View Source Ecto.Migration behaviour (Ecto SQL v3.8.3)

Migrations are used to modify your database schema over time.

This module provides many helpers for migrating the database, allowing developers to use Elixir to alter their storage in a way that is database independent.

Migrations typically provide two operations: up and down, allowing us to migrate the database forward or roll it back in case of errors.

In order to manage migrations, Ecto creates a table called schema_migrations in the database, which stores all migrations that have already been executed. You can configure the name of this table with the :migration_source configuration option.

You can configure a different database for the table that manages your migrations by setting the :migration_repo configuration option to a different repository.

Ecto also locks the schema_migrations table when running migrations, guaranteeing two different servers cannot run the same migration at the same time.

creating-your-first-migration

Creating your first migration

Migrations are defined inside the "priv/REPO/migrations" where REPO is the last part of the repository name in underscore. For example, migrations for MyApp.Repo would be found in "priv/repo/migrations". For MyApp.CustomRepo, it would be found in "priv/custom_repo/migrations".

Each file in the migrations directory has the following structure:

NUMBER_NAME.exs

The NUMBER is a unique number that identifies the migration. It is usually the timestamp of when the migration was created. The NAME must also be unique and it quickly identifies what the migration does. For example, if you need to track the "weather" in your system, you can start a new file at "priv/repo/migrations/20190417140000_add_weather_table.exs" that will have the following contents:

defmodule MyRepo.Migrations.AddWeatherTable do
  use Ecto.Migration

  def up do
    create table("weather") do
      add :city,    :string, size: 40
      add :temp_lo, :integer
      add :temp_hi, :integer
      add :prcp,    :float

      timestamps()
    end
  end

  def down do
    drop table("weather")
  end
end

The up/0 function is responsible to migrate your database forward. the down/0 function is executed whenever you want to rollback. The down/0 function must always do the opposite of up/0. Inside those functions, we invoke the API defined in this module, you will find conveniences for managing tables, indexes, columns, references, as well as running custom SQL commands.

To run a migration, we generally use Mix tasks. For example, you can run the migration above by going to the root of your project and typing:

$ mix ecto.migrate

You can also roll it back by calling:

$ mix ecto.rollback --step 1

Note rollback requires us to say how much we want to rollback. On the other hand, mix ecto.migrate will always run all pending migrations.

In practice, we don't create migration files by hand either, we typically use mix ecto.gen.migration to generate the file with the proper timestamp and then we just fill in its contents:

$ mix ecto.gen.migration add_weather_table

mix-tasks

Mix tasks

As seen above, Ecto provides many Mix tasks to help developers work with migrations. We summarize them below:

Run mix help COMMAND for more information on a particular command. For a lower level API for running migrations, see Ecto.Migrator.

change

Change

Having to write both up/0 and down/0 functions for every migration is tedious and error prone. For this reason, Ecto allows you to defined a change/0 callback with all of the code you want to execute when migrating and Ecto will automatically figure out the down/0 for you. For example, the migration above can be written as:

defmodule MyRepo.Migrations.AddWeatherTable do
  use Ecto.Migration

  def change do
    create table("weather") do
      add :city,    :string, size: 40
      add :temp_lo, :integer
      add :temp_hi, :integer
      add :prcp,    :float

      timestamps()
    end
  end
end

However, note that not all commands are reversible. Trying to rollback a non-reversible command will raise an Ecto.MigrationError.

A notable command in this regard is execute/2, which is reversible in change/0 by accepting a pair of plain SQL strings. The first is run on forward migrations (up/0) and the second when rolling back (down/0).

If up/0 and down/0 are implemented in a migration, they take precedence, and change/0 isn't invoked.

field-types

Field Types

The Ecto primitive types are mapped to the appropriate database type by the various database adapters. For example, :string is converted to :varchar, :binary to :bytea or :blob, and so on.

