	description: "A user of the app",
	type: :object,
	properties: %{
	id: %Schema{type: :integer, description: "User ID"},
	name: %Schema{type: :string, description: "User name", pattern: ~r/[a-zA-Z][a-zA-Z0-9_]+/},
	email: %Schema{type: :string, description: "Email address", format: :email},
	birthday: %Schema{type: :string, description: "Birth date", format: :date},
	inserted_at: %Schema{
	type: :string,
	description: "Creation timestamp",
	format: :"date-time"
	},
	updated_at: %Schema{type: :string, description: "Update timestamp", format: :"date-time"}
	},
	required: [:name, :email],
	example: %{
	"id" => 123,
	"name" => "Joe User",
	"email" => "joe@gmail.com",
	"birthday" => "1970-01-01T12:34:55Z",
	"inserted_at" => "2017-09-12T12:34:55Z",
	"updated_at" => "2017-09-13T10:11:12Z"
	}
	})
	end

	defmodule UserResponse do
	require OpenApiSpex

	OpenApiSpex.schema(%{
	title: "UserResponse",
	description: "Response schema for single user",
	type: :object,
	properties: %{
	data: User
	},
	example: %{
	"data" => %{
	"id" => 123,
	"name" => "Joe User",
	"email" => "joe@gmail.com",
	"birthday" => "1970-01-01T12:34:55Z",
	"inserted_at" => "2017-09-12T12:34:55Z",
	"updated_at" => "2017-09-13T10:11:12Z"
	}
	}
	})
	end
	end
	```

	For more examples of schema definitions, see the
	[sample Phoenix app](https://github.com/open-api-spex/open_api_spex/blob/master/examples/phoenix_app/lib/phoenix_app_web/schemas.ex)

	## Serve the Spec

	To serve the API spec from your application, first add the `OpenApiSpex.Plug.PutApiSpec` plug somewhere in the pipeline.

	```elixir
	pipeline :api do
	plug OpenApiSpex.Plug.PutApiSpec, module: MyAppWeb.ApiSpec
	end
	```

	Now the spec will be available for use in downstream plugs.
	The `OpenApiSpex.Plug.RenderSpec` plug will render the spec as JSON:

	```elixir
	scope "/api" do
	pipe_through :api
	resources "/users", MyAppWeb.UserController, only: [:create, :index, :show]
	get "/openapi", OpenApiSpex.Plug.RenderSpec, []
	end
	```

	## Generating the Spec

	Optionally, you can create a mix task to write the swagger file to disk:

	```elixir
	defmodule Mix.Tasks.MyApp.OpenApiSpec do
	def run([output_file]) do
	MyAppWeb.Endpoint.start_link() # Required if using for OpenApiSpex.Server.from_endpoint/1

	json =
	MyAppWeb.ApiSpec.spec()
	\|> Jason.encode!(pretty: true)

	:ok = File.write!(output_file, json)
	end
	end
	```

	Generate the file with: `mix my_app.openapispec spec.json`

	## Serve Swagger UI

	Once your API spec is available through a route (see "Serve the Spec"), the `OpenApiSpex.Plug.SwaggerUI` plug can be used to
	serve a SwaggerUI interface. The `path:` plug option must be supplied to give the path to the API spec.

	All JavaScript and CSS assets are sourced from cdnjs.cloudflare.com, rather than vendoring into this package.

	```elixir
	scope "/" do
	pipe_through :browser # Use the default browser stack

	get "/", MyAppWeb.PageController, :index
	get "/swaggerui", OpenApiSpex.Plug.SwaggerUI, path: "/api/openapi"
	end

	scope "/api" do
	pipe_through :api

	resources "/users", MyAppWeb.UserController, only: [:create, :index, :show]
	get "/openapi", OpenApiSpex.Plug.RenderSpec, []
	end
	```

	## Validating and Casting Params

	OpenApiSpex can automatically validate requests before they reach the controller action function. Or if you prefer,
	you can explicitly call on OpenApiSpex to cast and validate the params within the controller action. This section
	describes the former.

	First, the `plug OpenApiSpex.Plug.PutApiSpec` needs to be called in the Router, as described above.

	Add the `OpenApiSpex.Plug.CastAndValidate` plug to a controller to validate request parameters and to cast to Elixir types defined by the operation schema.

