package tests_test import ( "math/rand" "strings" "testing" "time" "gorm.io/gorm" . "gorm.io/gorm/utils/tests" ) func TestMigrate(t *testing.T) { allModels := []interface{}{&User{}, &Account{}, &Pet{}, &Company{}, &Toy{}, &Language{}} rand.Seed(time.Now().UnixNano()) rand.Shuffle(len(allModels), func(i, j int) { allModels[i], allModels[j] = allModels[j], allModels[i] }) DB.Migrator().DropTable("user_speaks", "user_friends", "ccc") if err := DB.Migrator().DropTable(allModels...); err != nil { t.Fatalf("Failed to drop table, got error %v", err) } if err := DB.AutoMigrate(allModels...); err != nil { t.Fatalf("Failed to auto migrate, but got error %v", err) } for _, m := range allModels { if !DB.Migrator().HasTable(m) { t.Fatalf("Failed to create table for %#v---", m) } } DB.Scopes(func(db *gorm.DB) *gorm.DB { return db.Table("ccc") }).Migrator().CreateTable(&Company{}) if !DB.Migrator().HasTable("ccc") { t.Errorf("failed to create table ccc") } for _, indexes := range [][2]string{ {"user_speaks", "fk_user_speaks_user"}, {"user_speaks", "fk_user_speaks_language"}, {"user_friends", "fk_user_friends_user"}, {"user_friends", "fk_user_friends_friends"}, {"accounts", "fk_users_account"}, {"users", "fk_users_team"}, {"users", "fk_users_company"}, } { if !DB.Migrator().HasConstraint(indexes[0], indexes[1]) { t.Fatalf("Failed to find index for many2many for %v %v", indexes[0], indexes[1]) } } } func TestSmartMigrateColumn(t *testing.T) { fullSupported := map[string]bool{"mysql": true, "postgres": true}[DB.Dialector.Name()] type UserMigrateColumn struct { ID uint Name string Salary float64 Birthday time.Time `gorm:"precision:4"` } DB.Migrator().DropTable(&UserMigrateColumn{}) DB.AutoMigrate(&UserMigrateColumn{}) type UserMigrateColumn2 struct { ID uint Name string `gorm:"size:128"` Salary float64 `gorm:"precision:2"` Birthday time.Time `gorm:"precision:2"` NameIgnoreMigration string `gorm:"size:100"` } if err := DB.Table("user_migrate_columns").AutoMigrate(&UserMigrateColumn2{}); err != nil { t.Fatalf("failed to auto migrate, got error: %v", err) } columnTypes, err := DB.Table("user_migrate_columns").Migrator().ColumnTypes(&UserMigrateColumn{}) if err != nil { t.Fatalf("failed to get column types, got error: %v", err) } for _, columnType := range columnTypes { switch columnType.Name() { case "name": if length, _ := columnType.Length(); (fullSupported || length != 0) && length != 128 { t.Fatalf("name's length should be 128, but got %v", length) } case "salary": if precision, o, _ := columnType.DecimalSize(); (fullSupported || precision != 0) && precision != 2 { t.Fatalf("salary's precision should be 2, but got %v %v", precision, o) } case "birthday": if precision, _, _ := columnType.DecimalSize(); (fullSupported || precision != 0) && precision != 2 { t.Fatalf("birthday's precision should be 2, but got %v", precision) } } } type UserMigrateColumn3 struct { ID uint Name string `gorm:"size:256"` Salary float64 `gorm:"precision:3"` Birthday time.Time `gorm:"precision:3"` NameIgnoreMigration string `gorm:"size:128;-:migration"` } if err := DB.Table("user_migrate_columns").AutoMigrate(&UserMigrateColumn3{}); err != nil { t.Fatalf("failed to auto migrate, got error: %v", err) } columnTypes, err = DB.Table("user_migrate_columns").Migrator().ColumnTypes(&UserMigrateColumn{}) if err != nil { t.Fatalf("failed to get column types, got error: %v", err) } for _, columnType := range columnTypes { switch columnType.Name() { case "name": if length, _ := columnType.Length(); (fullSupported || length != 0) && length != 256 { t.Fatalf("name's length should be 128, but got %v", length) } case "salary": if precision, _, _ := columnType.DecimalSize(); (fullSupported || precision != 0) && precision != 3 { t.Fatalf("salary's precision should be 2, but got %v", precision) } case "birthday": if precision, _, _ := columnType.DecimalSize(); (fullSupported || precision != 0) && precision != 3 { t.Fatalf("birthday's precision should be 2, but got %v", precision) } case "name_ignore_migration": if length, _ := columnType.Length(); (fullSupported || length != 0) && length != 100 { t.Fatalf("name_ignore_migration's length should still be 100 but got %v", length) } } } } func TestMigrateWithColumnComment(t *testing.T) { type UserWithColumnComment struct { gorm.Model Name string `gorm:"size:111;comment:this is a 字段"` } if err := DB.Migrator().DropTable(&UserWithColumnComment{}); err != nil { t.Fatalf("Failed to drop table, got error %v", err) } if err := DB.AutoMigrate(&UserWithColumnComment{}); err != nil { t.Fatalf("Failed to auto migrate, but got error %v", err) } } func TestMigrateWithIndexComment(t *testing.T) { if DB.Dialector.Name() != "mysql" { t.Skip() } type UserWithIndexComment struct { gorm.Model Name string `gorm:"size:111;index:,comment:这是一个index"` } if err := DB.Migrator().DropTable(&UserWithIndexComment{}); err != nil { t.Fatalf("Failed to drop table, got error %v", err) } if err := DB.AutoMigrate(&UserWithIndexComment{}); err != nil { t.Fatalf("Failed to auto migrate, but got error %v", err) } } func TestMigrateWithUniqueIndex(t *testing.T) { type UserWithUniqueIndex struct { ID int Name string `gorm:"size:20;index:idx_name,unique"` Date time.Time `gorm:"index:idx_name,unique"` } DB.Migrator().DropTable(&UserWithUniqueIndex{}) if err := DB.AutoMigrate(&UserWithUniqueIndex{}); err != nil { t.Fatalf("failed to migrate, got %v", err) } if !DB.Migrator().HasIndex(&UserWithUniqueIndex{}, "idx_name") { t.Errorf("Failed to find created index") } } func TestMigrateTable(t *testing.T) { type TableStruct struct { gorm.Model Name string } DB.Migrator().DropTable(&TableStruct{}) DB.AutoMigrate(&TableStruct{}) if !DB.Migrator().HasTable(&TableStruct{}) { t.Fatalf("should found created table") } type NewTableStruct struct { gorm.Model Name string } if err := DB.Migrator().RenameTable(&TableStruct{}, &NewTableStruct{}); err != nil { t.Fatalf("Failed to rename table, got error %v", err) } if !DB.Migrator().HasTable("new_table_structs") { t.Fatal("should found renamed table") } DB.Migrator().DropTable("new_table_structs") if DB.Migrator().HasTable(&NewTableStruct{}) { t.Fatal("should not found droped table") } } func TestMigrateIndexes(t *testing.T) { type IndexStruct struct { gorm.Model Name string `gorm:"size:255;index"` } DB.Migrator().DropTable(&IndexStruct{}) DB.AutoMigrate(&IndexStruct{}) if err := DB.Migrator().DropIndex(&IndexStruct{}, "Name"); err != nil { t.Fatalf("Failed to drop index for user's name, got err %v", err) } if err := DB.Migrator().CreateIndex(&IndexStruct{}, "Name"); err != nil { t.Fatalf("Got error when tried to create index: %+v", err) } if !DB.Migrator().HasIndex(&IndexStruct{}, "Name") { t.Fatalf("Failed to find index for user's name") } if err := DB.Migrator().DropIndex(&IndexStruct{}, "Name"); err != nil { t.Fatalf("Failed to drop index for user's name, got err %v", err) } if DB.Migrator().HasIndex(&IndexStruct{}, "Name") { t.Fatalf("Should not find index for user's name after delete") } if err := DB.Migrator().CreateIndex(&IndexStruct{}, "Name"); err != nil { t.Fatalf("Got error when tried to create index: %+v", err) } if err := DB.Migrator().RenameIndex(&IndexStruct{}, "idx_index_structs_name", "idx_users_name_1"); err != nil { t.Fatalf("no error should happen when rename index, but got %v", err) } if !DB.Migrator().HasIndex(&IndexStruct{}, "idx_users_name_1") { t.Fatalf("Should find index for user's name after rename") } if err := DB.Migrator().DropIndex(&IndexStruct{}, "idx_users_name_1"); err != nil { t.Fatalf("Failed to drop index for user's name, got err %v", err) } if DB.Migrator().HasIndex(&IndexStruct{}, "idx_users_name_1") { t.Fatalf("Should not find index for user's name after delete") } } func TestMigrateColumns(t *testing.T) { type ColumnStruct struct { gorm.Model Name string } DB.Migrator().DropTable(&ColumnStruct{}) if err := DB.AutoMigrate(&ColumnStruct{}); err != nil { t.Errorf("Failed to migrate, got %v", err) } type