In particular, note that:

  • the :string type in migrations by default has a limit of 255 characters. If you need more or less characters, pass the :size option, such as add :field, :string, size: 10. If you don't want to impose a limit, most databases support a :text type or similar

  • the :binary type in migrations by default has no size limit. If you want to impose a limit, pass the :size option accordingly. In MySQL, passing the size option changes the underlying field from "blob" to "varbinary"

Any other type will be given as is to the database. For example, you can use :text, :char, or :varchar as types. Types that have spaces in their names can be wrapped in double quotes, such as :"int unsigned", :"time without time zone", etc.

executing-and-flushing

Executing and flushing

Instructions inside of migrations are not executed immediately. Instead they are performed after the relevant up, change, or down callback terminates.

However, in some situations you may want to guarantee that all of the previous steps have been executed before continuing. This is useful when you need to apply a set of changes to the table before continuing with the migration. This can be done with flush/0:

def up do
  ...
  flush()
  ...
end

However flush/0 will raise if it would be called from change function when doing a rollback. To avoid that we recommend to use execute/2 with anonymous functions instead. For more information and example usage please take a look at execute/2 function.

comments

Comments

Migrations where you create or alter a table support specifying table and column comments. The same can be done when creating constraints and indexes. Not all databases support this feature.

def up do
  create index("posts", [:name], comment: "Index Comment")
  create constraint("products", "price_must_be_positive", check: "price > 0", comment: "Constraint Comment")
  create table("weather", prefix: "north_america", comment: "Table Comment") do
    add :city, :string, size: 40, comment: "Column Comment"
    timestamps()
  end
end

repo-configuration

Repo configuration

The following migration configuration options are available for a given repository:

  • :migration_source - Version numbers of migrations will be saved in a table named schema_migrations by default. You can configure the name of the table via:

    config :app, App.Repo, migration_source: "my_migrations"
  • :migration_primary_key - By default, Ecto uses the :id column with type :bigserial, but you can configure it via:

    config :app, App.Repo, migration_primary_key: [name: :uuid, type: :binary_id]
    
    config :app, App.Repo, migration_primary_key: false
  • :migration_foreign_key - By default, Ecto uses the migration_primary_key type for foreign keys when references/2 is used, but you can configure it via:

    config :app, App.Repo, migration_foreign_key: [column: :uuid, type: :binary_id]
  • :migration_timestamps - By default, Ecto uses the :naive_datetime as the type, :inserted_at as the name of the column for storing insertion times, :updated_at as the name of the column for storing last-updated-at times, but you can configure it via:

    config :app, App.Repo, migration_timestamps: [
      type: :utc_datetime,
      inserted_at: :created_at,
      updated_at: :changed_at
    ]
  • :migration_lock - By default, Ecto will lock the migration table. This allows multiple nodes to attempt to run migrations at the same time but only one will succeed. You can disable the migration_lock by setting it to false

    config :app, App.Repo, migration_lock: false
  • :migration_default_prefix - Ecto defaults to nil for the database prefix for migrations, but you can configure it via:

    config :app, App.Repo, migration_default_prefix: "my_prefix"
  • :migration_repo - The migration repository is where the table managing the migrations will be stored (migration_source defines the table name). It defaults to the given repository itself but you can configure it via:

    config :app, App.Repo, migration_repo: App.MigrationRepo
  • :priv - the priv directory for the repo with the location of important assets, such as migrations. For a repository named MyApp.FooRepo, :priv defaults to "priv/foo_repo" and migrations should be placed at "priv/foo_repo/migrations"

  • :start_apps_before_migration - A list of applications to be started before running migrations. Used by Ecto.Migrator.with_repo/3 and the migration tasks:

    config :app, App.Repo, start_apps_before_migration: [:ssl, :some_custom_logger]

prefixes

Prefixes

Migrations support specifying a table prefix or index prefix which will target either a schema (if using PostgreSQL) or a different database (if using MySQL). If no prefix is provided, the default schema or database is used.

