Ecto v3.4.5 Ecto.Type behaviour View Source

Defines functions and the Ecto.Type behaviour for implementing custom types.

A custom type expects 4 functions to be implemented, all documented and described below. We also provide two examples of how custom types can be used in Ecto to augment existing types or providing your own types.

Note: nil values are always bypassed and cannot be handled by custom types.

Example

Imagine you want to store an URI struct as part of a schema in an url-shortening service. There isn't an Ecto field type to support that value at runtime, therefore a custom one is needed.

You also want to query not only by the full url, but for example by specific ports used. This is possible by putting the URI data into a map field instead of just storing the plain string representation.

from s in ShortUrl,
  where: fragment("?->>? ILIKE ?", s.original_url, "port", "443")

So the custom type does need to handle the conversion from external data to runtime data (cast/1) as well as transforming that runtime data into the :map Ecto native type and back (dump/1 and load/1).

defmodule EctoURI do
  use Ecto.Type
  def type, do: :map

  # Provide custom casting rules.
  # Cast strings into the URI struct to be used at runtime
  def cast(uri) when is_binary(uri) do
    {:ok, URI.parse(uri)}
  end

  # Accept casting of URI structs as well
  def cast(%URI{} = uri), do: {:ok, uri}

  # Everything else is a failure though
  def cast(_), do: :error

  # When loading data from the database, as long as it's a map,
  # we just put the data back into an URI struct to be stored in
  # the loaded schema struct.
  def load(data) when is_map(data) do
    data =
      for {key, val} <- data do
        {String.to_existing_atom(key), val}
      end
    {:ok, struct!(URI, data)}
  end

  # When dumping data to the database, we *expect* an URI struct
  # but any value could be inserted into the schema struct at runtime,
  # so we need to guard against them.
  def dump(%URI{} = uri), do: {:ok, Map.from_struct(uri)}
  def dump(_), do: :error
end

Now we can use our new field type above in our schemas:

defmodule ShortUrl do
  use Ecto.Schema

  schema "posts" do
    field :original_url, EctoURI
  end
end

Link to this section Summary

Types

Custom types are represented by user-defined modules.

Primitive Ecto types (handled by Ecto).

t()

An Ecto type, primitive or custom.

Functions

Checks if the given atom can be used as base type.

Casts a value to the given type.

Checks if the given atom can be used as composite type.

Dumps a value to the given type.

Dumps a value to the given type.

Gets how the type is treated inside embeds for the given format.

Dumps the value for type considering it will be embedded in format.

Loads the value for type considering it was embedded in format.

Checks if two terms are equal.

Loads a value with the given type.

Loads a value with the given type.

Checks if a given type matches with a primitive type that can be found in queries.

Checks if we have a primitive type.

Retrieves the underlying schema type for the given, possibly custom, type.

Callbacks

Casts the given input to the custom type.

Dumps the given term into an Ecto native type.

Dictates how the type should be treated inside embeds.

Checks if two terms are semantically equal.

Loads the given term into a custom type.

Returns the underlying schema type for the custom type.

Link to this section Types

Specs

base() ::
  :integer
  | :float
  | :boolean
  | :string
  | :map
  | :binary
  | :decimal
  | :id
  | :binary_id
  | :utc_datetime
  | :naive_datetime
  | :date
  | :time
  | :any
  | :utc_datetime_usec
  | :naive_datetime_usec
  | :time_usec

Specs

composite() :: {:array, t()} | {:map, t()} | private_composite()

Specs

custom() :: module()

Custom types are represented by user-defined modules.

Specs

primitive() :: base() | composite()

Primitive Ecto types (handled by Ecto).

Specs

t() :: primitive() | custom()

An Ecto type, primitive or custom.

Link to this section Functions

Specs

base?(atom()) :: boolean()

Checks if the given atom can be used as base type.

iex> base?(:string)
true
iex> base?(:array)
false
iex> base?(Custom)
false

Specs

cast(t(), term()) :: {:ok, term()} | {:error, keyword()} | :error

Casts a value to the given type.

cast/2 is used by the finder queries and changesets to cast outside values to specific types.

Note that nil can be cast to all primitive types as data stores allow nil to be set on any column.

NaN and infinite decimals are not supported, use custom types instead.

iex> cast(:any, "whatever")
{:ok, "whatever"}

iex> cast(:any, nil)
{:ok, nil}
iex> cast(:string, nil)
{:ok, nil}

iex> cast(:integer, 1)
{:ok, 1}
iex> cast(:integer, "1")
{:ok, 1}
iex> cast(:integer, "1.0")
:error

iex> cast(:id, 1)
{:ok, 1}
iex> cast(:id, "1")
{:ok, 1}
iex> cast(:id, "1.0")
:error

iex> cast(:float, 1.0)
{:ok, 1.0}
iex> cast(:float, 1)
{:ok, 1.0}
iex> cast(:float, "1")
{:ok, 1.0}
iex> cast(:float, "1.0")
{:ok, 1.0}
iex> cast(:float, "1-foo")
:error

iex> cast(:boolean, true)
{:ok, true}
iex> cast(:boolean, false)
{:ok, false}
iex> cast(:boolean, "1")
{:ok, true}
iex> cast(:boolean, "0")
{:ok, false}
iex> cast(:boolean, "whatever")
:error

iex> cast(:string, "beef")
{:ok, "beef"}
iex> cast(:binary, "beef")
{:ok, "beef"}

iex> cast(:decimal, Decimal.new("1.0"))
{:ok, Decimal.new("1.0")}

iex> cast({:array, :integer}, [1, 2, 3])
{:ok, [1, 2, 3]}
iex> cast({:array, :integer}, ["1", "2", "3"])
{:ok, [1, 2, 3]}
iex> cast({:array, :string}, [1, 2, 3])
:error
iex> cast(:string, [1, 2, 3])
:error

Specs

composite?(atom()) :: boolean()

Checks if the given atom can be used as composite type.

iex> composite?(:array)
true
iex> composite?(:string)
false

Specs

dump(t(), term()) :: {:ok, term()} | :error

Dumps a value to the given type.

