# GORM The fantastic ORM library for Golang, aims to be developer friendly. ## Install ``` go get github.com/jinzhu/gorm ``` ## Overview * Chainable API * Relations * Callbacks (before/after create/save/update/delete/find) * Soft Deletes * Auto Migrations * Transactions * Logger Support * Bind struct with tag * Iteration Support via [Rows](#row--rows) * Scopes * sql.Scanner support * Every feature comes with tests * Convention Over Configuration * Developer Friendly ## Conventions * Table name is the plural of struct name's snake case. Disable pluralization with `db.SingularTable(true)`, or [Specifying The Table Name For A Struct Permanently With TableName](#specifying-the-table-name-for-a-struct-permanently-with-tablename) * Column name is the snake case of field's name. * Use `Id int64` field as primary key. * Use tag `sql` to change field's property, change the tag name with `db.SetTagIdentifier(new_name)`. * Use `CreatedAt` to store record's created time if field exists. * Use `UpdatedAt` to store record's updated time if field exists. * Use `DeletedAt` to store record's deleted time if field exists. [Soft Delete](#soft-delete) * Gorm uses reflection to know which tables to work with: ```go // E.g Finding an existing User var user User // Gorm will now know to use table "users" ("user" if pluralisation has been disabled) for all operations. db.First(&user) // E.g creating a new User DB.Save(&User{Name: "xxx"}) // table "users" ``` ## Existing Schema If you have an existing database schema and some of your tables do not follow the conventions, (and you can't rename your table names), please use: [Specifying The Table Name For A Struct Permanently With TableName](#specifying-the-table-name-for-a-struct-permanently-with-tableName). If your primary key field is different from `id`, you can add a tag to the field structure to specify that this field is a primary key. ```go type Animal struct { // animals AnimalId int64 `primaryKey:"yes"` Birthday time.Time Age int64 } ``` # Getting Started ```go import ( "database/sql" "time" ) type User struct { Id int64 Birthday time.Time Age int64 Name string `sql:"size:255"` CreatedAt time.Time UpdatedAt time.Time DeletedAt time.Time Emails []Email // Embedded structs BillingAddress Address // Embedded struct BillingAddressId sql.NullInt64 // BillingAddress's foreign key ShippingAddress Address // Another Embedded struct with same type ShippingAddressId int64 // ShippingAddress's foreign key IgnoreMe int64 `sql:"-"` // Ignore this field } type Email struct { Id int64 UserId int64 // Foreign key for User Email string `sql:"type:varchar(100);"` // Set this field's type Subscribed bool } type Address struct { Id int64 Address1 string `sql:"not null;unique"` // Set this field as not nullable and unique in database Address2 string `sql:"type:varchar(100);unique"` Post sql.NullString `sql:not null` // FYI, "NOT NULL" will only work well with NullXXX Scanner, because golang will initalize a default value for most type... } ``` ## Opening a Database ```go import "github.com/jinzhu/gorm" import _ "github.com/lib/pq" // import _ "github.com/go-sql-driver/mysql" // import _ "github.com/mattn/go-sqlite3" db, err := gorm.Open("postgres", "user=gorm dbname=gorm sslmode=disable") // db, err = gorm.Open("mysql", "gorm:gorm@/gorm?charset=utf8&parseTime=True") // db, err = gorm.Open("sqlite3", "/tmp/gorm.db") // Get database connection handle [*sql.DB](http://golang.org/pkg/database/sql/#DB) d := db.DB() // With it you could use package `database/sql`'s builtin methods