Any reference declared in the table migration refers by default to the table with the same declared prefix. The prefix is specified in the table options:

def up do
  create table("weather", prefix: "north_america") do
    add :city,    :string, size: 40
    add :temp_lo, :integer
    add :temp_hi, :integer
    add :prcp,    :float
    add :group_id, references(:groups)

    timestamps()
  end

  create index("weather", [:city], prefix: "north_america")
end

Note: if using MySQL with a prefixed table, you must use the same prefix for the references since cross-database references are not supported.

When using a prefixed table with either MySQL or PostgreSQL, you must use the same prefix for the index field to ensure that you index the prefix-qualified table.

transaction-callbacks

Transaction Callbacks

If possible, each migration runs inside a transaction. This is true for Postgres, but not true for MySQL, as the latter does not support DDL transactions.

In some rare cases, you may need to execute some common behavior after beginning a migration transaction, or before committing that transaction. For instance, one might desire to set a lock_timeout for each lock in the migration transaction.

You can do so by defining after_begin/0 and before_commit/0 callbacks to your migration.

However, if you need do so for every migration module, implement this callback for every migration can be quite repetitive. Luckily, you can handle this by providing your migration module:

defmodule MyApp.Migration do
  defmacro __using__(_) do
    quote do
      use Ecto.Migration

      def after_begin() do
        repo().query! "SET lock_timeout TO '5s'"
      end
    end
  end
end

Then in your migrations you can use MyApp.Migration to share this behavior among all your migrations.

Link to this section Summary

Callbacks

Migration code to run immediately after the transaction is opened.

Migration code to run immediately before the transaction is closed.

Functions

Adds a column when creating or altering a table.

Adds a column if it not exists yet when altering a table.

Alters a table.

Defines a constraint (either a check constraint or an exclusion constraint) to be evaluated by the database when a row is inserted or updated.

Creates one of the following

Creates a table.

Creates an index or a table with only :id field if one does not yet exist.

Creates a table if it does not exist.

Gets the migrator direction.

Drops a table or index if it exists.

Executes arbitrary SQL, anonymous function or a keyword command.

Executes reversible SQL commands.

Executes queue migration commands.

Generates a fragment to be used as a default value.

Returns an index struct that can be given to create/1, drop/1, etc.

Modifies the type of a column when altering a table.

Gets the migrator prefix.

Defines a foreign key.

Removes a column when altering a table.

Removes a column in a reversible way when altering a table.

Removes a column only if the column exists when altering the constraint if the reference type is passed once it only has the constraint name on reference structure.

Renames a table.

Gets the migrator repo.

Returns a table struct that can be given to create/2, alter/2, drop/1, etc.

Adds :inserted_at and :updated_at timestamp columns.

Shortcut for creating a unique index.

Link to this section Callbacks

Link to this callback

after_begin()

View Source (optional)
@callback after_begin() :: term()

Migration code to run immediately after the transaction is opened.

Keep in mind that it is treated like any normal migration code, and should consider both the up and down cases of the migration.

Link to this callback

before_commit()

View Source (optional)
@callback before_commit() :: term()

Migration code to run immediately before the transaction is closed.

Keep in mind that it is treated like any normal migration code, and should consider both the up and down cases of the migration.

Link to this section Functions

Link to this function

add(column, type, opts \\ [])

View Source

Adds a column when creating or altering a table.

This function also accepts Ecto primitive types as column types that are normalized by the database adapter. For example, :string is converted to :varchar, :binary to :bits or :blob, and so on.

However, the column type is not always the same as the type used in your schema. For example, a schema that has a :string field can be supported by columns of type :char, :varchar, :text, and others. For this reason, this function also accepts :text and other type annotations that are native to the database. These are passed to the database as-is.

To sum up, the column type may be either an Ecto primitive type, which is normalized in cases where the database does not understand it, such as :string or :binary, or a database type which is passed as-is. Custom Ecto types like Ecto.UUID are not supported because they are application-level concerns and may not always map to the database.

