Column Modifiers

When creating a column from the Blueprint object, a Column object is returned. This column gives you access to a few modifier commands to further configure the column.

comment

Attach a comment to the column.

Example:

SchemaBuilder

schema.create( "users", function( table ) {
    table.integer( "age" ).comment( "Do not lie about your age" );
} );

SQL (MySQL)

CREATE TABLE `users` (
    `age` INTEGER NOT NULL COMMENT `Do not lie about your age`
)

default

Sets a default value for the column.

Note: The value is not escaped, allowing you to specify functions like NOW() or literals like 1. To specify a literal string, wrap the value in quotes.

Example:

SchemaBuilder

schema.create( "users", function( table ) {
    table.boolean( "is_active" ).default( 1 );
    table.timestamp( "created_date" ).default( "NOW()" );
    tablVIRTUAL NOT NULLe.string( "country" ).default( "'USA'" );
} );

SQL (MySQL)

CREATE TABLE `users` (
    `is_active` TINYINT(1) DEFAULT 1,
    `created_date` TIMESTAMP DEFAULT NOW(),
    `country` VARCHAR(255) DEFAULT 'USA'
)

nullable

Sets the column to allow null values.

All columns are created as NOT NULL by default. As such, there is no notNull method.

Example:

SchemaBuilder

schema.create( "users", function( table ) {
    table.timestamp( "last_logged_in" ).nullable()
} );

SQL (MySQL)

CREATE TABLE `users` (
    `last_logged_in` TIMESTAMP
)

primaryKey

Adds the column as a primary key for the table.

The primaryKey method returns a TableIndex instance. Additional methods can be chained off of it.

Example:

SchemaBuilder

schema.create( "users", function( table ) {
    table.uuid( "id" ).primaryKey();
} );

SQL (MySQL)

CREATE TABLE `users` (
    `id` CHAR(35) NOT NULL,
    CONSTAINT `pk_users_id` PRIMARY KEY (`id`)
)

references

Creates a foreign key constraint for the column.

IMPORTANT: Additional configuration of the foreign constraint is done by calling methods on the returned TableIndex instance.

Example:

SchemaBuilder

schema.create( "users", function( table ) {
    table.unsignedInteger( "country_id" ).references( "id" ).onTable( "countries" ).onDelete( "cascade" );
} );

SQL (MySQL)

CREATE TABLE `users` (
    `country_id` INTEGER UNSIGNED NOT NULL,
    CONSTRAINT `fk_users_country_id` FOREIGN KEY (`country_id`) REFERENCES `countries` (`id`) ON UPDATE NO ACTION ON DELETE CASCADE
)

unsigned

Sets the column as unsigned.

Example:

SchemaBuilder

schema.create( "users", function( table ) {
    table.integer( age" ).unsigned();
} );

SQL (MySQL)

CREATE TABLE `users` (
    `age` INTEGER UNSIGNED NOT NULL
)

unique

Sets the column to have the UNIQUE constraint.

Example:

SchemaBuilder

schema.create( "email", function( table ) {
    table.string( email" ).unique();
} );

SQL (MySQL)

CREATE TABLE `users` (
    `email` VARCHAR(255) NOT NULL UNIQUE
)

withCurrent

Sets the column to have the a default value of CURRENT_TIMESTAMP.

Example:

SchemaBuilder

schema.create( "posts", function( table ) {
    table.timestamp( "posted_date" ).withCurrent();
} );

SQL (Postgres)

CREATE TABLE "posts" (
    "posted_date" TIMESTAMP NOT NULL DEFAULT CURRENT_TIMESTAMP
)

storedAs

Creates a stored computed column. Computed columns are defined as expressions between other columns and/or constant values. Stored computed columns are saved in the database to avoid computing on every query.

Your database grammar may not differentiate between stored computed columns and virtual computed columns. Research your grammar's implementation for more details.

schema.create( "products", function( table ) {
    table.integer( "price" );
    table.integer( "tax" ).storedAs( "price * 0.0675" );
} );
CREATE TABLE `products` (
    `price` INTEGER NOT NULL,
    `tax` INTEGER GENERATED ALWAYS AS (price * 0.0675) STORED NOT NULL
)

virtualAs

Creates a virtual computed column. Computed columns are defined as expressions between other columns and/or constant values. Virtual computed columns are computed on every query.

Your database grammar may not differentiate between stored computed columns and virtual computed columns. Research your grammar's implementation for more details.

schema.create( "products", function( table ) {
    table.integer( "price" );
    table.integer( "tax" ).virtualAs( "price * 0.0675" );
} );
CREATE TABLE `products` (
    `price` INTEGER NOT NULL,
    `tax` INTEGER GENERATED ALWAYS AS (price * 0.0675) VIRTUAL NOT NULL
)

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