db.DB().SetMaxIdleConns(10) db.DB().SetMaxOpenConns(100) db.DB().Ping() // By default, table name is plural of struct type, you can use struct type as table name with: db.SingularTable(true) ``` Gorm is goroutines friendly, so you can create a global variable to keep the connection and use it everywhere in your project. ```go // db.go package db import ( "fmt" "github.com/jinzhu/gorm" _ "github.com/lib/pq" ) var DB gorm.DB func init() { var err error DB, err = gorm.Open("postgres", "user=gorm dbname=gorm sslmode=disable") // Connection string parameters for Postgres - http://godoc.org/github.com/lib/pq, if you are using another // database refer to the relevant driver's documentation. // * dbname - The name of the database to connect to // * user - The user to sign in as // * password - The user's password // * host - The host to connect to. Values that start with / are for unix domain sockets. // (default is localhost) // * port - The port to bind to. (default is 5432) // * sslmode - Whether or not to use SSL (default is require, this is not the default for libpq) // Valid SSL modes: // * disable - No SSL // * require - Always SSL (skip verification) // * verify-full - Always SSL (require verification) if err != nil { panic(fmt.Sprintf("Got error when connect database, the error is '%v'", err)) } } // user.go package user import . "db" ... DB.Save(&User{Name: "xxx"}) ... ``` ## Struct & Database Mapping ```go // Create table from struct db.CreateTable(User{}) // Drop table db.DropTable(User{}) ``` ### Automating Migrations Feel free to update your struct, AutoMigrate will keep your database up-to-date. FYI, AutoMigrate will only add new columns, it won't change the current columns' types or delete unused columns, to make sure your data is safe. If the table doesn't exist when AutoMigrate is called, gorm will create the table automatically. (the database first needs to be created manually though...). ```go db.AutoMigrate(User{}) ``` # Gorm API ## Create ```go user := User{Name: "jinzhu", Age: 18, Birthday: time.Now()} db.Save(&user) ``` ### NewRecord Returns true if object hasn’t been saved yet (`Id` is blank) ```go user := User{Name: "jinzhu", Age: 18, Birthday: time.Now()} db.NewRecord(user) // => true db.Save(&user) db.NewRecord(user) // => false ``` ### Create With SubStruct Refer to [Query With Related](#query-with-related) for how to find associations ```go user := User{ Name: "jinzhu", BillingAddress: Address{Address1: "Billing Address - Address 1"}, ShippingAddress: Address{Address1: "Shipping Address - Address 1"}, Emails: []Email{{Email: "jinzhu@example.com"}, {Email: "jinzhu-2@example@example.com"}}, } db.Save(&user) //// BEGIN TRANSACTION; //// INSERT INTO "addresses" (address1) VALUES ("Billing Address - Address 1"); //// INSERT INTO "addresses" (address1) VALUES ("Shipping Address - Address 1"); //// INSERT INTO "users" (name,billing_address_id,shipping_address_id) VALUES ("jinzhu", 1, 2); //// INSERT INTO "emails" (user_id,email) VALUES (111, "jinzhu@example.com"); //// INSERT INTO "emails" (user_id,email) VALUES (111, "jinzhu-2@example.com"); //// COMMIT; ``` ### Create With Predefined Primary key ```go db.Create(&User{Id: 999, Name: "user 999"}) ``` ## Query ```go // Get the first record db.First(&user) //// SELECT * FROM users ORDER BY id LIMIT 1; // Search table `users` is guessed from struct's type // Get the last record db.Last(&user) //// SELECT * FROM users ORDER BY id DESC LIMIT 1; // Get all records db.Find(&users) //// SELECT * FROM users; // Get record with primary key db.First(&user, 10) //// SELECT * FROM users