	```elixir
	# Phoenix
	plug OpenApiSpex.Plug.CastAndValidate
	# Plug
	plug OpenApiSpex.Plug.CastAndValidate, operation_id: "UserController.create
	```

	For Phoenix apps, the `operation_id` can be inferred from the contents of `conn.private`.

	```elixir
	defmodule MyAppWeb.UserController do
	use MyAppWeb, :controller
	alias OpenApiSpex.Operation
	alias MyAppWeb.Schemas.{User, UserRequest, UserResponse}

	plug OpenApiSpex.Plug.CastAndValidate

	def open_api_operation(action) do
	apply(__MODULE__, :"#{action}_operation", [])
	end

	def create_operation do
	import Operation
	%Operation{
	tags: ["users"],
	summary: "Create user",
	description: "Create a user",
	operationId: "UserController.create",
	parameters: [
	parameter(:id, :query, :integer, "user ID")
	],
	requestBody: request_body("The user attributes", "application/json", UserRequest),
	responses: %{
	201 => response("User", "application/json", UserResponse)
	}
	}
	end

	def create(conn = %{body_params: %UserRequest{user: %User{name: name, email: email, birthday: birthday = %Date{}}}}, %{id: id}) do
	# conn.body_params cast to UserRequest struct
	# conn.params.id cast to integer
	end
	end
	```

	Now the client will receive a 422 response whenever the request fails to meet the validation rules from the api spec.

	The response body will include the validation error message:

	```json
	{
	"errors": [
	{
	"message": "Invalid format. Expected :date",
	"source": {
	"pointer": "/data/birthday"
	},
	"title": "Invalid value"
	}
	]
	}
	```

	See also `OpenApiSpex.cast_value/3` for casting and validating outside of a `plug` pipeline.

	## Validate Examples

	As schemas evolve, you may want to confirm that the examples given match the schemas.
	Use the `OpenApiSpex.TestAssertions` module to assert on schema validations.

	```elixir
	use ExUnit.Case
	import OpenApiSpex.Test.TestAssertions

	test "UsersResponse example matches schema" do
	api_spec = MyAppWeb.ApiSpec.spec()
	schema = MyAppWeb.Schemas.UsersResponse.schema()
	assert_schema(schema.example, "UsersResponse", api_spec)
	end
	```

	## Validate Responses

	-API responses can be tested against schemas using `OpenApiSpex.Test.Assertions` also:
	+API responses can be tested against schemas using `OpenApiSpex.TestAssertions` also:

	```elixir
	use MyAppWeb.ConnCase
	import OpenApiSpex.TestAssertions

	test "UserController produces a UsersResponse", %{conn: conn} do
	api_spec = MyAppWeb.ApiSpec.spec()
	json =
	conn
	\|> get(user_path(conn, :index))
	\|> json_response(200)

