package gorm import ( "database/sql" "database/sql/driver" "errors" "fmt" _ "github.com/go-sql-driver/mysql" _ "github.com/lib/pq" _ "github.com/mattn/go-sqlite3" "os" "reflect" "strconv" "testing" "time" ) type User struct { Id int64 // Id: Primary key Birthday time.Time // Time Age int64 Name string `sql:"size:255"` CreatedAt time.Time // CreatedAt: Time of record is created, will be insert automatically UpdatedAt time.Time // UpdatedAt: Time of record is updated, will be updated automatically DeletedAt time.Time // DeletedAt: Time of record is deleted, refer Soft Delete for more Emails []Email // Embedded structs BillingAddress Address // Embedded struct BillingAddressId sql.NullInt64 // Embedded struct's foreign key ShippingAddress Address // Embedded struct ShippingAddressId int64 // Embedded struct's foreign key When time.Time CreditCard CreditCard Latitude float64 PasswordHash []byte IgnoreMe int64 `sql:"-"` } type CreditCard struct { Id int8 Number string UserId sql.NullInt64 CreatedAt time.Time UpdatedAt time.Time DeletedAt time.Time } type Email struct { Id int16 UserId int Email string `sql:"type:varchar(100); unique"` CreatedAt time.Time UpdatedAt time.Time } type Address struct { Id int Address1 string Address2 string Post string CreatedAt time.Time UpdatedAt time.Time DeletedAt time.Time } type Product struct { Id int64 Code string Price int64 CreatedAt time.Time UpdatedAt time.Time AfterFindCallTimes int64 BeforeCreateCallTimes int64 AfterCreateCallTimes int64 BeforeUpdateCallTimes int64 AfterUpdateCallTimes int64 BeforeSaveCallTimes int64 AfterSaveCallTimes int64 BeforeDeleteCallTimes int64 AfterDeleteCallTimes int64 } var ( db DB t1, t2, t3, t4, t5 time.Time ) func init() { var err error switch os.Getenv("GORM_DIALECT") { case "mysql": // CREATE USER 'gorm'@'localhost' IDENTIFIED BY 'gorm'; // CREATE DATABASE gorm; // GRANT ALL ON gorm.* TO 'gorm'@'localhost'; fmt.Println("testing mysql...") db, err = Open("mysql", "gorm:gorm@/gorm?charset=utf8&parseTime=True") case "sqlite": fmt.Println("testing sqlite3...") db, err = Open("sqlite3", "/tmp/gorm.db") default: fmt.Println("testing postgres...") db, err = Open("postgres", "user=gorm dbname=gorm sslmode=disable") } // db.SetLogger(Logger{log.New(os.Stdout, "\r\n", 0)}) // db.SetLogger(log.New(os.Stdout, "\r\n", 0)) db.LogMode(true) db.LogMode(false) if err != nil { panic(fmt.Sprintf("No error should happen when connect database, but got %+v", err)) } db.DB().SetMaxIdleConns(10) if err := db.DropTable(&User{}).Error; err != nil { fmt.Printf("Got error when try to delete table users, %+v\n", err) } db.Exec("drop table products;") db.Exec("drop table emails;") db.Exec("drop table addresses") db.Exec("drop table credit_cards") if err = db.CreateTable(&User{}).Error; err != nil { panic(fmt.Sprintf("No error should happen when create table, but got %+v", err)) } if err = db.CreateTable(&Product{}).Error; err != nil { panic(fmt.Sprintf("No error should happen when create table, but got %+v", err)) } if err = db.CreateTable(Email{}).Error; err != nil { panic(fmt.Sprintf("No error should happen when create table, but got %+v", err)) } if err = db.AutoMigrate(Address{}).Error; err != nil { panic(fmt.Sprintf("No error should happen when create table, but got %+v", err)) } if err = db.AutoMigrate(&CreditCard{}).Error; err != nil { panic(fmt.Sprintf("No error should happen when create table, but got %+v", err)) } var shortForm = "2006-01-02 15:04:05" t1, _ = time.Parse(shortForm, "2000-10-27 12:02:40") t2, _ = time.Parse(shortForm, "2002-01-01 00:00:00") t3, _ = time.Parse(shortForm, "2005-01-01 00:00:00") t4, _ = time.Parse(shortForm, "2010-01-01 00:00:00") t5, _ = time.Parse(shortForm, "2020-01-01 00:00:00") db.Save(&User{Name: "1", Age: 18, Birthday: t1, When: time.Now()}) db.Save(&User{Name: "2", Age: 20, Birthday: t2}) db.Save(&User{Name: "3", Age: 22, Birthday: t3}) db.Save(&User{Name: "3", Age: 24, Birthday: t4}) db.Save(&User{Name: "5", Age: 26, Birthday: t4}) } func TestFirstAndLast(t *testing.T) { var user1, user2, user3, user4 User db.First(&user1) db.Order("id").Find(&user2) db.Last(&user3) db.Order("id desc").Find(&user4) if user1.Id != user2.Id || user3.Id != user4.Id { t.Errorf("First and Last should works correctly") } var users []User db.First(&users) if len(users) != 1 { t.Errorf("Find first record as map") } } func TestPrecision(t *testing.T) { f := 35.03554004971999 user := User{Name: "Precision", Latitude: f} db.Save(&user) if user.Latitude != f { t.Errorf("Float64 should not be changed after save") } var u User db.First(&u, "name = ?", "Precision") if u.Latitude != f { t.Errorf("Float64 should not be changed after query") } } func TestCreateAndUpdate(t *testing.T) { name, name2, new_name := "update", "update2", "new_update" user := User{Name: name, Age: 1, PasswordHash: []byte{'f', 'a', 'k', '4'}} if !db.NewRecord(user) { t.Error("User should be new record") } if !db.NewRecord(&user) { t.Error("User should be new record") } db.Save(&user) if user.Id == 0 { t.Errorf("Should have ID after create") } if db.NewRecord(user) { t.Error("User should not new record after save") } if db.NewRecord(&user) { t.Error("User should not new record after save") } var u User db.First(&u, user.Id) if !reflect.DeepEqual(u.PasswordHash, []byte{'f', 'a', 'k', '4'}) { t.Errorf("User's Password should be saved") } db.Save(&User{Name: name2, Age: 1}) user.Name = new_name db.Save(&user) if db.Where("name = ?", name).First(&User{}).Error != RecordNotFound { t.Errorf("Should raise RecordNotFound error when looking with an outdated name") } if db.Where("name = ?", new_name).First(&User{}).Error != nil { t.Errorf("Shouldn't raise error when looking with the new name") } if db.Where("name = ?", name2).First(&User{}).Error != nil { t.Errorf("Shouldn't update other users when update one") } } func