Note: It may be necessary to quote case-sensitive, user-defined type names. For example, PostgreSQL normalizes all identifiers to lower case unless they are wrapped in double quotes. To ensure a case-sensitive type name is sent properly, it must be defined :'"LikeThis"' or :""LikeThis"". This is not necessary for column names because Ecto quotes them automatically. Type names are not automatically quoted because they may be expressions such as varchar(255).

examples

Examples

create table("posts") do
  add :title, :string, default: "Untitled"
end

alter table("posts") do
  add :summary, :text               # Database type
  add :object,  :map                # Elixir type which is handled by the database
  add :custom, :'"UserDefinedType"' # A case-sensitive, user-defined type name
end

options

Options

  • :primary_key - when true, marks this field as the primary key. If multiple fields are marked, a composite primary key will be created.
  • :default - the column's default value. It can be a string, number, empty list, list of strings, list of numbers, or a fragment generated by fragment/1.
  • :null - determines whether the column accepts null values. When not specified, the database will use its default behaviour (which is to treat the column as nullable in most databases).
  • :size - the size of the type (for example, the number of characters). The default is no size, except for :string, which defaults to 255.
  • :precision - the precision for a numeric type. Required when :scale is specified.
  • :scale - the scale of a numeric type. Defaults to 0.
  • :comment - adds a comment to the added column.
  • :after - positions field after the specified one. Only supported on MySQL, it is ignored by other databases.
Link to this function

add_if_not_exists(column, type, opts \\ [])

View Source

Adds a column if it not exists yet when altering a table.

If the type value is a %Reference{}, it is used to add a constraint.

type and opts are exactly the same as in add/3.

This command is not reversible as Ecto does not know about column existence before the creation attempt.

examples

Examples

alter table("posts") do
  add_if_not_exists :title, :string, default: ""
end
Link to this macro

alter(object, list)

View Source (macro)

Alters a table.

examples

Examples

alter table("posts") do
  add :summary, :text
  modify :title, :text
  remove :views
end
Link to this function

constraint(table, name, opts \\ [])

View Source

Defines a constraint (either a check constraint or an exclusion constraint) to be evaluated by the database when a row is inserted or updated.

examples

Examples

create constraint("users", :price_must_be_positive, check: "price > 0")
create constraint("size_ranges", :no_overlap, exclude: ~s|gist (int4range("from", "to", '[]') WITH &&)|)
drop   constraint("products", "price_must_be_positive")

options

Options

  • :check - A check constraint expression. Required when creating a check constraint.
  • :exclude - An exclusion constraint expression. Required when creating an exclusion constraint.
  • :prefix - The prefix for the table.
  • :validate - Whether or not to validate the constraint on creation (true by default). Only available in PostgreSQL, and should be followed by a command to validate the new constraint in a following migration if false.
  • :comment - adds a comment to the constraint.

Creates one of the following:

  • an index
  • a table with only the :id primary key
  • a constraint

When reversing (in a change/0 running backwards), indexes are only dropped if they exist, and no errors are raised. To enforce dropping an index, use drop/1.

examples

Examples

create index("posts", [:name])
create table("version")
create constraint("products", "price_must_be_positive", check: "price > 0")
Link to this macro

create(object, list)

View Source (macro)

Creates a table.

By default, the table will also include an :id primary key field that has a type of :bigserial. Check the table/2 docs for more information.

examples

Examples

create table(:posts) do
  add :title, :string, default: "Untitled"
  add :body,  :text

  timestamps()
end
Link to this function

create_if_not_exists(index)

View Source

Creates an index or a table with only :id field if one does not yet exist.

examples

Examples

create_if_not_exists index("posts", [:name])

create_if_not_exists table("version")
Link to this macro

create_if_not_exists(object, list)

View Source (macro)

Creates a table if it does not exist.