Opposite to casting, dumping requires the returned value to be a valid Ecto type, as it will be sent to the underlying data store.

iex> dump(:string, nil)
{:ok, nil}
iex> dump(:string, "foo")
{:ok, "foo"}

iex> dump(:integer, 1)
{:ok, 1}
iex> dump(:integer, "10")
:error

iex> dump(:binary, "foo")
{:ok, "foo"}
iex> dump(:binary, 1)
:error

iex> dump({:array, :integer}, [1, 2, 3])
{:ok, [1, 2, 3]}
iex> dump({:array, :integer}, [1, "2", 3])
:error
iex> dump({:array, :binary}, ["1", "2", "3"])
{:ok, ["1", "2", "3"]}
Link to this function

dump(type, value, dumper)

View Source

Specs

dump(t(), term(), (t(), term() -> {:ok, term()} | :error)) ::
  {:ok, term()} | :error

Dumps a value to the given type.

This function behaves the same as dump/2, except for composite types the given dumper function is used.

Gets how the type is treated inside embeds for the given format.

See embed_as/1.

Link to this function

embedded_dump(type, value, format)

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Dumps the value for type considering it will be embedded in format.

Examples

iex> Ecto.Type.embedded_dump(:decimal, Decimal.new("1"), :json)
{:ok, Decimal.new("1")}
Link to this function

embedded_load(type, value, format)

View Source

Loads the value for type considering it was embedded in format.

Examples

iex> Ecto.Type.embedded_load(:decimal, "1", :json)
{:ok, Decimal.new("1")}
Link to this function

equal?(type, term1, term2)

View Source

Specs

equal?(t(), term(), term()) :: boolean()

Checks if two terms are equal.

Depending on the given type performs a structural or semantical comparison.

Examples

iex> equal?(:integer, 1, 1)
true
iex> equal?(:decimal, Decimal.new("1"), Decimal.new("1.00"))
true

Specs

load(t(), term()) :: {:ok, term()} | :error

Loads a value with the given type.

iex> load(:string, nil)
{:ok, nil}
iex> load(:string, "foo")
{:ok, "foo"}

iex> load(:integer, 1)
{:ok, 1}
iex> load(:integer, "10")
:error
Link to this function

load(type, value, loader)

View Source

Specs

load(t(), term(), (t(), term() -> {:ok, term()} | :error)) ::
  {:ok, term()} | :error

Loads a value with the given type.

This function behaves the same as load/2, except for composite types the given loader function is used.

Link to this function

match?(schema_type, query_type)

View Source

Specs

match?(t(), primitive()) :: boolean()

Checks if a given type matches with a primitive type that can be found in queries.

iex> match?(:string, :any)
true
iex> match?(:any, :string)
true
iex> match?(:string, :string)
true

iex> match?({:array, :string}, {:array, :any})
true

iex> match?(Ecto.UUID, :uuid)
true
iex> match?(Ecto.UUID, :string)
false

Specs

primitive?(t()) :: boolean()

Checks if we have a primitive type.

iex> primitive?(:string)
true
iex> primitive?(Another)
false

iex> primitive?({:array, :string})
true
iex> primitive?({:array, Another})
true

Specs

type(t()) :: t()

Retrieves the underlying schema type for the given, possibly custom, type.

iex> type(:string)
:string
iex> type(Ecto.UUID)
:uuid

iex> type({:array, :string})
{:array, :string}
iex> type({:array, Ecto.UUID})
{:array, :uuid}

iex> type({:map, Ecto.UUID})
{:map, :uuid}

Link to this section Callbacks

Specs

cast(term()) :: {:ok, term()} | {:error, keyword()} | :error

Casts the given input to the custom type.

This callback is called on external input and can return any type, as long as the dump/1 function is able to convert the returned value into an Ecto native type. There are two situations where this callback is called:

  1. When casting values by Ecto.Changeset
  2. When passing arguments to Ecto.Query

When returning {:error, keyword()}, the returned keyword list will be preserved in the changeset errors, similar to Ecto.Changeset.add_error/4. Passing a :message key, will override the default message. It is not possible to override the :type key.

For {:array, CustomType} or {:map, CustomType} the returned keyword list will be erased and the default error will be shown.

Specs

dump(term()) :: {:ok, term()} | :error

Dumps the given term into an Ecto native type.

This callback is called with any term that was stored in the struct and it needs to validate them and convert it to an Ecto native type.

Specs

embed_as(format :: atom()) :: :self | :dump

Dictates how the type should be treated inside embeds.

By default, the type is sent as itself, without calling dumping to keep the higher level representation. But it can be set to :dump to it is dumped before encoded.

Specs

equal?(term(), term()) :: boolean()

Checks if two terms are semantically equal.

Specs

load(term()) :: {:ok, term()} | :error

Loads the given term into a custom type.

This callback is called when loading data from the database and receives an Ecto native type. It can return any type, as long as the dump/1 function is able to convert the returned value back into an Ecto native type.

Specs

type() :: t()

Returns the underlying schema type for the custom type.

For example, if you want to provide your own date structures, the type function should return :date.

Note this function is not required to return Ecto primitive types, the type is only required to be known by the adapter.