TestDelete(t *testing.T) { name, name2 := "delete", "delete2" user := User{Name: name, Age: 1} db.Save(&user) db.Save(&User{Name: name2, Age: 1}) if db.Delete(&user).Error != nil { t.Errorf("Shouldn't raise any error when delete a user") } if db.Where("name = ?", name).First(&User{}).Error == nil { t.Errorf("User can't be found after delete") } if db.Where("name = ?", name2).First(&User{}).Error != nil { t.Errorf("Other users shouldn't be deleted") } } func TestWhere(t *testing.T) { name := "where" db.Save(&User{Name: name, Age: 1}) user := &User{} db.Where("name = ?", name).First(user) if user.Name != name { t.Errorf("Search user with name") } if db.Where(user.Id).First(&User{}).Error != nil { t.Errorf("Search user with primary key") } if db.Where("name LIKE ?", "%nonono%").First(&User{}).Error == nil { t.Errorf("Search non-existing user with regexp name") } if db.Where("name LIKE ?", "%whe%").First(&User{}).Error != nil { t.Errorf("Search user with regexp name") } if db.Where("name = ?", "non-existing user").First(&User{}).Error == nil { t.Errorf("Search non-existing user should get error") } var users []User if db.Where("name = ?", "none-noexisting").Find(&users).Error != nil { t.Errorf("Shouldn't return error when looking for none existing records with find") } if len(users) != 0 { t.Errorf("Users should be empty") } } func TestComplexWhere(t *testing.T) { var users []User db.Where("age > ?", 20).Find(&users) if len(users) != 3 { t.Errorf("Should found 3 users that age > 20, but got %v", len(users)) } var user_ids []int64 db.Table("users").Where("age > ?", 20).Pluck("id", &user_ids) if len(user_ids) != 3 { t.Errorf("Should found 3 users that age > 20, but got %v", len(users)) } users = []User{} db.Where(user_ids).Find(&users) if len(users) != 3 { t.Errorf("Should found 3 users that age > 20 when search with primary keys, but got %v", len(users)) } users = []User{} db.Where("age >= ?", 20).Find(&users) if len(users) != 4 { t.Errorf("Should found 4 users that age >= 20, but got %v", len(users)) } users = []User{} db.Where("age = ?", 20).Find(&users) if len(users) != 1 { t.Errorf("Should found 1 users age == 20, but got %v", len(users)) } users = []User{} db.Where("age <> ?", 20).Find(&users) if len(users) < 3 { t.Errorf("Should found more than 3 users age != 20, but got %v", len(users)) } users = []User{} db.Where("name = ? and age >= ?", "3", 20).Find(&users) if len(users) != 2 { t.Errorf("Should found 2 users that age >= 20 with name 3, but got %v", len(users)) } users = []User{} db.Where("name = ?", "3").Where("age >= ?", 20).Find(&users) if len(users) != 2 { t.Errorf("Should found 2 users that age >= 20 with name 3, but got %v", len(users)) } users = []User{} db.Where("birthday > ?", t2).Find(&users) if len(users) != 3 { t.Errorf("Should found 3 users's birthday >= t2, but got %v", len(users)) } users = []User{} db.Where("birthday > ?", "2002-10-10").Find(&users) if len(users) != 3 { t.Errorf("Should found 3 users's birthday >= 2002-10-10, but got %v", len(users)) } users = []User{} db.Where("birthday >= ?", t1).Where("birthday < ?", t2).Find(&users) if len(users) != 1 { t.Errorf("Should found 1 users's birthday <= t2, but got %v", len(users)) } users = []User{} db.Where("birthday >= ? and birthday <= ?", t1, t2).Find(&users) if len(users) != 2 { t.Errorf("Should found 2 users's birthday <= t2, but got %v", len(users)) } users = []User{} db.Where("name in (?)", []string{"1", "3"}).Find(&users) if len(users) != 3 { t.Errorf("Should found 3 users's name in (1, 3), but got %v", len(users)) } user_ids = []int64{} for _, user := range users { user_ids = append(user_ids, user.Id) } users = []User{} db.Where("id in (?)", user_ids).Find(&users) if len(users) != 3 { t.Errorf("Should found 3 users's name in (1, 3), but got %v", len(users)) } users = []User{} db.Where("id in (?)", user_ids[0]).Find(&users) if len(users) != 1 { t.Errorf("Should found 1 users's name in (1), but got %v", len(users)) } users = []User{} db.Where("name in (?)", []string{"1", "2"}).Find(&users) if len(users) != 2 { t.Errorf("Should found 2 users's name in (1, 2), but got %v", len(users)) } } func TestSearchWithStruct(t *testing.T) { var user User db.First(&user, &User{Name: "2"}) if user.Id == 0 || user.Name != "2" { t.Errorf("Search first record with inline struct pointer") } db.First(&user, User{Name: "2"}) if user.Id == 0 || user.Name != "2" { t.Errorf("Search first record with inline struct") } db.Where(&User{Name: "2"}).First(&user) if user.Id == 0 || user.Name != "2" { t.Errorf("Search first record with where struct") } var users []User db.Find(&users, &User{Name: "3"}) if len(users) != 2 { t.Errorf("Search all records with inline struct") } db.Where(User{Name: "3"}).Find(&users) if user.Id == 0 || user.Name != "2" { t.Errorf("Search all records with where struct") } } func TestSearchWithMap(t *testing.T) { var user User db.First(&user, map[string]interface{}{"name": "2"}) if user.Id == 0 || user.Name != "2" { t.Errorf("Search first record with inline map") } db.Where(map[string]interface{}{"name": "2"}).First(&user) if user.Id == 0 || user.Name != "2" { t.Errorf("Search first record with where map") } var users []User db.Find(&users, map[string]interface{}{"name": "3"}) if len(users) != 2 { t.Errorf("Search all records with inline map") } db.Where(map[string]interface{}{"name": "3"}).Find(&users) if user.Id == 0 || user.Name != "2" { t.Errorf("Search all records with where map") } } func TestInitlineCondition(t *testing.T) { var u1, u2, u3, u4, u5, u6, u7 User db.Where("name = ?", "3").Order("age desc").First(&u1).First(&u2) db.Where("name = ?", "3").First(&u3, "age = 22").First(&u4, "age = ?", 24).First(&u5, "age = ?", 26) if !((u5.Id == 0) && (u3.Age == 22 && u3.Name == "3") && (u4.Age == 24 && u4.Name == "3")) { t.Errorf("Find first record with inline condition and where") } db.First(&u6, u1.Id) if !