package tests_test import ( "fmt" "reflect" "sort" "strconv" "testing" "time" "github.com/jinzhu/gorm" . "github.com/jinzhu/gorm/tests" ) func TestFind(t *testing.T) { var users = []User{ *GetUser("find", Config{}), *GetUser("find", Config{}), *GetUser("find", Config{}), } if err := DB.Create(&users).Error; err != nil { t.Fatalf("errors happened when create users: %v", err) } t.Run("First", func(t *testing.T) { var first User if err := DB.Where("name = ?", "find").First(&first).Error; err != nil { t.Errorf("errors happened when query first: %v", err) } else { CheckUser(t, first, users[0]) } }) t.Run("Last", func(t *testing.T) { var last User if err := DB.Where("name = ?", "find").Last(&last).Error; err != nil { t.Errorf("errors happened when query last: %v", err) } else { CheckUser(t, last, users[2]) } }) var all []User if err := DB.Where("name = ?", "find").Find(&all).Error; err != nil || len(all) != 3 { t.Errorf("errors happened when query find: %v, length: %v", err, len(all)) } else { for idx, user := range users { t.Run("FindAll#"+strconv.Itoa(idx+1), func(t *testing.T) { CheckUser(t, all[idx], user) }) } } t.Run("FirstMap", func(t *testing.T) { var first = map[string]interface{}{} if err := DB.Model(&User{}).Where("name = ?", "find").First(first).Error; err != nil { t.Errorf("errors happened when query first: %v", err) } else { for _, name := range []string{"Name", "Age", "Birthday"} { t.Run(name, func(t *testing.T) { dbName := DB.NamingStrategy.ColumnName("", name) reflectValue := reflect.Indirect(reflect.ValueOf(users[0])) AssertEqual(t, first[dbName], reflectValue.FieldByName(name).Interface()) }) } } }) var allMap = []map[string]interface{}{} if err := DB.Model(&User{}).Where("name = ?", "find").Find(&allMap).Error; err != nil { t.Errorf("errors happened when query first: %v", err) } else { for idx, user := range users { t.Run("FindAllMap#"+strconv.Itoa(idx+1), func(t *testing.T) { for _, name := range []string{"Name", "Age", "Birthday"} { t.Run(name, func(t *testing.T) { dbName := DB.NamingStrategy.ColumnName("", name) reflectValue := reflect.Indirect(reflect.ValueOf(user)) AssertEqual(t, allMap[idx][dbName], reflectValue.FieldByName(name).Interface()) }) } }) } } } func TestFillSmallerStruct(t *testing.T) { user := User{Name: "SmallerUser", Age: 100} DB.Save(&user) type SimpleUser struct { Name string ID int64 UpdatedAt time.Time CreatedAt time.Time } var simpleUser SimpleUser if err := DB.Table("users").Where("name = ?", user.Name).First(&simpleUser).Error; err != nil { t.Fatalf("Failed to query smaller user, got error %v", err) } AssertObjEqual(t, user, simpleUser, "Name", "ID", "UpdatedAt", "CreatedAt") } func TestPluck(t *testing.T) { users := []*User{ GetUser("pluck-user1", Config{}), GetUser("pluck-user2", Config{}), GetUser("pluck-user3", Config{}), } DB.Create(&users) var names []string if err := DB.Model(User{}).Where("name like ?", "pluck-user%").Order("name").Pluck("name", &names).Error; err != nil { t.Errorf("got error when pluck name: %v", err) } var names2 []string if err := DB.Model(User{}).Where("name like ?", "pluck-user%").Order("name desc").Pluck("name", &names2).Error; err != nil { t.Errorf("got error when pluck name: %v", err) } AssertEqual(t, names, sort.Reverse(sort.StringSlice(names2))) var ids []int if err := DB.Model(User{}).Where("name like ?", "pluck-user%").Pluck("id", &ids).Error; err != nil { t.Errorf("got error when pluck id: %v", err) } for idx, name := range names { if name != users[idx].Name { t.Errorf("Unexpected result on pluck name, got %+v", names) } } for idx, id := range ids { if int(id) != int(users[idx].ID) { t.Errorf("Unexpected result on pluck id, got %+v", ids) } } } func TestSelect(t *testing.T) { user := User{Name: "SelectUser1"} DB.Save(&user) var result User DB.Where("name = ?", user.Name).Select("name").Find(&result) if result.ID != 0 { t.Errorf("Should not have ID because only selected name, %+v", result.ID) } if user.Name != result.Name { t.Errorf("Should have user Name when selected it") } } func TestPluckWithSelect(t *testing.T) { users := []User{ {Name: "pluck_with_select_1", Age: 25}, {Name: "pluck_with_select_2", Age: 26}, } DB.Create(&users) var userAges []int err := DB.Model(&User{}).Where("name like ?", "pluck_with_select%").Select("age + 1 as user_age").Pluck("user_age", &userAges).Error if err != nil { t.Fatalf("got error when pluck user_age: %v", err) } sort.Ints(userAges) AssertEqual(t, userAges, []int{26, 27}) } func TestSelectWithVariables(t *testing.T) { DB.Save(&User{Name: "select_with_variables"}) rows, _ := DB.Table("users").Where("name = ?", "select_with_variables").Select("? as fake", gorm.Expr("name")).Rows() if !rows.Next() { t.Errorf("Should have returned at least one row") } else { columns, _ := rows.Columns() AssertEqual(t, columns, []string{"fake"}) } rows.Close() } func TestSelectWithArrayInput(t *testing.T) { DB.Save(&User{Name: "select_with_array", Age: 42}) var user User DB.Select([]string{"name", "age"}).Where("age = 42 AND name = ?", "select_with_array").First(&user) if user.Name != "select_with_array" || user.Age != 42 { t.Errorf("Should have selected both age and name") } } func TestCustomizedTypePrimaryKey(t *testing.T) { type ID uint type CustomizedTypePrimaryKey struct { ID ID Name string } DB.Migrator().DropTable(&CustomizedTypePrimaryKey{}) if err := DB.AutoMigrate(&CustomizedTypePrimaryKey{}); err != nil { t.Fatalf("failed to migrate, got error %v", err) } p1 := CustomizedTypePrimaryKey{Name: "p1"} p2 := CustomizedTypePrimaryKey{Name: "p2"} p3 := CustomizedTypePrimaryKey{Name: "p3"} DB.Create(&p1) DB.Create(&p2) DB.Create(&p3) var p CustomizedTypePrimaryKey if err := DB.First(&p, p2.ID).Error; err != nil { t.Errorf("No error should returns, but got %v", err) } AssertEqual(t, p, p2) if err := DB.First(&p, "id = ?", p2.ID).Error; err != nil { t.Errorf("No error should happen when querying with customized type for primary key, got err %v", err) } AssertEqual(t, p, p2) } func TestStringPrimaryKeyForNumericValueStartingWithZero(t *testing.T) { type AddressByZipCode struct { ZipCode string `gorm:"primary_key"` Address string } DB.Migrator().DropTable(&AddressByZipCode{}) if err := DB.AutoMigrate(&AddressByZipCode{}); err != nil { t.Fatalf("failed to migrate, got error %v", err) } address := AddressByZipCode{ZipCode: "00501", Address: "Holtsville"} DB.Create(&address) var result AddressByZipCode DB.First(&result, "00501") AssertEqual(t, result, address) } func TestSearchWithEmptyChain(t *testing.T) { user := User{Name: "search_with_empty_chain", Age: 1} DB.Create(&user) var result User if DB.Where("").Where("").First(&result).Error != nil { t.Errorf("Should not raise any error if searching with empty strings") } result = User{} if DB.Where(&User{}).Where("name = ?", user.Name).First(&result).Error != nil { t.Errorf("Should not raise any error if searching with empty struct") } result = User{} if DB.Where(map[string]interface{}{}).Where("name = ?", user.Name).First(&result).Error != nil { t.Errorf("Should not raise any error if searching with empty map") } } func TestLimit(t *testing.T) { users := []User{ {Name: "LimitUser1", Age: 1}, {Name: "LimitUser2", Age: 10}, {Name: "LimitUser3", Age: 20}, {Name: "LimitUser4", Age: 10}, {Name: "LimitUser5", Age: 20}, } DB.Create(&users) 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) { for i := 0; i < 20; i++ { DB.Save(&User{Name: fmt.Sprintf("OffsetUser%v", i)}) } var users1, users2, users3, users4 []User DB.Limit(100).Where("name like ?", "OffsetUser%").