Works just like create/2 but does not raise an error when the table already exists.

@spec direction() :: :up | :down

Gets the migrator direction.

Link to this function

drop(index_or_table_or_constraint, opts \\ [])

View Source

Drops one of the following:

  • an index
  • a table
  • a constraint

examples

Examples

drop index("posts", [:name])
drop table("posts")
drop constraint("products", "price_must_be_positive")
drop index("posts", [:name]), mode: :cascade
drop table("posts"), mode: :cascade

options

Options

  • :mode - when set to :cascade, automatically drop objects that depend on the index, and in turn all objects that depend on those objects on the table. Default is :restrict
Link to this function

drop_if_exists(index_or_table, opts \\ [])

View Source

Drops a table or index if it exists.

Does not raise an error if the specified table or index does not exist.

examples

Examples

drop_if_exists index("posts", [:name])
drop_if_exists table("posts")
drop_if_exists index("posts", [:name]), mode: :cascade
drop_if_exists table("posts"), mode: :cascade

options

Options

  • :mode - when set to :cascade, automatically drop objects that depend on the index, and in turn all objects that depend on those objects on the table. Default is :restrict

Executes arbitrary SQL, anonymous function or a keyword command.

The argument is typically a string, containing the SQL command to be executed. Keyword commands exist for non-SQL adapters and are not used in most situations.

Supplying an anonymous function does allow for arbitrary code to execute as part of the migration. This is most often used in combination with repo/0 by library authors who want to create high-level migration helpers.

Reversible commands can be defined by calling execute/2.

examples

Examples

execute "CREATE EXTENSION postgres_fdw"

execute create: "posts", capped: true, size: 1024

execute(fn -> repo().query!("SELECT $1::integer + $2", [40, 2], [log: :info]) end)

execute(fn -> repo().update_all("posts", set: [published: true]) end)

Executes reversible SQL commands.

This is useful for database-specific functionality that does not warrant special support in Ecto, for example, creating and dropping a PostgreSQL extension. The execute/2 form avoids having to define separate up/0 and down/0 blocks that each contain an execute/1 expression.

The allowed parameters are explained in execute/1.

examples

Examples

defmodule MyApp.MyMigration do
  use Ecto.Migration

  def change do
    execute "CREATE EXTENSION postgres_fdw", "DROP EXTENSION postgres_fdw"
    execute(&execute_up/0, &execute_down/0)
  end

  defp execute_up, do: repo().query!("select 'Up query …';", [], [log: :info])
  defp execute_down, do: repo().query!("select 'Down query …';", [], [log: :info])
end

Executes queue migration commands.

Generates a fragment to be used as a default value.

examples

Examples

create table("posts") do
  add :inserted_at, :naive_datetime, default: fragment("now()")
end
Link to this function

index(table, columns, opts \\ [])

View Source

Returns an index struct that can be given to create/1, drop/1, etc.

Expects the table name as the first argument and the index field(s) as the second. The fields can be atoms, representing columns, or strings, representing expressions that are sent as-is to the database.

options

Options

  • :name - the name of the index. Defaults to "#{table}_#{column}_index".
  • :unique - indicates whether the index should be unique. Defaults to false.
  • :concurrently - indicates whether the index should be created/dropped concurrently.
  • :using - configures the index type.
  • :prefix - specify an optional prefix for the index.
  • :where - specify conditions for a partial index.
  • :include - specify fields for a covering index. This is not supported by all databases. For more information on PostgreSQL support, please read the official docs.
  • :comment - adds a comment to the index.

adding-dropping-indexes-concurrently

Adding/dropping indexes concurrently

PostgreSQL supports adding/dropping indexes concurrently (see the docs). However, this feature does not work well with the transactions used by Ecto to guarantee integrity during migrations.