(u6.Id == u1.Id && u6.Id != 0) { t.Errorf("Find first record with primary key") } db.First(&u7, strconv.Itoa(int(u1.Id))) if !(u6.Id == u1.Id && u6.Id != 0) { t.Errorf("Find first record with string primary key") } var us1, us2, us3, us4 []User db.Find(&us1, "age = 22").Find(&us2, "name = ?", "3").Find(&us3, "age > ?", 20) if !(len(us1) == 1 && len(us2) == 2 && len(us3) == 3) { t.Errorf("Find all records with inline condition and where") } db.Find(&us4, "name = ? and age > ?", "3", "22") if len(us4) != 1 { t.Errorf("Find all records with complex inline condition") } } func TestSelect(t *testing.T) { var user User db.Where("name = ?", "3").Select("name").Find(&user) if user.Id != 0 { t.Errorf("Should not have ID because only searching age, %+v", user.Id) } if user.Name != "3" { t.Errorf("Should got Name = 3 when searching with it, %+v", user.Id) } query := db.Where("name = ?", "3").Select("nam;e") if query.Error == nil { t.Errorf("Should got error with invalid select string") } } func TestOrderAndPluck(t *testing.T) { var ages, ages1, ages2, ages3, ages4, ages5 []int64 db.Model(&[]User{}).Order("age desc").Pluck("age", &ages) if ages[0] != 26 { t.Errorf("The first age should be 26 when order with age desc") } db.Model([]User{}).Order("age desc").Pluck("age", &ages1).Order("age").Pluck("age", &ages2) if !reflect.DeepEqual(ages1, ages2) { t.Errorf("The first order is the primary order") } db.Model(&User{}).Order("age desc").Pluck("age", &ages3).Order("age", true).Pluck("age", &ages4) if reflect.DeepEqual(ages3, ages4) { t.Errorf("Reorder should works") } var names []string db.Model(User{}).Order("name").Order("age desc").Pluck("age", &ages5).Pluck("name", &names) if !(names[0] == "1" && names[2] == "3" && names[3] == "3" && ages5[2] == 24 && ages5[3] == 22) { t.Errorf("Order with multiple orders") } db.Model(User{}).Select("name, age").Find(&[]User{}) } func TestLimit(t *testing.T) { var users1, users2, users3 []User db.Order("age desc").Limit(3).Find(&users1).Limit(5).Find(&users2).Limit(-1).Find(&users3) if len(users1) != 3 || len(users2) != 5 || len(users3) <= 5 { t.Errorf("Limit should works") } } func TestOffset(t *testing.T) { var users1, users2, users3, users4 []User db.Limit(100).Order("age desc").Find(&users1).Offset(3).Find(&users2).Offset(5).Find(&users3).Offset(-1).Find(&users4) if (len(users1) != len(users4)) || (len(users1)-len(users2) != 3) || (len(users1)-len(users3) != 5) { t.Errorf("Offset should works") } } func TestOr(t *testing.T) { var users []User db.Where("name = ?", "1").Or("name = ?", "3").Find(&users) if len(users) != 3 { t.Errorf("Find users with or") } } func TestCount(t *testing.T) { var count, count1, count2 int64 var users []User if err := db.Where("name = ?", "1").Or("name = ?", "3").Find(&users).Count(&count).Error; err != nil { t.Errorf("Count should works", err) } if count != int64(len(users)) { t.Errorf("Count() method should get correct value") } db.Model(&User{}).Where("name = ?", "1").Count(&count1).Or("name = ?", "3").Count(&count2) if count1 != 1 || count2 != 3 { t.Errorf("Multiple count should works") } } func TestCreatedAtAndUpdatedAt(t *testing.T) { name := "check_created_at_and_updated_at" u := User{Name: name, Age: 1} db.Save(&u) created_at := u.CreatedAt updated_at := u.UpdatedAt if created_at.IsZero() { t.Errorf("Should have created_at after create") } if updated_at.IsZero() { t.Errorf("Should have updated_at after create") } u.Name = "check_created_at_and_updated_at_2" db.Save(&u) created_at2 := u.CreatedAt updated_at2 := u.UpdatedAt if created_at != created_at2 { t.Errorf("Created At should not changed after update") } if updated_at == updated_at2 { t.Errorf("Updated At should be changed after update") } } func (s *Product) BeforeCreate() (err error) { if s.Code == "Invalid" { err = errors.New("invalid product") } s.BeforeCreateCallTimes = s.BeforeCreateCallTimes + 1 return } func (s *Product) BeforeUpdate() (err error) { if s.Code == "dont_update" { err = errors.New("Can't update") } s.BeforeUpdateCallTimes = s.BeforeUpdateCallTimes + 1 return } func (s *Product) BeforeSave() (err error) { if s.Code == "dont_save" { err = errors.New("Can't save") } s.BeforeSaveCallTimes = s.BeforeSaveCallTimes + 1 return } func (s *Product) AfterFind() { s.AfterFindCallTimes = s.AfterFindCallTimes + 1 } func (s *Product) AfterCreate(db *DB) { db.Model(s).UpdateColumn(Product{AfterCreateCallTimes: s.AfterCreateCallTimes + 1}) } func (s *Product) AfterUpdate() { s.AfterUpdateCallTimes = s.AfterUpdateCallTimes + 1 } func (s *Product) AfterSave() (err error) { if s.Code == "after_save_error" { err = errors.New("Can't save") } s.AfterSaveCallTimes = s.AfterSaveCallTimes + 1 return } func (s *Product) BeforeDelete() (err error) { if s.Code == "dont_delete" { err = errors.New("Can't delete") } s.BeforeDeleteCallTimes = s.BeforeDeleteCallTimes + 1 return } func (s *Product) AfterDelete() (err error) { if s.Code == "after_delete_error" { err = errors.New("Can't delete") } s.AfterDeleteCallTimes = s.AfterDeleteCallTimes + 1 return } func (p *Product) GetCallTimes() []int64 { return []int64{p.BeforeCreateCallTimes, p.BeforeSaveCallTimes, p.BeforeUpdateCallTimes, p.AfterCreateCallTimes, p.AfterSaveCallTimes, p.AfterUpdateCallTimes, p.BeforeDeleteCallTimes, p.AfterDeleteCallTimes, p.AfterFindCallTimes} } func TestRunCallbacks(t *testing.T) { p := Product{Code: "unique_code", Price: 100} db.Save(&p) if !reflect.DeepEqual(p.GetCallTimes(), []int64{1, 1, 0, 1, 1, 0, 0, 0, 0}) { t.Errorf("Callbacks should be invoked successfully, %v", p.GetCallTimes()) } db.Where("Code = ?", "unique_code").First(&p) if !reflect.DeepEqual(p.GetCallTimes(), []int64{1, 1, 0, 1, 0, 0, 0, 0, 1}) { t.Errorf("After callbacks values are not saved, %v", p.GetCallTimes()) } p.Price = 200 