WHERE id = 10; ``` ### Query With Where (SQL) ```go // Get the first matched record db.Where("name = ?", "jinzhu").First(&user) //// SELECT * FROM users WHERE name = 'jinzhu' limit 1; // Get all matched records db.Where("name = ?", "jinzhu").Find(&users) //// SELECT * FROM users WHERE name = 'jinzhu'; db.Where("name <> ?", "jinzhu").Find(&users) //// SELECT * FROM users WHERE name <> 'jinzhu'; // IN db.Where("name in (?)", []string{"jinzhu", "jinzhu 2"}).Find(&users) //// SELECT * FROM users WHERE name IN ('jinzhu', 'jinzhu 2'); // LIKE db.Where("name LIKE ?", "%jin%").Find(&users) //// SELECT * FROM users WHERE name LIKE "%jin%"; // Multiple conditions db.Where("name = ? and age >= ?", "jinzhu", "22").Find(&users) //// SELECT * FROM users WHERE name = 'jinzhu' AND age >= 22; ``` ### Query With Where (Struct & Map) ```go // Search with struct db.Where(&User{Name: "jinzhu", Age: 20}).First(&user) //// SELECT * FROM users WHERE name = "jinzhu" AND age = 20 LIMIT 1; // Search with map db.Where(map[string]interface{}{"name": "jinzhu", "age": 20}).Find(&users) //// SELECT * FROM users WHERE name = "jinzhu" AND age = 20; // IN for primary keys db.Where([]int64{20, 21, 22}).Find(&users) //// SELECT * FROM users WHERE id IN (20, 21, 22); ``` ### Query With Not ```go // Attribute Not Equal db.Not("name", "jinzhu").First(&user) //// SELECT * FROM users WHERE name <> "jinzhu" LIMIT 1; // Not In db.Not("name", []string{"jinzhu", "jinzhu 2"}).Find(&users) //// SELECT * FROM users WHERE name NOT IN ("jinzhu", "jinzhu 2"); // Not In for primary keys db.Not([]int64{1,2,3}).First(&user) //// SELECT * FROM users WHERE id NOT IN (1,2,3); db.Not([]int64{}).First(&user) //// SELECT * FROM users; // SQL string db.Not("name = ?", "jinzhu").First(&user) //// SELECT * FROM users WHERE NOT(name = "jinzhu"); // Not with struct db.Not(User{Name: "jinzhu"}).First(&user) //// SELECT * FROM users WHERE name <> "jinzhu"; ``` ### Query With Inline Condition ```go // Find with primary key db.First(&user, 23) //// SELECT * FROM users WHERE id = 23 LIMIT 1; // SQL string db.Find(&user, "name = ?", "jinzhu") //// SELECT * FROM users WHERE name = "jinzhu"; // Multiple conditions db.Find(&users, "name <> ? and age > ?", "jinzhu", 20) //// SELECT * FROM users WHERE name <> "jinzhu" AND age > 20; // Inline search with struct db.Find(&users, User{Age: 20}) //// SELECT * FROM users WHERE age = 20; // Inline search with map db.Find(&users, map[string]interface{}{"age": 20}) //// SELECT * FROM users WHERE age = 20; ``` ### Query With Or ```go db.Where("role = ?", "admin").Or("role = ?", "super_admin").Find(&users) //// SELECT * FROM users WHERE role = 'admin' OR role = 'super_admin'; // Or With Struct db.Where("name = 'jinzhu'").Or(User{Name: "jinzhu 2"}).Find(&users) //// SELECT * FROM users WHERE name = 'jinzhu' OR name = 'jinzhu 2'; // Or With Map db.Where("name = 'jinzhu'").Or(map[string]interface{}{"name": "jinzhu 2"}).Find(&users) ``` ### Query With Related ```go // Find user's emails with guessed foreign key db.Model(&user).Related(&emails) //// SELECT * FROM emails WHERE user_id = 111; // Find user's billing address with specified foreign key 'BillingAddressId' db.Model(&user).Related(&address1, "BillingAddressId") //// SELECT * FROM addresses WHERE id = 123; // 123 is user's BillingAddressId // Find user with guessed primary key value from email db.Model(&email).Related(&user) //// SELECT * FROM users WHERE id = 111; // 111 is email's UserId ``` ### Query Chains Gorm has a chainable API, so you could query like this ```go db.Where("name <> ?","jinzhu").Where("age >= ? and role <> ?",20,"admin").Find(&users) //// SELECT * FROM users WHERE name <> 'jinzhu' AND age >= 20 AND role <> 'admin'; db.Where("role = ?", "admin").Or("role = ?", "super_admin").Not("name = ?", "jinzhu").Find(&users) ``` ## Update ### Update An Existing Struct ```go user.Name = "jinzhu 2" user.Age = 100 db.Save(&user) //// UPDATE users SET name='jinzhu 2', age=100, updated_at = '2013-11-17 21:34:10' WHERE id=111; ``` ### Update One Attribute With `Update` ```go // Update existing user's name if it is changed db.Model(&user).Update("name", "hello") //// UPDATE users SET name='hello', updated_at = '2013-11-17 21:34:10' WHERE id=111; // Find out a user, and update the name if it is changed db.First(&user, 111).Update("name", "hello") //// SELECT * FROM users LIMIT 1; //// UPDATE users SET name='hello', updated_at = '2013-11-17 21:34:10' WHERE id=111; // Update name with search condiation and specified table name db.Table("users").Where(10).Update("name", "hello") //// UPDATE users SET name='hello' WHERE id = 10; ``` ### Update Multiple Attributes With `Updates` ```go // Update user's name and age if they are changed db.Model(&user).Updates(User{Name: "hello", Age: 18}) //// UPDATE users SET name='hello', age=18, updated_at = '2013-11-17 21:34:10' WHERE id = 111; // Updates with Map db.Table("users").Where(10).Updates(map[string]interface{}{"name": "hello", "age": 18}) //// UPDATE users SET name='hello', age=18 WHERE id = 10; // Updates with Struct db.Model(User{}).Updates(User{Name: "hello", Age: 18}) //// UPDATE users SET name='hello', age=18; ``` ### Update Attributes Without Callbacks ```go db.Model(&user).UpdateColumn("name", "hello") //// UPDATE users SET name='hello' WHERE id = 111; db.Model(&user).UpdateColumns(User{Name: "hello", Age: 18}) //// UPDATE users SET name='hello', age=18 WHERE id = 111; ``` ### Get Affected Records Count ```go db.Model(User{}).Updates(User{Name: "hello", Age: 18}).RowsAffected ``` ## Delete ### Delete An Existing Struct ```go db.Delete(&email) // DELETE from emails where id=10; ``` ### Batch Delete With Search ```go db.Where("email LIKE ?", "%jinzhu%").Delete(Email{}) // DELETE from emails where email LIKE "%jinhu%"; ``` ### Soft Delete If a struct has a DeletedAt field, it will get a soft delete ability automatically! Structs that don't have a DeletedAt field will be deleted from the database permanently. ```go db.Delete(&user) //// UPDATE users SET deleted_at="2013-10-29 10:23" WHERE id = 111; // Delete with search condition db.Where("age = ?", 20).Delete(&User{}) //// UPDATE users SET deleted_at="2013-10-29 10:23" WHERE age = 20; // Soft deleted records will be ignored when searched db.Where("age = 20").Find(&user) //// SELECT * FROM users WHERE age = 100 AND (deleted_at IS NULL AND deleted_at <= '0001-01-02'); // Find soft deleted records with Unscoped db.Unscoped().Where("age = 20").Find(&users) //// SELECT * FROM users WHERE age = 20; // Delete record permanently with Unscoped db.Unscoped().Delete(&order) // DELETE FROM orders WHERE id=10; ``` ## FirstOrInit Try to get the first record, if failed, will initialize the struct with search conditions. (only supports search conditions map and struct) ```go db.FirstOrInit(&user, User{Name: "non_existing"}) //// User{Name: "non_existing"} db.Where(User{Name: "Jinzhu"}).FirstOrInit(&user) //// User{Id: 111, Name: "Jinzhu", Age: 20} db.FirstOrInit(&user, map[string]interface{}{"name": "jinzhu"}) //// User{Id: 111, Name: "Jinzhu", Age: 20} ``` ### FirstOrInit With Attrs Ignore Attrs's arguments when searching, but