Therefore, to migrate indexes concurrently, you need to set both @disable_ddl_transaction and @disable_migration_lock to true:

defmodule MyRepo.Migrations.CreateIndexes do
  use Ecto.Migration
  @disable_ddl_transaction true
  @disable_migration_lock true

  def change do
    create index("posts", [:slug], concurrently: true)
  end
end

Disabling DDL transactions removes the guarantee that all of the changes in the migration will happen at once. Disabling the migration lock removes the guarantee only a single node will run a given migration if multiple nodes are attempting to migrate at the same time.

Since running migrations outside a transaction and without locks can be dangerous, consider performing very few operations in migrations that add concurrent indexes. We recommend to run migrations with concurrent indexes in isolation and disable those features only temporarily.

index-types

Index types

When creating an index, the index type can be specified with the :using option. The :using option can be an atom or a string, and its value is passed to the generated USING clause as-is.

For example, PostgreSQL supports several index types like B-tree (the default), Hash, GIN, and GiST. More information on index types can be found in the PostgreSQL docs.

partial-indexes

Partial indexes

Databases like PostgreSQL and MSSQL support partial indexes.

A partial index is an index built over a subset of a table. The subset is defined by a conditional expression using the :where option. The :where option can be an atom or a string; its value is passed to the generated WHERE clause as-is.

More information on partial indexes can be found in the PostgreSQL docs.

examples

Examples

# With no name provided, the name of the below index defaults to
# products_category_id_sku_index
create index("products", [:category_id, :sku], unique: true)

# The name can also be set explicitly
create index("products", [:category_id, :sku], name: :my_special_name)

# Indexes can be added concurrently
create index("products", [:category_id, :sku], concurrently: true)

# The index type can be specified
create index("products", [:name], using: :hash)

# Partial indexes are created by specifying a :where option
create index("products", [:user_id], where: "price = 0", name: :free_products_index)

# Covering indexes are created by specifying a :include option
create index("products", [:user_id], include: [:category_id])

Indexes also support custom expressions. Some databases may require the index expression to be written between parentheses:

# Create an index on a custom expression
create index("products", ["(lower(name))"], name: :products_lower_name_index)

# Create a tsvector GIN index on PostgreSQL
create index("products", ["(to_tsvector('english', name))"],
             name: :products_name_vector, using: "GIN")
Link to this function

modify(column, type, opts \\ [])

View Source

Modifies the type of a column when altering a table.

This command is not reversible unless the :from option is provided. When the :from option is set, the adapter will try to drop the corresponding foreign key constraints before modifying the type. Generally speaking, you want to pass the type and each option you are modifying to :from, so the column can be rolled back properly. However, note that :from cannot be be used to modify primary keys, as those are generally trickier to revert.

See add/3 for more information on supported types.

If you want to modify a column without changing its type, such as adding or dropping a null constraints, consider using the execute/2 command with the relevant SQL command instead of modify/3, if supported by your database. This may avoid redundant type updates and be more efficient, as an unnecessary type update can lock the table, even if the type actually doesn't change.

examples

Examples

alter table("posts") do
  modify :title, :text
end

# Self rollback when using the :from option
alter table("posts") do
  modify :title, :text, from: :string
end

# Modify column with rollback options
alter table("posts") do
  modify :title, :text, null: false, from: {:string, null: true}
end

options

Options

  • :null - determines whether the column accepts null values. If this option is not set, the nullable behaviour of the underlying column is not modified.
  • :default - changes the default value of the column.
  • :from - specifies the current type and options of the column.
  • :size - specifies the size of the type (for example, the number of characters). The default is no size.
  • :precision - the precision for a numeric type. Required when :scale is specified.
  • :scale - the scale of a numeric type. Defaults to 0.
  • :comment - adds a comment to the modified column.

Gets the migrator prefix.

Link to this function

references(table, opts \\ [])

View Source

Defines a foreign key.