db.Save(&p) if !reflect.DeepEqual(p.GetCallTimes(), []int64{1, 2, 1, 1, 1, 1, 0, 0, 1}) { t.Errorf("After update callbacks should be invoked successfully, %v", p.GetCallTimes()) } var products []Product db.Find(&products, "code = ?", "unique_code") if products[0].AfterFindCallTimes != 2 { t.Errorf("AfterFind callbacks should works with slice") } db.Where("Code = ?", "unique_code").First(&p) if !reflect.DeepEqual(p.GetCallTimes(), []int64{1, 2, 1, 1, 0, 0, 0, 0, 2}) { t.Errorf("After update callbacks values are not saved, %v", p.GetCallTimes()) } db.Delete(&p) if !reflect.DeepEqual(p.GetCallTimes(), []int64{1, 2, 1, 1, 0, 0, 1, 1, 2}) { t.Errorf("After delete callbacks should be invoked successfully, %v", p.GetCallTimes()) } if db.Where("Code = ?", "unique_code").First(&p).Error == nil { t.Errorf("Can't find a deleted record") } } func TestCallbacksWithErrors(t *testing.T) { p := Product{Code: "Invalid", Price: 100} if db.Save(&p).Error == nil { t.Errorf("An error from before create callbacks happened when create with invalid value") } if db.Where("code = ?", "Invalid").First(&Product{}).Error == nil { t.Errorf("Should not save record that have errors") } if db.Save(&Product{Code: "dont_save", Price: 100}).Error == nil { t.Errorf("An error from after create callbacks happened when create with invalid value") } p2 := Product{Code: "update_callback", Price: 100} db.Save(&p2) p2.Code = "dont_update" if db.Save(&p2).Error == nil { t.Errorf("An error from before update callbacks happened when update with invalid value") } if db.Where("code = ?", "update_callback").First(&Product{}).Error != nil { t.Errorf("Record Should not be updated due to errors happened in before update callback") } if db.Where("code = ?", "dont_update").First(&Product{}).Error == nil { t.Errorf("Record Should not be updated due to errors happened in before update callback") } p2.Code = "dont_save" if db.Save(&p2).Error == nil { t.Errorf("An error from before save callbacks happened when update with invalid value") } p3 := Product{Code: "dont_delete", Price: 100} db.Save(&p3) if db.Delete(&p3).Error == nil { t.Errorf("An error from before delete callbacks happened when delete") } if db.Where("Code = ?", "dont_delete").First(&p3).Error != nil { t.Errorf("An error from before delete callbacks happened") } p4 := Product{Code: "after_save_error", Price: 100} db.Save(&p4) if err := db.First(&Product{}, "code = ?", "after_save_error").Error; err == nil { t.Errorf("Record should be reverted if get an error in after save callback", err) } p5 := Product{Code: "after_delete_error", Price: 100} db.Save(&p5) if err := db.First(&Product{}, "code = ?", "after_delete_error").Error; err != nil { t.Errorf("Record should be found", err) } db.Delete(&p5) if err := db.First(&Product{}, "code = ?", "after_delete_error").Error; err != nil { t.Errorf("Record shouldn't be deleted because of an error happened in after delete callback", err) } } func TestFillSmallerStructCorrectly(t *testing.T) { type SimpleUser struct { Name string Id int64 UpdatedAt time.Time CreatedAt time.Time } var simple_user SimpleUser db.Table("users").Find(&simple_user) if simple_user.Id == 0 || simple_user.Name == "" { t.Errorf("Should fill data correctly even some column missing") } } func TestExceptionsWithInvalidSql(t *testing.T) { var columns []string if db.Where("sdsd.zaaa = ?", "sd;;;aa").Pluck("aaa", &columns).Error == nil { t.Errorf("Should got error with invalid SQL") } if db.Model(&User{}).Where("sdsd.zaaa = ?", "sd;;;aa").Pluck("aaa", &columns).Error == nil { t.Errorf("Should got error with invalid SQL") } type Article struct { Name string } db.Where("sdsd.zaaa = ?", "sd;;;aa").Find(&Article{}) db.Where("name = ?", "3").Find(&[]User{}) var count1, count2 int64 db.Model(&User{}).Count(&count1) if count1 <= 0 { t.Errorf("Should find some users") } q := db.Where("name = ?", "jinzhu; delete * from users").First(&User{}) if q.Error == nil { t.Errorf("Can't find user") } db.Model(&User{}).Count(&count2) if count1 != count2 { t.Errorf("Users should not be deleted by invalid SQL") } db.Where("non-existing = ?", "3").Find(&[]User{}) } func TestSetTableDirectly(t *testing.T) { var ages []int64 if db.Table("users").Pluck("age", &ages).Error != nil { t.Errorf("No errors should happen if set table for pluck") } if len(ages) == 0 { t.Errorf("Should get some records") } var users []User if db.Table("users").Find(&users).Error != nil { t.Errorf("No errors should happen if set table for find") } if db.Table("unexisting_users_table").Find(&users).Error == nil { t.Errorf("Should got error if set table to an invalid table") } db.Exec("drop table deleted_users;") if db.Table("deleted_users").CreateTable(&User{}).Error != nil { t.Errorf("Should create table with specified table") } db.Table("deleted_users").Save(&User{Name: "DeletedUser"}) var deleted_users []User db.Table("deleted_users").Find(&deleted_users) if len(deleted_users) != 1 { t.Errorf("Query from specified table") } var deleted_user User db.Table("deleted_users").First(&deleted_user) if deleted_user.Name != "DeletedUser" { t.Errorf("Query from specified table") } var user1, user2, user3 User db.First(&user1).Table("deleted_users").First(&user2).Table("").First(&user3) if (user1.Name == user2.Name) || (user1.Name != user3.Name) { t.Errorf("unset specified table with blank string") } } func TestUpdate(t *testing.T) { product1 := Product{Code: "123"} product2 := Product{Code: "234"} db.Save(&product1).Save(&product2).Update("code", "456") if product2.Code != "456" { t.Errorf("Record should be updated with update attributes") } db.First(&product1, product1.Id) db.First(&product2, product2.Id) updated_at1 := product1.UpdatedAt updated_at2 := product2.UpdatedAt var product3 Product db.First(&product3, product2.Id).Update("code", "456") if