package tests_test import ( "regexp" "sort" "testing" "gorm.io/gorm" . "gorm.io/gorm/utils/tests" ) func TestJoins(t *testing.T) { user := *GetUser("joins-1", Config{Company: true, Manager: true, Account: true, NamedPet: false}) DB.Create(&user) var user2 User if err := DB.Joins("NamedPet").Joins("Company").Joins("Manager").Joins("Account").First(&user2, "users.name = ?", user.Name).Error; err != nil { t.Fatalf("Failed to load with joins, got error: %v", err) } CheckUser(t, user2, user) } func TestJoinsForSlice(t *testing.T) { users := []User{ *GetUser("slice-joins-1", Config{Company: true, Manager: true, Account: true}), *GetUser("slice-joins-2", Config{Company: true, Manager: true, Account: true}), *GetUser("slice-joins-3", Config{Company: true, Manager: true, Account: true}), } DB.Create(&users) var userIDs []uint for _, user := range users { userIDs = append(userIDs, user.ID) } var users2 []User if err := DB.Joins("Company").Joins("Manager").Joins("Account").Find(&users2, "users.id IN ?", userIDs).Error; err != nil { t.Fatalf("Failed to load with joins, got error: %v", err) } else if len(users2) != len(users) { t.Fatalf("Failed to load join users, got: %v, expect: %v", len(users2), len(users)) } sort.Slice(users2, func(i, j int) bool { return users2[i].ID > users2[j].ID }) sort.Slice(users, func(i, j int) bool { return users[i].ID > users[j].ID }) for idx, user := range users { CheckUser(t, user, users2[idx]) } } func TestJoinConds(t *testing.T) { user := *GetUser("joins-conds", Config{Account: true, Pets: 3}) DB.Save(&user) var users1 []User DB.Joins("inner join pets on pets.user_id = users.id").Where("users.name = ?", user.Name).Find(&users1) if len(users1) != 3 { t.Errorf("should find two users using left join, but got %v", len(users1)) } var users2 []User DB.Joins("inner join pets on pets.user_id = users.id AND pets.name = ?", user.Pets[0].Name).Where("users.name = ?", user.Name).First(&users2) if len(users2) != 1 { t.Errorf("should find one users using left join with conditions, but got %v", len(users2)) } var users3 []User DB.Joins("inner join pets on pets.user_id = users.id AND pets.name = ?", user.Pets[0].Name).Joins("join accounts on accounts.user_id = users.id AND accounts.number = ?", user.Account.Number).Where("users.name = ?", user.Name).First(&users3) if len(users3) != 1 { t.Errorf("should find one users using multiple left join conditions, but got %v", len(users3)) } var users4 []User DB.Joins("inner join pets on pets.user_id = users.id AND pets.name = ?", user.Pets[0].Name).Joins("join accounts on accounts.user_id = users.id AND accounts.number = ?", user.Account.Number+"non-exist").Where("users.name = ?", user.Name).First(&users4) if len(users4) != 0 { t.Errorf("should find no user when searching with unexisting credit card, but got %v", len(users4)) } var users5 []User db5 := DB.Joins("inner join pets on pets.user_id = users.id AND pets.name = ?", user.Pets[0].Name).Joins("join accounts on accounts.user_id = users.id AND accounts.number = ?", user.Account.Number).Where(User{Model: gorm.Model{ID: 1}}).Where(Account{Model: gorm.Model{ID: 1}}).Not(Pet{Model: gorm.Model{ID: 1}}).Find(&users5) if db5.Error != nil { t.Errorf("Should not raise error for join where identical fields in different tables. Error: %s", db5.Error.Error()) } var