ColumnStruct2 struct { gorm.Model Name string `gorm:"size:100"` } if err := DB.Table("column_structs").Migrator().AlterColumn(&ColumnStruct2{}, "Name"); err != nil { t.Fatalf("no error should happened when alter column, but got %v", err) } if columnTypes, err := DB.Migrator().ColumnTypes(&ColumnStruct{}); err != nil { t.Fatalf("no error should returns for ColumnTypes") } else { stmt := &gorm.Statement{DB: DB} stmt.Parse(&ColumnStruct2{}) for _, columnType := range columnTypes { if columnType.Name() == "name" { dataType := DB.Dialector.DataTypeOf(stmt.Schema.LookUpField(columnType.Name())) if !strings.Contains(strings.ToUpper(dataType), strings.ToUpper(columnType.DatabaseTypeName())) { t.Errorf("column type should be correct, name: %v, length: %v, expects: %v", columnType.Name(), columnType.DatabaseTypeName(), dataType) } } } } type NewColumnStruct struct { gorm.Model Name string NewName string } if err := DB.Table("column_structs").Migrator().AddColumn(&NewColumnStruct{}, "NewName"); err != nil { t.Fatalf("Failed to add column, got %v", err) } if !DB.Table("column_structs").Migrator().HasColumn(&NewColumnStruct{}, "NewName") { t.Fatalf("Failed to find added column") } if err := DB.Table("column_structs").Migrator().DropColumn(&NewColumnStruct{}, "NewName"); err != nil { t.Fatalf("Failed to add column, got %v", err) } if DB.Table("column_structs").Migrator().HasColumn(&NewColumnStruct{}, "NewName") { t.Fatalf("Found deleted column") } if err := DB.Table("column_structs").Migrator().AddColumn(&NewColumnStruct{}, "NewName"); err != nil { t.Fatalf("Failed to add column, got %v", err) } if err := DB.Table("column_structs").Migrator().RenameColumn(&NewColumnStruct{}, "NewName", "new_new_name"); err != nil { t.Fatalf("Failed to add column, got %v", err) } if !DB.Table("column_structs").Migrator().HasColumn(&NewColumnStruct{}, "new_new_name") { t.Fatalf("Failed to found renamed column") } if err := DB.Table("column_structs").Migrator().DropColumn(&NewColumnStruct{}, "new_new_name"); err != nil { t.Fatalf("Failed to add column, got %v", err) } if DB.Table("column_structs").Migrator().HasColumn(&NewColumnStruct{}, "new_new_name") { t.Fatalf("Found deleted column") } } func TestMigrateConstraint(t *testing.T) { names := []string{"Account", "fk_users_account", "Pets", "fk_users_pets", "Company", "fk_users_company", "Team", "fk_users_team", "Languages", "fk_users_languages"} for _, name := range names { if !DB.Migrator().HasConstraint(&User{}, name) { DB.Migrator().CreateConstraint(&User{}, name) } if err := DB.Migrator().DropConstraint(&User{}, name); err != nil { t.Fatalf("failed to drop constraint %v, got error %v", name, err) } if DB.Migrator().HasConstraint(&User{}, name) { t.Fatalf("constraint %v should been deleted", name) } if err := DB.Migrator().CreateConstraint(&User{}, name); err != nil { t.Fatalf("failed to create constraint %v, got error %v", name, err) } if !DB.Migrator().HasConstraint(&User{}, name) { t.Fatalf("failed to found constraint %v", name) } } } type DynamicUser struct { gorm.Model Name string CompanyID string `gorm:"index"` } // To test auto migrate crate indexes for dynamic table name // https://github.com/go-gorm/gorm/issues/4752 func TestMigrateIndexesWithDynamicTableName(t *testing.T) { // Create primary table if err := DB.AutoMigrate(&DynamicUser{}); err != nil { t.Fatalf("AutoMigrate create table error: %#v", err) } // Create sub tables for _, v := range []string{"01", "02", "03"} { tableName := "dynamic_users_" + v m := DB.Scopes(func(db *gorm.DB) *gorm.DB { return db.Table(tableName) }).Migrator() if err := m.AutoMigrate(&DynamicUser{}); err != nil { t.Fatalf("AutoMigrate create table error: %#v", err) } if !m.HasTable(tableName) { t.Fatalf("AutoMigrate expected %#v exist, but not.", tableName) } if !m.HasIndex(&DynamicUser{}, "CompanyID") { t.Fatalf("Should have index on %s", "CompanyI.") } if !m.HasIndex(&DynamicUser{}, "DeletedAt") { t.Fatalf("Should have index on deleted_at.") } } }