	assert_schema(json, "UsersResponse", api_spec)
	end
	```
	diff --git a/test/schema_test.exs b/test/schema_test.exs
	index 8007155..e735eb2 100644
	--- a/test/schema_test.exs
	+++ b/test/schema_test.exs
	@@ -1,474 +1,474 @@
	defmodule OpenApiSpex.SchemaTest do
	use ExUnit.Case
	alias OpenApiSpex.Schema
	alias OpenApiSpexTest.{ApiSpec, Schemas}
	- import OpenApiSpex.Test.Assertions
	+ import OpenApiSpex.TestAssertions

	doctest Schema

	describe "schema/1" do
	test "EntityWithDict Schema example matches schema" do
	api_spec = ApiSpec.spec()
	assert_schema(Schemas.EntityWithDict.schema().example, "EntityWithDict", api_spec)
	end

	test "User Schema example matches schema" do
	spec = ApiSpec.spec()

	assert_schema(Schemas.User.schema().example, "User", spec)
	assert_schema(Schemas.UserRequest.schema().example, "UserRequest", spec)
	assert_schema(Schemas.UserResponse.schema().example, "UserResponse", spec)
	assert_schema(Schemas.UsersResponse.schema().example, "UsersResponse", spec)
	end
	end

	describe "cast/3" do
	test "cast request schema" do
	api_spec = ApiSpec.spec()
	schemas = api_spec.components.schemas
	user_request_schema = schemas["UserRequest"]

	input = %{
	"user" => %{
	"id" => 123,
	"name" => "asdf",
	"email" => "foo@bar.com",
	"updated_at" => "2017-09-12T14:44:55Z"
	}
	}

	{:ok, output} = Schema.cast(user_request_schema, input, schemas)

	assert output == %OpenApiSpexTest.Schemas.UserRequest{
	user: %OpenApiSpexTest.Schemas.User{
	id: 123,
	name: "asdf",
	email: "foo@bar.com",
	updated_at: DateTime.from_naive!(~N[2017-09-12T14:44:55], "Etc/UTC")
	}
	}
	end

	test "cast request schema with unexpected fields returns error" do
	api_spec = ApiSpec.spec()
	schemas = api_spec.components.schemas
	user_request_schema = schemas["UserRequest"]

	input = %{
	"user" => %{
	"id" => 123,
	"name" => "asdf",
	"email" => "foo@bar.com",
	"updated_at" => "2017-09-12T14:44:55Z",
	"unexpected_field" => "unexpected value"
	}
	}

	assert {:error, _} = Schema.cast(user_request_schema, input, schemas)
	end

	test "Cast Cat from Pet schema" do
	api_spec = ApiSpec.spec()
	schemas = api_spec.components.schemas
	pet_schema = schemas["Pet"]

	input = %{
	"pet_type" => "Cat",
	"meow" => "meow"
	}

	assert {:ok, %Schemas.Cat{meow: "meow", pet_type: "Cat"}} =
	Schema.cast(pet_schema, input, schemas)
	end

	test "Cast Dog from oneOf [cat, dog] schema" do
	api_spec = ApiSpec.spec()
	schemas = api_spec.components.schemas
	cat_or_dog = Map.fetch!(schemas, "CatOrDog")

	input = %{
	"pet_type" => "Dog",
	"bark" => "bowow"
	}

	assert {:ok, %Schemas.Dog{bark: "bowow", pet_type: "Dog"}} =
	Schema.cast(cat_or_dog, input, schemas)
	end

	test "Cast Cat from oneOf [cat, dog] schema" do
	api_spec = ApiSpec.spec()
	schemas = api_spec.components.schemas
	cat_or_dog = Map.fetch!(schemas, "CatOrDog")

	input = %{
	"pet_type" => "Cat",
	"meow" => "meow"
	}

	assert {:ok, %Schemas.Cat{meow: "meow", pet_type: "Cat"}} =
	Schema.cast(cat_or_dog, input, schemas)
	end

	test "Cast number to string or number" do
	schema = %Schema{
	oneOf: [
	%Schema{type: :number},
	%Schema{type: :string}
	]
	}

	result = Schema.cast(schema, "123", %{})

	assert {:ok, 123.0} = result
	end

	test "Cast integer to float" do
	schema = %Schema{type: :number}

	assert Schema.cast(schema, 123, %{}) === {:ok, 123.0}
	end

	test "Cast string to oneOf number or date-time" do
	schema = %Schema{
	oneOf: [
	%Schema{type: :number},
	%Schema{type: :string, format: :"date-time"}
	]
	}

	assert {:ok, %DateTime{}} = Schema.cast(schema, "2018-04-01T12:34:56Z", %{})
	end

	test "Cast string to anyOf number or date-time" do
	schema = %Schema{