users6 []User DB.Joins("inner join pets on pets.user_id = users.id AND pets.name = @Name", user.Pets[0]).Where("users.name = ?", user.Name).First(&users6) if len(users6) != 1 { t.Errorf("should find one users using left join with conditions, but got %v", len(users6)) } dryDB := DB.Session(&gorm.Session{DryRun: true}) stmt := dryDB.Joins("left join pets on pets.user_id = users.id AND pets.name = ?", user.Pets[0].Name).Joins("join accounts on accounts.user_id = users.id AND accounts.number = ?", user.Account.Number).Where(User{Model: gorm.Model{ID: 1}}).Where(Account{Model: gorm.Model{ID: 1}}).Not(Pet{Model: gorm.Model{ID: 1}}).Find(&users5).Statement if !regexp.MustCompile("SELECT .* FROM .users. left join pets.*join accounts.*").MatchString(stmt.SQL.String()) { t.Errorf("joins should be ordered, but got %v", stmt.SQL.String()) } iv := DB.Table(`table_invoices`).Select(`seller, SUM(total) as total, SUM(paid) as paid, SUM(balance) as balance`).Group(`seller`) stmt = dryDB.Table(`table_employees`).Select(`id, name, iv.total, iv.paid, iv.balance`).Joins(`LEFT JOIN (?) AS iv ON iv.seller = table_employees.id`, iv).Scan(&user).Statement if !regexp.MustCompile("SELECT id, name, iv.total, iv.paid, iv.balance FROM .table_employees. LEFT JOIN \\(SELECT seller, SUM\\(total\\) as total, SUM\\(paid\\) as paid, SUM\\(balance\\) as balance FROM .table_invoices. GROUP BY .seller.\\) AS iv ON iv.seller = table_employees.id").MatchString(stmt.SQL.String()) { t.Errorf("joins should be ordered, but got %v", stmt.SQL.String()) } } func TestJoinOn(t *testing.T) { user := *GetUser("joins-on", Config{Pets: 2}) DB.Save(&user) var user1 User onQuery := DB.Where(&Pet{Name: "joins-on_pet_1"}) if err := DB.Joins("NamedPet", onQuery).Where("users.name = ?", user.Name).First(&user1).Error; err != nil { t.Fatalf("Failed to load with joins on, got error: %v", err) } AssertEqual(t, user1.NamedPet.Name, "joins-on_pet_1") onQuery2 := DB.Where(&Pet{Name: "joins-on_pet_2"}) var user2 User if err := DB.Joins("NamedPet", onQuery2).Where("users.name = ?", user.Name).First(&user2).Error; err != nil { t.Fatalf("Failed to load with joins on, got error: %v", err) } AssertEqual(t, user2.NamedPet.Name, "joins-on_pet_2") } func TestJoinsWithSelect(t *testing.T) { type result struct { ID uint PetID uint Name string } user := *GetUser("joins_with_select", Config{Pets: 2}) DB.Save(&user) var results []result DB.Table("users").Select("users.id, pets.id as pet_id, pets.name").Joins("left join pets on pets.user_id = users.id").Where("users.name = ?", "joins_with_select").Scan(&results) sort.Slice(results, func(i, j int) bool { return results[i].PetID > results[j].PetID }) sort.Slice(results, func(i, j int) bool { return user.Pets[i].ID > user.Pets[j].ID }) if len(results) != 2 || results[0].Name != user.Pets[0].Name || results[1].Name != user.Pets[1].Name { t.Errorf("Should find all two pets with Join select, got %+v", results) } } func TestJoinWithOmit(t *testing.T) { user := *GetUser("joins_with_omit", Config{Pets: 2}) DB.Save(&user) results := make([]*User, 0) if err := DB.Table("users").Omit("name").Where("users.name = ?", "joins_with_omit").Joins("left join pets on pets.user_id = users.id").Find(&results).Error; err != nil { return } if len(results) != 2 || results[0].Name != "" || results[1].Name != "" { t.Errorf("Should find all two pets with Join omit and should not find user's name, got %+v", results) return } } func TestJoinCount(t *testing.T) { companyA := Company{Name: "A"} companyB := Company{Name: "B"} DB.Create(&companyA) DB.Create(&companyB) user := User{Name: "kingGo", CompanyID: &companyB.ID} DB.Create(&user) query := DB.Model(&User{}).Joins("Company") var total int64 query.Count(&total) var result User if err := query.First(&result, user.ID).Error; err != nil { t.Fatalf("Failed, got error: %v", err) } if result.ID != user.ID { t.Fatalf("result's id, %d, doesn't match user's id, %d", result.ID, user.ID) } // should find company if result.Company.ID != *user.CompanyID { t.Fatalf("result's id, %d, doesn't match user's company id, %d", result.Company.ID, *user.CompanyID) } } func TestJoinWithSoftDeleted(t *testing.T) { user := GetUser("TestJoinWithSoftDeletedUser", Config{Account: true, NamedPet: true}) DB.Create(&user) var user1 User DB.Model(&User{}).Joins("NamedPet").Joins("Account").First(&user1, user.ID) if user1.NamedPet == nil || user1.Account.ID == 0 { t.Fatalf("joins NamedPet and Account should not empty:%v", user1) } // Account should empty DB.Delete(&user1.Account) var user2 User DB.Model(&User{}).Joins("NamedPet").Joins("Account").First(&user2, user.ID) if user2.NamedPet == nil || user2.Account.ID != 0 { t.Fatalf("joins Account should not empty:%v", user2) } // NamedPet should empty DB.Delete(&user1.NamedPet) var user3 User DB.Model(&User{}).Joins("NamedPet").Joins("Account").First(&user3, user.ID) if user3.NamedPet != nil || user2.Account.ID != 0 { t.Fatalf("joins NamedPet and Account should not empty:%v", user2) } } func TestInnerJoins(t *testing.T) { user := *GetUser("inner-joins-1", Config{Company: true, Manager: true, Account: true, NamedPet: false}) DB.Create(&user) var user2 User var err error err = DB.InnerJoins("Company").InnerJoins("Manager").InnerJoins("Account").First(&user2, "users.name = ?", user.Name).Error AssertEqual(t, err, nil) CheckUser(t, user2, user) // inner join and NamedPet is nil err = DB.InnerJoins("NamedPet").InnerJoins("Company").InnerJoins("Manager").InnerJoins("Account").First(&user2, "users.name = ?", user.Name).Error AssertEqual(t, err, gorm.ErrRecordNotFound) // mixed inner join and left join var user3 User err = DB.Joins("NamedPet").InnerJoins("Company").InnerJoins("Manager").InnerJoins("Account").First(&user3, "users.name = ?", user.Name).Error AssertEqual(t, err, nil) CheckUser(t, user3, user) } func TestJoinWithSameColumnName(t *testing.T) { user := GetUser("TestJoinWithSameColumnName", Config{ Languages: 1, Pets: 1, }) DB.Create(user) type UserSpeak struct { UserID uint LanguageCode string } type Result struct { User UserSpeak Language Pet } results := make([]Result, 0, 1) DB.Select("users.*, user_speaks.*, languages.*, pets.