gorm/tests/joins_test.go

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package tests_test
import (
"fmt"
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"regexp"
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"sort"
"testing"
"github.com/stretchr/testify/assert"
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"gorm.io/gorm"
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. "gorm.io/gorm/utils/tests"
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)
func TestJoins(t *testing.T) {
user := *GetUser("joins-1", Config{Company: true, Manager: true, Account: true, NamedPet: false})
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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 {
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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])
}
}
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func TestJoinConds(t *testing.T) {
user := *GetUser("joins-conds", Config{Account: true, Pets: 3})
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DB.Save(&user)
var users1 []User
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DB.Joins("inner join pets on pets.user_id = users.id").Where("users.name = ?", user.Name).Find(&users1)
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if len(users1) != 3 {
t.Errorf("should find two users using left join, but got %v", len(users1))
}
var users2 []User
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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)
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if len(users2) != 1 {
t.Errorf("should find one users using left join with conditions, but got %v", len(users2))
}
var users3 []User
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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)
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if len(users3) != 1 {
t.Errorf("should find one users using multiple left join conditions, but got %v", len(users3))
}
var users4 []User
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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)
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if len(users4) != 0 {
t.Errorf("should find no user when searching with unexisting credit card, but got %v", len(users4))
}
var users5 []User
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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)
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if db5.Error != nil {
t.Errorf("Should not raise error for join where identical fields in different tables. Error: %s", db5.Error.Error())
}
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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))
}
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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())
}
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}
func TestJoinOn(t *testing.T) {
user := *GetUser("joins-on", Config{Pets: 2})
DB.Save(&user)
var user1 User
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onQuery := DB.Where(&Pet{Name: "joins-on_pet_1"})
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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)
}
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AssertEqual(t, user1.NamedPet.Name, "joins-on_pet_1")
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onQuery2 := DB.Where(&Pet{Name: "joins-on_pet_2"})
var user2 User
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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")
}
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func TestJoinsWithSelect(t *testing.T) {
type result struct {
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ID uint
PetID uint
Name string
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}
user := *GetUser("joins_with_select", Config{Pets: 2})
DB.Save(&user)
var results []result
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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
})
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if len(results) != 2 || results[0].Name != user.Pets[0].Name || results[1].Name != user.Pets[1].Name {
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t.Errorf("Should find all two pets with Join select, got %+v", results)
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}
}
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{
{
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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").
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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)
}
}
func TestJoinsPreload_Issue7013(t *testing.T) {
manager := &User{Name: "Manager"}
DB.Create(manager)
var userIDs []uint
for i := 0; i < 21; i++ {
user := &User{Name: fmt.Sprintf("User%d", i), ManagerID: &manager.ID}
DB.Create(user)
userIDs = append(userIDs, user.ID)
}
var entries []User
assert.NotPanics(t, func() {
assert.NoError(t,
DB.Debug().Preload("Manager.Team").
Joins("Manager.Company").
Find(&entries).Error)
})
}
func TestJoinsPreload_Issue7013_RelationEmpty(t *testing.T) {
type (
Furniture struct {
gorm.Model
OwnerID *uint
}
Owner struct {
gorm.Model
Furnitures []Furniture
CompanyID *uint
Company Company
}
Building struct {
gorm.Model
Name string
OwnerID *uint
Owner Owner
}
)
DB.Migrator().DropTable(&Building{}, &Owner{}, &Furniture{})
DB.Migrator().AutoMigrate(&Building{}, &Owner{}, &Furniture{})
home := &Building{Name: "relation_empty"}
DB.Create(home)
var entries []Building
assert.NotPanics(t, func() {
assert.NoError(t,
DB.Debug().Preload("Owner.Furnitures").
Joins("Owner.Company").
Find(&entries).Error)
})
AssertEqual(t, entries, []Building{{Model: home.Model, Name: "relation_empty", Owner: Owner{Company: Company{}}}})
}
func TestJoinsPreload_Issue7013_NoEntries(t *testing.T) {
var entries []User
assert.NotPanics(t, func() {
assert.NoError(t,
DB.Debug().Preload("Manager.Team").
Joins("Manager.Company").
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Where("1 <> 1").
Find(&entries).Error)
})
AssertEqual(t, len(entries), 0)
}