	oneOf: [
	%Schema{type: :number},
	%Schema{type: :string, format: :"date-time"}
	]
	}

	assert {:ok, %DateTime{}} = Schema.cast(schema, "2018-04-01T12:34:56Z", %{})
	end
	end

	describe "Integer validation" do
	test "Validate schema type integer when value is object" do
	schema = %Schema{
	type: :integer
	}

	assert {:error, _} = Schema.validate(schema, %{}, %{})
	end
	end

	describe "Number validation" do
	test "Validate schema type number when value is object" do
	schema = %Schema{
	type: :integer
	}

	assert {:error, _} = Schema.validate(schema, %{}, %{})
	end

	test "Validate schema type number when value is exclusive" do
	schema = %Schema{
	type: :integer,
	minimum: -1,
	maximum: 1,
	exclusiveMinimum: true,
	exclusiveMaximum: true
	}

	assert {:error, _} = Schema.validate(schema, 1, %{})
	assert {:error, _} = Schema.validate(schema, -1, %{})
	end
	end

	describe "String validation" do
	test "Validate schema type string when value is object" do
	schema = %Schema{
	type: :string
	}

	assert {:error, _} = Schema.validate(schema, %{}, %{})
	end

	test "Validate schema type string when value is DateTime" do
	schema = %Schema{
	type: :string
	}

	assert {:error, _} = Schema.validate(schema, DateTime.utc_now(), %{})
	end

	test "Validate non-empty string with expected value" do
	schema = %Schema{type: :string, minLength: 1}
	assert :ok = Schema.validate(schema, "BLIP", %{})
	end
	end

	describe "DateTime validation" do
	test "Validate schema type string with format date-time when value is DateTime" do
	schema = %Schema{
	type: :string,
	format: :"date-time"
	}

	assert :ok = Schema.validate(schema, DateTime.utc_now(), %{})
	end
	end

	describe "Date Validation" do
	test "Validate schema type string with format date when value is Date" do
	schema = %Schema{
	type: :string,
	format: :date
	}

	assert :ok = Schema.validate(schema, Date.utc_today(), %{})
	end
	end

	describe "Enum validation" do
	test "Validate string enum with unexpected value" do
	schema = %Schema{
	type: :string,
	enum: ["foo", "bar"]
	}

	assert {:error, _} = Schema.validate(schema, "baz", %{})
	end

	test "Validate string enum with expected value" do
	schema = %Schema{
	type: :string,
	enum: ["foo", "bar"]
	}

	assert :ok = Schema.validate(schema, "bar", %{})
	end
	end

	describe "Object validation" do
	test "Validate schema type object when value is array" do
	schema = %Schema{
	type: :object
	}

	assert {:error, _} = Schema.validate(schema, [], %{})
	end

	test "Validate schema type object when value is DateTime" do
	schema = %Schema{
	type: :object
	}

	assert {:error, _} = Schema.validate(schema, DateTime.utc_now(), %{})
	end
	end

	describe "Array validation" do
	test "Validate schema type array when value is object" do
	schema = %Schema{
	type: :array
	}

	assert {:error, _} = Schema.validate(schema, %{}, %{})
	end
	end

	describe "Boolean validation" do
	test "Validate schema type boolean when value is object" do
	schema = %Schema{
	type: :boolean
	}

	assert {:error, _} = Schema.validate(schema, %{}, %{})
	end
	end

	describe "AnyOf validation" do
	test "Validate anyOf schema with valid value" do
	schema = %Schema{
	anyOf: [
	%Schema{type: :array},
	%Schema{type: :string}
	]
	}

	assert :ok = Schema.validate(schema, "a string", %{})
	end

	test "Validate anyOf with value matching more than one schema" do
	schema = %Schema{
	anyOf: [
	%Schema{type: :number},
	%Schema{type: :integer}
	]
	}

	assert :ok = Schema.validate(schema, 42, %{})
	end

	test "Validate anyOf schema with invalid value" do
	schema = %Schema{
	anyOf: [
	%Schema{type: :string},
	%Schema{type: :array}
	]
	}