updated_at2.Format(time.RFC3339Nano) != product3.UpdatedAt.Format(time.RFC3339Nano) { t.Errorf("updated_at should not be updated if nothing changed") } if db.First(&Product{}, "code = '123'").Error != nil { t.Errorf("Product 123 should not be updated") } if db.First(&Product{}, "code = '234'").Error == nil { t.Errorf("Product 234 should be changed to 456") } if db.First(&Product{}, "code = '456'").Error != nil { t.Errorf("Product 234 should be changed to 456") } db.Table("products").Where("code in (?)", []string{"123"}).Update("code", "789") var product4 Product db.First(&product4, product1.Id) if updated_at1.Format(time.RFC3339Nano) != product4.UpdatedAt.Format(time.RFC3339Nano) { t.Errorf("updated_at should be updated if something changed") } if db.First(&Product{}, "code = '123'").Error == nil { t.Errorf("Product 123 should be changed to 789") } if db.First(&Product{}, "code = '456'").Error != nil { t.Errorf("Product 456 should not be changed to 789") } if db.First(&Product{}, "code = '789'").Error != nil { t.Errorf("Product 456 should be changed to 789") } if db.Model(product2).Update("CreatedAt", time.Now().Add(time.Hour)).Error != nil { t.Error("No error should raise when update with CamelCase") } if db.Model(&product2).UpdateColumn("CreatedAt", time.Now().Add(time.Hour)).Error != nil { t.Error("No error should raise when update_column with CamelCase") } } func TestUpdates(t *testing.T) { product1 := Product{Code: "abc", Price: 10} product2 := Product{Code: "cde", Price: 20} db.Save(&product1).Save(&product2).Updates(map[string]interface{}{"code": "edf", "price": 100}) if product2.Code != "edf" || product2.Price != 100 { t.Errorf("Record should be updated also with update attributes") } db.First(&product1, product1.Id) db.First(&product2, product2.Id) updated_at1 := product1.UpdatedAt updated_at2 := product2.UpdatedAt var product3 Product db.First(&product3, product2.Id).Updates(Product{Code: "edf", Price: 100}) if product3.Code != "edf" || product3.Price != 100 { t.Errorf("Record should be updated with update attributes") } if updated_at2.Format(time.RFC3339Nano) != product3.UpdatedAt.Format(time.RFC3339Nano) { t.Errorf("updated_at should not be updated if nothing changed") } if db.First(&Product{}, "code = 'abc' and price = 10").Error != nil { t.Errorf("Product abc should not be updated") } if db.First(&Product{}, "code = 'cde'").Error == nil { t.Errorf("Product cde should be renamed to edf") } if db.First(&Product{}, "code = 'edf' and price = 100").Error != nil { t.Errorf("Product cde should be renamed to edf") } db.Table("products").Where("code in (?)", []string{"abc"}).Updates(map[string]string{"code": "fgh", "price": "200"}) if db.First(&Product{}, "code = 'abc'").Error == nil { t.Errorf("Product abc's code should be changed to fgh") } var product4 Product db.First(&product4, product1.Id) if updated_at1.Format(time.RFC3339Nano) != product4.UpdatedAt.Format(time.RFC3339Nano) { t.Errorf("updated_at should be updated if something changed") } if db.First(&Product{}, "code = 'edf' and price = ?", 100).Error != nil { t.Errorf("Product cde's code should not be changed to fgh") } if db.First(&Product{}, "code = 'fgh' and price = 200").Error != nil { t.Errorf("We should have Product fgh") } } func TestUpdateColumn(t *testing.T) { product1 := Product{Code: "update_column 1", Price: 10} product2 := Product{Code: "update_column 2", Price: 20} db.Save(&product1).Save(&product2).UpdateColumn(map[string]interface{}{"code": "update_column 3", "price": 100}) if product2.Code != "update_column 3" || product2.Price != 100 { t.Errorf("product 2 should be updated with update column") } var product3 Product db.First(&product3, product1.Id) if product3.Code != "update_column 1" || product3.Price != 10 { t.Errorf("product 1 should not be updated") } var product4, product5 Product db.First(&product4, product2.Id) updated_at1 := product4.UpdatedAt db.Model(Product{}).Where(product2.Id).UpdateColumn("code", "update_column_new") db.First(&product5, product2.Id) if updated_at1.Format(time.RFC3339Nano) != product5.UpdatedAt.Format(time.RFC3339Nano) { t.Errorf("updated_at should not be updated with update column") } } func TestSoftDelete(t *testing.T) { type Order struct { Id int64 Amount int64 DeletedAt time.Time } db.Exec("drop table orders;") db.CreateTable(&Order{}) order := Order{Amount: 1234} db.Save(&order) if db.First(&Order{}, "amount = ?", 1234).Error != nil { t.Errorf("No errors should happen when save an order") } db.Delete(&order) if db.First(&Order{}, "amount = 1234").Error == nil { t.Errorf("Can't find order because it is soft deleted") } if db.Unscoped().First(&Order{}, "amount = 1234").Error != nil { t.Errorf("Should be able to find out the soft deleted order with unscoped") } db.Unscoped().Delete(&order) if db.Unscoped().First(&Order{}, "amount = 1234").Error == nil { t.Errorf("Can't find permanently deleted order") } } func TestFindOrInitialize(t *testing.T) { var user1, user2, user3, user4, user5, user6 User db.Where(&User{Name: "find or init", Age: 33}).FirstOrInit(&user1) if user1.Name != "find or init" || user1.Id != 0 || user1.Age != 33 { t.Errorf("user should be initialized with search value") } db.Where(User{Name: "find or init", Age: 33}).FirstOrInit(&user2) if user2.Name != "find or init" || user2.Id != 0 || user2.Age != 33 { t.Errorf("user should be initialized with search value") } db.FirstOrInit(&user3, map[string]interface{}{"name": "find or init 2"}) if user3.Name != "find or init 2" || user3.Id != 0 { t.Errorf("user should be initialized with inline search value") } db.Where(&User{Name: "find or init"}).Attrs(User{Age: 44}).FirstOrInit(&user4) if user4.Name != "find or init" || user4.Id != 0 || user4.Age != 44 { t.Errorf("user should be initialized with search value and attrs") } db.Where(&User{Name: "find or init"}).Assign("age", 44).FirstOrInit(&user4) if