*").Table("users").Joins("JOIN user_speaks ON user_speaks.user_id = users.id"). Joins("JOIN languages ON languages.code = user_speaks.language_code"). Joins("LEFT OUTER JOIN pets ON pets.user_id = users.id").Find(&results) if len(results) == 0 { t.Fatalf("no record find") } else if results[0].Pet.UserID == nil || *(results[0].Pet.UserID) != user.ID { t.Fatalf("wrong user id in pet") } else if results[0].Pet.Name != user.Pets[0].Name { t.Fatalf("wrong pet name") } } func TestJoinArgsWithDB(t *testing.T) { user := *GetUser("joins-args-db", Config{Pets: 2}) DB.Save(&user) // test where var user1 User onQuery := DB.Where(&Pet{Name: "joins-args-db_pet_2"}) if err := DB.Joins("NamedPet", onQuery).Where("users.name = ?", user.Name).First(&user1).Error; err != nil { t.Fatalf("Failed to load with joins on, got error: %v", err) } AssertEqual(t, user1.NamedPet.Name, "joins-args-db_pet_2") // test where and omit onQuery2 := DB.Where(&Pet{Name: "joins-args-db_pet_2"}).Omit("Name") var user2 User if err := DB.Joins("NamedPet", onQuery2).Where("users.name = ?", user.Name).First(&user2).Error; err != nil { t.Fatalf("Failed to load with joins on, got error: %v", err) } AssertEqual(t, user2.NamedPet.ID, user1.NamedPet.ID) AssertEqual(t, user2.NamedPet.Name, "") // test where and select onQuery3 := DB.Where(&Pet{Name: "joins-args-db_pet_2"}).Select("Name") var user3 User if err := DB.Joins("NamedPet", onQuery3).Where("users.name = ?", user.Name).First(&user3).Error; err != nil { t.Fatalf("Failed to load with joins on, got error: %v", err) } AssertEqual(t, user3.NamedPet.ID, 0) AssertEqual(t, user3.NamedPet.Name, "joins-args-db_pet_2") // test select onQuery4 := DB.Select("ID") var user4 User if err := DB.Joins("NamedPet", onQuery4).Where("users.name = ?", user.Name).First(&user4).Error; err != nil { t.Fatalf("Failed to load with joins on, got error: %v", err) } if user4.NamedPet.ID == 0 { t.Fatal("Pet ID can not be empty") } AssertEqual(t, user4.NamedPet.Name, "") } func TestNestedJoins(t *testing.T) { users := []User{ { Name: "nested-joins-1", Manager: &User{ Name: "nested-joins-manager-1", Company: Company{ Name: "nested-joins-manager-company-1", }, NamedPet: &Pet{ Name: "nested-joins-manager-namepet-1", Toy: Toy{ Name: "nested-joins-manager-namepet-toy-1", }, }, }, NamedPet: &Pet{Name: "nested-joins-namepet-1", Toy: Toy{Name: "nested-joins-namepet-toy-1"}}, }, { Name: "nested-joins-2", Manager: GetUser("nested-joins-manager-2", Config{Company: true, NamedPet: true}), NamedPet: &Pet{Name: "nested-joins-namepet-2", Toy: Toy{Name: "nested-joins-namepet-toy-2"}}, }, } DB.Create(&users) var userIDs []uint for _, user := range users { userIDs = append(userIDs, user.ID) } var users2 []User if err := DB. Joins("Manager"). Joins("Manager.Company"). Joins("Manager.NamedPet"). Joins("Manager.NamedPet.Toy"). Joins("NamedPet"). Joins("NamedPet.Toy"). Find(&users2, "users.id IN ?", userIDs).Error; err != nil { t.Fatalf("Failed to load with joins, got error: %v", err) } else if len(users2) != len(users) { t.Fatalf("Failed to load join users, got: %v, expect: %v", len(users2), len(users)) } sort.Slice(users2, func(i, j int) bool { return users2[i].ID > users2[j].ID }) sort.Slice(users, func(i, j int) bool { return users[i].ID > users[j].ID }) for idx, user := range users { // user CheckUser(t, user, users2[idx]) if users2[idx].Manager == nil { t.Fatalf("Failed to load Manager") } // manager CheckUser(t, *user.Manager, *users2[idx].Manager) // user pet if users2[idx].NamedPet == nil { t.Fatalf("Failed to load NamedPet") } CheckPet(t, *user.NamedPet, *users2[idx].NamedPet) // manager pet if users2[idx].Manager.NamedPet == nil { t.Fatalf("Failed to load NamedPet") } CheckPet(t, *user.Manager.NamedPet, *users2[idx].Manager.NamedPet) } }