	assert {:error, _} = Schema.validate(schema, 3.14159, %{})
	end
	end

	describe "OneOf validation" do
	test "Validate oneOf schema with valid value" do
	schema = %Schema{
	oneOf: [
	%Schema{type: :string},
	%Schema{type: :array}
	]
	}

	assert :ok = Schema.validate(schema, [1, 2, 3], %{})
	end

	test "Validate oneOf schema with invalid value" do
	schema = %Schema{
	oneOf: [
	%Schema{type: :string},
	%Schema{type: :array}
	]
	}

	assert {:error, _} = Schema.validate(schema, 3.14159, %{})
	end

	test "Validate oneOf schema when matching multiple schemas" do
	schema = %Schema{
	oneOf: [
	%Schema{type: :object, properties: %{a: %Schema{type: :string}}},
	%Schema{type: :object, properties: %{b: %Schema{type: :string}}}
	]
	}

	assert {:error, _} = Schema.validate(schema, %{a: "a", b: "b"}, %{})
	end
	end

	describe "AllOf validation" do
	test "Validate allOf schema with valid value" do
	schema = %Schema{
	allOf: [
	%Schema{type: :object, properties: %{a: %Schema{type: :string}}},
	%Schema{type: :object, properties: %{b: %Schema{type: :string}}}
	]
	}

	assert :ok = Schema.validate(schema, %{a: "a", b: "b"}, %{})
	end

	test "Validate allOf schema with invalid value" do
	schema = %Schema{
	allOf: [
	%Schema{type: :object, properties: %{a: %Schema{type: :string}}},
	%Schema{type: :object, properties: %{b: %Schema{type: :string}}}
	]
	}

	assert {:error, msg} = Schema.validate(schema, %{a: 1, b: 2}, %{})
	assert msg =~ "#/a"
	assert msg =~ "#/b"
	end

	test "Validate allOf with value matching not all schemas" do
	schema = %Schema{
	allOf: [
	%Schema{
	type: :integer,
	minimum: 5
	},
	%Schema{
	type: :integer,
	maximum: 40
	}
	]
	}

	assert {:error, _} = Schema.validate(schema, 42, %{})
	end
	end

	describe "Not validation" do
	test "Validate not schema with valid value" do
	schema = %Schema{
	not: %Schema{type: :object}
	}

	assert :ok = Schema.validate(schema, 1, %{})
	end

	test "Validate not schema with invalid value" do
	schema = %Schema{
	not: %Schema{type: :object}
	}

	assert {:error, _} = Schema.validate(schema, %{a: 1}, %{})
	end

	test "Verify 'not' validation" do
	schema = %Schema{not: %Schema{type: :boolean}}
	assert :ok = Schema.validate(schema, 42, %{})
	assert :ok = Schema.validate(schema, "42", %{})
	assert :ok = Schema.validate(schema, nil, %{})
	assert :ok = Schema.validate(schema, 4.2, %{})
	assert :ok = Schema.validate(schema, [4], %{})
	assert :ok = Schema.validate(schema, %{}, %{})
	assert {:error, _} = Schema.validate(schema, true, %{})
	assert {:error, _} = Schema.validate(schema, false, %{})
	end
	end

	describe "Nullable validation" do
	test "Validate nullable-ified with expected value" do
	schema = %Schema{
	nullable: true,
	type: :string,
	minLength: 1
	}

	assert :ok = Schema.validate(schema, "BLIP", %{})
	end

	test "Validate nullable with expected value" do
	schema = %Schema{type: :string, nullable: true}
	assert :ok = Schema.validate(schema, nil, %{})
	end

	test "Validate nullable with unexpected value" do
	schema = %Schema{type: :string, nullable: true}
	assert :ok = Schema.validate(schema, "bla", %{})
	end
	end

	describe "Default property value" do
	test "Available in structure" do
	size = %Schemas.Size{}
	assert "cm" == size.unit
	assert 100 == size.value
	end

	test "Available after cast" do
	api_spec = ApiSpec.spec()
	schemas = api_spec.components.schemas
	size = Map.fetch!(schemas, "Size")

	assert {:ok, %Schemas.Size{value: 100, unit: "cm"}} ==
	Schema.cast(size, %{}, schemas)

	assert {:ok, %Schemas.Size{value: 110, unit: "cm"}} ==
	Schema.cast(size, %{value: 110}, schemas)
	end
	end
	end

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