use them to initialize the struct if no record is found. ```go db.Where(User{Name: "non_existing"}).Attrs(User{Age: 20}).FirstOrInit(&user) //// SELECT * FROM USERS WHERE name = 'non_existing'; //// User{Name: "non_existing", Age: 20} // Or write it like this if has only one attribute db.Where(User{Name: "noexisting_user"}).Attrs("age", 20).FirstOrInit(&user) // If a record found, Attrs would be ignored db.Where(User{Name: "Jinzhu"}).Attrs(User{Age: 30}).FirstOrInit(&user) //// SELECT * FROM USERS WHERE name = jinzhu'; //// User{Id: 111, Name: "Jinzhu", Age: 20} ``` ### FirstOrInit With Assign Ignore Assign's arguments when searching, but use them to fill the struct regardless, whether the record is found or not. ```go db.Where(User{Name: "non_existing"}).Assign(User{Age: 20}).FirstOrInit(&user) //// User{Name: "non_existing", Age: 20} db.Where(User{Name: "Jinzhu"}).Assign(User{Age: 30}).FirstOrInit(&user) //// User{Id: 111, Name: "Jinzhu", Age: 30} ``` ## FirstOrCreate Try to get the first record, if failed, will initialize the struct with the search conditions and insert it in the database. ```go db.FirstOrCreate(&user, User{Name: "non_existing"}) //// User{Id: 112, Name: "non_existing"} db.Where(User{Name: "Jinzhu"}).FirstOrCreate(&user) //// User{Id: 111, Name: "Jinzhu"} db.FirstOrCreate(&user, map[string]interface{}{"name": "jinzhu", "age": 30}) //// user -> User{Id: 111, Name: "jinzhu", Age: 20} ``` ### FirstOrCreate With Attrs Ignore Attrs's arguments when searching, but use them to initialize the struct if no record is found. ```go db.Where(User{Name: "non_existing"}).Attrs(User{Age: 20}).FirstOrCreate(&user) //// SELECT * FROM users WHERE name = 'non_existing'; //// User{Id: 112, Name: "non_existing", Age: 20} db.Where(User{Name: "jinzhu"}).Attrs(User{Age: 30}).FirstOrCreate(&user) //// User{Id: 111, Name: "jinzhu", Age: 20} ``` ### FirstOrCreate With Assign Ignore Assign's arguments when searching, but use them to fill the struct regardless, whether the record is found or not, then save it back to the database. ```go db.Where(User{Name: "non_existing"}).Assign(User{Age: 20}).FirstOrCreate(&user) //// user -> User{Id: 112, Name: "non_existing", Age: 20} db.Where(User{Name: "jinzhu"}).Assign(User{Age: 30}).FirstOrCreate(&user) //// SELECT * FROM users WHERE name = 'jinzhu'; //// UPDATE users SET age=30 WHERE id = 111; //// User{Id: 111, Name: "jinzhu", Age: 30} ``` ## Select ```go db.Select("name, age").Find(&users) //// SELECT name, age FROM users; ``` ## Order ```go db.Order("age desc, name").Find(&users) //// SELECT * FROM users ORDER BY age desc, name; // Multiple orders db.Order("age desc").Order("name").Find(&users) //// SELECT * FROM users ORDER BY age desc, name; // ReOrder db.Order("age desc").Find(&users1).Order("age", true).Find(&users2) //// SELECT * FROM users ORDER BY age desc; (users1) //// SELECT * FROM users ORDER BY age; (users2) ``` ## Limit ```go db.Limit(3).Find(&users) //// SELECT * FROM users LIMIT 3; // Remove limit with -1 db.Limit(10).Find(&users1).Limit(-1).Find(&users2) //// SELECT * FROM users LIMIT 10; (users1) //// SELECT * FROM users; (users2) ``` ## Offset ```go db.Offset(3).Find(&users) //// SELECT * FROM users OFFSET 3; // Remove offset with -1 db.Offset(10).Find(&users1).Offset(-1).Find(&users2) //// SELECT * FROM users OFFSET 10; (users1) //// SELECT * FROM users; (users2) ``` ## Count ```go db.Where("name = ?", "jinzhu").Or("name = ?", "jinzhu 2").Find(&users).Count(&count) //// SELECT * from USERS WHERE name = 'jinzhu' OR name = 'jinzhu 2'; (users) //// SELECT