user4.Name != "find or init" || user4.Id != 0 || user4.Age != 44 { t.Errorf("user should be initialized with search value and assign attrs") } db.Save(&User{Name: "find or init", Age: 33}) db.Where(&User{Name: "find or init"}).Attrs("age", 44).FirstOrInit(&user5) if user5.Name != "find or init" || user5.Id == 0 || user5.Age != 33 { t.Errorf("user should be found and not initialized by Attrs") } db.Where(&User{Name: "find or init", Age: 33}).FirstOrInit(&user6) if user6.Name != "find or init" || user6.Id == 0 || user6.Age != 33 { t.Errorf("user should be found with FirstOrInit") } db.Where(&User{Name: "find or init"}).Assign(User{Age: 44}).FirstOrInit(&user6) if user6.Name != "find or init" || user6.Id == 0 || user6.Age != 44 { t.Errorf("user should be found and updated with assigned attrs") } } func TestFindOrCreate(t *testing.T) { var user1, user2, user3, user4, user5, user6, user7 User db.Where(&User{Name: "find or create", Age: 33}).FirstOrCreate(&user1) if user1.Name != "find or create" || user1.Id == 0 || user1.Age != 33 { t.Errorf("user should be created with search value") } db.Where(&User{Name: "find or create", Age: 33}).FirstOrCreate(&user2) if user1.Id != user2.Id || user2.Name != "find or create" || user2.Id == 0 || user2.Age != 33 { t.Errorf("user should be created with search value") } db.FirstOrCreate(&user3, map[string]interface{}{"name": "find or create 2"}) if user3.Name != "find or create 2" || user3.Id == 0 { t.Errorf("user should be created with inline search value") } db.Where(&User{Name: "find or create 3"}).Attrs("age", 44).FirstOrCreate(&user4) if user4.Name != "find or create 3" || user4.Id == 0 || user4.Age != 44 { t.Errorf("user should be created with search value and attrs") } db.Where(&User{Name: "find or create 4"}).Assign(User{Age: 44}).FirstOrCreate(&user4) if user4.Name != "find or create 4" || user4.Id == 0 || user4.Age != 44 { t.Errorf("user should be created with search value and assigned attrs") } db.Where(&User{Name: "find or create"}).Attrs("age", 44).FirstOrInit(&user5) if user5.Name != "find or create" || user5.Id == 0 || user5.Age != 33 { t.Errorf("user should be found and not initialized by Attrs") } db.Where(&User{Name: "find or create"}).Assign(User{Age: 44}).FirstOrCreate(&user6) if user6.Name != "find or create" || user6.Id == 0 || user6.Age != 44 { t.Errorf("user should be found and updated with assigned attrs") } db.Where(&User{Name: "find or create"}).Find(&user7) if user7.Name != "find or create" || user7.Id == 0 || user7.Age != 44 { t.Errorf("user should be found and updated with assigned attrs") } } func TestNot(t *testing.T) { var users1, users2, users3, users4, users5, users6, users7, users8 []User db.Find(&users1) db.Not(users1[0].Id).Find(&users2) if len(users1)-len(users2) != 1 { t.Errorf("Should ignore the first users with Not") } db.Not([]int{}).Find(&users3) if len(users1)-len(users3) != 0 { t.Errorf("Should find all users with a blank condition") } var name_3_count int64 db.Table("users").Where("name = ?", "3").Count(&name_3_count) db.Not("name", "3").Find(&users4) if len(users1)-len(users4) != int(name_3_count) { t.Errorf("Should find all users's name not equal 3") } users4 = []User{} db.Not("name = ?", "3").Find(&users4) if len(users1)-len(users4) != int(name_3_count) { t.Errorf("Should find all users's name not equal 3") } users4 = []User{} db.Not("name <> ?", "3").Find(&users4) if len(users4) != int(name_3_count) { t.Errorf("Should find all users's name not equal 3") } db.Not(User{Name: "3"}).Find(&users5) if len(users1)-len(users5) != int(name_3_count) { t.Errorf("Should find all users's name not equal 3") } db.Not(map[string]interface{}{"name": "3"}).Find(&users6) if len(users1)-len(users6) != int(name_3_count) { t.Errorf("Should find all users's name not equal 3") } db.Not("name", []string{"3"}).Find(&users7) if len(users1)-len(users7) != int(name_3_count) { t.Errorf("Should find all users's name not equal 3") } var name_2_count int64 db.Table("users").Where("name = ?", "2").Count(&name_2_count) db.Not("name", []string{"3", "2"}).Find(&users8) if len(users1)-len(users8) != (int(name_3_count) + int(name_2_count)) { t.Errorf("Should find all users's name not equal 3") } } type Category struct { Id int64 Name string } type Post struct { Id int64 CategoryId sql.NullInt64 MainCategoryId int64 Title string Body string Comments []Comment Category Category MainCategory Category } type Comment struct { Id int64 PostId int64 Content string Post Post } func TestSubStruct(t *testing.T) { db.DropTable(Category{}) db.DropTable(Post{}) db.DropTable(Comment{}) db.CreateTable(Category{}) db.CreateTable(Post{}) db.CreateTable(Comment{}) post := Post{ Title: "post 1", Body: "body 1", Comments: []Comment{{Content: "Comment 1"}, {Content: "Comment 2"}}, Category: Category{Name: "Category 1"}, MainCategory: Category{Name: "Main Category 1"}, } if err := db.Save(&post).Error; err != nil { t.Errorf("Got errors when save post", err) } if db.First(&Category{}, "name = ?", "Category 1").Error != nil { t.Errorf("Category should be saved") } var p Post db.First(&p, post.Id) if post.CategoryId.Int64 == 0 || p.CategoryId.Int64 == 0 || post.MainCategoryId == 0 || p.MainCategoryId == 0 { t.Errorf("Category Id should exist") } if db.First(&Comment{}, "content = ?", "Comment 1").Error != nil { t.Errorf("Comment 1 should be saved") } if post.Comments[0].PostId == 0 { t.Errorf("Comment Should have post id") } var comment Comment if db.First(&comment, "content = ?", "Comment 2").Error != nil { t.Errorf("Comment 2 should be saved") } if comment.PostId == 0 { t.Errorf("Comment 2 Should have post id") } comment3 := Comment{Content: "Comment 3", Post: Post{Title: "Title 3", Body: "Body 3"}} db.Save(&comment3) } func TestRelated(t *testing.T) { 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"}}, CreditCard: CreditCard{Number: "1234567890"}, } db.Save(&user) if user.CreditCard.Id == 0 { t.Errorf("After user save, credit card should have id") } if user.BillingAddress.Id == 0 { t.Errorf("After user save, billing address should have id") } if user.Emails[0].Id == 0 { t.Errorf("After user save, billing address should have id") } var emails []Email db.Model(&user).Related(&emails) if len(emails) != 2 { t.Errorf("Should have two emails") } var user1 User db.Model(&user).Related(&user1.Emails) if len(user1.Emails) != 2 { t.Errorf("Should have two emails") } var address1 Address db.Model(&user).Related(&address1, "BillingAddressId") if address1.Address1 != "Billing Address - Address 1" { t.Errorf("Should get billing address from user correctly") } user1 = User{} db.Model(&address1).Related(&user1, "BillingAddressId") if db.NewRecord(user1) { t.Errorf("Should get user from address correctly") } var user2 User db.Model(&emails[0]).Related(&user2) if user2.Id != user.Id || user2.Name != user.Name { t.Errorf("Should get user from email correctly") } var credit_card CreditCard var user3 User db.First(&credit_card, "number = ?", "1234567890") db.Model(&credit_card).Related(&user3) if user3.Id != user.Id || user3.Name != user.Name { t.Errorf("Should get user from credit card correctly") } if !db.Model(&CreditCard{}).Related(&User{}).RecordNotFound() { t.Errorf("RecordNotFound for Related") } } type Order struct { } type Cart struct { } func (c Cart) TableName() string { return "shopping_cart" } func TestTableName(t *testing.T) { db := db.clone() if db.do(Order{}).table() != "orders" { t.Errorf("Order's table name should be orders") } if db.do(&Order{}).table() != "orders" { t.Errorf("&Order's table name should be orders") } if db.do([]Order{}).table() != "orders" { t.Errorf("[]Order's table name should be orders") } if db.do(&[]Order{}).table() != "orders" { t.Errorf("&[]Order's table name should be orders") } db.SingularTable(true) if db.do(Order{}).table() != "order" { t.Errorf("Order's singular table name should be order") } if db.do(&Order{}).table() != "order" { t.Errorf("&Order's singular table name should be order") } if db.do([]Order{}).table() != "order" { t.Errorf("[]Order's singular table name should be order") } if db.do(&[]Order{}).table() != "order" { t.Errorf("&[]Order's singular table name should be order") } if db.do(&Cart{}).table() != "shopping_cart" { t.Errorf("&Cart's singular table name should be shopping_cart") } if db.do(Cart{}).table() != "shopping_cart" { t.Errorf("Cart's singular table name should be shopping_cart") } if db.do(&[]Cart{}).table() != "shopping_cart" { t.Errorf("&[]Cart's singular table name should be shopping_cart") } if db.do([]Cart{}).table() != "shopping_cart" { t.Errorf("[]Cart's singular table name should be shopping_cart") } db.SingularTable(false) } type BigEmail struct { Id int64 UserId int64 Email string UserAgent string RegisteredAt time.Time CreatedAt time.Time UpdatedAt time.Time } func (b BigEmail) TableName() string { return "emails" } func TestAutoMigration(t *testing.T) { db.AutoMigrate(Address{}) if err := db.Table("emails").AutoMigrate(BigEmail{}).Error; err != nil { t.Errorf("Auto Migrate should not raise any error", err) } db.Save(&BigEmail{Email: "jinzhu@example.org", UserAgent: "pc", RegisteredAt: time.Now()}) var big_email BigEmail db.First(&big_email, "user_agent = ?", "pc") if big_email.Email != "jinzhu@example.org" || big_email.UserAgent != "pc" || big_email.RegisteredAt.IsZero() { t.Error("Big Emails should be saved and fetched correctly") } if err := db.Save(&BigEmail{Email: "jinzhu@example.org", UserAgent: "pc", RegisteredAt: time.Now()}).Error; err == nil { t.Error("Should not be able to save because of unique tag") } } type NullTime struct { Time time.Time Valid bool } func (nt *NullTime) Scan(value interface{}) error { if value == nil { nt.Valid = false return nil } nt.Time, nt.Valid = value.(time.Time), true return nil } func (nt NullTime) Value() (driver.Value, error) { if !nt.Valid { return nil, nil } return nt.Time, nil } type NullValue struct { Id int64 Name sql.NullString `sql:"not null"` Age sql.NullInt64 Male sql.NullBool Height sql.NullFloat64 AddedAt NullTime } func TestSqlNullValue(t *testing.T) { db.DropTable(&NullValue{}) db.AutoMigrate(&NullValue{}) if err := db.Save(&NullValue{Name: sql.NullString{"hello", true}, Age: sql.NullInt64{18, true}, Male: sql.NullBool{true, true}, Height: sql.NullFloat64{100.11, true}, AddedAt: NullTime{time.Now(), true}}).Error; err != nil { t.Errorf("Not error should raise when test null value", err) } var nv NullValue db.First(&nv, "name = ?", "hello") if nv.Name.String != "hello" || nv.Age.Int64 != 18 || nv.Male.Bool != true || nv.Height.Float64 != 100.11 || nv.AddedAt.Valid != true { t.Errorf("Should be able to fetch null value") } if err := db.Save(&NullValue{Name: sql.NullString{"hello-2", true}, Age: sql.NullInt64{18, false}, Male: sql.NullBool{true, true}, Height: sql.NullFloat64{100.11, true}, AddedAt: NullTime{time.Now(), false}}).Error; err != nil { t.Errorf("Not error should raise when test null value", err) } var nv2 NullValue db.First(&nv2, "name = ?", "hello-2") if nv2.Name.String != "hello-2" || nv2.Age.Int64 != 0 || nv2.Male.Bool != true || nv2.Height.Float64 != 100.11 || nv2.AddedAt.Valid != false { t.Errorf("Should be able to fetch null value") } if err := db.Save(&NullValue{Name: sql.NullString{"hello-3", false}, Age: sql.NullInt64{18, false}, Male: sql.NullBool{true, true}, Height: sql.NullFloat64{100.11, true}, AddedAt: NullTime{time.Now(), false}}).Error; err == nil { t.Errorf("Can't save because of name can't be null", err) } } func TestTransaction(t *testing.T) { d := db.Begin() u := User{Name: "transcation"} if err := d.Save(&u).Error; err != nil { t.Errorf("No error should raise, but