By default it assumes you are linking to the referenced table via its primary key with name :id. If you are using a non-default key setup (e.g. using uuid type keys) you must ensure you set the options, such as :name and :type, to match your target key.

examples

Examples

create table("products") do
  add :group_id, references("groups")
end

create table("categories") do
  add :group_id, :integer
  # A composite foreign that points from categories (product_id, group_id)
  # to products (id, group_id)
  add :product_id, references("products", with: [group_id: :group_id])
end

options

Options

  • :name - The name of the underlying reference, which defaults to "#{table}_#{column}_fkey".
  • :column - The column name in the referenced table, which defaults to :id.
  • :prefix - The prefix for the reference. Defaults to the prefix defined by the block's table/2 struct (the "products" table in the example above), or nil.
  • :type - The foreign key type, which defaults to :bigserial.
  • :on_delete - What to do if the referenced entry is deleted. May be :nothing (default), :delete_all, :nilify_all, or :restrict.
  • :on_update - What to do if the referenced entry is updated. May be :nothing (default), :update_all, :nilify_all, or :restrict.
  • :validate - Whether or not to validate the foreign key constraint on creation or not. Only available in PostgreSQL, and should be followed by a command to validate the foreign key in a following migration if false.
  • :with - defines additional keys to the foreign key in order to build a composite primary key
  • :match - select if the match is :simple, :partial, or :full. This is supported only by PostgreSQL at the moment.

Removes a column when altering a table.

This command is not reversible as Ecto does not know what type it should add the column back as. See remove/3 as a reversible alternative.

examples

Examples

alter table("posts") do
  remove :title
end
Link to this function

remove(column, type, opts \\ [])

View Source

Removes a column in a reversible way when altering a table.

type and opts are exactly the same as in add/3, and they are used when the command is reversed.

If the type value is a %Reference{}, it is used to remove the constraint.

examples

Examples

alter table("posts") do
  remove :title, :string, default: ""
end
Link to this function

remove_if_exists(column, type)

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Removes a column only if the column exists when altering the constraint if the reference type is passed once it only has the constraint name on reference structure.

This command is not reversible as Ecto does not know about column existence before the removal attempt.

examples

Examples

alter table("posts") do
  remove_if_exists :title, :string
end
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rename(table_current, list)

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Renames a table.

examples

Examples

rename table("posts"), to: table("new_posts")
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rename(table, current_column, list)

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Renames a column.

Note that this occurs outside of the alter statement.

examples

Examples

rename table("posts"), :title, to: :summary
@spec repo() :: Ecto.Repo.t()

Gets the migrator repo.

Returns a table struct that can be given to create/2, alter/2, drop/1, etc.

examples

Examples

create table("products") do
  add :name, :string
  add :price, :decimal
end

drop table("products")

create table("products", primary_key: false) do
  add :name, :string
  add :price, :decimal
end

options

Options

  • :primary_key - when false, a primary key field is not generated on table creation.
  • :engine - customizes the table storage for supported databases. For MySQL, the default is InnoDB.
  • :prefix - the prefix for the table. This prefix will automatically be used for all constraints and references defined for this table unless explicitly overridden in said constraints/references.
  • :comment - adds a comment to the table.
  • :options - provide custom options that will be appended after the generated statement. For example, "WITH", "INHERITS", or "ON COMMIT" clauses.

Adds :inserted_at and :updated_at timestamp columns.

Those columns are of :naive_datetime type and by default cannot be null. A list of opts can be given to customize the generated fields.

Following options will override the repo configuration specified by :migration_timestamps option.

options

Options

  • :inserted_at - the name of the column for storing insertion times. Setting it to false disables the column.
  • :updated_at - the name of the column for storing last-updated-at times. Setting it to false disables the column.
  • :type - the type of the :inserted_at and :updated_at columns. Defaults to :naive_datetime.
  • :default - the columns' default value. It can be a string, number, empty list, list of strings, list of numbers, or a fragment generated by fragment/1.
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unique_index(table, columns, opts \\ [])

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Shortcut for creating a unique index.

See index/3 for more information.