count(*) FROM users WHERE name = 'jinzhu' OR name = 'jinzhu 2'; (count) // Set table name with Model db.Model(User{}).Where("name = ?", "jinzhu").Count(&count) //// SELECT count(*) FROM users WHERE name = 'jinzhu' OR name = 'jinzhu 2'; (count) // Set table name with Table db.Table("deleted_users").Count(&count) //// SELECT count(*) FROM deleted_users; ``` ## Pluck Get struct's selected attributes as a map. ```go var ages []int64 db.Find(&users).Pluck("age", &ages) // Set Table With Model var names []string db.Model(&User{}).Pluck("name", &names) //// SELECT name FROM users; // Set Table With Table db.Table("deleted_users").Pluck("name", &names) //// SELECT name FROM deleted_users; // Plucking more than one column? Do it like this: db.Select("name, age").Find(&users) ``` ## Transactions All individual save and delete operations are run in a transaction by default. ```go tx := db.Begin() user := User{Name: "transcation"} tx.Save(&u) tx.Update("age": 90) // do whatever // rollback tx.Rollback() // commit tx.Commit() ``` ## Callbacks Callbacks are methods defined on the struct's pointer. If any callback returns an error, gorm will stop future operations and rollback all changes. Here is a list of all available callbacks, listed in the same order in which they will get called during the respective operations. ### Creating An Object ```go BeforeSave BeforeCreate // save before associations // save self // save after associations AfterCreate AfterSave ``` ### Updating An Object ```go BeforeSave BeforeUpdate // save before associations // save self // save after associations AfterUpdate AfterSave ``` ### Destroying An Object ```go BeforeDelete // delete self AfterDelete ``` ### After Find ```go // load record/records from database AfterFind ``` Here is an example: ```go func (u *User) BeforeUpdate() (err error) { if u.readonly() { err = errors.New("Read Only User!") } return } // Rollback the insertion if there are more than 1000 users (hypothetical example) func (u *User) AfterCreate() (err error) { if (u.Id > 1000) { // Just as an example, don't use Id to count users! err = errors.New("Only 1000 users allowed!") } return } ``` ```go // As you know, the save/delete operations are running in a transaction // This is means that all your changes will be rolled back if there are any errors // If you want your changes in callbacks be run in the same transaction // you have to pass the transaction as argument to the function func (u *User) AfterCreate(tx *gorm.DB) (err error) { tx.Model(u).Update("role", "admin") return } ``` ## Specifying The Table Name ```go // Create `deleted_users` table with User's fields db.Table("deleted_users").CreateTable(&User{}) // Search from table `deleted_users` var deleted_users []User db.Table("deleted_users").Find(&deleted_users) //// SELECT * FROM deleted_users; // Delete results from table `deleted_users` with search conditions db.Table("deleted_users").Where("name = ?", "jinzhu").Delete() //// DELETE FROM deleted_users WHERE name = 'jinzhu'; ``` ### Specifying The Table Name For A Struct Permanently with TableName ```go type Cart struct { } func (c Cart) TableName() string { return "shopping_cart" } func (u User) TableName() string { if u.Role == "admin" { return "admin_users" } else { return "users" } } ``` ## Scopes ```go func AmountGreaterThan1000(d *gorm.DB) *gorm.DB { d.Where("amount > ?", 1000) } func PaidWithCreditCard(d *gorm.DB) *gorm.DB { d.Where("pay_mode_sign = ?", "C") } func PaidWithCod(d *gorm.DB) *gorm.DB { d.Where("pay_mode_sign = ?", "C") } func OrderStatus(status []string) func (d *gorm.DB) *gorm.DB { return func (d *gorm.DB) *gorm.DB { return d.Scopes(AmountGreaterThan1000).Where("status in (?)", status) } } db.Scopes(AmountGreaterThan1000, PaidWithCreditCard).Find(&orders) // Find all credit card orders and amount greater than 1000 db.Scopes(AmountGreaterThan1000, PaidWithCod).Find(&orders) // Find all COD orders and amount greater than 1000 db.Scopes(OrderStatus([]string{"paid", "shipped"})).Find(&orders) // Find all paid, shipped orders and amount greater than 1000 ``` ## Logger Gorm has built-in logger support, enable it with: ```go db.LogMode(true) ``` ![logger](https://raw.github.com/jinzhu/gorm/master/images/logger.png) ```go // Use your own logger // Refer to gorm's default logger for how to format messages: https://github.com/jinzhu/gorm/blob/master/logger.go#files db.SetLogger(log.New(os.Stdout, "\r\n", 0)) // If you want to use gorm's default log format, then you could just do it like this db.SetLogger(gorm.Logger{revel.TRACE}) // Disable logging db.LogMode(false) // Enable logging for a single operation, to make debugging easy db.Debug().Where("name = ?", "jinzhu").First(&User{}) ``` ## Row & Rows Row & Rows is not chainable, it works just like `QueryRow` and `Query`. ```go row := db.Table("users").Where("name = ?", "jinzhu").Select("name, age").Row() // (*sql.Row) row.Scan(&name, &age) rows, err := db.Model(User{}).Where("name = ?", "jinzhu").Select("name, age, email").Rows() // (*sql.Rows, error) defer rows.Close() for rows.Next() { ... rows.Scan(&name, &age, &email) ... } // Rows() with raw sql rows, err := db.Raw("select name, age, email from users where name = ?", "jinzhu").Rows() // (*sql.Rows, error) defer rows.Close() for rows.Next() { ... rows.Scan(&name, &age, &email) ... } ``` ## Scan Scan sql results into a struct. ```go type Result struct { Name string Age int } var result Result db.Table("users").Select("name, age").Where("name = ?", 3).Scan(&result) // Scan raw sql db.Raw("SELECT name, age FROM users WHERE name = ?", 3).Scan(&result) ``` ## Group & Having ```go rows, err := db.Table("orders").Select("date(created_at) as date, sum(amount) as total").Group("date(created_at)").Rows() for rows.Next() { ... } rows, err := db.Table("orders").Select("date(created_at) as date, sum(amount) as total").Group("date(created_at)").Having("sum(amount) > ?", 100).Rows() for rows.Next() { ... } type Result struct { Date time.Time Total int64 } db.Table("orders").Select("date(created_at) as date, sum(amount) as total").Group("date(created_at)").Having("sum(amount) > ?", 100).Scan(&results) ``` ## Joins ```go rows, err := db.Table("users").Select("users.name, emails.email").Joins("left join emails on emails.user_id = users.id").Rows() for rows.Next() { ... } db.Table("users").Select("users.name, emails.email").Joins("left join emails on emails.user_id = users.id").Scan(&results) ``` ## Indices ```go // single column index db.Model(User{}).AddIndex("idx_user_name", "name") // multiple column index db.Model(User{}).AddIndex("idx_user_name_age", "name", "age") // single column unique index db.Model(User{}).AddUniqueIndex("idx_user_name", "name") // multiple column unique index db.Model(User{}).AddUniqueIndex("idx_user_name_age", "name", "age") // remove index db.Model(User{}).RemoveIndex("idx_user_name") ``` ## Run Raw SQL ```go // Raw SQL db.Exec("DROP TABLE users;") // Raw SQL with arguments db.Exec("UPDATE orders SET shipped_at=? WHERE id IN (?)", time.Now, []int64{11,22,33}) ``` ## Error Handling ```go query := db.Where("name = ?", "jinzhu").First(&user) query := db.First(&user).Limit(10).Find(&users) //// query.Error returns the last error //// query.Errors returns all errors that have taken place //// If an error has taken place, gorm will stop all following operations // I often use some code like below to do error handling when writing applications if err := db.Where("name = ?", "jinzhu").First(&user).Error; err != nil { // ... } // If no record is found, gorm will return RecordNotFound error, you could check it with db.Where("name = ?", "hello world").First(&User{}).Error == gorm.RecordNotFound // Or use the shortcut method if db.Where("name = ?", "hello world").First(&user).RecordNotFound() { panic("no record found") } else { user.Blalala() } if db.Model(&user).Related(&credit_card).RecordNotFound() { panic("no credit card found") } ``` ## Advanced Usage With Query Chaining Already excited with what gorm has to offer? Let's see some magic! ```go db.First(&first_article).Count(&total_count).Limit(10).Find(&first_page_articles).Offset(10).Find(&second_page_articles) //// SELECT * FROM articles LIMIT 1; (first_article) //// SELECT count(*) FROM articles; (total_count) //// SELECT * FROM articles LIMIT 10; (first_page_articles) //// SELECT * FROM articles LIMIT 10 OFFSET 10; (second_page_articles) // Mix where conditions with inline conditions db.Where("created_at > ?", "2013-10-10").Find(&cancelled_orders, "state = ?", "cancelled").Find(&shipped_orders, "state = ?", "shipped") //// SELECT * FROM orders WHERE created_at > '2013/10/10' AND state = 'cancelled'; (cancelled_orders) //// SELECT * FROM orders WHERE created_at > '2013/10/10' AND state = 'shipped'; (shipped_orders) // Use variables to keep query chain todays_orders := db.Where("created_at > ?", "2013-10-29") cancelled_orders := todays_orders.Where("state = ?", "cancelled") shipped_orders := todays_orders.Where("state = ?", "shipped") // Search with shared conditions from different tables db.Where("product_name = ?", "fancy_product").Find(&orders).Find(&shopping_carts) //// SELECT * FROM orders WHERE product_name = 'fancy_product'; (orders) //// SELECT * FROM carts WHERE product_name = 'fancy_product'; (shopping_carts) // Search with shared conditions from different tables with specified table db.Where("mail_type = ?", "TEXT").Find(&users1).Table("deleted_users").Find(&users2) //// SELECT * FROM users WHERE mail_type = 'TEXT'; (users1) //// SELECT * FROM deleted_users WHERE mail_type = 'TEXT'; (users2) // An example on how to use FirstOrCreate db.Where("email = ?", "x@example.org").Attrs(User{RegisteredIp: "111.111.111.111"}).FirstOrCreate(&user) //// SELECT * FROM users WHERE email = 'x@example.org'; //// INSERT INTO "users" (email,registered_ip) VALUES ("x@example.org", "111.111.111.111") // if no record found ``` ## TODO * Support plugin BeforeQuery BeforeSave BeforeCreate BeforeUpdate BeforeDelete AfterQuery AfterSave AfterCreate AfterUpdate SoftDelete BeforeQuery BeforeSave BeforeDelete db.RegisterPlugin("xxx") db.RegisterCallback("BeforeQuery", func() {}) db.RegisterCallback("BeforeSave", func() {}) db.RegisterFuncation("Search", func() {}) db.Model(&[]User{}).Limit(10).Do("Search", "vip", "china") db.Mode(&User{}).Do("EditForm").Get("edit_form_html") DefaultValue, DefaultTimeZone, R/W Splitting, Validation * Getter/Setter share or not? transaction? * Github Pages * Includes * AlertColumn, DropColumn # Author **jinzhu** * * * ## License Released under the [MIT License](http://www.opensource.org/licenses/MIT). [![GoDoc](https://godoc.org/github.com/jinzhu/gorm?status.png)](http://godoc.org/github.com/jinzhu/gorm)