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 work") } } func TestSearchWithMap(t *testing.T) { users := []User{ *GetUser("map_search_user1", Config{}), *GetUser("map_search_user2", Config{}), *GetUser("map_search_user3", Config{}), *GetUser("map_search_user4", Config{Company: true}), } DB.Create(&users) var user User DB.First(&user, map[string]interface{}{"name": users[0].Name}) CheckUser(t, user, users[0]) user = User{} DB.Where(map[string]interface{}{"name": users[1].Name}).First(&user) CheckUser(t, user, users[1]) var results []User DB.Where(map[string]interface{}{"name": users[2].Name}).Find(&results) if len(results) != 1 { t.Fatalf("Search all records with inline map") } CheckUser(t, results[0], users[2]) var results2 []User DB.Find(&results2, map[string]interface{}{"name": users[3].Name, "company_id": nil}) if len(results2) != 0 { t.Errorf("Search all records with inline map containing null value finding 0 records") } DB.Find(&results2, map[string]interface{}{"name": users[0].Name, "company_id": nil}) if len(results2) != 1 { t.Errorf("Search all records with inline map containing null value finding 1 record") } DB.Find(&results2, map[string]interface{}{"name": users[3].Name, "company_id": users[3].CompanyID}) if len(results2) != 1 { t.Errorf("Search all records with inline multiple value map") } } func TestSubQuery(t *testing.T) { users := []User{ {Name: "subquery_1", Age: 10}, {Name: "subquery_2", Age: 20}, {Name: "subquery_3", Age: 30}, {Name: "subquery_4", Age: 40}, } DB.Create(&users) if err := DB.Select("*").Where("name IN (?)", DB.Select("name").Table("users").Where("name LIKE ?", "subquery_%")).Find(&users).Error; err != nil { t.Fatalf("got error: %v", err) } if len(users) != 4 { t.Errorf("Four users should be found, instead found %d", len(users)) } DB.Select("*").Where("name LIKE ?", "subquery%").Where("age >= (?)", DB. Select("AVG(age)").Table("users").Where("name LIKE ?", "subquery%")).Find(&users) if len(users) != 2 { t.Errorf("Two users should be found, instead found %d", len(users)) } } func TestSubQueryWithRaw(t *testing.T) { users := []User{ {Name: "subquery_raw_1", Age: 10}, {Name: "subquery_raw_2", Age: 20}, {Name: "subquery_raw_3", Age: 30}, {Name: "subquery_raw_4", Age: 40}, } DB.Create(&users) var count int64 err := DB.Raw("select count(*) from (?) tmp", DB.Table("users"). Select("name"). Where("age >= ? and name in (?)", 20, []string{"subquery_raw_1", "subquery_raw_3"}). Group("name"), ).Count(&count).Error if err != nil { t.Errorf("Expected to get no errors, but got %v", err) } if count != 1 { t.Errorf("Row count must be 1, instead got %d", count) } err = DB.Raw("select count(*) from (?) tmp", DB.Table("users"). Select("name"). Where("name LIKE ?", "subquery_raw%"). Not("age <= ?", 10).Not("name IN (?)", []string{"subquery_raw_1", "subquery_raw_3"}). Group("name"), ).Count(&count).Error if err != nil { t.Errorf("Expected to get no errors, but got %v", err) } if count != 2 { t.Errorf("Row count must be 2, instead got %d", count) } } func TestSubQueryWithHaving(t *testing.T) { users := []User{ {Name: "subquery_having_1", Age: 10}, {Name: "subquery_having_2", Age: 20}, {Name: "subquery_having_3", Age: 30}, {Name: "subquery_having_4", Age: 40}, } DB.Create(&users) var results []User DB.Select("AVG(age) as avgage").Where("name LIKE ?", "subquery_having%").Group("name").Having("AVG(age) > (?)", DB. Select("AVG(age)").Where("name LIKE ?", "subquery_having%").Table("users")).Find(&results) if len(results) != 2 { t.Errorf("Two user group should be found, instead found %d", len(results)) } }