got", err) } if err := d.First(&User{}, "name = ?", "transcation").Error; err != nil { t.Errorf("Should find saved record, but got", err) } d.Rollback() if err := d.First(&User{}, "name = ?", "transcation").Error; err == nil { t.Errorf("Should not find record after rollback") } d2 := db.Begin() u2 := User{Name: "transcation-2"} if err := d2.Save(&u2).Error; err != nil { t.Errorf("No error should raise, but got", err) } d2.Update("age", 90) if err := d2.First(&User{}, "name = ?", "transcation-2").Error; err != nil { t.Errorf("Should find saved record, but got", err) } d2.Commit() if err := db.First(&User{}, "name = ?", "transcation-2").Error; err != nil { t.Errorf("Should be able to find committed record") } } func TestQueryChain(t *testing.T) { var user_count1, user_count2 int64 d := db.Model(User{}).Where("age > ?", 20) d.Where("name = ?", "3").Count(&user_count1) d.Count(&user_count2) if user_count2 == user_count1 { t.Error("DB object should be cloned when search") } } func TestRow(t *testing.T) { row := db.Table("users").Where("name = ?", "2").Select("age").Row() var age int64 row.Scan(&age) if age != 20 { t.Errorf("Scan with Row") } } func TestRows(t *testing.T) { rows, err := db.Table("users").Where("name = ?", "3").Select("name, age").Rows() if err != nil { t.Errorf("Not error should happen, but got", err) } count := 0 for rows.Next() { var name string var age int64 rows.Scan(&name, &age) count++ } if count != 2 { t.Errorf("Should found two records with name 3") } } type result struct { Name string Age int } func TestScan(t *testing.T) { var res result db.Table("users").Select("name, age").Where("name = ?", 3).Scan(&res) if res.Name != "3" { t.Errorf("Scan into struct should works") } var ress []result db.Table("users").Select("name, age").Where("name = ?", 3).Scan(&ress) if len(ress) != 2 || ress[0].Name != "3" || ress[1].Name != "3" { t.Errorf("Scan into struct map") } } func TestRaw(t *testing.T) { var ress []result db.Raw("SELECT name, age FROM users WHERE name = ?", 3).Scan(&ress) if len(ress) != 2 || ress[0].Name != "3" || ress[1].Name != "3" { t.Errorf("Raw with scan") } rows, _ := db.Raw("select name, age from users where name = ?", 3).Rows() count := 0 for rows.Next() { count++ } if count != 2 { t.Errorf("Raw with Rows should find two records with name 3") } } func TestGroup(t *testing.T) { rows, err := db.Select("name").Table("users").Group("name").Rows() if err == nil { defer rows.Close() for rows.Next() { var name string rows.Scan(&name) } } else { t.Errorf("Should not raise any error") } } func TestJoins(t *testing.T) { type result struct { Name string Email string } user := User{ Name: "joins", Emails: []Email{{Email: "join1@example.com"}, {Email: "join2@example.com"}}, } db.Save(&user) var results []result db.Table("users").Select("name, email").Joins("left join emails on emails.user_id = users.id").Where("name = ?", "joins").Scan(&results) if len(results) != 2 || results[0].Email != "join1@example.com" || results[1].Email != "join2@example.com" { t.Errorf("Should find all two emails with Join") } } func NameIn1And2(d *DB) *DB { return d.Where("name in (?)", []string{"1", "2"}) } func NameIn2And3(d *DB) *DB { return d.Where("name in (?)", []string{"2", "3"}) } func NameIn(names []string) func(d *DB) *DB { return func(d *DB) *DB { return d.Where("name in (?)", names) } } func TestScopes(t *testing.T) { var users1, users2, users3 []User db.Scopes(NameIn1And2).Find(&users1) if len(users1) != 2 { t.Errorf("Should only have two users's name in 1, 2") } db.Scopes(NameIn1And2, NameIn2And3).Find(&users2) if len(users2) != 1 { t.Errorf("Should only have two users's name is 2") } db.Scopes(NameIn([]string{"1", "2"})).Find(&users3) if len(users3) != 2 { t.Errorf("Should only have two users's name is 2") } } func TestHaving(t *testing.T) { rows, err := db.Select("name, count(*) as total").Table("users").Group("name").Having("name IN (?)", []string{"2", "3"}).Rows() if err == nil { defer rows.Close() for rows.Next() { var name string var total int64 rows.Scan(&name, &total) if name == "2" && total != 1 { t.Errorf("Should have one user having name 2", total) } if name == "3" && total != 2 { t.Errorf("Should have two users having name 3", total) } } } else { t.Errorf("Should not raise any error", err) } } func TestExecRawSql(t *testing.T) { db.Exec("update users set name=? where name in (?)", "jinzhu", []string{"1", "2", "3"}) if db.Where("name in (?)", []string{"1", "2", "3"}).First(&User{}).Error != RecordNotFound { t.Error("Raw sql should be able to parse argument") } } func BenchmarkGorm(b *testing.B) { b.N = 2000 for x := 0; x < b.N; x++ { e := strconv.Itoa(x) + "benchmark@example.org" email := BigEmail{Email: e, UserAgent: "pc", RegisteredAt: time.Now()} // Insert db.Save(&email) // Query db.First(&BigEmail{}, "email = ?", e) // Update db.Model(&email).UpdateColumn("email", "new-"+e) // Delete db.Delete(&email) } } func BenchmarkRawSql(b *testing.B) { db, _ := sql.Open("postgres", "user=gorm dbname=gorm sslmode=disable") db.SetMaxIdleConns(10) insert_sql := "INSERT INTO emails (user_id,email,user_agent,registered_at,created_at,updated_at) VALUES ($1,$2,$3,$4,$5,$6) RETURNING id" query_sql := "SELECT * FROM emails WHERE email = $1 ORDER BY id LIMIT 1" update_sql := "UPDATE emails SET email = $1, updated_at = $2 WHERE id = $3" delete_sql := "DELETE FROM orders WHERE id = $1" b.N = 2000 for x := 0; x < b.N; x++ { var id int64 e := strconv.Itoa(x) + "benchmark@example.org" email := BigEmail{Email: e, UserAgent: "pc", RegisteredAt: time.Now()} // Insert db.QueryRow(insert_sql, email.UserId, email.Email, email.UserAgent, email.RegisteredAt, time.Now(), time.Now()).Scan(&id) // Query rows, _ := db.Query(query_sql, email.Email) rows.Close() // Update db.Exec(update_sql, "new-"+e, time.Now(), id) // Delete db.Exec(delete_sql, id) } }