GORM simplifies database interactions by mapping Go structs to database tables. Understanding how to declare models in GORM is fundamental for leveraging its full capabilities.
Declaring Models
Models are defined using normal structs. These structs can contain fields with basic Go types, pointers or aliases of these types, or even custom types, as long as they implement the Scanner and Valuer interfaces from the database/sql
package
Consider the following example of a User
model:
type User struct { |
In this model:
- Basic data types like
uint
,string
, anduint8
are used directly. - Pointers to types like
*string
and*time.Time
indicate nullable fields. sql.NullString
andsql.NullTime
from thedatabase/sql
package are used for nullable fields with more control.CreatedAt
andUpdatedAt
are special fields that GORM automatically populates with the current time when a record is created or updated.- Non-exported fields (starting with a small letter) are not mapped
In addition to the fundamental features of model declaration in GORM, it’s important to highlight the support for serialization through the serializer tag. This feature enhances the flexibility of how data is stored and retrieved from the database, especially for fields that require custom serialization logic, See Serializer for a detailed explanation
Conventions
Primary Key: GORM uses a field named
ID
as the default primary key for each model.Table Names: By default, GORM converts struct names to
snake_case
and pluralizes them for table names. For instance, aUser
struct becomesusers
in the database.Column Names: GORM automatically converts struct field names to
snake_case
for column names in the database.Timestamp Fields: GORM uses fields named
CreatedAt
andUpdatedAt
to automatically track the creation and update times of records.
Following these conventions can greatly reduce the amount of configuration or code you need to write. However, GORM is also flexible, allowing you to customize these settings if the default conventions don’t fit your requirements. You can learn more about customizing these conventions in GORM’s documentation on conventions.
gorm.Model
GORM provides a predefined struct named gorm.Model
, which includes commonly used fields:
// gorm.Model definition |
Embedding in Your Struct: You can embed
gorm.Model
directly in your structs to include these fields automatically. This is useful for maintaining consistency across different models and leveraging GORM’s built-in conventions, refer Embedded StructFields Included:
ID
: A unique identifier for each record (primary key).CreatedAt
: Automatically set to the current time when a record is created.UpdatedAt
: Automatically updated to the current time whenever a record is updated.DeletedAt
: Used for soft deletes (marking records as deleted without actually removing them from the database).
Advanced
Field-Level Permission
Exported fields have all permissions when doing CRUD with GORM, and GORM allows you to change the field-level permission with tag, so you can make a field to be read-only, write-only, create-only, update-only or ignored
NOTE ignored fields won’t be created when using GORM Migrator to create table
type User struct { |
Creating/Updating Time/Unix (Milli/Nano) Seconds Tracking
GORM use CreatedAt
, UpdatedAt
to track creating/updating time by convention, and GORM will set the current time when creating/updating if the fields are defined
To use fields with a different name, you can configure those fields with tag autoCreateTime
, autoUpdateTime
If you prefer to save UNIX (milli/nano) seconds instead of time, you can simply change the field’s data type from time.Time
to int
type User struct { |
Embedded Struct
For anonymous fields, GORM will include its fields into its parent struct, for example:
type Author struct { |
For a normal struct field, you can embed it with the tag embedded
, for example:
type Author struct { |
And you can use tag embeddedPrefix
to add prefix to embedded fields’ db name, for example:
type Blog struct { |
Tags are optional to use when declaring models, GORM supports the following tags: Tags are case insensitive, however camelCase
is preferred. If multiple tags are used they should be separated by a semicolon (;
). Characters that have special meaning to the parser can be escaped with a backslash (\
) allowing them to be used as parameter values.
Tag Name | Description |
---|---|
column | column db name |
type | column data type, prefer to use compatible general type, e.g: bool, int, uint, float, string, time, bytes, which works for all databases, and can be used with other tags together, like not null , size , autoIncrement … specified database data type like varbinary(8) also supported, when using specified database data type, it needs to be a full database data type, for example: MEDIUMINT UNSIGNED NOT NULL AUTO_INCREMENT |
serializer | specifies serializer for how to serialize and deserialize data into db, e.g: serializer:json/gob/unixtime |
size | specifies column data size/length, e.g: size:256 |
primaryKey | specifies column as primary key |
unique | specifies column as unique |
default | specifies column default value |
precision | specifies column precision |
scale | specifies column scale |
not null | specifies column as NOT NULL |
autoIncrement | specifies column auto incrementable |
autoIncrementIncrement | auto increment step, controls the interval between successive column values |
embedded | embed the field |
embeddedPrefix | column name prefix for embedded fields |
autoCreateTime | track current time when creating, for int fields, it will track unix seconds, use value nano /milli to track unix nano/milli seconds, e.g: autoCreateTime:nano |
autoUpdateTime | track current time when creating/updating, for int fields, it will track unix seconds, use value nano /milli to track unix nano/milli seconds, e.g: autoUpdateTime:milli |
index | create index with options, use same name for multiple fields creates composite indexes, refer Indexes for details |
uniqueIndex | same as index , but create uniqued index |
check | creates check constraint, eg: check:age > 13 , refer Constraints |
<- | set field’s write permission, <-:create create-only field, <-:update update-only field, <-:false no write permission, <- create and update permission |
-> | set field’s read permission, ->:false no read permission |
- | ignore this field, - no read/write permission, -:migration no migrate permission, -:all no read/write/migrate permission |
comment | add comment for field when migration |
Associations Tags
GORM allows configure foreign keys, constraints, many2many table through tags for Associations, check out the Associations section for details